  52 398/1 FAULT RECOVERY
  41 385/24 -> 15 WITH OPTICAL COUPLER ->        Plural (e.g., data bus)
  39 398/168 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Passive system
  30 398/167.5 -> 140 TRANSMITTER AND RECEIVER SYSTEM  ->        Plural stations->        Central or master station
  26 398/100 -> 43 MULTIPLEX  ->        Time division->        Subscriber system
  25 398/72 -> 43 MULTIPLEX  ->        Broadcast and distribution system ->        WDM ->        Hub or central office ->        Including subscribers->        Bidirectional
  25 385/135 -> 134 ACCESSORIES ->        Splice box and surplus fiber storage/trays/organizers/ carriers
  24 398/9 DIAGNOSTIC TESTING
  22 398/79 -> 43 MULTIPLEX ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.)
  18 385/14 INTEGRATED OPTICAL CIRCUIT
  17 398/99 -> 43 MULTIPLEX  ->        Time division->        Multiple access (e.g., TDMA, CSMA)
  17 398/71 -> 43 MULTIPLEX  ->        Broadcast and distribution system ->        WDM ->        Hub or central office->        Including subscribers
  16 370/442 -> 431 CHANNEL ASSIGNMENT TECHNIQUES ->        Combining or distributing information via time channels using multiple access technique (e.g., TDMA)
  15 398/98 -> 43 MULTIPLEX ->        Time division
  15 398/58 -> 43 MULTIPLEX ->        Optical local area network (LAN)
  15 385/46 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling structure->        Star coupler
  14 398/66 -> 43 MULTIPLEX ->        Broadcast and distribution system
  14 385/37 -> 15 WITH OPTICAL COUPLER  ->        Input/output coupler->        Grating
  13 385/88 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR ->        Optical fiber to a nonfiber optical device connector
  13 385/16 -> 15 WITH OPTICAL COUPLER ->        Switch (i.e., switching from one terminal to another, not modulation)
  13 372/6 OPTICAL FIBER LASER
  12 398/82 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.)->        By optical coupling
  12 398/49 -> 43 MULTIPLEX  ->        Optical switching ->        Wavelength->        Router
  12 385/15 WITH OPTICAL COUPLER
  11 725/106 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION ->        Telephony via television distribution network
  11 398/63 -> 43 MULTIPLEX  ->        Optical local area network (LAN)->        Passive star
  11 398/154 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Including synchronization
  11 385/43 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling structure->        Tapered coupler
  11 385/31 -> 15 WITH OPTICAL COUPLER ->        Input/output coupler
  10 725/129 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network->        Hybrid fiber-coax network
  10 398/91 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.)->        Different sources
  10 398/76 -> 43 MULTIPLEX ->        Subcarrier multiplexing
  10 385/49 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling structure->        Fiber to thin film devices
  10 385/48 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling structure->        Access couplers, power tappers, or power dividers
  10 385/137 -> 134 ACCESSORIES  ->        External retainer/clamp->        Fiber holder (i.e., for single fiber or holding multiple single fibers together)
  10 385/123 OPTICAL FIBER WAVEGUIDE WITH CLADDING
  10 380/256 -> 255 COMMUNICATION SYSTEM USING CRYPTOGRAPHY ->        Fiber optic network
  10 372/45 -> 39 PARTICULAR ACTIVE MEDIA  ->        Semiconductor ->        Injection->        Particular confinement layer
  10 356/73.1 FOR OPTICAL FIBER OR WAVEGUIDE INSPECTION
   9 522/96 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes involving a polyurethane having terminal ethylenic unsaturation as reactant or as solid polymerSEMI or compositions therefore->        With ethylenic reactant
   9 522/42 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Compositions to be polymerized or modified by wave energy wherein said composition contains at least one specified rate-affecting materialSEMI or processes of preparing or treating a solid polymer utilizing wave energy in the presence of at least one specified rate-affecting materialSEMI e.g., nitrogen containing photosensitizer, oxygen containing photoinitiator, etc. wave energy in order to prepare a cellular product ->        Specified rate-affecting material contains a ketone group -c-(CO)n-c-, the (CO)n not being part of a ring->        Containing C-CO-C(R)(OH) wherein R is organic
   9 398/87 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.) ->        By optical coupling->        Grating
   9 398/202 RECEIVER
   9 385/92 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Optical fiber to a nonfiber optical device connector->        With housing
   9 385/134 ACCESSORIES
   9 385/113 -> 100 OPTICAL TRANSMISSION CABLE  ->        Loose tube type->        With strength member
   9 370/449 -> 431 CHANNEL ASSIGNMENT TECHNIQUES ->        Polling
   9 359/291 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.) ->        By changing physical characteristics (e.g., shape, size or contours) of an optical element->        Shape or contour of light control surface altered
   8 OOPS
   8 725/131 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION ->        Receiver (e.g., set-top box)
   8 398/75 -> 43 MULTIPLEX  ->        Hybrid->        Time and wavelength division
   8 398/68 -> 43 MULTIPLEX  ->        Broadcast and distribution system->        WDM
   8 398/67 -> 43 MULTIPLEX  ->        Broadcast and distribution system->        Bidirectional
   8 385/42 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling structure->        Directional coupler
   8 385/114 -> 100 OPTICAL TRANSMISSION CABLE ->        Ribbon cable
   8 370/468 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Adaptive->        Assignment of variable bandwidth or time period for transmission or reception
   7 725/119 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network->        Having significant intermediate network unit (e.g., hub, substation, etc.)
   7 522/44 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Compositions to be polymerized or modified by wave energy wherein said composition contains at least one specified rate-affecting materialSEMI or processes of preparing or treating a solid polymer utilizing wave energy in the presence of at least one specified rate-affecting materialSEMI e.g., nitrogen containing photosensitizer, oxygen containing photoinitiator, etc. wave energy in order to prepare a cellular product ->        Specified rate-affecting material contains a ketone group -c-(CO)n-c-, the (CO)n not being part of a ring->        Containing C-CO-C(R)(OR) wherein R is organic, e.g., diethoxyacetophenone, etc.
   7 398/92 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.) ->        Different sources->        Including pumping
   7 398/59 -> 43 MULTIPLEX  ->        Optical local area network (LAN)->        Ring or loop
   7 398/204 -> 202 RECEIVER ->        Heterodyne
   7 398/186 -> 182 TRANSMITTER  ->        Having particular modulation->        Intensity modulation
   7 398/139 -> 135 OPTICAL TRANSCEIVER ->        Including optical fiber or waveguide
   7 398/135 OPTICAL TRANSCEIVER
   7 385/33 -> 15 WITH OPTICAL COUPLER  ->        Input/output coupler->        Lens
   7 385/27 -> 15 WITH OPTICAL COUPLER ->        Particular coupling function
   7 385/136 -> 134 ACCESSORIES ->        External retainer/clamp
   7 385/109 -> 100 OPTICAL TRANSMISSION CABLE ->        Loose tube type
   7 370/517 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing ->        Adjusting for phase or jitter->        Including delay device
   7 370/516 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing->        Adjusting for phase or jitter
   7 370/465 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS ->        Adaptive
   7 370/352 -> 351 PATHFINDING OR ROUTING ->        Combined circuit switching and packet switching
   6 725/93 -> 86 USER-REQUESTED VIDEO PROGRAM SYSTEM  ->        Video-on-demand ->        Server or headend->        Control process
   6 725/116 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Server or headend->        Control process
   6 522/90 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY->        Processes involving a polyurethane having terminal ethylenic unsaturation as reactant or as solid polymerSEMI or compositions therefore
   6 428/378 -> 357 COATED OR STRUCTUALLY DEFINED FLAKE, PARTICLE, CELL, STRAND, STRAND PORTION, ROD, FILAMENT, MACROSCOPIC FIBER OR MASS THEREOF  ->        Rod, strand, filament or fiber ->        Coated or with bond, impregnation or core->        Coating on discrete and individual rods, strands or filaments
   6 398/90 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.)->        Electrically controlled single source
   6 398/70 -> 43 MULTIPLEX  ->        Broadcast and distribution system ->        WDM->        Hub or central office
   6 398/163 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Including electrical oscillator
   6 398/161 -> 140 TRANSMITTER AND RECEIVER SYSTEM  ->        Including compensation->        Using delay
   6 398/144 -> 140 TRANSMITTER AND RECEIVER SYSTEM  ->        Including optical waveguide ->        Specific type of fiber or waveguide->        Monomode
   6 398/102 -> 43 MULTIPLEX  ->        Time division->        Including delay
   6 385/47 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling structure->        Multiport coupler using reflective surface
   6 385/128 -> 123 OPTICAL FIBER WAVEGUIDE WITH CLADDING  ->        Utilizing multiple core or cladding ->        Concentric->        Where the second or further layer is a coating
   6 385/115 OPTICAL FIBER BUNDLE
   6 375/371 -> 354 SYNCHRONIZERS ->        Phase displacement, slip or jitter correction
   6 372/96 -> 92 PARTICULAR RESONANT CAVITY ->        Distributed feedback
   6 370/535 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels->        Multiplexing combined with demultiplexing
   6 370/522 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels->        Signaling (ancillary to main information)
   6 370/458 -> 431 CHANNEL ASSIGNMENT TECHNIQUES ->        Using time slots
   6 370/395.1 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header->        Message transmitted using fixed length packets (e.g., ATM cells)
   6 359/578 -> 577 LIGHT INTERFERENCE ->        Electrically or mechanically variable (e.g., tunable, adjustable)
   5 725/92 -> 86 USER-REQUESTED VIDEO PROGRAM SYSTEM  ->        Video-on-demand ->        Server or headend->        Mass storage
   5 725/118 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION ->        Transmission network
   5 725/114 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION ->        Server or headend
   5 522/97 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes involving a polyurethane having terminal ethylenic unsaturation as reactant or as solid polymerSEMI or compositions therefore->        Polyurethane has an oxygen other than as part of a urethane or carboxylic acid ester group
   5 522/79 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of preparing or treating a solid polymer by wave energy in the presence of a designated nonreactant material (DNRM)SEMI or compositions therefore ->        Organic DNRM->        Oxygen containing DNRM
   5 398/54 -> 43 MULTIPLEX  ->        Optical switching ->        Time->        Including photonic packet switching
   5 398/42 -> 41 DUPLEX ->        Wavelength division
   5 398/33 -> 9 DIAGNOSTIC TESTING  ->        Determination of communication parameter ->        Using supervisory signal->        Monitoring
   5 398/210 -> 202 RECEIVER  ->        Including postcompensation->        Amplitude
   5 398/209 -> 202 RECEIVER  ->        Including postcompensation->        Feedback
   5 398/201 -> 182 TRANSMITTER ->        Including specific optical elements
   5 398/143 -> 140 TRANSMITTER AND RECEIVER SYSTEM  ->        Including optical waveguide ->        Specific type of fiber or waveguide->        Multimode
   5 398/141 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Including optical waveguide
   5 385/93 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Optical fiber to a nonfiber optical device connector ->        With housing->        Including lens
   5 385/89 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Optical fiber to a nonfiber optical device connector->        Plural fiber/device connections
   5 385/83 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Optical fiber/optical fiber cable termination structure ->        At or immediately surrounding an optical fiber end face ->        Fiber end held in ferrule->        Groove-type holding structure
   5 385/145 -> 141 HAVING PARTICULAR OPTICAL CHARACTERISTIC MODIFYING CHEMICAL COMPOSITION  ->        Of waveguide cladding->        Organic
   5 385/100 OPTICAL TRANSMISSION CABLE
   5 375/354 SYNCHRONIZERS
   5 372/50 -> 39 PARTICULAR ACTIVE MEDIA  ->        Semiconductor ->        Injection->        Monolithic integrated
   5 372/38.02 -> 38.1 PARTICULAR COMPONENT CIRCUITRY ->        For driving or controlling laser
   5 370/508 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing ->        Mutual (reciprocal) synchronization->        Transmission time into time slots adjusted based upon propagation delay time
   5 370/503 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels->        Synchronizing
   5 370/480 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS ->        Combining or distributing information via frequency channels
   5 370/395.51 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Multiprotocol network->        Utilizing a plurality of ATM networks (e.g., MPOA, SONET, or SDH)
   5 370/230 -> 229 DATA FLOW CONGESTION PREVENTION OR CONTROL ->        Control of data admission to the network
   5 359/290 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.)->        By changing physical characteristics (e.g., shape, size or contours) of an optical element
   5 345/419 -> 418 COMPUTER GRAPHICS PROCESSING ->        Three-dimension
   4 725/126 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network->        Detail of use of two-way spectrum
   4 725/121 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network->        Return path
   4 714/4 -> 100 DATA PROCESSING SYSTEM ERROR OR FAULT HANDLING  ->        Reliability and availability ->        Fault recovery ->        By masking or reconfiguration->        Of network
   4 398/61 -> 43 MULTIPLEX  ->        Optical local area network (LAN)->        Active star
   4 398/5 -> 1 FAULT RECOVERY  ->        Bypass inoperative element->        Spare channel or standby optical fiber
   4 398/45 -> 43 MULTIPLEX ->        Optical switching
   4 398/21 -> 9 DIAGNOSTIC TESTING  ->        Fault detection ->        Optical fiber->        Determined by reflection from break in fiber
   4 398/116 -> 115 HYBRID COMMUNICATION SYSTEM (E.G., OPTICAL AND RF) ->        Including specific optical interface
   4 398/115 HYBRID COMMUNICATION SYSTEM (E.G., OPTICAL AND RF)
   4 385/65 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection ->        Multi-part (e.g., two pieces screwed together or bayonet latched) ->        With additional structure at or immediately surrounding each optical fiber end face ->        Fiber end held in ferrule->        Groove-type holding structure
   4 385/52 -> 15 WITH OPTICAL COUPLER ->        With alignment device
   4 385/51 -> 15 WITH OPTICAL COUPLER ->        Permanently fixed coupler
   4 385/45 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling structure->        "Y" coupler
   4 385/39 -> 15 WITH OPTICAL COUPLER ->        Particular coupling structure
   4 385/38 -> 15 WITH OPTICAL COUPLER  ->        Input/output coupler->        End fire
   4 385/28 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling function->        Coupling between modes in a waveguide or fiber
   4 385/18 -> 15 WITH OPTICAL COUPLER  ->        Switch (i.e., switching from one terminal to another, not modulation)->        Reflective-type switch
   4 385/147 MISCELLANEOUS
   4 385/132 -> 129 PLANAR OPTICAL WAVEGUIDE  ->        Thin film optical waveguide->        Channel waveguide
   4 385/130 -> 129 PLANAR OPTICAL WAVEGUIDE ->        Thin film optical waveguide
   4 385/127 -> 123 OPTICAL FIBER WAVEGUIDE WITH CLADDING  ->        Utilizing multiple core or cladding->        Concentric
   4 385/112 -> 100 OPTICAL TRANSMISSION CABLE  ->        Loose tube type->        Plural unit type
   4 385/102 -> 100 OPTICAL TRANSMISSION CABLE ->        Tightly confined (i.e., fiber tightly held inside the outer sheath)
   4 380/268 -> 255 COMMUNICATION SYSTEM USING CRYPTOGRAPHY ->        Pseudo-random sequence scrambling
   4 379/413 -> 399.01 SUBSCRIBER LINE OR TRANSMISSION LINE INTERFACE ->        Power supply (e.g., battery feed)
   4 375/376 -> 354 SYNCHRONIZERS  ->        Phase displacement, slip or jitter correction ->        Phase locking->        Phase locked loop
   4 375/355 -> 354 SYNCHRONIZERS ->        Synchronizing the sampling time of digital data
   4 375/318 -> 316 RECEIVERS  ->        Automatic baseline or threshold adjustment->        Differential amplifier
   4 372/46 -> 39 PARTICULAR ACTIVE MEDIA  ->        Semiconductor ->        Injection->        Particular current control structure
   4 370/466 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Adaptive->        Converting between protocols
   4 370/431 CHANNEL ASSIGNMENT TECHNIQUES
   4 370/395.5 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells)->        Multiprotocol network
   4 370/360 -> 351 PATHFINDING OR ROUTING  ->        Through a circuit switch->        Switching control
   4 359/577 LIGHT INTERFERENCE
   4 359/341.3 -> 333 OPTICAL AMPLIFIER  ->        Optical fiber->        Pumping
   4 359/341.1 -> 333 OPTICAL AMPLIFIER ->        Optical fiber
   4 330/308 -> 250 WITH SEMICONDUCTOR AMPLIFYING DEVICE (E.G., TRANSISTOR) ->        Including atomic particle or radiant energy impinging on a semiconductor
   4 250/214A -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS  ->        Photocell controlled circuit ->        Special photocell or electron tube circuits->        Amplifier type
   3 725/99 -> 86 USER-REQUESTED VIDEO PROGRAM SYSTEM  ->        Video-on-demand ->        Transmission network->        Using telephone network
   3 725/78 -> 74 LOCAL VIDEO DISTRIBUTION SYSTEM ->        Multiunit or multiroom structure (e.g., home, hospital, hotel, office building, school, etc.)
   3 725/151 -> 143 VIDEO DISTRIBUTION SYSTEM COMPONENTS ->        Receiver (e.g., set-top box)
   3 725/127 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network->        Network component (e.g., filter, tap, splitter, amplifier, repeater, etc.)
   3 725/117 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Server or headend->        Communications interface
   3 714/712 -> 699 PULSE OR DATA ERROR HANDLING ->        Transmission facility testing
   3 714/25 -> 100 DATA PROCESSING SYSTEM ERROR OR FAULT HANDLING  ->        Reliability and availability->        Fault locating (i.e., diagnosis or testing)
   3 709/203 -> 200 MULTICOMPUTER DATA TRANSFERRING  ->        Distributed data processing->        Client/server
   3 522/77 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of preparing or treating a solid polymer by wave energy in the presence of a designated nonreactant material (DNRM)SEMI or compositions therefore ->        Organic DNRM->        Silicon containing DNRM
   3 427/517 -> 457 DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY  ->        Polymerization of coating utilizing direct application of electrical, magnetic, wave, or particulate energy (i.e., including cross-linking, curing, and hardening of organics) ->        Low energy electromagnetic radiation utilized (e.g., UV, visible, IR, microwave, radio wave, actinic, laser, etc.)->        Coating includes specified rate affecting material
   3 427/515 -> 457 DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY  ->        Polymerization of coating utilizing direct application of electrical, magnetic, wave, or particulate energy (i.e., including cross-linking, curing, and hardening of organics) ->        Low energy electromagnetic radiation utilized (e.g., UV, visible, IR, microwave, radio wave, actinic, laser, etc.)->        Organosilicon containing coating material
   3 427/514 -> 457 DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY  ->        Polymerization of coating utilizing direct application of electrical, magnetic, wave, or particulate energy (i.e., including cross-linking, curing, and hardening of organics) ->        Low energy electromagnetic radiation utilized (e.g., UV, visible, IR, microwave, radio wave, actinic, laser, etc.)->        Coating material includes colorant or pigment
   3 427/503 -> 457 DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY  ->        Polymerization of coating utilizing direct application of electrical, magnetic, wave, or particulate energy (i.e., including cross-linking, curing, and hardening of organics) ->        High energy electromagnetic radiation or high energy particles utilized (e.g., gamma rays, X-rays, atomic particles, i.e., alpha rays, beta rays, electrons, etc.)->        Organosilicon containing coating material
   3 427/500 -> 457 DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY  ->        Polymerization of coating utilizing direct application of electrical, magnetic, wave, or particulate energy (i.e., including cross-linking, curing, and hardening of organics) ->        High energy electromagnetic radiation or high energy particles utilized (e.g., gamma rays, X-rays, atomic particles, i.e., alpha rays, beta rays, electrons, etc.)->        Coating material includes colorant or pigment
   3 427/163.2 -> 162 OPTICAL ELEMENT PRODUCED  ->        Polarizer, windshield, optical fiber, projection screen, or retroreflector->        Optical fiber, rod, filament, or waveguide
   3 398/7 -> 1 FAULT RECOVERY ->        WDM
   3 398/43 MULTIPLEX
   3 398/34 -> 9 DIAGNOSTIC TESTING  ->        Determination of communication parameter->        WDM system
   3 398/32 -> 9 DIAGNOSTIC TESTING  ->        Determination of communication parameter ->        Using supervisory signal->        Pilot signal
   3 398/25 -> 9 DIAGNOSTIC TESTING ->        Determination of communication parameter
   3 398/208 -> 202 RECEIVER ->        Including postcompensation
   3 398/197 -> 182 TRANSMITTER  ->        Including compensation ->        Including feedback->        For power control
   3 398/195 -> 182 TRANSMITTER  ->        Including compensation->        Including feedback
   3 398/185 -> 182 TRANSMITTER  ->        Having particular modulation->        Hybrid modulation
   3 398/183 -> 182 TRANSMITTER ->        Having particular modulation
   3 398/182 TRANSMITTER
   3 398/169 -> 140 TRANSMITTER AND RECEIVER SYSTEM  ->        Passive system->        Retroreflection
   3 398/164 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Including optical circuit board
   3 398/15 -> 9 DIAGNOSTIC TESTING  ->        Fault location->        Stop transmission or reduce power
   3 398/13 -> 9 DIAGNOSTIC TESTING  ->        Fault location->        Fiber or waveguide
   3 398/10 -> 9 DIAGNOSTIC TESTING ->        Fault location
   3 385/94 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Optical fiber to a nonfiber optical device connector ->        With housing->        Sealed from environment
   3 385/90 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Optical fiber to a nonfiber optical device connector->        Fiber adjustable relative to device
   3 385/72 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection ->        With additional structure at or immediately surrounding each optical fiber end face->        Fiber end held in ferrule
   3 385/70 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection->        With additional structure at or immediately surrounding each optical fiber end face
   3 385/55 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR ->        Structure surrounding optical fiber-to-fiber connection
   3 385/50 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling structure->        Waveguide to waveguide
   3 385/22 -> 15 WITH OPTICAL COUPLER  ->        Switch (i.e., switching from one terminal to another, not modulation)->        Single pole multiple throw (relay switch)
   3 385/143 -> 141 HAVING PARTICULAR OPTICAL CHARACTERISTIC MODIFYING CHEMICAL COMPOSITION  ->        Of waveguide core->        Organic
   3 385/131 -> 129 PLANAR OPTICAL WAVEGUIDE  ->        Thin film optical waveguide->        Multilayer structure (mixture)
   3 385/129 PLANAR OPTICAL WAVEGUIDE
   3 385/126 -> 123 OPTICAL FIBER WAVEGUIDE WITH CLADDING ->        Utilizing multiple core or cladding
   3 385/122 HAVING NONLINEAR PROPERTY
   3 385/110 -> 100 OPTICAL TRANSMISSION CABLE  ->        Loose tube type->        Compartmentalized
   3 385/101 -> 100 OPTICAL TRANSMISSION CABLE ->        With electrical conductor in the same cable
   3 385/1 TEMPORAL OPTICAL MODULATION WITHIN AN OPTICAL WAVEGUIDE
   3 380/46 -> 277 KEY MANAGEMENT  ->        Having particular key generator->        Nonlinear (e.g., pseudorandom)
   3 380/30 -> 28 PARTICULAR ALGORITHMIC FUNCTION ENCODING ->        Public key
   3 379/93.12 -> 90.01 TELEPHONE LINE OR SYSTEM COMBINED WITH DIVERSE ELECTRICAL SYSTEM OR SIGNALLING (E.G., COMPOSITE)  ->        Having transmission of a digital message signal over a telephone line->        Sales, ordering, or banking system
   3 375/375 -> 354 SYNCHRONIZERS  ->        Phase displacement, slip or jitter correction ->        Phase locking->        With frequency detector and phase detector
   3 375/362 -> 354 SYNCHRONIZERS ->        Frequency or phase control using synchronizing signal
   3 375/360 -> 354 SYNCHRONIZERS  ->        Self-synchronizing signal (self-clocking codes, etc.)->        With transition detector
   3 375/317 -> 316 RECEIVERS ->        Automatic baseline or threshold adjustment
   3 372/38.07 -> 38.1 PARTICULAR COMPONENT CIRCUITRY ->        Controlling current or voltage to laser
   3 372/33 PARTICULAR OPERATING COMPENSATION MEANS
   3 372/31 -> 9 PARTICULAR BEAM CONTROL DEVICE  ->        Optical output stabilization->        Amplitude
   3 372/23 -> 9 PARTICULAR BEAM CONTROL DEVICE ->        Producing plural wavelength output
   3 372/22 -> 9 PARTICULAR BEAM CONTROL DEVICE  ->        Nonlinear device->        Frequency multiplying (e.g., harmonic generator)
   3 370/524 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Signaling (ancillary to main information)->        Using a dedicated signaling channel (i.e., D-channel)
   3 370/509 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing->        Using synchronization information contained in a frame
   3 370/507 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing->        Mutual (reciprocal) synchronization
   3 370/487 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via frequency channels ->        Subscriber carrier ->        Program distribution->        Combined communication of diverse information types
   3 370/463 -> 431 CHANNEL ASSIGNMENT TECHNIQUES ->        Details of circuit or interface for connecting user to the network
   3 370/452 -> 431 CHANNEL ASSIGNMENT TECHNIQUES  ->        Polling ->        Passing a signal identifying the idle or busy state of a channel (e.g., token passing) ->        On bus->        On ring or loop
   3 370/443 -> 431 CHANNEL ASSIGNMENT TECHNIQUES  ->        Combining or distributing information via time channels using multiple access technique (e.g., TDMA)->        Using channel reservation
   3 370/437 -> 431 CHANNEL ASSIGNMENT TECHNIQUES ->        Adaptive selection of channel assignment technique
   3 370/432 -> 431 CHANNEL ASSIGNMENT TECHNIQUES ->        Messages addressed to multiple destinations
   3 370/429 -> 351 PATHFINDING OR ROUTING  ->        Store and forward->        Particular storing and queuing arrangement
   3 370/420 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Input or output circuit, per se (i.e., line interface)->        For connecting plural subscribers to a network (i.e., network termination)
   3 370/412 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header->        Queuing arrangement
   3 370/401 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Having a plurality of nodes performing distributed switching->        Bridge or gateway between networks
   3 370/399 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Centralized switching->        Employing logical addressing for routing (e.g., VP or VC)
   3 370/397 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Distributed switching->        Employing logical addressing for routing (e.g., VP or VC)
   3 370/389 -> 351 PATHFINDING OR ROUTING ->        Switching a message which includes an address header
   3 370/347 -> 310 COMMUNICATION OVER FREE SPACE  ->        Combining or distributing information via time channels->        Multiple access (e.g., TDMA)
   3 370/344 -> 310 COMMUNICATION OVER FREE SPACE  ->        Combining or distributing information via frequency channels->        Multiple access (e.g., FDMA)
   3 370/249 -> 241 DIAGNOSTIC TESTING (OTHER THAN SYNCHRONIZATION) ->        Loopback
   3 370/248 -> 241 DIAGNOSTIC TESTING (OTHER THAN SYNCHRONIZATION) ->        Path check
   3 359/497 -> 483 POLARIZATION WITHOUT MODULATION  ->        Light polarization without any external input ->        By birefringent element->        Using plural elements
   3 359/341.33 -> 333 OPTICAL AMPLIFIER  ->        Optical fiber ->        Pumping->        With multiple systems
   3 359/337 -> 333 OPTICAL AMPLIFIER ->        Correction of deleterious effects
   3 359/108 -> 107 OPTICAL COMPUTING WITHOUT DIFFRACTION ->        Logic gate
   3 327/161 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing->        With delay means
   3 264/1.29 -> 1.1 OPTICAL ARTICLE SHAPING OR TREATING  ->        Optical fiber, waveguide, or preform->        Extruding (i.e., die)
   2 725/97 -> 86 USER-REQUESTED VIDEO PROGRAM SYSTEM  ->        Video-on-demand ->        Server or headend ->        Control process->        Scheduling (e.g., grouping users together)
   2 725/94 -> 86 USER-REQUESTED VIDEO PROGRAM SYSTEM  ->        Video-on-demand ->        Server or headend ->        Control process->        Buffering and switching
   2 725/87 -> 86 USER-REQUESTED VIDEO PROGRAM SYSTEM ->        Video-on-demand
   2 725/80 -> 74 LOCAL VIDEO DISTRIBUTION SYSTEM  ->        Multiunit or multiroom structure (e.g., home, hospital, hotel, office building, school, etc.)->        Coordinating diverse devices
   2 725/148 -> 143 VIDEO DISTRIBUTION SYSTEM COMPONENTS ->        Transmission network
   2 725/144 -> 143 VIDEO DISTRIBUTION SYSTEM COMPONENTS ->        Headend
   2 725/133 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Receiver (e.g., set-top box)->        With diverse device (e.g., personal computer, game player, VCR, etc.)
   2 725/128 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network ->        Network component (e.g., filter, tap, splitter, amplifier, repeater, etc.)->        Diplex filter
   2 725/120 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network ->        Having significant intermediate network unit (e.g., hub, substation, etc.)->        With two-way connection from unit to receiver (e.g., for the purpose of channel selection)
   2 725/100 -> 86 USER-REQUESTED VIDEO PROGRAM SYSTEM  ->        Video-on-demand->        Receiver (e.g., set-top box)
   2 714/52 -> 100 DATA PROCESSING SYSTEM ERROR OR FAULT HANDLING  ->        Reliability and availability ->        Error detection or notification ->        State error (i.e., content of instruction, data, or message) ->        State out of sequence->        Error checking code
   2 714/47 -> 100 DATA PROCESSING SYSTEM ERROR OR FAULT HANDLING  ->        Reliability and availability->        Performance monitoring for fault avoidance
   2 713/340 -> 300 COMPUTER POWER CONTROL ->        Having power source monitoring
   2 713/320 -> 300 COMPUTER POWER CONTROL ->        Power conservation
   2 713/162 -> 150 MULTIPLE COMPUTER COMMUNICATION USING CRYPTOGRAPHY ->        Having particular address related cryptography
   2 709/239 -> 200 MULTICOMPUTER DATA TRANSFERRING  ->        Computer-to-computer data routing->        Alternate path routing
   2 709/236 -> 200 MULTICOMPUTER DATA TRANSFERRING  ->        Computer-to-computer protocol implementing->        Computer-to-computer data framing
   2 709/220 -> 200 MULTICOMPUTER DATA TRANSFERRING ->        Network computer configuring
   2 700/295 -> 90 SPECIFIC APPLICATION, APPARATUS OR PROCESS  ->        Electrical power generation or distribution system->        Power allocation management (e.g., load adding/shedding)
   2 700/293 -> 90 SPECIFIC APPLICATION, APPARATUS OR PROCESS  ->        Electrical power generation or distribution system ->        System protection (e.g., circuit interrupter, circuit limiter, voltage suppressor)->        Abnormal power, current, or impedance condition
   2 65/386 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS  ->        Process of manufacturing optical fibers, waveguides, or preforms thereof->        Planar waveguides
   2 522/91 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes involving a polyurethane having terminal ethylenic unsaturation as reactant or as solid polymerSEMI or compositions therefore->        With a polysiloxane reactant or polymer
   2 522/80 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of preparing or treating a solid polymer by wave energy in the presence of a designated nonreactant material (DNRM)SEMI or compositions therefore ->        Organic DNRM->        Carbon and hydrogen only containing DNRM
   2 522/51 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Compositions to be polymerized or modified by wave energy wherein said composition contains at least one specified rate-affecting materialSEMI or processes of preparing or treating a solid polymer utilizing wave energy in the presence of at least one specified rate-affecting materialSEMI e.g., nitrogen containing photosensitizer, oxygen containing photoinitiator, etc. wave energy in order to prepare a cellular product ->        Specified rate-affecting material contains chalcogen other than as oxygen ->        Hetero nitrogen ring->        Containing mercapto or mercaptide group, e.g., (thio)mercaptobenzoxazole, etc.
   2 501/45 -> 1 CERAMIC COMPOSITIONS  ->        Glass compositions, compositions containing glass other than those wherein glass is a bonding agent, or glass batch forming compositions ->        Nonsilicate oxide glasses->        Phosphorus containing
   2 455/3.01 WIRELESS DISTRIBUTION SYSTEM
   2 438/65 -> 48 MAKING DEVICE OR CIRCUIT RESPONSIVE TO NONELECTRICAL SIGNAL  ->        Responsive to electromagnetic radiation ->        Packaging (e.g., with mounting, encapsulating, etc.) or treatment of packaged semiconductor->        Having additional optical element (e.g., optical fiber, etc.)
   2 438/31 -> 22 MAKING DEVICE OR CIRCUIT EMISSIVE OF NONELECTRICAL SIGNAL  ->        Including integrally formed optical element (e.g., reflective layer, luminescent material, contoured surface, etc.)->        Optical waveguide structure
   2 438/16 -> 14 WITH MEASURING OR TESTING ->        Optical characteristic sensed
   2 428/392 -> 357 COATED OR STRUCTUALLY DEFINED FLAKE, PARTICLE, CELL, STRAND, STRAND PORTION, ROD, FILAMENT, MACROSCOPIC FIBER OR MASS THEREOF  ->        Rod, strand, filament or fiber ->        Coated or with bond, impregnation or core->        Artificial fiber or filament
   2 427/508 -> 457 DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY  ->        Polymerization of coating utilizing direct application of electrical, magnetic, wave, or particulate energy (i.e., including cross-linking, curing, and hardening of organics)->        Low energy electromagnetic radiation utilized (e.g., UV, visible, IR, microwave, radio wave, actinic, laser, etc.)
   2 427/407.2 -> 402 APPLYING SUPERPOSED DIVERSE COATING OR COATING A COATED BASE  ->        Synthetic resin coating->        Glass base
   2 427/389.7 -> 331 WITH POST-TREATMENT OF COATING OR COATING MATERIAL  ->        Heating or drying (e.g., polymerizing, vulcanizing, curing, etc.) ->        Organic coating ->        Resin, resin precursor, rubber, or hardenable oil-containing coating->        Glass base
   2 427/165 -> 162 OPTICAL ELEMENT PRODUCED  ->        Transparent base->        Glass
   2 398/95 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.) ->        Including feedback->        Wavelength control
   2 398/83 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.) ->        By optical coupling->        Add or drop
   2 398/8 -> 1 FAULT RECOVERY ->        TDM
   2 398/69 -> 43 MULTIPLEX  ->        Broadcast and distribution system ->        WDM->        With variable frequency channel assignment
   2 398/56 -> 43 MULTIPLEX  ->        Optical switching ->        space->        Crossconnect
   2 398/53 -> 43 MULTIPLEX  ->        Optical switching ->        Time->        Including delay
   2 398/52 -> 43 MULTIPLEX  ->        Optical switching->        Time
   2 398/51 -> 43 MULTIPLEX  ->        Optical switching ->        Wavelength->        Including photonic packet switching
   2 398/48 -> 43 MULTIPLEX  ->        Optical switching->        Wavelength
   2 398/47 -> 43 MULTIPLEX  ->        Optical switching ->        Hybrid->        Time and wavelength
   2 398/41 DUPLEX
   2 398/38 -> 9 DIAGNOSTIC TESTING  ->        Determination of communication parameter->        Power
   2 398/35 -> 9 DIAGNOSTIC TESTING  ->        Determination of communication parameter->        TDM system
   2 398/31 -> 9 DIAGNOSTIC TESTING  ->        Determination of communication parameter ->        Using supervisory signal->        Different wavelengths for diagnostic and communication
   2 398/2 -> 1 FAULT RECOVERY ->        Bypass inoperative element
   2 398/194 -> 182 TRANSMITTER  ->        Including compensation->        For noise or distortion
   2 398/188 -> 182 TRANSMITTER  ->        Having particular modulation->        Phase modulation
   2 398/187 -> 182 TRANSMITTER  ->        Having particular modulation->        Frequency modulation
   2 398/184 -> 182 TRANSMITTER  ->        Having particular modulation->        Including polarization
   2 398/181 -> 173 OPTICAL REPEATER SYSTEM ->        Supervisory signal by repeater
   2 398/180 -> 173 OPTICAL REPEATER SYSTEM ->        Specific optical elements
   2 398/171 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Received signal supplies power distribution to diverse devices
   2 398/166 -> 140 TRANSMITTER AND RECEIVER SYSTEM  ->        Plural stations->        Address directing connections
   2 398/165 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Plural stations
   2 398/158 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Including compensation
   2 398/157 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Including pumping
   2 398/155 -> 140 TRANSMITTER AND RECEIVER SYSTEM  ->        Including synchronization->        Clock recovery
   2 398/147 -> 140 TRANSMITTER AND RECEIVER SYSTEM  ->        Including optical waveguide->        Dispersion compensation
   2 398/140 TRANSMITTER AND RECEIVER SYSTEM
   2 398/136 -> 135 OPTICAL TRANSCEIVER ->        Including compensation
   2 398/125 -> 118 OPTICAL COMMUNICATION OVER FREEE SPACE  ->        Satellite system->        Space to ground or ground to space
   2 398/108 -> 106 REMOTE CONTROL  ->        Bidirectional (i.e., monitoring or acknowledge)->        Interrogator system
   2 385/99 -> 95 WITH SPLICE (PERMANENT CONNECTION) ->        Including splice joint reinforcement
   2 385/91 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Optical fiber to a nonfiber optical device connector ->        Fiber adjustable relative to device->        Fiber permanently fixed after adjustment
   2 385/902 NONBUNDLE FIBERSCOPE DEVICES
   2 385/76 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR ->        Optical fiber/optical fiber cable termination structure
   2 385/62 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection ->        Multi-part (e.g., two pieces screwed together or bayonet latched) ->        With additional structure at or immediately surrounding each optical fiber end face ->        Fiber end held in ferrule->        Compressively fixed (e.g., chuck, collet, crimp, set screws, etc.)
   2 385/59 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection ->        Multi-part (e.g., two pieces screwed together or bayonet latched) ->        With additional structure at or immediately surrounding each optical fiber end face->        Plural fiber-to-fiber connections
   2 385/53 WITH DISENGAGABLE MECHANICAL CONNECTOR
   2 385/40 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling structure->        Electrodes on or near the coupling region
   2 385/35 -> 15 WITH OPTICAL COUPLER  ->        Input/output coupler ->        Lens->        Spherical
   2 385/30 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling function->        Evanescent wave coupling
   2 385/3 -> 1 TEMPORAL OPTICAL MODULATION WITHIN AN OPTICAL WAVEGUIDE  ->        Electro-optic->        Phase modulation type
   2 385/20 -> 15 WITH OPTICAL COUPLER  ->        Switch (i.e., switching from one terminal to another, not modulation)->        Multiple pole multiple throw
   2 385/19 -> 15 WITH OPTICAL COUPLER  ->        Switch (i.e., switching from one terminal to another, not modulation)->        Stationary waveguides with movable opaque element
   2 385/17 -> 15 WITH OPTICAL COUPLER  ->        Switch (i.e., switching from one terminal to another, not modulation)->        Matrix switch (i.e., M X N, where M and N are 3 or more)
   2 385/141 HAVING PARTICULAR OPTICAL CHARACTERISTIC MODIFYING CHEMICAL COMPOSITION
   2 385/11 POLARIZATION WITHOUT MODULATION
   2 385/106 -> 100 OPTICAL TRANSMISSION CABLE  ->        Tightly confined (i.e., fiber tightly held inside the outer sheath)->        Plural unit type (plural complete cables within a single outside sheath)
   2 380/283 -> 277 KEY MANAGEMENT  ->        Key distribution->        User-to-user key distributed over data link (i.e., no center)
   2 380/262 -> 255 COMMUNICATION SYSTEM USING CRYPTOGRAPHY  ->        Symmetric key cryptography ->        Symmetric key synchronization->        Transmitting a seed, sequence, or initial value
   2 380/212 -> 200 VIDEO CRYPTOGRAPHY  ->        Video electric signal modification (e.g., scrambling)->        Plural video stream multiplexing
   2 380/2 EQUIPMENT TEST OR MALFUNCTION INDICATION
   2 379/93.01 -> 90.01 TELEPHONE LINE OR SYSTEM COMBINED WITH DIVERSE ELECTRICAL SYSTEM OR SIGNALLING (E.G., COMPOSITE) ->        Having transmission of a digital message signal over a telephone line
   2 379/418 CALL SIGNAL GENERATING (E.G., RINGING OR TONE GENERATOR)
   2 379/413.04 -> 399.01 SUBSCRIBER LINE OR TRANSMISSION LINE INTERFACE  ->        Network interface device (NLD)->        Connection block or module
   2 379/379 -> 350 SUPERVISORY OR CONTROL LINE SIGNALING  ->        Using line or loop condition detection (e.g., line circuit)->        With optical link between line and switching system
   2 379/27.03 -> 1.01 DIAGNOSTIC TESTING, MALFUNCTION INDICATION, OR ELECTRICAL CONDITION MEASUREMENT  ->        Testing of subscriber loop or terminal->        By analysis of testing signal
   2 375/361 -> 354 SYNCHRONIZERS  ->        Self-synchronizing signal (self-clocking codes, etc.)->        Manchester code or biphase code
   2 375/358 -> 354 SYNCHRONIZERS ->        Feedback, receiver to transmitter
   2 375/356 -> 354 SYNCHRONIZERS ->        Network synchronizing more than two stations
   2 375/340 -> 316 RECEIVERS ->        Particular pulse demodulator or detector
   2 375/319 -> 316 RECEIVERS  ->        Automatic baseline or threshold adjustment->        Automatic bias circuit for DC restoration
   2 375/219 TRANSCEIVERS
   2 375/140 -> 130 SPREAD SPECTRUM ->        Direct sequence
   2 372/94 -> 92 PARTICULAR RESONANT CAVITY  ->        Folded cavity->        Having a ring configuration
   2 372/75 -> 69 PARTICULAR PUMPING MEANS  ->        Pumping with optical or radiant energy->        Semiconductor
   2 372/49 -> 39 PARTICULAR ACTIVE MEDIA  ->        Semiconductor ->        Injection->        Particular coating on facet
   2 372/43 -> 39 PARTICULAR ACTIVE MEDIA ->        Semiconductor
   2 372/38.01 -> 38.1 PARTICULAR COMPONENT CIRCUITRY ->        Having feedback circuitry
   2 372/34 PARTICULAR TEMPERATURE CONTROL
   2 372/29.015 -> 9 PARTICULAR BEAM CONTROL DEVICE  ->        Having particular beam control circuit component->        Controlling current or voltage
   2 372/29.01 -> 9 PARTICULAR BEAM CONTROL DEVICE ->        Having particular beam control circuit component
   2 372/20 -> 9 PARTICULAR BEAM CONTROL DEVICE ->        Tuning
   2 372/102 -> 92 PARTICULAR RESONANT CAVITY  ->        Specified cavity component->        Grating
   2 370/907 -> 901 WIDE AREA NETWORK  ->        Packet switching ->        OSI Compliant Network->        Synchronous Optical network (SONET)
   2 370/519 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing ->        Adjusting for phase or jitter ->        Including delay device->        Delay based upon propagation delay time
   2 370/518 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing ->        Adjusting for phase or jitter ->        Including delay device->        Provide plural phases of a clocking signal
   2 370/510 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing ->        Using synchronization information contained in a frame->        Synchronization information is distributed over multiple frames
   2 370/486 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via frequency channels ->        Subscriber carrier->        Program distribution
   2 370/485 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via frequency channels->        Subscriber carrier
   2 370/484 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via frequency channels->        Digital analysis or synthesis of a group
   2 370/482 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via frequency channels->        Particular carrier generation
   2 370/474 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS ->        Assembly or disassembly of messages having address headers
   2 370/462 -> 431 CHANNEL ASSIGNMENT TECHNIQUES ->        Arbitration for access to a channel
   2 370/460 -> 431 CHANNEL ASSIGNMENT TECHNIQUES  ->        Using time slots ->        Having indication of idle or busy state of time slot->        On ring or loop network
   2 370/418 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Queuing arrangement ->        Having output queuing only->        Contention resolution for output
   2 370/416 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Queuing arrangement ->        Having input queuing only->        Contention resolution for output
   2 370/404 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Having a plurality of nodes performing distributed switching ->        Bridge or gateway between networks ->        Bridge between bus systems ->        At least one bus is a ring network->        Ring or loop forms backbone for interconnecting other networks
   2 370/396 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells)->        Distributed switching
   2 370/395.65 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Adapting detail (e.g., converting to/from ATM, or detail of ATM Adaption Layers (AALs))->        Adapting connectionless variable bit rate (VBR) data (e.g., adapting 802.X, or using AAL5)
   2 370/395.6 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells)->        Adapting detail (e.g., converting to/from ATM, or detail of ATM Adaption Layers (AALs))
   2 370/395.53 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Multiprotocol network->        Emulated LAN (LANE/ELAN/VLAN, e.g., Ethernet or token ring legacy LAN over a single ATM network/LAN)
   2 370/395.43 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Assigning period of time for information to be transmitted (e.g., scheduling) ->        Based on priority->        Based on service category (e.g., CBR, VBR, UBR, or ABR)
   2 370/395.4 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells)->        Assigning period of time for information to be transmitted (e.g., scheduling)
   2 370/380 -> 351 PATHFINDING OR ROUTING  ->        Through a circuit switch ->        Switching control->        Space switch, per se (e.g., S or S-S)
   2 370/376 -> 351 PATHFINDING OR ROUTING  ->        Through a circuit switch ->        Switching control ->        Time switch, per se (e.g., T or T-T)->        Time slot interchange, per se
   2 370/353 -> 351 PATHFINDING OR ROUTING  ->        Combined circuit switching and packet switching->        Switching network having common elements to handle both circuit switched traffic and packet switched traffic
   2 370/346 -> 310 COMMUNICATION OVER FREE SPACE  ->        Combining or distributing information via time channels->        Polling
   2 370/342 -> 310 COMMUNICATION OVER FREE SPACE ->        Combining or distributing information via code word channels using multiple access techniques (e.g., CDMA)
   2 370/294 -> 276 DUPLEX ->        Time division
   2 370/252 -> 241 DIAGNOSTIC TESTING (OTHER THAN SYNCHRONIZATION) ->        Determination of communication parameters
   2 370/244 -> 241 DIAGNOSTIC TESTING (OTHER THAN SYNCHRONIZATION)  ->        Fault detection->        Of a switching system
   2 370/241 DIAGNOSTIC TESTING (OTHER THAN SYNCHRONIZATION)
   2 370/236.2 -> 229 DATA FLOW CONGESTION PREVENTION OR CONTROL  ->        Flow control of data transmission through a network ->        Including signaling between network elements->        Using OAM (Operation, Administration and Maintenance) cells
   2 370/236 -> 229 DATA FLOW CONGESTION PREVENTION OR CONTROL  ->        Flow control of data transmission through a network->        Including signaling between network elements
   2 370/216 FAULT RECOVERY
   2 363/41 -> 13 CURRENT CONVERSION  ->        With means to introduce or eliminate frequency components ->        In inverter systems->        By pulse modulation technique (e.g., PWM, PPM, etc.)
   2 363/21.18 -> 13 CURRENT CONVERSION  ->        Including D.C.-A.C.-D.C. converter ->        Having transistorized inverter ->        Single-ended, separately-driven type ->        With automatic control of the magnitude of output voltage or current ->        For flyback-type converter->        Utilizing pulse-width modulation
   2 363/21.14 -> 13 CURRENT CONVERSION  ->        Including D.C.-A.C.-D.C. converter ->        Having transistorized inverter ->        Single-ended, separately-driven type ->        With automatic control of the magnitude of output voltage or current ->        For flyback-type converter->        Having synchronous rectifier
   2 363/21.13 -> 13 CURRENT CONVERSION  ->        Including D.C.-A.C.-D.C. converter ->        Having transistorized inverter ->        Single-ended, separately-driven type ->        With automatic control of the magnitude of output voltage or current ->        For flyback-type converter->        Having digital logic
   2 363/20 -> 13 CURRENT CONVERSION  ->        Including D.C.-A.C.-D.C. converter ->        Having transistorized inverter->        Single-ended, separately-driven type
   2 359/900 METHODS
   2 359/846 -> 838 MIRROR ->        Including specified control or retention of the shape of a mirror surface
   2 359/583 -> 577 LIGHT INTERFERENCE  ->        Produced by coating or lamina->        Beam splitter or combiner
   2 359/494 -> 483 POLARIZATION WITHOUT MODULATION  ->        Light polarization without any external input->        By birefringent element
   2 359/344 -> 333 OPTICAL AMPLIFIER  ->        Particular active medium (e.g., crystal, plasma, fluid, etc.)->        Semiconductor
   2 359/341.5 -> 333 OPTICAL AMPLIFIER  ->        Optical fiber->        Composition (e.g., Tm, Tb, Eu, Ho, Dy, Nd)
   2 359/341.2 -> 333 OPTICAL AMPLIFIER  ->        Optical fiber->        Bi-directional
   2 359/328 -> 326 OPTICAL FREQUENCY CONVERTER ->        Harmonic generator
   2 359/318 -> 237 OPTICAL MODULATOR  ->        Light wave directional modulation (e.g., deflection or scanning is representative of the modulating signal) ->        Electro-optic->        By reflection
   2 359/295 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.) ->        By changing physical characteristics (e.g., shape, size or contours) of an optical element ->        Shape or contour of light control surface altered->        Having multiple electrodes
   2 359/247 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.) ->        Changing bulk optical parameter ->        Electro-optic ->        Modulation of polarized light via modulating input signal->        Using reflective or cavity structure
   2 356/484 -> 450 BY LIGHT INTERFERENCE (E.G., INTERFEROMETER) ->        Having light beams of different frequencies (e.g., heterodyning)
   2 356/450 BY LIGHT INTERFERENCE (E.G., INTERFEROMETER)
   2 345/848 -> 700 OPERATOR INTERFACE (E.G., GRAPHICAL USER INTERFACE)  ->        On-screen workspace or object->        Interface represented by 3D space
   2 345/759 -> 700 OPERATOR INTERFACE (E.G., GRAPHICAL USER INTERFACE)  ->        Computer supported collaborative work between plural users->        Group window
   2 331/8 -> 1R AUTOMATIC FREQUENCY STABILIZATION USING A PHASE OR FREQUENCY SENSING MEANS ->        Transistorized controls
   2 331/25 -> 1R AUTOMATIC FREQUENCY STABILIZATION USING A PHASE OR FREQUENCY SENSING MEANS  ->        With reference oscillator or source->        Signal or phase comparator
   2 331/17 -> 1R AUTOMATIC FREQUENCY STABILIZATION USING A PHASE OR FREQUENCY SENSING MEANS ->        Particular error voltage control (e.g., intergrating network)
   2 330/59 HAVING LIGHT-CONTROLLED OR ACTIVATED DEVICE (I.E., NOT LIGHT SIGNAL)
   2 330/110 -> 75 SIGNAL FEEDBACK ->        Nonlinear impedance element in loop path
   2 327/309 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Amplitude control->        By limiting, clipping, or clamping
   2 327/159 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing ->        With feedback ->        Phase lock loop->        With digital element
   2 327/157 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing ->        With feedback ->        Phase lock loop->        With charge pump
   2 327/150 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing ->        Using multiple clocks ->        With feedback ->        Phase lock loop->        With digital element
   2 307/66 -> 43 PLURAL SUPPLY CIRCUITS OR SOURCES  ->        Substitute or emergency source->        Storage battery or accumulator
   2 307/64 -> 43 PLURAL SUPPLY CIRCUITS OR SOURCES ->        Substitute or emergency source
   2 257/81 -> 79 INCOHERENT LIGHT EMITTER STRUCTURE  ->        In combination with or also constituting light responsive device->        With specific housing or contact structure
   2 257/80 -> 79 INCOHERENT LIGHT EMITTER STRUCTURE ->        In combination with or also constituting light responsive device
   2 257/14 -> 9 THIN ACTIVE PHYSICAL LAYER WHICH IS (1) AN ACTIVE POTENTIAL WELL LAYER THIN ENOUGH TO ESTABLISH DISCRETE QUANTUM ENERGY LEVELS OR (2) AN ACTIVE BARRIER LAYER THIN ENOUGH TO PERMIT QUANTUM MECHANICAL TUNNELING OR (3) AN ACTIVE LAYER THIN ENOUGH TO PERMIT CARRIER TRANSMISSION WITH SUBSTANTIALLY NO SCATTERING (E.G., SUPERLATTICE QUANTUM WELL, OR BALLISTIC TRANSPORT DEVICE)  ->        Heterojunction->        Quantum well
   2 252/301.4P -> 301.4R INORGANIC LUMINESCENT COMPOSITIONS ->        Phosphorus containing
   2 250/551 -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS ->        Signal isolator
   2 250/227.11 -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS  ->        Optical or pre-photocell system->        Light conductor
   2 250/214R -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS  ->        Photocell controlled circuit->        Special photocell or electron tube circuits
   2 250/214AG -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS  ->        Photocell controlled circuit ->        Special photocell or electron tube circuits->        Automatic gain control
   2 216/24 FORMING OR TREATING OPTICAL ARTICLE
   1 725/98 -> 86 USER-REQUESTED VIDEO PROGRAM SYSTEM  ->        Video-on-demand->        Transmission network
   1 725/96 -> 86 USER-REQUESTED VIDEO PROGRAM SYSTEM  ->        Video-on-demand ->        Server or headend ->        Control process ->        Channel or bandwidth allocation->        In accordance with server or network congestion
   1 725/85 -> 74 LOCAL VIDEO DISTRIBUTION SYSTEM  ->        Multiunit or multiroom structure (e.g., home, hospital, hotel, office building, school, etc.)->        Receiver
   1 725/49 -> 37 OPERATOR INTERFACE  ->        To facilitate tuning or selection of video signal ->        Electronic program guide ->        Combined from plural information providers (e.g., combined terrestrial and satellite sources)->        Combined at local receiver
   1 725/37 OPERATOR INTERFACE
   1 725/149 -> 143 VIDEO DISTRIBUTION SYSTEM COMPONENTS  ->        Transmission network->        Network component (e.g., filter, tap, splitter, amplifier, repeater, etc.)
   1 725/143 VIDEO DISTRIBUTION SYSTEM COMPONENTS
   1 725/139 -> 135 VIDEO DISTRIBUTION SYSTEM WITH LOCAL INTERACTION ->        Receiver (e.g., set-top box)
   1 725/135 VIDEO DISTRIBUTION SYSTEM WITH LOCAL INTERACTION
   1 725/125 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network ->        Return path ->        Noise in return path->        Ingress noise
   1 725/124 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network ->        Return path->        Noise in return path
   1 725/123 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network ->        Return path->        Wireless return path
   1 725/122 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Transmission network ->        Return path->        Return path via telephone network
   1 725/110 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION  ->        Having link to external network (e.g., interconnected computer network)->        Connection to external network at receiver (e.g., set-top box)
   1 725/109 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION ->        Having link to external network (e.g., interconnected computer network)
   1 725/107 -> 105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION ->        Remote testing of cable system
   1 725/105 VIDEO DISTRIBUTION SYSTEM WITH UPSTREAM COMMUNICATION
   1 725/1 BILLING IN VIDEO DISTRIBUTION SYSTEM
   1 717/172 -> 168 SOFTWARE UPGRADING OR UPDATING  ->        Network->        Including distribution of software (e.g., push-down, pull-down)
   1 715/513 STRUCTURED DOCUMENT (E.G., HTML, SGML, ODA, CDA)
   1 714/814 -> 699 PULSE OR DATA ERROR HANDLING  ->        Error/fault detection technique ->        Forbidden combination or improper condition->        Data timing/clocking
   1 714/800 -> 699 PULSE OR DATA ERROR HANDLING  ->        Error/fault detection technique->        Parity bit
   1 714/752 -> 699 PULSE OR DATA ERROR HANDLING  ->        Digital data error correction->        Forward correction by block code
   1 714/738 -> 699 PULSE OR DATA ERROR HANDLING  ->        Digital logic testing->        Including test pattern generator
   1 714/715 -> 699 PULSE OR DATA ERROR HANDLING  ->        Transmission facility testing->        Test pattern with comparison
   1 714/43 -> 100 DATA PROCESSING SYSTEM ERROR OR FAULT HANDLING  ->        Reliability and availability ->        Fault locating (i.e., diagnosis or testing) ->        Component dependent technique->        Bus, I/O channel, or network path component fault
   1 713/400 SYNCHRONIZATION OF CLOCK OR TIMING SIGNALS, DATA, OR PULSES
   1 713/330 -> 300 COMPUTER POWER CONTROL ->        Power sequencing
   1 713/310 -> 300 COMPUTER POWER CONTROL ->        By external command
   1 713/300 COMPUTER POWER CONTROL
   1 713/2 -> 1 DIGITAL DATA PROCESSING SYSTEM INITIALIZATION OR CONFIGURATION (E.G., INITIALIZING, SET UP, CONFIGURATION, OR RESETTING) ->        Loading initialization program (e.g., booting, rebooting, warm booting, remote booting, BIOS, initial program load (IPL), bootstrapping)
   1 713/166 -> 150 MULTIPLE COMPUTER COMMUNICATION USING CRYPTOGRAPHY  ->        Security kernel or utility->        Security levels
   1 713/163 -> 150 MULTIPLE COMPUTER COMMUNICATION USING CRYPTOGRAPHY  ->        Having particular address related cryptography->        Multicast
   1 713/150 MULTIPLE COMPUTER COMMUNICATION USING CRYPTOGRAPHY
   1 713/100 RECONFIGURATION (E.G., CHANGING SYSTEM SETTING)
   1 710/120 -> 100 INTRASYSTEM CONNECTION (E.G., BUS AND BUS TRANSACTION PROCESSING)  ->        Bus access regulation ->        Decentralized bus arbitration->        Hierarchical or multilevel accessing
   1 710/108 -> 100 INTRASYSTEM CONNECTION (E.G., BUS AND BUS TRANSACTION PROCESSING)  ->        Bus access regulation->        Bus locking
   1 709/234 -> 200 MULTICOMPUTER DATA TRANSFERRING  ->        Computer-to-computer protocol implementing ->        Computer-to-computer data transfer regulating->        Data flow compensating
   1 709/231 -> 200 MULTICOMPUTER DATA TRANSFERRING  ->        Computer-to-computer protocol implementing->        Computer-to-computer data streaming
   1 709/229 -> 200 MULTICOMPUTER DATA TRANSFERRING  ->        Computer-to-computer session/connection establishing->        Network resources access controlling
   1 709/227 -> 200 MULTICOMPUTER DATA TRANSFERRING ->        Computer-to-computer session/connection establishing
   1 709/224 -> 200 MULTICOMPUTER DATA TRANSFERRING  ->        Computer network managing->        Computer network monitoring
   1 709/223 -> 200 MULTICOMPUTER DATA TRANSFERRING ->        Computer network managing
   1 709/218 -> 200 MULTICOMPUTER DATA TRANSFERRING  ->        Remote data accessing->        Using interconnected networks
   1 709/217 -> 200 MULTICOMPUTER DATA TRANSFERRING ->        Remote data accessing
   1 709/208 -> 200 MULTICOMPUTER DATA TRANSFERRING ->        Master/slave computer controlling
   1 709/205 -> 200 MULTICOMPUTER DATA TRANSFERRING  ->        Computer conferencing->        Cooperative computer processing
   1 707/203 -> 200 FILE OR DATABASE MAINTENANCE  ->        Coherency (e.g., same view to multiple users)->        Version management
   1 707/202 -> 200 FILE OR DATABASE MAINTENANCE  ->        Coherency (e.g., same view to multiple users)->        Recoverability
   1 707/201 -> 200 FILE OR DATABASE MAINTENANCE ->        Coherency (e.g., same view to multiple users)
   1 707/104.1 -> 100 DATABASE SCHEMA OR DATA STRUCTURE ->        Application of database or data structure (e.g., distributed, multimedia, image)
   1 702/39 -> 1 MEASUREMENT SYSTEM IN A SPECIFIC ENVIRONMENT  ->        Mechanical measurement system ->        Flaw or defect detection->        Sound energy (e.g., ultrasonic)
   1 701/2 -> 1 VEHICLE CONTROL, GUIDANCE, OPERATION, OR INDICATION ->        Remote control system
   1 700/286 -> 90 SPECIFIC APPLICATION, APPARATUS OR PROCESS ->        Electrical power generation or distribution system
   1 65/55 -> 17.1 PROCESSES  ->        Fusion bonding of glass to a formed part ->        With reshaping glass preform prior to assembly or subsequent to bonding->        Prior to assembly
   1 65/44 -> 17.1 PROCESSES  ->        Fusion bonding of glass to a formed part->        With embossing or corrugating
   1 65/435 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS  ->        Process of manufacturing optical fibers, waveguides, or preforms thereof->        With fiber stretching, drawing, or pulling (e.g., from rod, etc.)
   1 65/426 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS  ->        Process of manufacturing optical fibers, waveguides, or preforms thereof->        Drying, dehydration, OH removal or prevention
   1 65/425 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS  ->        Process of manufacturing optical fibers, waveguides, or preforms thereof->        Electromagnetic, magnetic, wave, or particulate energy utilized
   1 65/42 -> 17.1 PROCESSES  ->        Fusion bonding of glass to a formed part->        Bonding of subassembly with subsequent assembly and bonding (formed parts only)
   1 65/414 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS  ->        Process of manufacturing optical fibers, waveguides, or preforms thereof ->        With step of vapor deposition->        Forming optical fiber or fiber preform by soot buildup (i.e., vapor axial deposition, VAD)
   1 65/412 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS  ->        Process of manufacturing optical fibers, waveguides, or preforms thereof ->        Joining or bonding optical fibers, waveguides, or preforms (e.g., coupling, etc.)->        Rod placed inside of tube
   1 65/411 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS  ->        Process of manufacturing optical fibers, waveguides, or preforms thereof ->        Joining or bonding optical fibers, waveguides, or preforms (e.g., coupling, etc.) ->        Side to side->        With stretching or drawing
   1 65/409 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS  ->        Process of manufacturing optical fibers, waveguides, or preforms thereof ->        Joining or bonding optical fibers, waveguides, or preforms (e.g., coupling, etc.) ->        Side to side->        Having plural adjacent fibers or rods sheathed (i.e., bundle) in tube or enclosure
   1 65/397 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS  ->        Process of manufacturing optical fibers, waveguides, or preforms thereof->        Fluorine doping
   1 65/391 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS  ->        Process of manufacturing optical fibers, waveguides, or preforms thereof->        Plasma utilized
   1 65/385 -> 376 PROCESSES OF MANUFACTURING FIBERS, FILAMENTS, OR PREFORMS ->        Process of manufacturing optical fibers, waveguides, or preforms thereof
   1 65/106 -> 17.1 PROCESSES  ->        Reshaping or surface deformation of glass preform->        Reshaping of planar sheet
   1 65/102 -> 17.1 PROCESSES ->        Reshaping or surface deformation of glass preform
   1 606/7 -> 1 INSTRUMENTS  ->        Light application->        Angioplasty
   1 606/2 -> 1 INSTRUMENTS ->        Light application
   1 606/18 -> 1 INSTRUMENTS  ->        Light application ->        Applicators ->        With beam shaping or redirecting (e.g., lens)->        Mirror
   1 606/17 -> 1 INSTRUMENTS  ->        Light application ->        Applicators->        With beam shaping or redirecting (e.g., lens)
   1 606/15 -> 1 INSTRUMENTS  ->        Light application ->        Applicators ->        Placed in body->        With optical fiber
   1 606/13 -> 1 INSTRUMENTS  ->        Light application->        Applicators
   1 606/10 -> 1 INSTRUMENTS  ->        Light application->        Systems
   1 600/478 -> 300 DIAGNOSTIC TESTING  ->        Detecting nuclear, electromagnetic, or ultrasonic radiation ->        Visible light radiation->        Light conducting fiber inserted into a body
   1 600/477 -> 300 DIAGNOSTIC TESTING  ->        Detecting nuclear, electromagnetic, or ultrasonic radiation ->        Visible light radiation->        With comparison means (e.g., ratio of or comparison to a standard)
   1 600/160 -> 101 ENDOSCOPE ->        Having imaging and illumination means
   1 600/129 -> 101 ENDOSCOPE ->        With particular distal tip configuration
   1 600/108 -> 101 ENDOSCOPE  ->        With tool carried on endoscope or auxillary channel therefore->        Laser
   1 57/293 -> 1R APPARATUS AND PROCESSES ->        Alternate twist
   1 57/204 -> 200 STRAND STRUCTURE ->        Alternately twisted
   1 528/65 ->  ->        FROM REACTANT HAVING AT LEAST ONE -N=C=X GROUP (WHEREIN X IS A CHALCOGEN ATOM) AS WELL AS PRECURSORS THEREOF, E.G., BLOCKED ISOCYANATE, ETC. ->        From N=C=X reactant having at least two -C-NH-C(=X)- groups->        With reactant having two -XH groups
   1 528/49 ->  ->        FROM REACTANT HAVING AT LEAST ONE -N=C=X GROUP (WHEREIN X IS A CHALCOGEN ATOM) AS WELL AS PRECURSORS THEREOF, E.G., BLOCKED ISOCYANATE, ETC. ->        Process of polymerizing in the presence of a specified material other than reactant->        Material contains only one -C-XH,-C-C(=X)-XH or carbon to -NH or HNH group
   1 528/44 -> ->        FROM REACTANT HAVING AT LEAST ONE -N=C=X GROUP (WHEREIN X IS A CHALCOGEN ATOM) AS WELL AS PRECURSORS THEREOF, E.G., BLOCKED ISOCYANATE, ETC.
   1 528/272 ->  ->        FROM CARBOXYLIC ACID OR DERIVATIVE THEREOF->        From di- or higher ester of a polycarboxylic acid as sole reactant, or from a polycarboxylic acid or derivative with a compound containing two or more hydroxyl groups or salts thereof
   1 528/271 -> ->        FROM CARBOXYLIC ACID OR DERIVATIVE THEREOF
   1 528/26 ->  ->        FROM SILICON REACTANT HAVING AT LEAST ONE SILICON-TO-HYDROGEN OR -CARBON BOND ->        With organic silicon-free reactant->        Organic Si-free reactant is a carboxylic acid or derivative
   1 528/25 ->  ->        FROM SILICON REACTANT HAVING AT LEAST ONE SILICON-TO-HYDROGEN OR -CARBON BOND->        With organic silicon-free reactant
   1 526/73 ->  ->        POLYMERS FROM ONLY ETHYLENIC MONOMERS OR PROCESSES OF POLYMERIZING, POLYMERIZABLE COMPOSITIONS CONTAINING ONLY ETHYLENIC MONOMERS AS REACTANTS OR PROCESSES OF PREPARING->        Polymerization involving two or more specified temperature or pressure conditions
   1 526/329.7 ->  ->        POLYMERS FROM ONLY ETHYLENIC MONOMERS OR PROCESSES OF POLYMERIZING, POLYMERIZABLE COMPOSITIONS CONTAINING ONLY ETHYLENIC MONOMERS AS REACTANTS OR PROCESSES OF PREPARING ->        From carboxylic acid ester monomer ->        Derived from an ethylenically unsaturated carboxylic acid->        Polymer derived from methyl acrylate or methyl methacrylate
   1 526/329.2 ->  ->        POLYMERS FROM ONLY ETHYLENIC MONOMERS OR PROCESSES OF POLYMERIZING, POLYMERIZABLE COMPOSITIONS CONTAINING ONLY ETHYLENIC MONOMERS AS REACTANTS OR PROCESSES OF PREPARING ->        From carboxylic acid ester monomer ->        Derived from an ethylenically unsaturated carboxylic acid ->        With additional monomer ->        Interpolymerized with hydrocarbon monomer->        Aromatic, e.g., styrene, etc.
   1 522/98 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes involving a polyurethane having terminal ethylenic unsaturation as reactant or as solid polymerSEMI or compositions therefore->        Polyurethane has at least one non-terminal ethylenic group
   1 522/95 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes involving a polyurethane having terminal ethylenic unsaturation as reactant or as solid polymerSEMI or compositions therefore->        With solid polymer derived solely from ethylenic monomers
   1 522/78 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of preparing or treating a solid polymer by wave energy in the presence of a designated nonreactant material (DNRM)SEMI or compositions therefore ->        Organic DNRM->        Nitrogen containing DNRM
   1 522/76 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of preparing or treating a solid polymer by wave energy in the presence of a designated nonreactant material (DNRM)SEMI or compositions therefore ->        Organic DNRM->        Phosphorous containing DNRM
   1 522/75 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of preparing or treating a solid polymer by wave energy in the presence of a designated nonreactant material (DNRM)SEMI or compositions therefore ->        Organic DNRM->        Heterocyclic ring containing DNRM
   1 522/74 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of preparing or treating a solid polymer by wave energy in the presence of a designated nonreactant material (DNRM)SEMI or compositions therefore->        Organic DNRM
   1 522/64 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Compositions to be polymerized or modified by wave energy wherein said composition contains at least one specified rate-affecting materialSEMI or processes of preparing or treating a solid polymer utilizing wave energy in the presence of at least one specified rate-affecting materialSEMI e.g., nitrogen containing photosensitizer, oxygen containing photoinitiator, etc. wave energy in order to prepare a cellular product->        Specified rate-affecting material contains phosphorous
   1 522/39 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Compositions to be polymerized or modified by wave energy wherein said composition contains at least one specified rate-affecting materialSEMI or processes of preparing or treating a solid polymer utilizing wave energy in the presence of at least one specified rate-affecting materialSEMI e.g., nitrogen containing photosensitizer, oxygen containing photoinitiator, etc. wave energy in order to prepare a cellular product ->        Specified rate-affecting material contains a ketone group -c-(CO)n-c-, the (CO)n not being part of a ring->        Containing nitrogen
   1 522/31 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Compositions to be polymerized or modified by wave energy wherein said composition contains at least one specified rate-affecting materialSEMI or processes of preparing or treating a solid polymer utilizing wave energy in the presence of at least one specified rate-affecting materialSEMI e.g., nitrogen containing photosensitizer, oxygen containing photoinitiator, etc. wave energy in order to prepare a cellular product->        Specified rate-affecting material contains onium group
   1 522/146 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of chemically modifying a solid polymer or SICP derived from at least one saturated monomer by treating solid polymer or SICP with a chemical reactantSEMI or compositions therefor->        Chemical reactant contains chalcogen
   1 522/144 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of chemically modifying a solid polymer or SICP derived from at least one saturated monomer by treating solid polymer or SICP with a chemical reactantSEMI or compositions therefor ->        Chemical reactant is ethylenically unsaturated ->        Chalcogen->        Carboxylic acid or derivative
   1 522/143 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of chemically modifying a solid polymer or SICP derived from at least one saturated monomer by treating solid polymer or SICP with a chemical reactantSEMI or compositions therefor ->        Chemical reactant is ethylenically unsaturated ->        Chalcogen->        Hetero oxygen
   1 522/142 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of chemically modifying a solid polymer or SICP derived from at least one saturated monomer by treating solid polymer or SICP with a chemical reactantSEMI or compositions therefor ->        Chemical reactant is ethylenically unsaturated ->        Chalcogen->        Chemical reactant has two or more ethylenic groups
   1 522/141 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of chemically modifying a solid polymer or SICP derived from at least one saturated monomer by treating solid polymer or SICP with a chemical reactantSEMI or compositions therefor ->        Chemical reactant is ethylenically unsaturated->        Chalcogen
   1 522/137 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of chemically modifying a solid polymer or SICP derived from at least one saturated monomer by treating solid polymer or SICP with a chemical reactantSEMI or compositions therefor ->        Chemical reactant is ethylenically unsaturated ->        Nitrogen->        Chemical reactant has two or more ethylenic groups
   1 522/136 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of chemically modifying a solid polymer or SICP derived from at least one saturated monomer by treating solid polymer or SICP with a chemical reactantSEMI or compositions therefor ->        Chemical reactant is ethylenically unsaturated->        Nitrogen
   1 522/135 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of chemically modifying a solid polymer or SICP derived from at least one saturated monomer by treating solid polymer or SICP with a chemical reactantSEMI or compositions therefor->        Chemical reactant is ethylenically unsaturated
   1 522/134 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY->        Processes of chemically modifying a solid polymer or SICP derived from at least one saturated monomer by treating solid polymer or SICP with a chemical reactantSEMI or compositions therefor
   1 522/120 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes of chemically modifying a solid polymer derived only from ethylenically unsaturated monomers by treating polymer with a chemical reactantSEMI or compositions therefore ->        Chemical reactant is ethylenically unsaturated->        Oxygen
   1 522/107 ->  ->        COMPOSITIONS TO BE POLYMERIZED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR COMPOSITIONS TO BE MODIFIED BY WAVE ENERGY WHEREIN SAID COMPOSITION CONTAINS A RATE-AFFECTING MATERIALSEMI OR PROCESSES OF PREPARING OR TREATING A SOLID POLYMER UTILIZING WAVE ENERGY ->        Processes involving an ethylenically unsaturated polyester derived from a polycarboxylic acid or derivative and polyol, condensate or solid polymer thereofSEMI or compositions therefore->        With ethylenic reactant
   1 501/40 -> 1 CERAMIC COMPOSITIONS  ->        Glass compositions, compositions containing glass other than those wherein glass is a bonding agent, or glass batch forming compositions->        Nonoxide glasses (e.g., fluoride glasses, etc.)
   1 501/37 -> 1 CERAMIC COMPOSITIONS  ->        Glass compositions, compositions containing glass other than those wherein glass is a bonding agent, or glass batch forming compositions ->        Fibers->        Optical fibers
   1 501/35 -> 1 CERAMIC COMPOSITIONS  ->        Glass compositions, compositions containing glass other than those wherein glass is a bonding agent, or glass batch forming compositions->        Fibers
   1 455/65 -> 39 TRANSMITTER AND RECEIVER AT SEPARATE STATIONS  ->        Distortion, noise, or other interference prevention, reduction, or compensation->        Anti-multipath
   1 455/562.1 -> 73 TRANSMITTER AND RECEIVER AT SAME STATION (E.G., TRANSCEIVER)  ->        Radiotelephone equipment detail ->        Base station detail->        Having specific antenna arrangement
   1 455/561 -> 73 TRANSMITTER AND RECEIVER AT SAME STATION (E.G., TRANSCEIVER)  ->        Radiotelephone equipment detail->        Base station detail
   1 455/560 -> 73 TRANSMITTER AND RECEIVER AT SAME STATION (E.G., TRANSCEIVER)  ->        Radiotelephone equipment detail->        Switching unit detail (e.g., mobile telephone switching office (MTSO), base station controller (BSC), etc.)
   1 455/524 -> 39 TRANSMITTER AND RECEIVER AT SEPARATE STATIONS  ->        Plural transmitters or receivers (i.e., more than two stations) ->        Central station (e.g., master, etc.) ->        To or from mobile station->        Multiple base stations
   1 455/522 -> 39 TRANSMITTER AND RECEIVER AT SEPARATE STATIONS  ->        Plural transmitters or receivers (i.e., more than two stations) ->        Central station (e.g., master, etc.) ->        To or from mobile station->        Transmission power control technique
   1 455/502 -> 39 TRANSMITTER AND RECEIVER AT SEPARATE STATIONS  ->        Plural transmitters or receivers (i.e., more than two stations) ->        Noise, distortion, or singing reduction->        Synchronized stations
   1 455/45 -> 39 TRANSMITTER AND RECEIVER AT SEPARATE STATIONS  ->        Frequency or phase modulation->        Via subcarrier
   1 455/445 -> 403 RADIOTELEPHONE SYSTEM  ->        Zoned or cellular telephone system->        Call routing (e.g., to prevent backhaul, routing efficiency, least cost, or alternate routing)
   1 455/443 -> 403 RADIOTELEPHONE SYSTEM  ->        Zoned or cellular telephone system ->        Handoff->        Overlapping cells
   1 455/3.05 -> 3.01 WIRELESS DISTRIBUTION SYSTEM ->        Two-way
   1 455/239.1 -> 130 RECEIVER OR ANALOG MODULATED SIGNAL FREQUENCY CONVERTER  ->        Local control of receiver operation ->        Gain control ->        Automatic->        Nonlinear automatic gain control
   1 455/235.1 -> 130 RECEIVER OR ANALOG MODULATED SIGNAL FREQUENCY CONVERTER  ->        Local control of receiver operation ->        Gain control ->        Automatic->        Forward acting
   1 455/234.2 -> 130 RECEIVER OR ANALOG MODULATED SIGNAL FREQUENCY CONVERTER  ->        Local control of receiver operation ->        Gain control ->        Automatic->        Processor controlled
   1 455/232.1 -> 130 RECEIVER OR ANALOG MODULATED SIGNAL FREQUENCY CONVERTER  ->        Local control of receiver operation->        Gain control
   1 439/99 -> 92 WITH CIRCUIT CONDUCTORS AND SAFETY GROUNDING PROVISION  ->        Grounding to conductive sheath of cable->        Portion of connector beneath conductive sheath
   1 439/79 -> 55 PREFORMED PANEL CIRCUIT ARRANGEMENT, E.G., PCB, ICM, DIP, CHIP, WAFER, ETC.  ->        Distinct contact secured to panel circuit->        Panel circuit adapted to move along panel plane relative to coupling part for insertion of male contact
   1 439/76.1 -> 55 PREFORMED PANEL CIRCUIT ARRANGEMENT, E.G., PCB, ICM, DIP, CHIP, WAFER, ETC. ->        Within distinct housing spaced from panel circuit arrangement
   1 439/552 -> 527 WITH SUPPORTING MEANS FOR COUPLING PART  ->        Coupling part or mating part extending into panel opening->        Including resilient securing
   1 439/502 WITH FLACCID CONDUCTOR AND WITH ADDITIONAL CONNECTOR SPACED THEREALONG
   1 439/409 -> 387 CONTACT COMPRISING CUTTER (SEVERING, PIERCING, ABRADING, SCRAPING, BREAKING OR TEARING)  ->        Insulation cutter ->        Conductor sheath piercing->        Pivoting cutter, pivoting means to operate cutter, or pivoting means to move conductor against cutter
   1 438/7 -> 5 INCLUDING CONTROL RESPONSIVE TO SENSED CONDITION ->        Optical characteristic sensed
   1 438/57 -> 48 MAKING DEVICE OR CIRCUIT RESPONSIVE TO NONELECTRICAL SIGNAL ->        Responsive to electromagnetic radiation
   1 438/48 MAKING DEVICE OR CIRCUIT RESPONSIVE TO NONELECTRICAL SIGNAL
   1 438/46 -> 22 MAKING DEVICE OR CIRCUIT EMISSIVE OF NONELECTRICAL SIGNAL ->        Compound semiconductor
   1 438/39 -> 22 MAKING DEVICE OR CIRCUIT EMISSIVE OF NONELECTRICAL SIGNAL ->        Mesa formation
   1 438/29 -> 22 MAKING DEVICE OR CIRCUIT EMISSIVE OF NONELECTRICAL SIGNAL ->        Including integrally formed optical element (e.g., reflective layer, luminescent material, contoured surface, etc.)
   1 436/5 -> 2 PROCESS OR COMPOSITION FOR DETERMINATION OF PHYSICAL STATE OR PROPERTY BY MEANS INCLUDING A CHEMICAL REACTION ->        Surface area, porosity, imperfection, or alteration
   1 436/2 PROCESS OR COMPOSITION FOR DETERMINATION OF PHYSICAL STATE OR PROPERTY BY MEANS INCLUDING A CHEMICAL REACTION
   1 436/172 -> 164 OPTICAL RESULT ->        With fluorescence or luminescence
   1 430/321 -> 269 IMAGING AFFECTING PHYSICAL PROPERTY OF RADIATION SENSITIVE MATERIAL, OR PRODUCING NONPLANAR OR PRINTING SURFACE - PROCESS, COMPOSITION, OR PRODUCT  ->        Making named article->        Optical device
   1 428/391 -> 357 COATED OR STRUCTUALLY DEFINED FLAKE, PARTICLE, CELL, STRAND, STRAND PORTION, ROD, FILAMENT, MACROSCOPIC FIBER OR MASS THEREOF  ->        Rod, strand, filament or fiber ->        Coated or with bond, impregnation or core->        Silane, silicone or siloxane in coating
   1 428/383 -> 357 COATED OR STRUCTUALLY DEFINED FLAKE, PARTICLE, CELL, STRAND, STRAND PORTION, ROD, FILAMENT, MACROSCOPIC FIBER OR MASS THEREOF  ->        Rod, strand, filament or fiber ->        Coated or with bond, impregnation or core ->        Including metal or compound thereof (excluding glass, ceramic and asbestos) ->        Plural coatings->        Synthetic resin or polymer in plural coatings, each of different type
   1 428/379 -> 357 COATED OR STRUCTUALLY DEFINED FLAKE, PARTICLE, CELL, STRAND, STRAND PORTION, ROD, FILAMENT, MACROSCOPIC FIBER OR MASS THEREOF  ->        Rod, strand, filament or fiber ->        Coated or with bond, impregnation or core->        Including metal or compound thereof (excluding glass, ceramic and asbestos)
   1 428/375 -> 357 COATED OR STRUCTUALLY DEFINED FLAKE, PARTICLE, CELL, STRAND, STRAND PORTION, ROD, FILAMENT, MACROSCOPIC FIBER OR MASS THEREOF  ->        Rod, strand, filament or fiber->        Coated or with bond, impregnation or core
   1 428/373 -> 357 COATED OR STRUCTUALLY DEFINED FLAKE, PARTICLE, CELL, STRAND, STRAND PORTION, ROD, FILAMENT, MACROSCOPIC FIBER OR MASS THEREOF  ->        Rod, strand, filament or fiber->        Bicomponent, conjugate, composite or collateral fibers or filaments (i.e., coextruded sheath-core or side-by-side type)
   1 427/576 -> 457 DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY  ->        Plasma (e.g., corona, glow discharge, cold plasma, etc.)->        Metal, metal alloy, or metal oxide coating
   1 427/534 -> 457 DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY  ->        Pretreatment of substrate or post-treatment of coated substrate ->        Ionized gas utilized (e.g., electrically powered source, corona discharge, plasma, glow discharge, etc.)->        Cleaning or removing part of substrate (e.g., etching with plasma, glow discharge, etc.)
   1 427/513 -> 457 DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY  ->        Polymerization of coating utilizing direct application of electrical, magnetic, wave, or particulate energy (i.e., including cross-linking, curing, and hardening of organics) ->        Low energy electromagnetic radiation utilized (e.g., UV, visible, IR, microwave, radio wave, actinic, laser, etc.)->        Textile or fiber coated or impregnated
   1 427/501 -> 457 DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY  ->        Polymerization of coating utilizing direct application of electrical, magnetic, wave, or particulate energy (i.e., including cross-linking, curing, and hardening of organics) ->        High energy electromagnetic radiation or high energy particles utilized (e.g., gamma rays, X-rays, atomic particles, i.e., alpha rays, beta rays, electrons, etc.)->        Textile, fiber, or wire coated or impregnated
   1 427/307 -> 299 WITH PRETREATMENT OF THE BASE ->        Etching, swelling, or dissolving out part of the base
   1 427/255.36 -> 248.1 COATING BY VAPOR, GAS, OR SMOKE  ->        Mixture of vapors or gases (e.g., deposition gas and inert gas, inert gas and reactive gas, two or more reactive gases, etc.) utilized ->        Coating formed from vaporous or gaseous phase reaction mixture (e.g., chemical vapor deposition, CVD, etc.) ->        Inorganic oxygen, sulfur, selenium, or tellurium (i.e., chalcogen) containing coating (e.g., phosphosilicate, silicon oxynitride, etc.) ->        Metal and chalcogen containing coating (e.g., metal oxide, metal sulfide, metal telluride, etc.)->        Titanium (Ti) or zirconium (Zr) containing
   1 425/133.1 -> 130 MEANS FEEDING FLUENT STOCK FROM PLURAL SOURCES TO COMMON SHAPING MEANS TO FORM COMPOSITE PRODUCT  ->        Extrusion shaping means->        Concentric
   1 425/114 -> 110 DISTINCT MEANS TO FEED, SUPPORT OR MANIPULATE PREFORM STOCK AND MEANS FOR SHAPING FLUENT OR BULK STOCK TO FORM UNITED PRODUCT  ->        Extrusion shaping means->        Means to feed or support plural preforms to or at extrusion means
   1 425/113 -> 110 DISTINCT MEANS TO FEED, SUPPORT OR MANIPULATE PREFORM STOCK AND MEANS FOR SHAPING FLUENT OR BULK STOCK TO FORM UNITED PRODUCT ->        Extrusion shaping means
   1 422/82.11 -> 50 ANALYZER, STRUCTURED INDICATOR, OR MANIPULATIVE LABORATORY DEVICE  ->        Means for analyzing liquid or solid sample ->        Measuring optical property by using ultraviolet, infrared, or visible light->        Waveguides
   1 422/82.08 -> 50 ANALYZER, STRUCTURED INDICATOR, OR MANIPULATIVE LABORATORY DEVICE  ->        Means for analyzing liquid or solid sample ->        Measuring optical property by using ultraviolet, infrared, or visible light->        Fluorescence
   1 422/138 -> 129 CHEMICAL REACTOR  ->        Organic polymerization->        With heat exchanger for reaction chamber or reactants located therein
   1 422/137 -> 129 CHEMICAL REACTOR  ->        Organic polymerization ->        Including reactant agitating means in reaction chamber->        Horizontal reaction chamber with screw or worm agitator
   1 422/136 -> 129 CHEMICAL REACTOR  ->        Organic polymerization ->        Including reactant agitating means in reaction chamber->        And means rotatably mounting reaction chamber
   1 422/135 -> 129 CHEMICAL REACTOR  ->        Organic polymerization->        Including reactant agitating means in reaction chamber
   1 405/184 -> 154.1 SUBTERRANEAN OR SUBMARINE PIPE OR CABLE LAYING, RETRIEVING, MANIPULATING, OR TREATING ->        Advancing subterranean length of pipe or cable
   1 405/154.1 SUBTERRANEAN OR SUBMARINE PIPE OR CABLE LAYING, RETRIEVING, MANIPULATING, OR TREATING
   1 398/97 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.)->        Repeater
   1 398/96 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.)->        Through free space
   1 398/94 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.) ->        Including feedback->        Power control
   1 398/84 -> 43 MULTIPLEX  ->        Wavelength division or frequency division (e.g., Raman, Brillouin, etc.) ->        By optical coupling ->        Add or drop->        Grating
   1 398/74 -> 43 MULTIPLEX ->        Hybrid
   1 398/73 -> 43 MULTIPLEX  ->        Broadcast and distribution system ->        WDM->        Bus
   1 398/65 -> 43 MULTIPLEX ->        Polarization
   1 398/55 -> 43 MULTIPLEX  ->        Optical switching->        space
   1 398/50 -> 43 MULTIPLEX  ->        Optical switching ->        Wavelength->        Crossconnect
   1 398/46 -> 43 MULTIPLEX  ->        Optical switching->        Hybrid
   1 398/40 EAVESDROPPING
   1 398/4 -> 1 FAULT RECOVERY  ->        Bypass inoperative element ->        In a ring or loop->        Using a secondary ring or loop
   1 398/37 -> 9 DIAGNOSTIC TESTING  ->        Determination of communication parameter->        Amplifier or repeater operation
   1 398/30 -> 9 DIAGNOSTIC TESTING  ->        Determination of communication parameter->        Using supervisory signal
   1 398/3 -> 1 FAULT RECOVERY  ->        Bypass inoperative element->        In a ring or loop
   1 398/28 -> 9 DIAGNOSTIC TESTING  ->        Determination of communication parameter->        Fiber characteristic
   1 398/26 -> 9 DIAGNOSTIC TESTING  ->        Determination of communication parameter->        Signal to noise ratio
   1 398/22 -> 9 DIAGNOSTIC TESTING  ->        Fault detection->        Transceiver
   1 398/214 -> 202 RECEIVER ->        Including optical waveguide
   1 398/205 -> 202 RECEIVER  ->        Heterodyne->        Including polarization
   1 398/200 -> 182 TRANSMITTER ->        Including optical waveguide
   1 398/20 -> 9 DIAGNOSTIC TESTING  ->        Fault detection->        Optical fiber
   1 398/199 -> 182 TRANSMITTER ->        Chirping
   1 398/192 -> 182 TRANSMITTER ->        Including compensation
   1 398/191 -> 182 TRANSMITTER  ->        Having particular modulation ->        Pulse modulation->        Pulse time
   1 398/190 -> 182 TRANSMITTER  ->        Having particular modulation ->        Pulse modulation->        Pulse-code
   1 398/177 -> 173 OPTICAL REPEATER SYSTEM ->        Monitoring
   1 398/170 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Retroreflection
   1 398/17 -> 9 DIAGNOSTIC TESTING ->        Fault detection
   1 398/167 -> 140 TRANSMITTER AND RECEIVER SYSTEM  ->        Plural stations->        Unidirectional or loopback
   1 398/16 -> 9 DIAGNOSTIC TESTING ->        Test signal
   1 398/159 -> 140 TRANSMITTER AND RECEIVER SYSTEM  ->        Including compensation->        Reducing distortion or dispersion
   1 398/156 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Including alignment between transmitter and receiver
   1 398/153 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        One transmitter, plural receivers
   1 398/152 -> 140 TRANSMITTER AND RECEIVER SYSTEM ->        Including polarization
   1 398/14 -> 9 DIAGNOSTIC TESTING  ->        Fault location->        WDM
   1 398/138 -> 135 OPTICAL TRANSCEIVER ->        Single device as transmitter and receiver
   1 398/131 -> 118 OPTICAL COMMUNICATION OVER FREEE SPACE  ->        Transmitter and receiver->        Including alignment
   1 398/129 -> 118 OPTICAL COMMUNICATION OVER FREEE SPACE  ->        Transceivers->        Including alignment
   1 398/128 -> 118 OPTICAL COMMUNICATION OVER FREEE SPACE ->        Transceivers
   1 398/127 -> 118 OPTICAL COMMUNICATION OVER FREEE SPACE ->        In an office environment
   1 398/126 -> 118 OPTICAL COMMUNICATION OVER FREEE SPACE ->        Specific repeater
   1 398/122 -> 118 OPTICAL COMMUNICATION OVER FREEE SPACE  ->        Satellite system->        Including alignment
   1 398/121 -> 118 OPTICAL COMMUNICATION OVER FREEE SPACE ->        Satellite system
   1 398/113 -> 106 REMOTE CONTROL ->        Through optical fiber or waveguide
   1 398/111 -> 106 REMOTE CONTROL ->        Switching
   1 398/101 -> 43 MULTIPLEX  ->        Time division->        By specific optical element
   1 385/98 -> 95 WITH SPLICE (PERMANENT CONNECTION)  ->        Alignment of fiber ends prior to splicing->        End-to-end (butt) coupling
   1 385/95 WITH SPLICE (PERMANENT CONNECTION)
   1 385/901 ILLUMINATING OR DISPLAY APPARATUS
   1 385/85 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Optical fiber/optical fiber cable termination structure ->        At or immediately surrounding an optical fiber end face ->        Fiber end held in ferrule->        Fiber/ferrule further processed (grinding, polishing, etc.)
   1 385/8 -> 4 DIRECTIONAL OPTICAL MODULATION WITHIN AN OPTICAL WAVEGUIDE ->        Electro-optic
   1 385/77 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Optical fiber/optical fiber cable termination structure->        At or immediately surrounding an optical fiber end face
   1 385/75 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection->        With additional nonoptical structure
   1 385/71 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection ->        With additional structure at or immediately surrounding each optical fiber end face->        Plural fiber-to-fiber connections
   1 385/7 -> 4 DIRECTIONAL OPTICAL MODULATION WITHIN AN OPTICAL WAVEGUIDE ->        Acousto-optic
   1 385/63 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection ->        Multi-part (e.g., two pieces screwed together or bayonet latched) ->        With additional structure at or immediately surrounding each optical fiber end face ->        Fiber end held in ferrule->        Plate-type holding structure (e.g., jewel)
   1 385/61 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection ->        Multi-part (e.g., two pieces screwed together or bayonet latched) ->        With additional structure at or immediately surrounding each optical fiber end face ->        Fiber end held in ferrule->        Lens-shaped ferrule
   1 385/60 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection ->        Multi-part (e.g., two pieces screwed together or bayonet latched) ->        With additional structure at or immediately surrounding each optical fiber end face->        Fiber end held in ferrule
   1 385/58 -> 53 WITH DISENGAGABLE MECHANICAL CONNECTOR  ->        Structure surrounding optical fiber-to-fiber connection ->        Multi-part (e.g., two pieces screwed together or bayonet latched)->        With additional structure at or immediately surrounding each optical fiber end face
   1 385/44 -> 15 WITH OPTICAL COUPLER  ->        Particular coupling structure->        "T" coupler or duplex coupler
   1 385/4 DIRECTIONAL OPTICAL MODULATION WITHIN AN OPTICAL WAVEGUIDE
   1 385/36 -> 15 WITH OPTICAL COUPLER  ->        Input/output coupler->        Prism
   1 385/34 -> 15 WITH OPTICAL COUPLER  ->        Input/output coupler ->        Lens->        Rod type
   1 385/32 -> 15 WITH OPTICAL COUPLER  ->        Input/output coupler->        Coupling light through a waveguide bend or loop
   1 385/25 -> 15 WITH OPTICAL COUPLER ->        Movable coupler
   1 385/23 -> 15 WITH OPTICAL COUPLER  ->        Switch (i.e., switching from one terminal to another, not modulation)->        Single pole single throw
   1 385/2 -> 1 TEMPORAL OPTICAL MODULATION WITHIN AN OPTICAL WAVEGUIDE ->        Electro-optic
   1 385/146 NONCYCLINDRICAL OR NONPLANAR SHAPED WAVEGUIDE
   1 385/125 -> 123 OPTICAL FIBER WAVEGUIDE WITH CLADDING ->        Utilizing nonsolid core or cladding
   1 385/124 -> 123 OPTICAL FIBER WAVEGUIDE WITH CLADDING ->        With graded index core or cladding
   1 385/121 -> 115 OPTICAL FIBER BUNDLE ->        Transition between geometric shapes
   1 385/120 -> 115 OPTICAL FIBER BUNDLE ->        Fiber bundle plate
   1 385/111 -> 100 OPTICAL TRANSMISSION CABLE  ->        Loose tube type->        Particular fiber orientation
   1 385/107 -> 100 OPTICAL TRANSMISSION CABLE  ->        Tightly confined (i.e., fiber tightly held inside the outer sheath)->        With armoring
   1 385/105 -> 100 OPTICAL TRANSMISSION CABLE  ->        Tightly confined (i.e., fiber tightly held inside the outer sheath)->        Compartmentalized
   1 385/104 -> 100 OPTICAL TRANSMISSION CABLE  ->        Tightly confined (i.e., fiber tightly held inside the outer sheath)->        Particular fiber orientation (e.g., helically wound, etc.)
   1 385/103 -> 100 OPTICAL TRANSMISSION CABLE  ->        Tightly confined (i.e., fiber tightly held inside the outer sheath)->        Having a central strength member
   1 385/10 -> 4 DIRECTIONAL OPTICAL MODULATION WITHIN AN OPTICAL WAVEGUIDE  ->        Electro-optic->        Diffraction grating (e.g., Bragg)
   1 382/234 -> 232 IMAGE COMPRESSION OR CODING ->        Parallel coding architecture
   1 380/59 MISCELLANEOUS
   1 380/54 BY MODIFYING OPTICAL IMAGE (E.G., TRANSMISSIVE OVERLAY)
   1 380/47 -> 277 KEY MANAGEMENT  ->        Having particular key generator->        Plural generators
   1 380/285 -> 277 KEY MANAGEMENT  ->        Key distribution ->        User-to-user key distributed over data link (i.e., no center)->        By public key method
   1 380/278 -> 277 KEY MANAGEMENT ->        Key distribution
   1 380/267 -> 255 COMMUNICATION SYSTEM USING CRYPTOGRAPHY ->        Correcting for random appearance of control character code
   1 380/261 -> 255 COMMUNICATION SYSTEM USING CRYPTOGRAPHY  ->        Symmetric key cryptography ->        Symmetric key synchronization->        Including frame synchronization
   1 380/241 -> 200 VIDEO CRYPTOGRAPHY  ->        Video electric signal modification (e.g., scrambling) ->        Including addressed decoder control signal->        Having program ID or authorization
   1 380/240 -> 200 VIDEO CRYPTOGRAPHY  ->        Video electric signal modification (e.g., scrambling)->        Including addressed decoder control signal
   1 380/239 -> 200 VIDEO CRYPTOGRAPHY  ->        Video electric signal modification (e.g., scrambling)->        Encrypted code control signal
   1 380/210 -> 200 VIDEO CRYPTOGRAPHY ->        Video electric signal modification (e.g., scrambling)
   1 379/93.25 -> 90.01 TELEPHONE LINE OR SYSTEM COMBINED WITH DIVERSE ELECTRICAL SYSTEM OR SIGNALLING (E.G., COMPOSITE)  ->        Having transmission of a digital message signal over a telephone line ->        Having station display->        Having remote database (e.g., videotex system)
   1 379/93.17 -> 90.01 TELEPHONE LINE OR SYSTEM COMBINED WITH DIVERSE ELECTRICAL SYSTEM OR SIGNALLING (E.G., COMPOSITE)  ->        Having transmission of a digital message signal over a telephone line->        Having station display
   1 379/93.05 -> 90.01 TELEPHONE LINE OR SYSTEM COMBINED WITH DIVERSE ELECTRICAL SYSTEM OR SIGNALLING (E.G., COMPOSITE)  ->        Having transmission of a digital message signal over a telephone line->        Terminal interface circuitry
   1 379/90.01 TELEPHONE LINE OR SYSTEM COMBINED WITH DIVERSE ELECTRICAL SYSTEM OR SIGNALLING (E.G., COMPOSITE)
   1 379/9.02 -> 1.01 DIAGNOSTIC TESTING, MALFUNCTION INDICATION, OR ELECTRICAL CONDITION MEASUREMENT  ->        Of centralized switching system->        Maintenance console
   1 379/9 -> 1.01 DIAGNOSTIC TESTING, MALFUNCTION INDICATION, OR ELECTRICAL CONDITION MEASUREMENT ->        Of centralized switching system
   1 379/88.13 -> 67.1 AUDIO MESSAGE STORAGE, RETRIEVAL, OR SYNTHESIS ->        Multimedia system (e.g., voice output combined with fax, video, text, etc.)
   1 379/56.3 -> 56.1 HAVING LIGHT WAVE OR ULTRASONIC LINK FOR SPEECH OR PAGING SIGNAL ->        Including infra-red link with landline telephone network
   1 379/56.2 -> 56.1 HAVING LIGHT WAVE OR ULTRASONIC LINK FOR SPEECH OR PAGING SIGNAL ->        Including fiber optic link within telephone network
   1 379/56.1 HAVING LIGHT WAVE OR ULTRASONIC LINK FOR SPEECH OR PAGING SIGNAL
   1 379/413.02 -> 399.01 SUBSCRIBER LINE OR TRANSMISSION LINE INTERFACE ->        Network interface device (NLD)
   1 379/412 -> 399.01 SUBSCRIBER LINE OR TRANSMISSION LINE INTERFACE ->        Protective circuit
   1 379/399.01 SUBSCRIBER LINE OR TRANSMISSION LINE INTERFACE
   1 379/39 -> 37 EMERGENCY OR ALARM COMMUNICATIONS (E.G., WATCHMAN'S CIRCUIT) ->        Responsive to sensed nonsystem condition
   1 379/377 -> 350 SUPERVISORY OR CONTROL LINE SIGNALING ->        Using line or loop condition detection (e.g., line circuit)
   1 379/322 -> 242 CENTRALIZED SWITCHING SYSTEM ->        Power supply
   1 379/290 -> 242 CENTRALIZED SWITCHING SYSTEM  ->        Switching controlled in response to called station addressing signal ->        Having shared or common switching control->        With time division of control or supervisory signals
   1 379/29.01 -> 1.01 DIAGNOSTIC TESTING, MALFUNCTION INDICATION, OR ELECTRICAL CONDITION MEASUREMENT  ->        Testing of subscriber loop or terminal->        Terminal arrangement to enable remote testing (e.g., testing interface)
   1 379/279 -> 242 CENTRALIZED SWITCHING SYSTEM  ->        Switching controlled in response to called station addressing signal ->        Having shared or common switching control->        Control reliability (e.g., redundancy)
   1 379/269 -> 242 CENTRALIZED SWITCHING SYSTEM  ->        Switching controlled in response to called station addressing signal ->        Having shared or common switching control->        Distributed control
   1 379/257 -> 242 CENTRALIZED SWITCHING SYSTEM  ->        With generating of call associated substation signal->        For calling station (e.g., status or progress tones)
   1 379/253 -> 242 CENTRALIZED SWITCHING SYSTEM  ->        With generating of call associated substation signal ->        For alerting signal at called station (e.g., ringing)->        Electronic
   1 379/252 -> 242 CENTRALIZED SWITCHING SYSTEM  ->        With generating of call associated substation signal->        For alerting signal at called station (e.g., ringing)
   1 379/242 CENTRALIZED SWITCHING SYSTEM
   1 379/24 -> 1.01 DIAGNOSTIC TESTING, MALFUNCTION INDICATION, OR ELECTRICAL CONDITION MEASUREMENT  ->        Of trunk or long line->        Electrical parameter measurement (e.g., attenuation)
   1 379/237 -> 219 PLURAL EXCHANGE NETWORK OR INTERCONNECTION  ->        Interexchange signalling ->        D.C. signalling over trunk->        Pulse or digital signalling
   1 379/230 -> 219 PLURAL EXCHANGE NETWORK OR INTERCONNECTION  ->        Interexchange signalling->        Signalling path distinct from trunk (e.g., CCIS)
   1 379/229 -> 219 PLURAL EXCHANGE NETWORK OR INTERCONNECTION ->        Interexchange signalling
   1 379/22.03 -> 1.01 DIAGNOSTIC TESTING, MALFUNCTION INDICATION, OR ELECTRICAL CONDITION MEASUREMENT  ->        Of trunk or long line->        Fault detection or fault location on telephone link (e.g., continuity, leakage)
   1 379/196 -> 188 CALL OR TERMINAL ACCESS ALARM OR CONTROL ->        At switching center
   1 379/189 -> 188 CALL OR TERMINAL ACCESS ALARM OR CONTROL ->        Fraud or improper use mitigating or indication (e.g., "blue box", "black box")
   1 379/164 -> 156 MULTI-LINE OR KEY SUBSTATION SYSTEM WITH SELECTIVE SWITCHING AND CENTRAL SWITCHING OFFICE CONNECTION ->        Line status indication or call alerting
   1 379/145 -> 143 WITH CHECK OPERATED CONTROL (E.G., PAYSTATION) ->        Fraud or interference prevention
   1 379/14 -> 1.01 DIAGNOSTIC TESTING, MALFUNCTION INDICATION, OR ELECTRICAL CONDITION MEASUREMENT  ->        Of centralized switching system->        Of plural exchange network
   1 379/12 -> 1.01 DIAGNOSTIC TESTING, MALFUNCTION INDICATION, OR ELECTRICAL CONDITION MEASUREMENT  ->        Of centralized switching system->        With dedicated testing line or trunk
   1 379/114.14 -> 111 WITH USAGE MEASUREMENT (E.G., CALL OR TRAFFIC REGISTER)  ->        Call charge metering or monitoring->        Fraud detection or control
   1 377/48 -> 27 SYSTEMS  ->        Pulse multiplication or division->        Multiplication or division by a fraction
   1 375/373 -> 354 SYNCHRONIZERS  ->        Phase displacement, slip or jitter correction->        Phase locking
   1 375/368 -> 354 SYNCHRONIZERS  ->        Frequency or phase control using synchronizing signal ->        Synchronization word->        Synchronizer pattern recognizers
   1 375/367 -> 354 SYNCHRONIZERS  ->        Frequency or phase control using synchronizing signal ->        Synchronization word->        Pseudo noise
   1 375/365 -> 354 SYNCHRONIZERS  ->        Frequency or phase control using synchronizing signal->        Synchronization word
   1 375/364 -> 354 SYNCHRONIZERS  ->        Frequency or phase control using synchronizing signal->        Synchronization signals with unique amplitude, polarity, length, or frequency
   1 375/357 -> 354 SYNCHRONIZERS ->        Synchronization failure prevention
   1 375/345 -> 316 RECEIVERS ->        Automatic gain control
   1 375/333 -> 316 RECEIVERS  ->        Angle modulation ->        Phase shift keying->        Biphase (manchester code)
   1 375/324 -> 316 RECEIVERS  ->        Angle modulation->        Particular demodulator
   1 375/297 -> 295 TRANSMITTERS  ->        Antinoise or distortion (includes predistortion)->        Power amplifier
   1 375/296 -> 295 TRANSMITTERS ->        Antinoise or distortion (includes predistortion)
   1 375/295 TRANSMITTERS
   1 375/293 -> 286 MULTILEVEL ->        Synchronized
   1 375/289 -> 286 MULTILEVEL ->        Bipolar signal
   1 375/286 MULTILEVEL
   1 375/282 -> 259 SYSTEMS USING ALTERNATING OR PULSATING CURRENT  ->        Angle modulation ->        Phase shift keying->        Biphase (manchester codes)
   1 375/260 -> 259 SYSTEMS USING ALTERNATING OR PULSATING CURRENT ->        Plural channels for transmission of a single pulse train
   1 375/258 -> 257 CABLE SYSTEMS AND COMPONENTS ->        Transformer coupling
   1 375/253 -> 242 PULSE CODE MODULATION ->        Length coding
   1 375/242 PULSE CODE MODULATION
   1 375/240.25 -> 240 BANDWIDTH REDUCTION OR EXPANSION  ->        Television or motion video signal->        Specific decompression process
   1 375/240.12 -> 240 BANDWIDTH REDUCTION OR EXPANSION  ->        Television or motion video signal->        Predictive
   1 375/235 -> 229 EQUALIZERS  ->        Automatic ->        Adaptive->        Quadrature channels
   1 375/224 TESTING
   1 375/222 -> 219 TRANSCEIVERS ->        Modems (data sets)
   1 375/220 -> 219 TRANSCEIVERS ->        Transmission interface between two stations or terminals
   1 372/99 -> 92 PARTICULAR RESONANT CAVITY  ->        Specified cavity component->        Reflector
   1 372/95 -> 92 PARTICULAR RESONANT CAVITY ->        Unstable resonator
   1 372/64 -> 39 PARTICULAR ACTIVE MEDIA  ->        Gas ->        Discharge tube feature->        Waveguide
   1 372/38.1 PARTICULAR COMPONENT CIRCUITRY
   1 372/38.09 -> 38.1 PARTICULAR COMPONENT CIRCUITRY ->        Having fault protection circuitry
   1 372/38.04 -> 38.1 PARTICULAR COMPONENT CIRCUITRY ->        Power supply
   1 372/30 -> 9 PARTICULAR BEAM CONTROL DEVICE  ->        Optical output stabilization->        Pulse
   1 372/29.021 -> 9 PARTICULAR BEAM CONTROL DEVICE  ->        Optical output stabilization->        Power
   1 372/29.012 -> 9 PARTICULAR BEAM CONTROL DEVICE  ->        Having particular beam control circuit component->        Power supply
   1 372/29.011 -> 9 PARTICULAR BEAM CONTROL DEVICE  ->        Having particular beam control circuit component->        Feedback circuitry
   1 372/26 -> 9 PARTICULAR BEAM CONTROL DEVICE ->        Modulation
   1 372/25 -> 9 PARTICULAR BEAM CONTROL DEVICE ->        Control of pulse characteristics
   1 372/18 -> 9 PARTICULAR BEAM CONTROL DEVICE ->        Mode locking
   1 372/103 -> 92 PARTICULAR RESONANT CAVITY  ->        Specified cavity component->        Window, aperture, and mask
   1 370/906 -> 901 WIDE AREA NETWORK  ->        Packet switching ->        OSI Compliant Network->        Fiber Data Distribution Interface (FDDI)
   1 370/905 -> 901 WIDE AREA NETWORK  ->        Packet switching ->        OSI Compliant Network->        Asynchronous Transfer Mode (ATM)
   1 370/545 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels->        Conversion of rate from a single input to a single output
   1 370/544 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Demultiplexing single input channel to plural output channels->        Same rate output channels
   1 370/540 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Multiplexing plural input channels to a common output channel->        Plural input channels of same rate to a single common rate output channel
   1 370/537 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels->        Multiplexing plural input channels to a common output channel
   1 370/529 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels->        Information superimposed on other information
   1 370/528 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Signaling (ancillary to main information)->        Inserted in gaps in main information
   1 370/521 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels->        Time compression or expansion
   1 370/515 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing ->        Using synchronization information contained in a frame ->        Unique synchronization word or unique bit sequence->        Pseudo-random
   1 370/514 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing ->        Using synchronization information contained in a frame->        Unique synchronization word or unique bit sequence
   1 370/506 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels ->        Synchronizing ->        Pulse stuffing or deletion->        Frame or bit stream justification
   1 370/501 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via time channels->        Repeater
   1 370/498 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS ->        Combining or distributing information via time channels
   1 370/493 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via frequency channels->        Combined voice and data transmission
   1 370/492 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via frequency channels->        Repeater
   1 370/490 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via frequency channels ->        Bus (distributed stations)->        Combined communication of diverse information types
   1 370/488 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via frequency channels ->        Subscriber carrier->        Connecting filters
   1 370/483 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Combining or distributing information via frequency channels->        Using angle modulation
   1 370/478 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS ->        Combined time division and frequency division
   1 370/476 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS ->        Byte assembly and formatting
   1 370/472 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Adaptive->        Byte length
   1 370/471 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Adaptive ->        Frame length->        Message having an address header
   1 370/470 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Adaptive->        Frame length
   1 370/469 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Adaptive->        Processing multiple layer protocols
   1 370/467 -> 464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS  ->        Adaptive ->        Converting between protocols->        Conversion between signaling protocols
   1 370/464 COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS
   1 370/455 -> 431 CHANNEL ASSIGNMENT TECHNIQUES  ->        Polling ->        Passing a signal identifying the idle or busy state of a channel (e.g., token passing) ->        On bus ->        On ring or loop->        Including priority resolution
   1 370/448 -> 431 CHANNEL ASSIGNMENT TECHNIQUES  ->        Carrier sense multiple access (CSMA) ->        Arbitration for access between contending stations->        Using weighted back-off timing
   1 370/446 -> 431 CHANNEL ASSIGNMENT TECHNIQUES  ->        Carrier sense multiple access (CSMA)->        Using a star coupler
   1 370/444 -> 431 CHANNEL ASSIGNMENT TECHNIQUES  ->        Combining or distributing information via time channels using multiple access technique (e.g., TDMA) ->        Using channel reservation->        With priority resolution
   1 370/440 -> 431 CHANNEL ASSIGNMENT TECHNIQUES  ->        Using a separate control line or bus for access control ->        Control line is used to request or reserve access->        Dual bus dynamic queuing (i.e., DQDB)
   1 370/439 -> 431 CHANNEL ASSIGNMENT TECHNIQUES  ->        Using a separate control line or bus for access control->        Control line is used to request or reserve access
   1 370/438 -> 431 CHANNEL ASSIGNMENT TECHNIQUES ->        Using a separate control line or bus for access control
   1 370/436 -> 431 CHANNEL ASSIGNMENT TECHNIQUES ->        Combined time and frequency assignment
   1 370/433 -> 431 CHANNEL ASSIGNMENT TECHNIQUES ->        Only active channels transmitted
   1 370/428 -> 351 PATHFINDING OR ROUTING ->        Store and forward
   1 370/424 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Centralized switching ->        Including a bus for interconnecting inputs and outputs->        Including a ring or loop for interconnecting inputs and outputs
   1 370/414 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Queuing arrangement ->        Having both input and output queuing->        Contention resolution for output
   1 370/403 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Having a plurality of nodes performing distributed switching ->        Bridge or gateway between networks ->        Bridge between bus systems->        At least one bus is a ring network
   1 370/402 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Having a plurality of nodes performing distributed switching ->        Bridge or gateway between networks->        Bridge between bus systems
   1 370/395.71 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Having detail of switch memory reading/writing->        Having input or output storage or both
   1 370/395.7 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells)->        Having detail of switch memory reading/writing
   1 370/395.64 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Adapting detail (e.g., converting to/from ATM, or detail of ATM Adaption Layers (AALs))->        Adapting connection-oriented variable bit rate (VBR) data (e.g., MPEG/HDTV packet video/audio over ATM or using AAL2)
   1 370/395.52 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Multiprotocol network->        Internet Protocol (including TCP/IP or UDP/IP) over fixed length packet network (e.g., IP over ATM)
   1 370/395.42 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Assigning period of time for information to be transmitted (e.g., scheduling)->        Based on priority
   1 370/395.41 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header ->        Message transmitted using fixed length packets (e.g., ATM cells) ->        Assigning period of time for information to be transmitted (e.g., scheduling)->        Based on bandwidth allocation (e.g., Weighted Round Robin)
   1 370/392 -> 351 PATHFINDING OR ROUTING  ->        Switching a message which includes an address header->        Processing of address header for routing, per se
   1 370/388 -> 351 PATHFINDING OR ROUTING  ->        Through a circuit switch ->        Particular switching network arrangement->        Multistage switch
   1 370/384 -> 351 PATHFINDING OR ROUTING  ->        Through a circuit switch ->        Switching control->        Having a supervisory signaling feature
   1 370/381 -> 351 PATHFINDING OR ROUTING  ->        Through a circuit switch ->        Switching control->        Having details of control storage arrangement
   1 370/375 -> 351 PATHFINDING OR ROUTING  ->        Through a circuit switch ->        Switching control->        Time switch, per se (e.g., T or T-T)
   1 370/358 -> 351 PATHFINDING OR ROUTING  ->        Through a circuit switch->        Switching input signals having different aggregate bit rates
   1 370/357 -> 351 PATHFINDING OR ROUTING ->        Through a circuit switch
   1 370/356 -> 351 PATHFINDING OR ROUTING  ->        Combined circuit switching and packet switching->        Routing circuit switched traffic through a packet switching network
   1 370/351 PATHFINDING OR ROUTING
   1 370/349 -> 310 COMMUNICATION OVER FREE SPACE  ->        Combining or distributing information via time channels->        Using messages having an address field as header
   1 370/348 -> 310 COMMUNICATION OVER FREE SPACE  ->        Combining or distributing information via time channels ->        Multiple access (e.g., TDMA)->        Channel reservation scheme
   1 370/343 -> 310 COMMUNICATION OVER FREE SPACE ->        Combining or distributing information via frequency channels
   1 370/337 -> 310 COMMUNICATION OVER FREE SPACE  ->        Having a plurality of contiguous regions served by respective fixed stations ->        Channel assignment ->        Combining or distributing information via time channels->        Multiple access (e.g., TDMA)
   1 370/328 -> 310 COMMUNICATION OVER FREE SPACE ->        Having a plurality of contiguous regions served by respective fixed stations
   1 370/324 -> 310 COMMUNICATION OVER FREE SPACE  ->        Repeater ->        Airborne or space satellite repeater ->        Multiple access (e.g., FDMA) ->        Time division (TDMA)->        Synchronization
   1 370/318 -> 310 COMMUNICATION OVER FREE SPACE  ->        Repeater ->        Airborne or space satellite repeater ->        Including noise compensation->        Including power control
   1 370/310 COMMUNICATION OVER FREE SPACE
   1 370/280 -> 276 DUPLEX  ->        Communication over free space->        Time division
   1 370/259 SPECIAL SERVICES
   1 370/258 -> 254 NETWORK CONFIGURATION DETERMINATION  ->        In a bus system->        In a ring system
   1 370/255 -> 254 NETWORK CONFIGURATION DETERMINATION ->        Using a particular learning algorithm or technique
   1 370/253 -> 241 DIAGNOSTIC TESTING (OTHER THAN SYNCHRONIZATION)  ->        Determination of communication parameters->        Measurement of flow rate of messages having an address header
   1 370/241.1 -> 241 DIAGNOSTIC TESTING (OTHER THAN SYNCHRONIZATION) ->        Using OAM (Operation, Administration and Maintenance) cells
   1 370/231 -> 229 DATA FLOW CONGESTION PREVENTION OR CONTROL  ->        Control of data admission to the network->        End-to-end flow control
   1 370/222 -> 216 FAULT RECOVERY  ->        Bypass an inoperative station->        In a ring or loop network
   1 370/220 -> 216 FAULT RECOVERY  ->        Bypass an inoperative switch or inoperative element of a switching system->        Standby switch
   1 370/210 -> 203 GENERALIZED ORTHOGONAL OR SPECIAL MATHEMATICAL TECHNIQUES ->        Fourier transform
   1 370/206 -> 203 GENERALIZED ORTHOGONAL OR SPECIAL MATHEMATICAL TECHNIQUES ->        Quadrature carriers
   1 363/97 -> 13 CURRENT CONVERSION  ->        With condition responsive means to control the output voltage or current ->        Cooperating separate sensing and control means ->        For inverter->        With transistor control means in the line circuit
   1 363/65 -> 13 CURRENT CONVERSION ->        Having plural converters for single conversion
   1 363/60 -> 13 CURRENT CONVERSION  ->        With voltage multiplication means (i.e., V out > V in)->        Including semiconductor means
   1 363/59 -> 13 CURRENT CONVERSION ->        With voltage multiplication means (i.e., V out > V in)
   1 363/56.1 -> 13 CURRENT CONVERSION  ->        Including automatic or integral protection means ->        For inverters ->        Transistor inverter ->        Single-ended type->        Having current protection
   1 363/21.11 -> 13 CURRENT CONVERSION  ->        Including D.C.-A.C.-D.C. converter ->        Having transistorized inverter ->        Single-ended, separately-driven type ->        With automatic control of the magnitude of output voltage or current ->        For forward-type converter ->        Utilizing pulse-width modulation->        Having particular pulse-width modulation circuit
   1 363/21.05 -> 13 CURRENT CONVERSION  ->        Including D.C.-A.C.-D.C. converter ->        Having transistorized inverter ->        Single-ended, separately-driven type ->        With automatic control of the magnitude of output voltage or current ->        For forward-type converter->        Having digital logic
   1 362/553 -> 551 LIGHT FIBER, ROD, OR PIPE ->        Laser
   1 361/816 -> 600 HOUSING OR MOUNTING ASSEMBLIES WITH DIVERSE ELECTRICAL COMPONENTS  ->        For electronic systems and devices->        Shielding
   1 361/807 -> 600 HOUSING OR MOUNTING ASSEMBLIES WITH DIVERSE ELECTRICAL COMPONENTS  ->        For electronic systems and devices->        Component mounting or support means
   1 361/728 -> 600 HOUSING OR MOUNTING ASSEMBLIES WITH DIVERSE ELECTRICAL COMPONENTS  ->        For electronic systems and devices->        Module
   1 361/275.4 -> 271 ELECTROSTATIC CAPACITORS  ->        With protection or compensating means ->        For electrical irregularities->        With thermal fuse
   1 359/834 -> 831 PRISM (INCLUDING MOUNT)  ->        With reflecting surface->        Plural reflecting surfaces
   1 359/637 -> 618 SINGLE CHANNEL SIMULTANEOUSLY TO OR FROM PLURAL CHANNELS (E.G., LIGHT DIVIDING, COMBINING, OR PLURAL IMAGE FORMING, ETC.)  ->        By partial reflection at beam splitting or combining surface->        With path length or aberration correcting element
   1 359/634 -> 618 SINGLE CHANNEL SIMULTANEOUSLY TO OR FROM PLURAL CHANNELS (E.G., LIGHT DIVIDING, COMBINING, OR PLURAL IMAGE FORMING, ETC.)  ->        By partial reflection at beam splitting or combining surface->        Wavelength selective (e.g., dichroic mirror, etc.)
   1 359/589 -> 577 LIGHT INTERFERENCE  ->        Produced by coating or lamina->        Selective wavelength transmission or reflection
   1 359/586 -> 577 LIGHT INTERFERENCE  ->        Produced by coating or lamina->        Layers having specified index of refraction
   1 359/580 -> 577 LIGHT INTERFERENCE ->        Produced by coating or lamina
   1 359/569 -> 558 DIFFRACTION  ->        From grating->        Including particular grating characteristic
   1 359/501 -> 483 POLARIZATION WITHOUT MODULATION  ->        Light polarization without any external input->        By relatively adjustable superimposed or in series polarizers
   1 359/498 -> 483 POLARIZATION WITHOUT MODULATION  ->        Light polarization without any external input ->        By birefringent element ->        Using plural elements->        Frequency filter or interference effects
   1 359/495 -> 483 POLARIZATION WITHOUT MODULATION  ->        Light polarization without any external input ->        By birefringent element->        For beam deflection or splitting
   1 359/487 -> 483 POLARIZATION WITHOUT MODULATION  ->        Light polarization without any external input->        By reflection or refraction (e.g., Brewster angle)
   1 359/484 -> 483 POLARIZATION WITHOUT MODULATION ->        Time invariant electric, magnetic, or electromagnetic field responsive (e.g., electro-optical, magneto-optical)
   1 359/483 POLARIZATION WITHOUT MODULATION
   1 359/349 -> 333 OPTICAL AMPLIFIER ->        Beam combination or separation
   1 359/346 -> 333 OPTICAL AMPLIFIER ->        Particular resonator cavity (e.g., scanning, confocal or folded mirrors, etc.)
   1 359/341.42 -> 333 OPTICAL AMPLIFIER  ->        Optical fiber ->        Feedback->        Automatic Level Control (ALC)
   1 359/341.4 -> 333 OPTICAL AMPLIFIER  ->        Optical fiber->        Feedback
   1 359/340 -> 333 OPTICAL AMPLIFIER ->        Mode locked
   1 359/337.4 -> 333 OPTICAL AMPLIFIER  ->        Correction of deleterious effects->        Complementary, adjusting stages
   1 359/334 -> 333 OPTICAL AMPLIFIER ->        Raman or Brillouin process
   1 359/332 -> 326 OPTICAL FREQUENCY CONVERTER ->        Dielectric optical waveguide type
   1 359/331 -> 326 OPTICAL FREQUENCY CONVERTER ->        Optical laser acoustic delay line type
   1 359/326 OPTICAL FREQUENCY CONVERTER
   1 359/323 -> 237 OPTICAL MODULATOR  ->        Having particular chemical composition or structure ->        Electro-optic crystal material->        PLZT material
   1 359/320 -> 237 OPTICAL MODULATOR  ->        Light wave directional modulation (e.g., deflection or scanning is representative of the modulating signal) ->        Electro-optic->        Switching
   1 359/301 -> 237 OPTICAL MODULATOR  ->        Light wave directional modulation (e.g., deflection or scanning is representative of the modulating signal)->        Acting on polarized light
   1 359/299 -> 237 OPTICAL MODULATOR  ->        Light wave directional modulation (e.g., deflection or scanning is representative of the modulating signal)->        Opto-optical device
   1 359/298 -> 237 OPTICAL MODULATOR ->        Light wave directional modulation (e.g., deflection or scanning is representative of the modulating signal)
   1 359/288 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.) ->        Changing bulk optical parameter->        Thermo-optic
   1 359/287 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.) ->        Changing bulk optical parameter ->        Acousto-optic->        Frequency modulation
   1 359/285 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.) ->        Changing bulk optical parameter->        Acousto-optic
   1 359/260 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.) ->        Changing bulk optical parameter ->        Electro-optic->        Etalon structure
   1 359/251 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.) ->        Changing bulk optical parameter ->        Electro-optic ->        Modulation of polarized light via modulating input signal->        With particular direction of the field in relation to the medium, beam direction or polarization
   1 359/248 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.) ->        Changing bulk optical parameter ->        Electro-optic ->        Modulation of polarized light via modulating input signal ->        Using reflective or cavity structure->        Semiconductor
   1 359/246 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.) ->        Changing bulk optical parameter ->        Electro-optic->        Modulation of polarized light via modulating input signal
   1 359/239 -> 237 OPTICAL MODULATOR  ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.)->        Modulator output feedback to modulator
   1 359/238 -> 237 OPTICAL MODULATOR ->        Light wave temporal modulation (e.g., frequency, amplitude, etc.)
   1 359/237 OPTICAL MODULATOR
   1 359/224 -> 196 DEFLECTION USING A MOVING ELEMENT OR MEDIUM (OFFSETTING OR CHANGING AT LEAST A PORTION OF THE BEAM)  ->        By moving a reflective element->        Reflective element moved by deformable support
   1 359/223 -> 196 DEFLECTION USING A MOVING ELEMENT OR MEDIUM (OFFSETTING OR CHANGING AT LEAST A PORTION OF THE BEAM) ->        By moving a reflective element
   1 359/15 -> 1 HOLOGRAPHIC SYSTEM OR ELEMENT ->        Using a hologram as an optical element
   1 359/107 OPTICAL COMPUTING WITHOUT DIFFRACTION
   1 356/519 -> 450 BY LIGHT INTERFERENCE (E.G., INTERFEROMETER) ->        Having partially reflecting plates in series (e.g., Fabry-Perot type)
   1 356/5.01 -> 3 RANGE OR REMOTE DISTANCE FINDING  ->        With photodetection->        Of pulse transit time
   1 356/498 -> 450 BY LIGHT INTERFERENCE (E.G., INTERFEROMETER)  ->        For dimensional measurement->        Displacement or distance
   1 356/464 -> 450 BY LIGHT INTERFERENCE (E.G., INTERFEROMETER)  ->        Rotation rate (e.g., ring laser gyros) ->        By fiber or waveguide interferometer (e.g., Sagnac effect)->        Having null feedback loop
   1 356/454 -> 450 BY LIGHT INTERFERENCE (E.G., INTERFEROMETER)  ->        Spectroscopy->        Fabry-Perot type or Etalon Type
   1 356/4.01 -> 3 RANGE OR REMOTE DISTANCE FINDING ->        With photodetection
   1 356/368 -> 364 BY POLARIZED LIGHT EXAMINATION  ->        With polariscopes ->        Including polarimeters->        With electro-optical light rotation
   1 356/367 -> 364 BY POLARIZED LIGHT EXAMINATION  ->        With polariscopes->        Including polarimeters
   1 356/138 ANGLE MEASURING OR ANGULAR AXIAL ALIGNMENT
   1 349/196 -> 193 LIQUID CRYSTAL OPTICAL ELEMENT ->        Beam dividing switch formed from liquid crystal cell
   1 349/172 -> 167 WITH SPECIFIED NONCHEMICAL CHARACTERISTIC OF LIQUID CRYSTAL MATERIAL  ->        Within smectic phase->        Within chiral smectic phase (includes ferroelectric)
   1 349/133 -> 56 PARTICULAR STRUCTURE  ->        Having significant detail of cell structure only ->        Particular nonoptical film or layer (e.g., adhesive layer, barrier layer) ->        Alignment layer ->        For parallel alignment->        With chiral smectic liquid crystal (includes ferroelectric liquid crystal)
   1 348/737 -> 725 RECEIVER CIRCUITRY ->        Intercarrier circuits
   1 348/724 -> 723 TELEVISION TRANSMITTER CIRCUITRY ->        Modulator
   1 348/683 -> 571 IMAGE SIGNAL PROCESSING CIRCUITRY SPECIFIC TO TELEVISION  ->        Gray scale transformation ->        Automatic range control (e.g., AGC, automatic contrast control) ->        Sync or blanking->        Noise reduction or elimination
   1 348/682 -> 571 IMAGE SIGNAL PROCESSING CIRCUITRY SPECIFIC TO TELEVISION  ->        Gray scale transformation ->        Automatic range control (e.g., AGC, automatic contrast control)->        Sync or blanking
   1 348/534 -> 500 SYNCHRONIZATION  ->        Sync separation ->        Noise reduction->        Amplitude limiting
   1 348/533 -> 500 SYNCHRONIZATION  ->        Sync separation->        Noise reduction
   1 348/528 -> 500 SYNCHRONIZATION  ->        Sync separation->        Including automatic gain control (AGC)
   1 348/243 -> 207.99 CAMERA, SYSTEM AND DETAIL  ->        Combined image signal generator and general image signal processing ->        Including noise or undesired signal reduction->        Dark current
   1 348/192 -> 180 MONITORING, TESTING, OR MEASURING ->        Transmission path testing
   1 345/861 -> 700 OPERATOR INTERFACE (E.G., GRAPHICAL USER INTERFACE)  ->        On-screen workspace or object ->        Cursor ->        Status indicator->        Dynamically changed appearance (e.g., animated or live action)
   1 345/836 -> 700 OPERATOR INTERFACE (E.G., GRAPHICAL USER INTERFACE)  ->        On-screen workspace or object ->        Menu or selectable iconic array (e.g., palette) ->        Selectable iconic array->        3D icons
   1 345/757 -> 700 OPERATOR INTERFACE (E.G., GRAPHICAL USER INTERFACE)  ->        Computer supported collaborative work between plural users ->        Computer conferencing->        Virtual 3D environment
   1 345/752 -> 700 OPERATOR INTERFACE (E.G., GRAPHICAL USER INTERFACE)  ->        Computer supported collaborative work between plural users->        Interactive email
   1 345/629 -> 418 COMPUTER GRAPHICS PROCESSING  ->        Graphic manipulation (object processing or display attributes)->        Merge or overlay
   1 345/473 -> 418 COMPUTER GRAPHICS PROCESSING ->        Animation
   1 345/443 -> 418 COMPUTER GRAPHICS PROCESSING  ->        Shape generating->        Straight line
   1 345/427 -> 418 COMPUTER GRAPHICS PROCESSING  ->        Three-dimension->        Space transformation
   1 342/374 -> 350 DIRECTIVE  ->        Including a steerable array->        With a switch
   1 342/189 -> 175 WITH PARTICULAR CIRCUIT ->        For correlation
   1 342/115 -> 104 DETERMINING VELOCITY ->        Digital
   1 341/59 -> 50 DIGITAL CODE TO DIGITAL CODE CONVERTERS ->        To or from run length limited codes
   1 341/58 -> 50 DIGITAL CODE TO DIGITAL CODE CONVERTERS ->        To or from minimum d.c. level codes
   1 341/56 -> 50 DIGITAL CODE TO DIGITAL CODE CONVERTERS ->        To or from multi-level codes
   1 341/107 -> 50 DIGITAL CODE TO DIGITAL CODE CONVERTERS ->        To or from code based on probability
   1 341/100 -> 50 DIGITAL CODE TO DIGITAL CODE CONVERTERS ->        Serial to parallel
   1 340/870.28 -> 870.01 CONTINUOUSLY VARIABLE INDICATING (E.G., TELEMETERING) ->        Via radiant energy beam (via particular energy)
   1 340/825.72 -> 825 SELECTIVE  ->        Frequency responsive actuation->        Wireless link
   1 340/825.52 -> 825 SELECTIVE ->        Addressing
   1 340/825.5 -> 825 SELECTIVE ->        Lockout or priority (programmed or variable)
   1 340/825.36 -> 825 SELECTIVE ->        Having indication or alarm (e.g., location indication)
   1 340/825.01 -> 825 SELECTIVE ->        Spare channel
   1 340/531 -> 500 CONDITION RESPONSIVE INDICATING SYSTEM ->        With particular coupling link
   1 340/310.06 -> 286.01 SYSTEMS  ->        Signal over power line->        Bidirectional (e.g., with transceiver)
   1 340/3.51 -> 825 SELECTIVE  ->        Monitoring in addition to control (e.g., supervisory) ->        Including addressing->        Polling or roll call
   1 340/2.8 -> 825 SELECTIVE  ->        Path selection->        Data channel selector line
   1 340/2.7 -> 825 SELECTIVE  ->        Path selection->        Condition of data channel
   1 340/2.1 -> 825 SELECTIVE ->        Path selection
   1 337/142 -> 14 ELECTROTHERMALLY ACTUATED SWITCHES ->        Fusible element actuated
   1 333/193 -> 24R COUPLING NETWORKS  ->        Electromechanical filter->        Using surface acoustic waves
   1 333/133 -> 1 PLURAL CHANNEL SYSTEMS  ->        Having branched circuits ->        For providing frequency separation->        Utilizing electromechanical transducer
   1 332/103 PHASE SHIFT KEYING MODULATOR OR QUADRATURE AMPLITUDE MODULATOR
   1 331/16 -> 1R AUTOMATIC FREQUENCY STABILIZATION USING A PHASE OR FREQUENCY SENSING MEANS ->        Tuning compensation
   1 330/86 -> 75 SIGNAL FEEDBACK ->        Variable impedance in feedback path varied by separate control path
   1 330/69 SUM AND DIFFERENCE AMPLIFIERS
   1 330/282 -> 250 WITH SEMICONDUCTOR AMPLIFYING DEVICE (E.G., TRANSISTOR)  ->        Including gain control means->        Having feedback means acting as variable impedance
   1 330/281 -> 250 WITH SEMICONDUCTOR AMPLIFYING DEVICE (E.G., TRANSISTOR)  ->        Including gain control means ->        And significant control voltage developing means->        With time constant means
   1 330/261 -> 250 WITH SEMICONDUCTOR AMPLIFYING DEVICE (E.G., TRANSISTOR)  ->        Including differential amplifier->        Having particular biasing arrangement
   1 330/260 -> 250 WITH SEMICONDUCTOR AMPLIFYING DEVICE (E.G., TRANSISTOR)  ->        Including differential amplifier->        Having signal feedback means
   1 330/252 -> 250 WITH SEMICONDUCTOR AMPLIFYING DEVICE (E.G., TRANSISTOR) ->        Including differential amplifier
   1 330/149 HUM OR NOISE OR DISTORTION BUCKING INTRODUCED INTO SIGNAL CHANNEL
   1 330/141 -> 127 WITH CONTROL OF POWER SUPPLY OR BIAS VOLTAGE  ->        With control of input electrode or gain control electrode bias->        Time constant circuit in bias control circuit
   1 330/136 -> 127 WITH CONTROL OF POWER SUPPLY OR BIAS VOLTAGE  ->        With control of input electrode or gain control electrode bias->        Bias control signal from input of amplifier
   1 330/116 WITH BALANCED-TO-UNBALANCED COUPLING
   1 330/112 -> 75 SIGNAL FEEDBACK ->        Positive feedback
   1 330/11 WITH D.C. REINSERTION CIRCUIT
   1 329/361 -> 347 AMPLITUDE MODULATION DEMODULATOR  ->        Input signal combined with local oscillator or carrier frequency signal (e.g., synchronous demodulator)->        Including sampling, gating, or switching
   1 329/304 PHASE SHIFT KEYING OR QUADRATURE AMPLITUDE DEMODULATOR
   1 327/9 -> 1 SPECIFIC SIGNAL DISCRIMINATING (E.G., COMPARING, SELECTING, ETC.) WITHOUT SUBSEQUENT CONTROL  ->        By phase ->        Comparison between plural inputs (e.g., phase angle indication, lead-lag discriminator, etc.) ->        With reference signal->        With sampling
   1 327/8 -> 1 SPECIFIC SIGNAL DISCRIMINATING (E.G., COMPARING, SELECTING, ETC.) WITHOUT SUBSEQUENT CONTROL  ->        By phase ->        Comparison between plural inputs (e.g., phase angle indication, lead-lag discriminator, etc.) ->        With reference signal->        With varying frequency
   1 327/72 -> 1 SPECIFIC SIGNAL DISCRIMINATING (E.G., COMPARING, SELECTING, ETC.) WITHOUT SUBSEQUENT CONTROL  ->        By amplitude->        Input signal compared to reference derived therefrom
   1 327/552 -> 524 SPECIFIC IDENTIFIABLE DEVICE, CIRCUIT, OR SYSTEM  ->        Unwanted signal suppression->        Active filter
   1 327/538 -> 524 SPECIFIC IDENTIFIABLE DEVICE, CIRCUIT, OR SYSTEM  ->        With specific source of supply or bias voltage->        Stabilized (e.g., compensated, regulated, maintained, etc.)
   1 327/513 -> 509 EXTERNAL EFFECT  ->        Temperature->        With compensation for temperature fluctuations
   1 327/5 -> 1 SPECIFIC SIGNAL DISCRIMINATING (E.G., COMPARING, SELECTING, ETC.) WITHOUT SUBSEQUENT CONTROL  ->        By phase ->        Comparison between plural inputs (e.g., phase angle indication, lead-lag discriminator, etc.)->        With input derived from feedback
   1 327/37 -> 1 SPECIFIC SIGNAL DISCRIMINATING (E.G., COMPARING, SELECTING, ETC.) WITHOUT SUBSEQUENT CONTROL  ->        By pulse width or spacing->        Comparison by threshold or reference
   1 327/36 -> 1 SPECIFIC SIGNAL DISCRIMINATING (E.G., COMPARING, SELECTING, ETC.) WITHOUT SUBSEQUENT CONTROL  ->        By pulse width or spacing->        Selection of a particular pulse width
   1 327/345 -> 334 SPECIFIC INPUT TO OUTPUT FUNCTION  ->        By integrating->        Having feedback
   1 327/337 -> 334 SPECIFIC INPUT TO OUTPUT FUNCTION  ->        By integrating->        Having switched capacitance
   1 327/336 -> 334 SPECIFIC INPUT TO OUTPUT FUNCTION ->        By integrating
   1 327/333 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Amplitude control->        Interstage coupling (e.g., level shift, etc.)
   1 327/33 -> 1 SPECIFIC SIGNAL DISCRIMINATING (E.G., COMPARING, SELECTING, ETC.) WITHOUT SUBSEQUENT CONTROL  ->        By pulse width or spacing->        With sampling
   1 327/321 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Amplitude control ->        By limiting, clipping, or clamping ->        In input or output circuit->        Clamping of output to voltage level
   1 327/310 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Amplitude control ->        By limiting, clipping, or clamping->        Transient or signal noise reduction
   1 327/160 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing->        With counter
   1 327/158 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing ->        With feedback ->        Phase lock loop->        With variable delay means
   1 327/156 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing ->        With feedback->        Phase lock loop
   1 327/153 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing ->        Using multiple clocks->        With delay means
   1 327/152 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing ->        Using multiple clocks->        With choice between multiple delayed clocks
   1 327/151 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing ->        Using multiple clocks->        With counter
   1 327/149 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Synchronizing ->        Using multiple clocks ->        With feedback ->        Phase lock loop->        With variable delay means
   1 327/141 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING ->        Synchronizing
   1 327/12 -> 1 SPECIFIC SIGNAL DISCRIMINATING (E.G., COMPARING, SELECTING, ETC.) WITHOUT SUBSEQUENT CONTROL  ->        By phase ->        Comparison between plural inputs (e.g., phase angle indication, lead-lag discriminator, etc.)->        With logic or bistable circuit
   1 327/115 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Frequency or repetition rate conversion or control ->        Of output rectangular waveform->        Frequency division
   1 327/112 -> 100 SIGNAL CONVERTING, SHAPING, OR GENERATING  ->        Current driver ->        Having capacitive load->        Push-pull
   1 324/534 -> 500 FAULT DETECTING IN ELECTRIC CIRCUITS AND OF ELECTRIC COMPONENTS  ->        For fault location->        By reflection technique
   1 324/533 -> 500 FAULT DETECTING IN ELECTRIC CIRCUITS AND OF ELECTRIC COMPONENTS  ->        For fault location ->        By applying a test signal ->        Using time measuring->        Of reflected test signal
   1 323/344 -> 318 EXTERNAL OR OPERATOR CONTROLLED  ->        Using a transformer or inductor as the final control device->        Having a windng in series with the source and load (e.g., buck-boost)
   1 323/315 -> 304 SELF-REGULATING (E.G., NONRETROACTIVE)  ->        Using a three or more terminal semiconductive device as the final control device ->        For current stabilization->        Including parallel paths (e.g., current mirror)
   1 323/312 -> 304 SELF-REGULATING (E.G., NONRETROACTIVE)  ->        Using a three or more terminal semiconductive device as the final control device->        For current stabilization
   1 323/259 -> 234 OUTPUT LEVEL RESPONSIVE  ->        Using a transformer or inductor as the final control device->        Having a winding in series with the source and load (e.g., buck-boost)
   1 320/166 CAPACITOR CHARGING OR DISCHARGING
   1 310/313R -> 300 NON-DYNAMOELECTRIC  ->        Piezoelectric elements and devices->        Surface acoustic wave devices
   1 307/80 -> 43 PLURAL SUPPLY CIRCUITS OR SOURCES ->        Selective or optional sources
   1 307/44 -> 43 PLURAL SUPPLY CIRCUITS OR SOURCES ->        One source floats across or compensates for other source
   1 307/38 -> 11 PLURAL LOAD CIRCUIT SYSTEMS ->        Selectively connected or controlled load circuits
   1 307/18 -> 11 PLURAL LOAD CIRCUIT SYSTEMS ->        Plural sources of supply
   1 307/125 -> 112 SWITCHING SYSTEMS  ->        Condition responsive->        Electrical
   1 29/458 -> 592 METHOD OF MECHANICAL MANUFACTURE  ->        Assembling or joining->        With coating before or during assembling
   1 29/447 -> 592 METHOD OF MECHANICAL MANUFACTURE  ->        Assembling or joining ->        With prestressing of part->        By temperature differential (e.g., shrink fit)
   1 264/489 -> 405 DIRECT APPLICATION OF ELECTRICAL OR WAVE ENERGY TO WORK (E.G., ELECTROMAGNETIC WAVE, PARTICULATE, MAGNETIC, INDUCTION HEAT, SONIC, ELECTROSTATIC ENERGY, ETC.) ->        Microwave (e.g., 2.45 gigahertz, etc.)
   1 264/2.7 -> 1.1 OPTICAL ARTICLE SHAPING OR TREATING ->        Reshaping or treatment of an optical preform
   1 264/2.6 -> 1.1 OPTICAL ARTICLE SHAPING OR TREATING ->        Nonmechanical aftertreatment (e.g., hydration of contact lens, extraction, heat treatment, etc.)
   1 264/171.13 -> 165 FORMING CONTINUOUS OR INDEFINITE LENGTH WORK  ->        Layered, stratified traversely of length, or multiphase macrostructure containing material (e.g., conjugate, composite, islands-in-sea, core-sheath, etc.)->        Utilizing indefinite length preform
   1 264/1.36 -> 1.1 OPTICAL ARTICLE SHAPING OR TREATING ->        Utilizing plasma, electric, electromagnetic, particulate, or wave energy
   1 264/1.28 -> 1.1 OPTICAL ARTICLE SHAPING OR TREATING  ->        Optical fiber, waveguide, or preform->        Forming fiber bundle or cable (e.g., covering, etc.)
   1 264/1.27 -> 1.1 OPTICAL ARTICLE SHAPING OR TREATING  ->        Optical fiber, waveguide, or preform->        Utilizing plasma, electric, electromagnetic, particle, or wave energy
   1 264/1.24 -> 1.1 OPTICAL ARTICLE SHAPING OR TREATING ->        Optical fiber, waveguide, or preform
   1 264/1.1 OPTICAL ARTICLE SHAPING OR TREATING
   1 257/98 -> 79 INCOHERENT LIGHT EMITTER STRUCTURE ->        With reflector, opaque mask, or optical element (e.g., lens, optical fiber, index of refraction matching layer, luminescent material layer, filter) integral with device or device enclosure or package
   1 257/9 THIN ACTIVE PHYSICAL LAYER WHICH IS (1) AN ACTIVE POTENTIAL WELL LAYER THIN ENOUGH TO ESTABLISH DISCRETE QUANTUM ENERGY LEVELS OR (2) AN ACTIVE BARRIER LAYER THIN ENOUGH TO PERMIT QUANTUM MECHANICAL TUNNELING OR (3) AN ACTIVE LAYER THIN ENOUGH TO PERMIT CARRIER TRANSMISSION WITH SUBSTANTIALLY NO SCATTERING (E.G., SUPERLATTICE QUANTUM WELL, OR BALLISTIC TRANSPORT DEVICE)
   1 257/84 -> 79 INCOHERENT LIGHT EMITTER STRUCTURE  ->        In combination with or also constituting light responsive device->        Combined in integrated structure
   1 257/83 -> 79 INCOHERENT LIGHT EMITTER STRUCTURE  ->        In combination with or also constituting light responsive device->        Light coupled transistor structure
   1 257/82 -> 79 INCOHERENT LIGHT EMITTER STRUCTURE  ->        In combination with or also constituting light responsive device ->        With specific housing or contact structure->        Discrete light emitting and light responsive devices
   1 257/464 -> 414 RESPONSIVE TO NON-ELECTRICAL SIGNAL (E.G., CHEMICAL, STRESS, LIGHT, OR MAGNETIC FIELD SENSORS)  ->        Electromagnetic or particle radiation ->        Light ->        Light responsive pn junction->        With particular layer thickness (e.g., layer less than light absorption depth)
   1 257/461 -> 414 RESPONSIVE TO NON-ELECTRICAL SIGNAL (E.G., CHEMICAL, STRESS, LIGHT, OR MAGNETIC FIELD SENSORS)  ->        Electromagnetic or particle radiation ->        Light->        Light responsive pn junction
   1 257/458 -> 414 RESPONSIVE TO NON-ELECTRICAL SIGNAL (E.G., CHEMICAL, STRESS, LIGHT, OR MAGNETIC FIELD SENSORS)  ->        Electromagnetic or particle radiation ->        Light->        PIN detector, including combinations with non-light responsive active devices
   1 257/443 -> 414 RESPONSIVE TO NON-ELECTRICAL SIGNAL (E.G., CHEMICAL, STRESS, LIGHT, OR MAGNETIC FIELD SENSORS)  ->        Electromagnetic or particle radiation ->        Light->        Matrix or array (e.g., single line arrays)
   1 257/437 -> 414 RESPONSIVE TO NON-ELECTRICAL SIGNAL (E.G., CHEMICAL, STRESS, LIGHT, OR MAGNETIC FIELD SENSORS)  ->        Electromagnetic or particle radiation ->        Light ->        With means for increasing light absorption (e.g., redirection of unabsorbed light)->        Antireflection coating
   1 257/436 -> 414 RESPONSIVE TO NON-ELECTRICAL SIGNAL (E.G., CHEMICAL, STRESS, LIGHT, OR MAGNETIC FIELD SENSORS)  ->        Electromagnetic or particle radiation ->        Light->        With means for increasing light absorption (e.g., redirection of unabsorbed light)
   1 257/433 -> 414 RESPONSIVE TO NON-ELECTRICAL SIGNAL (E.G., CHEMICAL, STRESS, LIGHT, OR MAGNETIC FIELD SENSORS)  ->        Electromagnetic or particle radiation ->        Light->        With housing or encapsulation
   1 254/134.4 -> 134.3R METHOD OR APPARATUS FOR PLACEMENT OF CONDUCTIVE WIRE ->        By fluid pressure differential in conduit (e.g., parachute sucked through conduit)
   1 254/134.3FT -> 134.3R METHOD OR APPARATUS FOR PLACEMENT OF CONDUCTIVE WIRE ->        Conduit snakes
   1 252/582 LIGHT TRANSMISSION MODIFYING COMPOSITIONS
   1 250/229 -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS  ->        Optical or pre-photocell system->        Light valve (e.g., iris diaphragm)
   1 250/227.27 -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS  ->        Optical or pre-photocell system ->        Light conductor->        With coherent interferrometric light
   1 250/227.22 -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS  ->        Optical or pre-photocell system ->        Light conductor ->        With light chopping or modulation->        Keyboard or other manual switch controlled
   1 250/227.15 -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS  ->        Optical or pre-photocell system ->        Light conductor ->        Condition responsive light guide (e.g., light guide is physically affected by parameter sensed which results in light conveyed to the photocell)->        With detection of macroscopic break in fiber
   1 250/227.12 -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS  ->        Optical or pre-photocell system ->        Light conductor->        Optical delay line
   1 250/214.1 -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS  ->        Photocell controlled circuit ->        Special photocell or electron tube circuits->        Special photocell
   1 250/201.1 -> 200 PHOTOCELLSSEMI CIRCUITS AND APPARATUS ->        Photocell controls its own optical systems
   1 244/3.12 -> 3.1 MISSILE STABILIZATION OR TRAJECTORY CONTROL  ->        Remote control->        Trailing wire
   1 216/99 -> 83 NONGASEOUS PHASE ETCHING OF SUBSTRATE  ->        Etching inorganic substrate->        Substrate contains silicon or silicon compound
   1 216/87 -> 83 NONGASEOUS PHASE ETCHING OF SUBSTRATE ->        Irradiating, ion implanting, alloying, diffusing, or chemically reacting the substrate prior to ethching to change properties of substrate toward the etchant
   1 216/57 GAS PHASE AND NONGASEOUS PHASE ETCHING ON THE SAME SUBSTRATE
   1 216/51 -> 41 MASKING OF A SUBSTRATE USING MATERIAL RESISTANT TO AN ETCHANT (I.E., ETCH RESIST) ->        Mask resist contains inorganic material
   1 216/2 ETCHING OF SEMICONDUCTOR MATERIAL TO PRODUCE AN ARTICLE HAVING A NONELECTRICAL FUNCTION
   1 209/219 -> 132 FLUID SUSPENSION  ->        Paramagnetic ->        Reciprocating magnets->        Cylinder external
   1 204/192.26 ->  ->        Coating, forming or etching by sputtering ->        Glow discharge sputter deposition (e.g., cathode sputtering, etc.) ->        Specified deposition material or use->        Optical or photoactive
   1 180/169 -> 167 WITH MEANS FOR CONTROLLING OPERATION RESPONSIVE TO ELECTROMAGNETIC RADIATION, MAGNETIC FORCE, OR SOUND WAVES RECEIVED FROM SOURCE, OR REFLECTED FROM OBJECT OR SURFACE, LOCATED APART FROM VEHICLE ->        Radiation, force, or waves reflected from external object or surface
   1 174/93 -> 68.1 CONDUITS, CABLES OR CONDUCTORS  ->        Combined ->        With joints->        Sleeve and end cap-type casing
   1 174/117F -> 68.1 CONDUITS, CABLES OR CONDUCTORS  ->        Insulated ->        Multiple conductor ->        Assemblies of noncircular section->        Flat or ribbon type
   1 174/115 -> 68.1 CONDUITS, CABLES OR CONDUCTORS  ->        Insulated ->        Multiple conductor->        Dissimilar or auxiliary conducting elements
   1 156/86 -> 1 METHODS  ->        Surface bonding and/or assembly therefor ->        With shrinking of material of lamina ->        Subsequent to assembly of laminae->        Of lamina covering cylindrical or spherical body
   1 156/52 -> 1 METHODS  ->        Making electrical conductors of indefinite length ->        Covering of conductor->        With preformed material
   1 156/49 -> 1 METHODS  ->        Making electrical conductors of indefinite length->        Splicing
   1 
