A. This is the generic class for multiplexing or duplexing systems, methods, or apparatus.
(1) Note. Multiplexing includes for example, time division multiplexing (TDM) frequency division multiplexing (FDM), orthogonal and quasiorthogonal multiplexing techniques, phantom connections and plural channel adaptive systems.
(2) Note. Selective or telemetering systems which may be analogous to multiplexing techniques are not classified here but elsewhere. (See References to Other Classes, below.)
(3) Note. The distinction between multiplexing and selective or telemetry is: in multiplexing, the information is unrestricted as to content, e.g., a teletype-writer which uses an alphabet to transmit unlimited information, whereas in selective or telemetry devices, the information is restricted as to content, e.g., a transducer measuring a single parameter.
B. This class includes elements and circuits forming subcombinations having a utility unique to multiplexing such as rotary distributors used as multiplexers, synchronizers used to control distribution of multiplexed channels, bridge duplex circuits, resonant circuits having a special utility in a frequency division multiplexing system.
(1) Note. Multiplex modulators, per se, are not classified in this class. See classification elsewhere. (See References to Other Classes, below.)LINES WITH OTHER CLASSESA. Electrical circuits which may be used in multiplexing systems but are not unique to multiplex communications are classified in the appropriate class for such circuits. (See References to Other Classes, below.)B. Significantly claimed multiplex techniques in combination with the subject matter of Class 178, Telegraphy, Class 375, Pulse or Digital Communications, Class 379, Telephonic Communications, or Class 455 Telecommunications are classified in Class 370, Multiplex Communications.
C Significantly claimed apparatus external to this class, claimed in combination with apparatus under the class definition, which perform multiplexing operations, are classified in the class appropriate to the external device. (see paragraph B above). (See References to Other Classes, below for examples.)D Nominally claimed apparatus external to this class in combination with apparatus under the class definition, is classified in this class unless provided for in the appropriate external class. For example, a nominally recited coupled network which includes significant multiplexing operations is classified herein.
E. Multiplexing systems and related devices found in other classes, for which see below |
-
200 • PHANTOM
-
201 • CROSSTALK SUPPRESSION
-
202 • AMPLITUDE COMPRESSION OR EXPANSION
-
203 • GENERALIZED ORTHOGONAL OR SPECIAL MATHEMATICAL TECHNIQUES
-
204 • Plural diverse modulation techniques
-
205 • Pulse width and pulse position modulation
-
206 • Quadrature carriers
-
207 • Having a signaling constellation
-
208 • Particular set of orthogonal functions
-
209 • Walsh functions
-
210 • Fourier transform
-
211 • Level multiplex
-
212 • PULSE WIDTH (PULSE DURATION) MODULATION
-
213 • PULSE POSITION MODULATION
-
214 • SIMULTANEOUS TELEGRAPHY AND TELEPHONY
-
215 • PHASE MODULATION
-
216 • FAULT RECOVERY
-
217 • Bypass an inoperative switch or inoperative element of a switching system
-
218 • Packet switching system or element
-
219 • Standby switch
-
220 • Standby switch
-
221 • Bypass an inoperative station
-
222 • In a ring or loop network
-
223 • Using a secondary ring or loop
-
224 • Loopback of signals on the secondary ring or loop
-
225 • Bypass an inoperative channel
-
226 • In a repeater system
-
227 • Using a spare channel
-
228 • Spare channel
-
229 • DATA FLOW CONGESTION PREVENTION OR CONTROL
-
230 • Control of data admission to the network
-
230.1 • Traffic shaping
-
231 • End-to-end flow control
-
232 • Based on data flow rate measurement
-
233 • Measurement of the peak data flow rate
-
234 • Measurement of the average data flow rate
-
235 • Flow control of data transmission through a network
-
235.1 • Using leaky bucket technique
-
236 • Including signaling between network elements
-
236.1 • Using RM (Resource Management) cells
-
236.2 • Using OAM (Operation, Administration and Maintenance) cells
-
237 • Congestion based rerouting
-
238 • Least cost or minimum delay routing
-
238.1 • ATM least cost routing
-
239 • Using antijabber circuit
-
240 • In a star coupler
-
241 • DIAGNOSTIC TESTING (OTHER THAN SYNCHRONIZATION)
-
241.1 • Using OAM (Operation, Administration and Maintenance) cells
-
242 • Fault detection
-
243 • Of a repeater system
-
244 • Of a switching system
-
245 • Of a local area network
-
246 • Of a repeater
-
247 • Having a dedicated test line or channel
-
248 • Path check
-
249 • Loopback
-
250 • Of a switching system
-
251 • Having dedicated test line or channel
-
252 • Determination of communication parameters
-
253 • Measurement of flow rate of messages having an address header
-
254 • NETWORK CONFIGURATION DETERMINATION
-
255 • Using a particular learning algorithm or technique
-
256 • Spanning tree
-
257 • In a bus system
-
258 • In a ring system
-
259 • SPECIAL SERVICES
-
260 • Conferencing
-
261 • Technique for setting up a conference call
-
262 • Operator setup of the conference
-
263 • Conferee signals combined or distributed via time channels
-
264 • Using plural diverse channel communications with a dedicated signaling channel (i.e., ISDN)
-
265 • Particular technique for combining diverse information types
-
266 • Using summation of conferee signals
-
267 • Digital summation
-
268 • Including cancellation of certain signals
-
269 • Including cancellation of certain signals
-
270 • Distribution of signal to multiple agent stations
-
271 • Special feature of multiplex telephone terminal
-
272 • SEXTUPLEX
-
273 • QUADRUPLEX
-
274 • Repeater
-
275 • Duplex diplex
-
276 • DUPLEX
-
277 • Communication over free space
-
278 • Transmit/receive interaction control
-
279 • Duplex repeaters
-
280 • Time division
-
281 • Frequency division
-
282 • Transmit/receive interaction control
-
283 • Artificial line
-
284 • Differential
-
285 • Bridge
-
286 • Echo suppression or cancellation
-
287 • Disabling or inhibiting
-
288 • Using an attenuator
-
289 • Having residual echo cancellation or suppression
-
290 • Using a particular adaptive filter
-
291 • Using a transversal filter
-
292 • Using a training sequence
-
293 • Duplex repeaters or extenders
-
294 • Time division
-
295 • Frequency division
-
296 • Convertible to half duplex
-
297 • DIPLEX
-
298 • LOW SPEED ASYNCHRONOUS DATA SYSTEM (E.G., TELETYPEWRITER SERVICE)
-
299 • Data switching exchange
-
300 • Data assembly or formatting
-
301 • Transmitting time of transition and logic state
-
302 • Channels separated in frequency
-
303 • Rotary distributor
-
304 • Synchronizer
-
305 • Start-Stop
-
306 • Nonmechanical
-
307 • TRASMULTIPLEXERS
-
308 • RESONANT TRANSFER TECHNIQUES
-
309 • RESONANT TRANSFER SUBSTITUTES
-
310 • COMMUNICATION OVER FREE SPACE
-
310.1 • Using ATM as a wireles protocol
-
310.2 • Having a plurality of contiguous regions served by respective fixed stations
-
311 • Signaling for performing battery saving
-
312 • Message addressed to multiple destinations
-
313 • Portable address responsive receiver
-
314 • Using time division multiplexing
-
315 • Repeater
-
316 • Airborne or space satellite repeater
-
317 • Including noise compensation
-
318 • Including power control
-
319 • Multiple access (e.g., FDMA)
-
320 • Code division (CDMA)
-
321 • Time division (TDMA)
-
322 • Channel reservation scheme
-
323 • Including onboard switching
-
324 • Synchronization
-
325 • Including onboard switching
-
326 • Combining or distributing information via time channels
-
327 • In a trunking system
-
328 • Having a plurality of contiguous regions served by respective fixed stations
-
329 • Channel assignment
-
330 • Having both time and frequency assignment
-
331 • Hand-off control
-
332 • Based upon a particular signal quality measurement
-
333 • Signal quality determined by bit error rate
-
334 • Using multiple antennas at a station
-
335 • Combining or distributing information via code word channels using multiple access techniques (e.g., CDMA)
-
336 • Combining or distributing information via time channels
-
337 • Multiple access (e.g., TDMA)
-
338 • Contiguous regions interconnected by a local area network
-
339 • Plural usage of common antenna
-
340 • Using trunking
-
341 • Channel assignment
-
342 • Combining or distributing information via code word channels using multiple access techniques (e.g., CDMA)
-
343 • Combining or distributing information via frequency channels
-
344 • Multiple access (e.g., FDMA)
-
345 • Combining or distributing information via time channels
-
346 • Polling
-
347 • Multiple access (e.g., TDMA)
-
348 • Channel reservation scheme
-
349 • Using messages having an address field as header
-
350 • Synchronization
-
351 • PATHFINDING OR ROUTING
-
352 • Combined circuit switching and packet switching
-
353 • Switching network having common elements to handle both circuit switched traffic and packet switched traffic
-
354 • Switching network having separate elements to handle circuit switched traffic and packet switched traffic
-
355 • Routing packets through a circuit switching network
-
356 • Routing circuit switched traffic through a packet switching network
-
357 • Through a circuit switch
-
358 • Switching input signals having different aggregate bit rates
-
359 • Input or output circuit, per se (i.e., line interface)
-
360 • Switching control
-
361 • Folded network
-
362 • Bus switch
-
363 • Having details of control storage arrangement
-
364 • Having plural buses
-
365 • Separate transmit and receive buses
-
366 • Including serial-parallel or parallel-serial conversion for input or output
-
367 • For distribution to a multiplanar switching network
-
368 • Having details of control storage arrangement
-
369 • Having time and space switches
-
370 • Having space switch as intermediate stage (e.g., T-S-T, T-S-S, or S-S-T)
-
371 • Having details of control storage arrangement
-
372 • Having time switch as intermediate stage (e.g., S-T-S or T-T-S)
-
373 • Having supervisory signaling
-
374 • Having details of control storage arrangement
-
375 • Time switch, per se (e.g., T or T-T)
-
376 • Time slot interchange, per se
-
377 • Having supervisory signaling
-
378 • Having details of control storage arrangement
-
379 • Data memory addressing
-
380 • Space switch, per se (e.g., S or S-S)
-
381 • Having details of control storage arrangement
-
382 • Data memory addressing
-
383 • Control storage addressing
-
384 • Having a supervisory signaling feature
-
385 • Having a separate signaling network
-
386 • Particular switching network arrangement
-
387 • Multiplanar switch
-
388 • Multistage switch
-
389 • Switching a message which includes an address header
-
390 • Replicate messages for multiple destination distribution
-
391 • Switching input signals having different aggregate bit rates
-
392 • Processing of address header for routing, per se
-
393 • Address concatenation
-
394 • Sequencing or resequencing of packets to insure proper output sequence order
-
395.1 • Message transmitted using fixed length packets (e.g., ATM cells)
-
396 • Distributed switching
-
397 • Employing logical addressing for routing (e.g., VP or VC)
-
398 • Centralized switching
-
399 • Employing logical addressing for routing (e.g., VP or VC)
-
395.2 • Connection set-up/disconnect (e.g., Connection Admission Control)
-
395.21 • Based on traffic contract (including using setup messages, QoS, delay/bandwidth requirement)
-
395.3 • Connection identifier assignment
-
395.31 • Including routing table
-
395.32 • Employing particular searching function (e.g., hashing, alternate, re-routing)
-
395.4 • Assigning period of time for information to be transmitted (e.g., scheduling)
-
395.41 • Based on bandwidth allocation (e.g., Weighted Round Robin)
-
395.42 • Based on priority
-
395.43 • Based on service category (e.g., CBR, VBR, UBR, or ABR)
-
395.5 • Multiprotocol network
-
395.51 • Utilizing a plurality of ATM networks (e.g., MPOA, SONET, or SDH)
-
395.52 • Internet Protocol (including TCP/IP or UDP/IP) over fixed length packet network (e.g., IP over ATM)
-
395.53 • Emulated LAN (LANE/ELAN/VLAN, e.g., Ethernet or token ring legacy LAN over a single ATM network/LAN)
-
395.54 • Address resolution (e.g., ARP, or NHRP)
-
395.6 • Adapting detail (e.g., converting to/from ATM, or detail of ATM Adaption Layers (AALs))
-
395.61 • Adapting constant bit rate (CBR) data (e.g., voice, or narrow band ISDN over ATM, or using AAL1)
-
395.62 • Detail of clock recovery or synchronization
-
395.63 • Adapting frame relay/X.25 data (e.g., using AAL 3/4)
-
395.64 • Adapting connection-oriented variable bit rate (VBR) data (e.g., MPEG/HDTV packet video/audio over ATM or using AAL2)
-
395.65 • Adapting connectionless variable bit rate (VBR) data (e.g., adapting 802.X, or using AAL5)
-
395.7 • Having detail of switch memory reading/writing
-
395.71 • Having input or output storage or both
-
395.72 • Having central (e.g., common) storage
-
400 • Having a plurality of nodes performing distributed switching
-
401 • Bridge or gateway between networks
-
402 • Bridge between bus systems
-
403 • At least one bus is a ring network
-
404 • Ring or loop forms backbone for interconnecting other networks
-
405 • The other networks are ring or loop networks
-
406 • Plurality of rings or loops to form a mesh network
-
407 • Interconnected star couplers
-
408 • Nodes interconnected in hierarchy to form a tree
-
409 • Employing logical addressing for routing (e.g., VP or VC)
-
410 • Having a signaling feature
-
411 • Including sorting and merging networks
-
412 • Queuing arrangement
-
413 • Having both input and output queuing
-
414 • Contention resolution for output
-
415 • Having input queuing only
-
416 • Contention resolution for output
-
417 • Having output queuing only
-
418 • Contention resolution for output
-
419 • Input or output circuit, per se (i.e., line interface)
-
420 • For connecting plural subscribers to a network (i.e., network termination)
-
421 • Subscribers connected to input or output circuit by a common bus
-
422 • Centralized switching
-
423 • Including a bus for interconnecting inputs and outputs
-
424 • Including a ring or loop for interconnecting inputs and outputs
-
425 • Star configuration
-
426 • Having a signaling feature
-
427 • Space switching
-
428 • Store and forward
-
429 • Particular storing and queuing arrangement
-
430 • FDM switching
-
431 • CHANNEL ASSIGNMENT TECHNIQUES
-
432 • Messages addressed to multiple destinations
-
433 • Only active channels transmitted
-
434 • Concentrator
-
435 • TASI (Time Assignment Speech Interpolation)
-
436 • Combined time and frequency assignment
-
437 • Adaptive selection of channel assignment technique
-
438 • Using a separate control line or bus for access control
-
439 • Control line is used to request or reserve access
-
440 • Dual bus dynamic queuing (i.e., DQDB)
-
441 • Combining or distributing information via code word channels using multiple access techniques (e.g., CDMA)
-
442 • Combining or distributing information via time channels using multiple access technique (e.g., TDMA)
-
443 • Using channel reservation
-
444 • With priority resolution
-
445 • Carrier sense multiple access (CSMA)
-
446 • Using a star coupler
-
447 • Arbitration for access between contending stations
-
448 • Using weighted back-off timing
-
449 • Polling
-
450 • Passing a signal identifying the idle or busy state of a channel (e.g., token passing)
-
451 • On bus
-
452 • On ring or loop
-
453 • Initialization or reinitialization of network
-
454 • Having multiple idle or busy signals simultaneously on the network
-
455 • Including priority resolution
-
456 • Idle or busy signal erasure or frame erasure
-
457 • Initialization or reinitialization of network
-
458 • Using time slots
-
459 • Having indication of idle or busy state of time slot
-
460 • On ring or loop network
-
461 • Arbitration for access between contending stations
-
462 • Arbitration for access to a channel
-
463 • Details of circuit or interface for connecting user to the network
-
464 • COMMUNICATION TECHNIQUES FOR INFORMATION CARRIED IN PLURAL CHANNELS
-
465 • Adaptive
-
466 • Converting between protocols
-
467 • Conversion between signaling protocols
-
468 • Assignment of variable bandwidth or time period for transmission or reception
-
469 • Processing multiple layer protocols
-
470 • Frame length
-
471 • Message having an address header
-
472 • Byte length
-
473 • Transmission of a single message having multiple packets
-
474 • Assembly or disassembly of messages having address headers
-
475 • Address transmitted
-
476 • Byte assembly and formatting
-
477 • Transmission bandwidth conservation
-
478 • Combined time division and frequency division
-
479 • Combining or distributing information via code word channels
-
480 • Combining or distributing information via frequency channels
-
481 • Multiple frequency translations
-
482 • Particular carrier generation
-
483 • Using angle modulation
-
484 • Digital analysis or synthesis of a group
-
485 • Subscriber carrier
-
486 • Program distribution
-
487 • Combined communication of diverse information types
-
488 • Connecting filters
-
489 • Bus (distributed stations)
-
490 • Combined communication of diverse information types
-
491 • Pilot
-
492 • Repeater
-
493 • Combined voice and data transmission
-
494 • Data over voice
-
495 • Data under voice
-
496 • Signaling
-
497 • Using particular filtering technique
-
498 • Combining or distributing information via time channels
-
499 • Polarity multiplex
-
500 • Pilot
-
501 • Repeater
-
502 • Bus extenders
-
503 • Synchronizing
-
504 • Reference indication consists of a gap
-
505 • Pulse stuffing or deletion
-
506 • Frame or bit stream justification
-
507 • Mutual (reciprocal) synchronization
-
508 • Transmission time into time slots adjusted based upon propagation delay time
-
509 • Using synchronization information contained in a frame
-
510 • Synchronization information is distributed over multiple frames
-
511 • Using redundant synchronization words
-
512 • Synchronization information is distributed within a frame
-
513 • Plural synchronization words
-
514 • Unique synchronization word or unique bit sequence
-
515 • Pseudo-random
-
516 • Adjusting for phase or jitter
-
517 • Including delay device
-
518 • Provide plural phases of a clocking signal
-
519 • Delay based upon propagation delay time
-
520 • Unique synchronization pulse
-
521 • Time compression or expansion
-
522 • Signaling (ancillary to main information)
-
523 • Using bit robbing
-
524 • Using a dedicated signaling channel (i.e., D-channel)
-
525 • Digital tone signal generation
-
526 • Digital tone detection
-
527 • Superimposed or modulated on principal information
-
528 • Inserted in gaps in main information
-
529 • Information superimposed on other information
-
530 • Staircase wave
-
531 • Magnetic core for switching or storage
-
532 • Multiplexer or distributor and technique for handling low level input signal
-
533 • Multiplexer or distributor using pulse amplitude modulation
-
534 • Multiplexer or distributor using electron beam switching device
-
535 • Multiplexing combined with demultiplexing
-
536 • Demultiplexing single signal into plural parallel channels (e.g., parallel transmission for increasing transmission speed)
-
537 • Multiplexing plural input channels to a common output channel
-
538 • Plural input channels of different rates to a single common rate output channel
-
539 • Multiple levels of multiplexing to form a multiplex hierarchy
-
540 • Plural input channels of same rate to a single common rate output channel
-
541 • Multiple levels of multiplexing to form a multiplex hierarchy
-
542 • Demultiplexing single input channel to plural output channels
-
543 • Different rate output channels
-
544 • Same rate output channels
-
545 • Conversion of rate from a single input to a single output
-
546 • MISCELLANEOUS
-
901 • WIDE AREA NETWORK
-
902 • Packet switching
-
903 • OSI Compliant Network
-
904 • Integrated Services Digital Network (ISDN)
-
905 • Asynchronous Transfer Mode (ATM)
-
906 • Fiber Data Distribution Interface (FDDI)
-
907 • Synchronous Optical network (SONET)
-
908 • LOCAL AREA NETWORK
-
909 • Token ring
-
910 • Carrier sense multiple access (e.g., Ethernet, 10Base-T)
-
911 • Bridge (e.g., brouter, bus extender, etc.)
-
912 • PACKET COMMUNICATIONS
-
913 • Wireless or radio
-
914 • RATE CONVERTER
-
915 • TIME DIVISION CELLULAR RADIO SYSTEMS
-
916 • MULTIPLEXER/DEMULTIPLEXER
-
FOR100 • SIMULTANEOUS TELEGRAPHY AND TELEPHONY (370/125)
-
FOR101 • MULTIPLEX SWITCHING (370/53)
-
FOR102 • Pathfinding (370/54)
-
FOR103 • Drop channel (370/55)
-
FOR104 • Concentrators (370/56)
-
FOR105 • FDM switching (frequency division multiplexing) (370/57)
-
FOR106 • TDM switching (time division multiplexing) (370/58.1)
-
FOR107 • Control processing (370/58.2)
-
FOR108 • Distributed (370/58.3)
-
FOR109 • T-S (Time-Space) or S-T (370/59)
-
FOR110 • Packet or addressed data (370/60)
-
FOR111 • Combined with circuit-switching (370/60.1)
-
FOR112 • Store and forward (370/61)
-
FOR113 • Special services with switching (e.g., conference) (370/62)
-
FOR114 • TST (Time-Space-Time) (370/63)
-
FOR115 • STS (Space-Time-Space) (370/64)
-
FOR116 • Folded network (370/65)
-
FOR117 • Space stage, per se (370/65.5)
-
FOR118 • Time only (370/66)
-
FOR119 • Bus switch (370/67)
-
FOR120 • Time slot interchangers, per se (370/68)
-
FOR121 • With signalling feature (370/68.1)
-
FOR122 • FREQUENCY DIVISION (370/69.1)
-
FOR123 • Multiple frequency translations (370/120)
-
FOR124 • Carrier generation (370/121)
-
FOR125 • Angle modulation (370/122)
-
FOR126 • Filtering techniques (370/123)
-
FOR127 • Digital analysis or synthesis of group (370/70)
-
FOR128 • Subscriber carrier (370/71)
-
FOR129 • Connecting filters (370/72)
-
FOR130 • Program distribution (370/73)
-
FOR131 • Bus (distributed stations) (370/124)
-
FOR132 • Pilot (370/74)
-
FOR133 • Repeaters (370/75)
-
FOR134 • Signalling (370/76)
-
FOR135 • TIME DIVISION (370/77)
-
FOR136 • Polarity multiplex (370/78)
-
FOR137 • Adaptive systems (370/79)
-
FOR138 • Only active channels transmitted (370/80)
-
FOR139 • TASI (Time assigned speech interpolation) (370/81)
-
FOR140 • Frame length (370/82)
-
FOR141 • Byte length (370/83)
-
FOR142 • Rate (370/84)
-
FOR143 • Bus transmission (370/85.1)
-
FOR144 • Contention (370/85.2)
-
FOR145 • Carrier sense (370/85.3)
-
FOR146 • Token passing (370/85.4)
-
FOR147 • Loop or ring (370/85.5)
-
FOR148 • Priority (370/85.6)
-
FOR149 • Variable channel assignment (370/85.7)
-
FOR150 • Polling (370/85.8)
-
FOR151 • Plural bus (370/85.9)
-
FOR152 • With separate control bus (370/85.11)
-
FOR153 • Loop or ring (370/85.12)
-
FOR154 • Bridge between bus systems (370/85.13)
-
FOR155 • Interconnection between ring or loop (370/85.14)
-
FOR156 • Loop or ring (370/85.15)
-
FOR157 • Asynchronous and nonsynchronous (370/91)
-
FOR158 • Address transmitted (370/92)
-
FOR159 • Multiple access, discrete address (370/93)
-
FOR160 • Packet (370/94.1)
-
FOR161 • Combined with synchronous information (370/94.2)
-
FOR162 • Star, tree, or mesh networks (370/94.3)
-
FOR163 • Variable channel assignment (370/95.1)
-
FOR164 • Polling (370/95.2)
-
FOR165 • Time division multiple access (370/95.3)
-
FOR166 • TDM pulse repeater (370/97)
-
FOR167 • Pilot (370/98)
-
FOR168 • Byte assembly and formatting (370/99)
-
FOR169 • Synchronizing (370/100.1)
-
FOR170 • Reference indication consists of a gap (370/101)
-
FOR171 • Pulse stuffing or deletion (370/102)
-
FOR172 • Mutual (reciprocal) synchronization (370/103)
-
FOR173 • Moving satelite (370/104.1)
-
FOR174 • Distributed (370/105)
-
FOR175 • Frame (370/105.1)
-
FOR176 • Channel (370/105.2)
-
FOR177 • Bit phase or jitter (370/105.3)
-
FOR178 • Unique synchronization word (370/105.4)
-
FOR179 • Unique sychronization pulse (370/105.5)
-
FOR180 • Plural sychronizing words (370/106)
-
FOR181 • Pseudo-random (370/107)
-
FOR182 • Including delay device (370/108)
-
FOR183 • Time compression or expansion (370/109)
-
FOR184 • Signalling (ancilliary to main information) (370/110.1)
-
FOR185 • Digital tone signal generation (370/110.2)
-
FOR186 • Digital tone detection (370/110.3)
-
FOR187 • Superimposed or modulated on principal information (370/110.4)
-
FOR188 • Inserted in gaps in main information (370/111)
-
FOR189 • Multiplexers/distributors (hierarchy and level) (370/112)
-
FOR190 • Apparatus and techniques for handling low level input signals (370/113)
-
FOR191 • Pulse amplitude modulation (370/114)
-
FOR192 • Electron beam switching device (370/115)
-
FOR193 • Staircase wave (370/116)
-
FOR194 • Magnetic core for switching or storage (370/117)
-
FOR195 • TRANSMISSION BANDWIDTH CONSERVATION (370/118)
-
FOR196 • MISCELLANEOUS (370/119)
-
FOR • ** . Switching a message which includes an address header
-
FOR197 • Message transmitted using regularly occurring fixed length time intervals (e.g., ATM) (370/395)
|
