TIA-136-310-A-2000 TDMA Third Generation Wireless - Radio Link Protocol C1 (ANSI APPROVAL WITHDRAWN JUNE 12 2015).pdf

1、 ANSI/TIA-136-310-A-2000 APPROVED: MARCH 31, 2000 REAFFIRMED: OCTOBER 20, 2004 REAFFIRMED: AUGUST 14, 2013 WITHDRAWN: JUNE 12, 2015 TIA-136-310-A (Revision of TIA-136-310) March 2000TDMA Third Generation Wireless- Radio Link Protocol- 1 NOTICE TIA Engineering Standards and Publications are designed

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20、standard specifies a Radio Link Protocol (RLP1) that layer-3functions may use to asynchronously transport data octets across aTDMA radio interface.RLP1 supports two multiplexed data links, each link accessed through aunique Service Access Point (SAP). Through each SAP, RLP1 providesthe following ser

21、vices to layer 3: link establishment, link supervision,acknowledged data transport, unacknowledged data transport, dataqualification, data compression, encryption, and flow control.This standard was developed by TR-45.3.2, the Data Services WorkingGroup of TR-45.3, the TIA TDMA Wireless Standards Su

22、bcommittee. Itcontains two annexes: Annex A contains no requirements, just an illustrative exampleof protocol operation. Annex B contains no requirements: it lists and defines acro-nyms used within the standard.TIA welcomes suggestions for improvement of this standard. Pleasesend suggestions to the

23、following address:Telecommunications Industry Association2500 Wilson Boulevard Suite 300Arlington VA 22201-3836TIA/EIA-136-310-AiiChanges in this RevisionThis revision incorporates the following enhancements and corrections:1. The encryptor ( 5.7) now supports the SCEMA algorithm.2. The transmission

24、 controller (Drawing 136-310-1, Figure 310) nowgenerates the correct short feedback when the receive transmissionwindow is empty.TIA/EIA-136-310-AiiiContents1. Purpose and Scope. 12. Overview . 22.1 Services Provided by RLP1 22.2 Services Required from Layer 1 . 33. RLP1 Structure 43.1 Data Bufferin

25、g. 43.2 Compression .3.3 Blocking 63.4 Transmission Control3.5 Encryption . 73.6 Concatenation .3.7 Frame Check Sequence (FCS) 3.8 Forward Error Correction (FEC). 73.9 Layer Management .4. Signals . 84.1 RLP1 SDUs . 84.2 RLP1 Frames.4.3 RLP1 Protocol Data Units. 94.4 XID Data Unit . 184.5 Service Pr

26、imitives . 215. Processes . 285.1 Receive Data Buffer (RxB) . 285.2 Compressor (CMP) . 305.3 Expandor (EXP) 335.4 Blocker (BLK) 365.5 Deblocker (DBK) 385.6 Transmission Controller (ARQ) . 395.7 Encryptor (ENC) . 435.8 Concatenator (CON) . 455.9 Separator (SEP) . 465.10 FCS Encoder (FCE) 475.11 FCS D

27、ecoder (FCD) . 515.12 Convolutional Encoder (CE). 535.13 Convolutional Decoder (CD) 585.14 Layer Manager (LM). 616. References . 62A. Transmission-Control Example. 63B. Acronyms 72TIA/EIA-136-310-AivFigures and DrawingsFigure 21 RLP1 Position in Protocol Stack . 2Figure 31 RLP1 Reference Model . 5Fi

28、gure 41 Protocol Data Units . 10Figure 42 Service Primitives and Signal Routes for Transmit Functions . 22Figure 43 Service Primitives and Signal Routes for Receive Functions . 23Figure 51 Receive-Buffer Process . 29Figure 52 Compressor Reference Model . 31Figure 53 Compressor-Controller Process. 32

29、Figure 54 Expandor Reference Model . 34Figure 55 Expandor-Controller Process. 35Figure 56 Blocker Process . 37Figure 57 Deblocker Process . 38Figure 58 Encryptor Process 44Figure 59 FCS-Encoder Process 47Figure 510 FCS-Decoder Process 51Figure 511 Convolutional-Encoder Process 53Figure 512 Convoluti

30、onal-Decoder Process 58Figure A1A Transmission-Control Example Part 1 . 66Figure A1B Transmission-Control Example Part 2 . 68Figure A1C Transmission-Control Example Part 3 . 70136-310-1 Transmission Controller Enclosure (3)136-310-2 Concatenator and Separator. Enclosure (1)136-310-3 Layer Manager. E

31、nclosure (1)TIA/EIA-136-310-AvRevision HistoryVersion DescriptionIS-130 First release.IS-130-A 1. IS-130-1 Figure 101 (D5) now specifies that T1 expiry shall only be interpreted in statesCM2, CM3, CM5, and CM6. Otherwise, T1 expiry may be interpreted in states that are nottimed, which may cause RLP1

32、 to abort a connection that would otherwise connectsuccessfully.2. IS-130-1 Figure 201 (C6) now specifies that if Send_B_Once is true, an S PDU shall be sentinstead of an LS PDU. This enhancement increases full-duplex throughput.3. IS-130-1 Figure 201 (B5) now has a note explaining the function perf

33、ormed by the N=1?test. This should aid implementors in understanding the standard.4. IS-130-1 Figure 305B (D4) uses a new receive-counter formula. The original formulaallowed the decryptor to lose synchronization with the encryptor. This correction requiredminor changes to IS-130-1 Figures 301 (D6)

34、and 315 (B1).5. 5.7 was modified to conform with the latest version of Common CryptographicAlgorithms.6. 5.12.2.4 contains a new example output for the convolutional encoder. The originalexample was wrong.7. 5.13.2.3 now references a paper that describes a technique for convolutional decoding.TIA/EI

35、A-136-3101. Portions of the transmission controller (Drawing 136-310-1, Figures 306, 307, 311, 312,313, 318, 319, and 320) now update only the portion of the receive table that corresponds tothe received partial bitmap. As a result, only PDUs that need to be retransmitted will beretransmitted, and b

36、idirectional data throughput will improve.2. Another part of the transmission controller (Drawing 136-310-1, Figure 310) no longer triesto set BP_Tx to B_RxT for values delivered to the deblocker and therefore deleted from thereceive table, i.e., those values corresponding to NS_RxT less than NR_Rx.

37、3. The concatenator (Drawing 136-310-2, Figure 101) now pads or fills concatenated PDUs toa fixed length of 27 octets. The FCS encoder (Figure 59) strips 2 or 3 Null PDUs from theconcatenated PDU, as appropriate, before adding 2 or 3 octets of FCS (Frame CheckSequence). The original concatenator cou

38、ld not determine the appropriate length ofconcatenated PDUs.4. The layer manager (Drawing 136-310-3, Figure 101) now issues connect primitives(Connect_Ind and Connect_Con) after sending Init_Reqs to the compressor and theexpandor, not before. This prevents data loss if layer 3 immediately issues a D

39、ata_Req uponreceiving a connect primitive.5. IS-130-A incorporated the following enhancement to the transmission-controllerconcatenator handler (Drawing 136-310-1, Figure 201): If Send_B_Once is true, an S PDUshall be sent instead of an LS PDU. This enhancement causes the receiver to time out whenex

40、erting flow control for extended periods. The drawing reverts to its previous form wherean LS PDU shall be sent.TIA/EIA-136-310-A1. The encryptor ( 5.7) now supports the SCEMA algorithm.2. The transmission controller (Drawing 136-310-1, Figure 310) now generates the correctshort feedback when the re

41、ceive transmission window is empty.TIA/EIA-136-310-AviSpare pageTIA/EIA-136-310-A11. Purpose and Scope1This standard specifies a Radio Link Protocol (RLP1) that layer-32functions may use to asynchronously transport data octets across a3TDMA radio interface. RLP1 requires an underlying half-rate, ful

42、l-rate,4double-rate, or triple-rate digital traffic channel as specified in5TIA-136-131, 132, and 133 7.6To aid the reader, 2 and 3 contain descriptive information: 2 pro-7vides an overview; 3 describes the protocols structure. 4 and 58contain requirements: 4 specifies RLP1 signals; 5 specifies pro-

43、9cesses. References appear in 6. Finally, Annex A illustrates protocol10operation, and Annex B lists and defines acronyms. Note that 5 refers11to figures too large to fit within the body of the standard. These figures12are enclosed in a separate envelope.13Readers will find the following documents h

44、elpful in understanding this14standard: X.200 4 and Z.100 5.15Similar to X.200, this standard uses reference models to organize con-16cepts and requirements into a logical structure. These reference models17are not meant to unnecessarily constrain implementations any RLP118implementation that, as a

45、whole, behaves the same as the RLP1 speci-19fied in this standard, by definition, complies with this standard.20If the requirements of this standard conflict with the requirements of21referenced standards, this standard shall govern.22TIA/EIA-136-310-A22. Overview1RLP1 asynchronously transports data

46、 octets between unspecified2layer-3 functions. It resides at the link layer (layer 2), just above the3physical layer (layer 1) and just below the network layer (layer 3). See4Figure 21.5Figure 21 RLP1 Position in Protocol Stack6Layer 1Layer 3 Unspecified Layer-3 FunctionRadio Link Protocol 1Digital

47、Traffic ChannelRadio InterfaceLayer 2Unspecified Layer-3 FunctionSAP1SAP0 SAP1SAP0Digital Traffic ChannelRadio Link Protocol 172.1 Services Provided by RLP18RLP1 supports two multiplexed data links, each link accessed through a9unique Service Access Point (SAP). Through each of these SAPs,10RLP1 pro

48、vides the following services to layer 3:11 Link establishment. At the request of layer 3, RLP1 connects or12disconnects a reliable data link.13 Link supervision. RLP1 informs layer 3 if a reliable link has14disconnected or if RLP1 has detected a protocol error.15 Acknowledged data transport. In ackn

49、owledged mode, RLP116provides a reliable data link: it delivers all data received from17the transmitting layer 3 to the receiving layer 3. It controls the18error rate at the expense of variable throughput and delay. It19preserves the order of data octets but not their relative timing.20 Unacknowledged data transport. In unacknowledged mode,21RLP1 does not guarantee a reliable data link. It provides con-22stant throughput and delay at the expense of a variable error23rate. It preserves the order