|
| [COM16-D1] Cisco Systems (Q13/16): Signalling of ingress and egress Carrier/Circuit Identifier information in H.225.0 Messages and Annex G Messages | |
| [COM16-D2] Cisco Systems (Q13/16): Third party re-routing of a fast connect initiated call | |
| [COM16-D3] Cisco Systems (Q13/16): Ported number indications in H.225.0 messages | |
| [COM16-D4] Cisco Systems (Q13/16): Reserving resources for calls | |
| [COM16-D5] United States of America (Q8/16): Proposed changes to the determined version of V.44 (COM 16-R 77) | |
| [COM16-D6] United States of America (Q8/16): Proposed establishment of a registry for data compression parameters | |
| [COM16-D7] United States of America (Q23/16): Proposed Appendix for V.92 on Modem on hold | |
| [COM16-D8] United States of America (Q23/16): Proposed changes to draft Recommendation V.92 | |
| [COM16-D9] United States of America (Q7,8/16): Proposal to delete the +DCS command from draft V.250 Implementer's Guide | |
| [COM16-D10] United States of America (Q7,23/16): Proposed +P commands to support Recommendation V.92 for inclusion in the V.250 Implemeter's Guide | |
| [COM16-D11] United States of America (Q4,7/16): Proposed +TMO command to support Recommendation V.59 for inclusion in the V.250 Implementor's Guide | |
| [COM16-D12] United States of America (Q23/16): Modifications to short phase 1 to ensure proper operation with networks echo cancellers | |
| [COM16-D13] 3Com Corporation (Q8/16): Changes that are required inV.42 as a result of approval of Recommendation V.44 | |
| [COM16-D14] 3Com Corporation, Texas Instruments (Q23/16): Consequences of differentially encoding TRN1u | |
| [COM16-D15] Canon, Matsushita, NEC, Oki, Richo Co., Toshiba (QX/16): Proposal for amendment in T.38 regarding message flow for V.8 signal | |
| [COM16-D16] Canon, Matsushita, NEC, Oki Electric, Ricoh Co., Toshiba (QX/16): Proposal for amendment in T.38 Annex B - Normal connection and disconnection sequence | |
| [COM16-D17] Japan (QX/16): Comment on 3rd generation mobile network connection bit | |
| [COM16-D18] Japan (QX/16): Comment on JPEG2000 standardization in ISO/IEC JTC1/SC29 WG1 | |
| [COM16-D19] Motorola UK (Q20/16): Codec description and IPR Statement for the Motorola 16 kHz wideband codec candidate | |
| [COM16-D20] Motorola UK (Q20/16): WP Experiment 1 Qualification Test results for the Motorola candidate | |
| [COM16-D21] Motorola UK (Q20/16): WP Experiment 2 Qualification Test results for the Motorola candidate | |
| [COM16-D22] LMGT (Q21/16) Report on 16 kbti/s wideband qualificatIon crosscheck activities | |
| [COM16-D23] LMGT (Q21/16): LMGT ITU-T 4 kbit/s selection host laboratory report | |
| [COM16-D24] LMGT (Q21/16): ITU-T 4 kbit/s selection host laboratory crosscheck procedures | |
| [COM16-D25] LMGT (Q21/16): ITU-T 4 kbit/s selection experiments 1A and 3B - LMGT Results | |
| [COM16-D26] LMGT (Q21/16) Hig level description of LMGT-SAMSUNG 4kb/s coder | |
| [COM16-D27] AT&T (Q11-14/16): Mobility architecture and protocol: H.323 application specific and generic value added services | |
| [COM16-D28] AT&T (Q11-14/16) Application layer QOS signalling architecture and protocol: H.323 application specific and generic value added services | |
| [COM16-D29] AT&T (Q11-14/16): Common value added intelligent backend services (BES) protocols for all applications | |
| [COM16-D30] Korea (Repulic of) (Q1/16): Extended service of MCU | |
| [COM16-D31] Surf Communication Solutions (QX/16): Data rate change handling for V.34 half-duplex fax operation over T.38, using externally initiated retrains | |
| [COM16-D32] PictureTel Corp. (Q20/16): Summary of G.722.1 Interoperability Tests | |
| [COM16-D33] PictureTel Corp. (Q20/16): Corrections to G.722.1 Annex B floating point source code | |
| [COM16-D34] PictureTel Corp. (Q.14/16): RTP Payload Types in H.245 | |
| [COM16-D35] PictureTel Corp. (Q.14,15/16): Proposed new H.245 messages for H.263++ Annex U and Annex W.6.3.12 | |
| [COM16-D36] PictureTel Corp. (Q11,15/16): Proposed new H.242 messages and H.230 MBE design for H.263 Annex U and Annex W.6.3.12 | |
| [COM16-D37] PictureTel Corp. (Q15/16): Proposed new profile for Annex X/H263++ | |
| [COM15-D38] Canon, Matsushita, NEC, Oki Electric, Ricoh Co., Toshiba (QX/16): Proposed additional new section to T.38 IAF device and request for clarification in UDP mode | |
| [COM16-D39] NTT DoCoMo, Inc. (Q11,14/16): Support of HTTP in H.324 | |
| [COM16-D40] Siemens AG (Q13/16): H.323 Annex M.3 - Tunneling DSS1 in H.323 - Architecture | |
| [COM16-D41] Siemens AG (Q13/16): Deficiencies of H.225.0 for a Native Transport of DSS1 | |
| [COM16-D42] Canon, Matsushita, NEC, Oki Electric, Ricoh Co, Toshiba | |
| [COM16-D43] Siemens AG (Q11-14/16): Security interoperation-Providing H.235 based security for H.324 | |
| [COM16-D44] United States of America (QX/16): Draft amendment to Recommendation T.38 to support the use of V.34 modulation | |
| [COM16-D45] Canon (QX/16): Information for T.37 Internet fax work plan | |
| [COM16-D46] Canon Inc., Oki Electric Industry Co. (QX/16): Proposal of T.37 terminal mode | |
| [COM16-D47] NTT DoCoMo, Inc (Q11/16): Identification of References to IETF Documents in H.225.0 version 4 (per Recommendation A.5) | |
| [COM16-D48] United States of America (Q1,12,13,14/16): Functional requirements for priority services to support critical communications | |
| [COM16-D49] Microsoft (Q15/16): Corrections needed to new H.263 Annexes in COM 16-140 | |
| [COM16-D50] Microsoft (Q15/16): Header-Level needs for H.26L | |
| [COM16-D51] Siemens (QX/16): Status of draft T.800 (JPEG2000-Part 1) IPR Statements | |
| [COM16-D52] NTT DoCoMo, Inc. (Q11/16): Editorial revision to H.324 Annex H white document (COM 16-119) | |
| [COM 16-D53] France Telecom (Q14/16): Proposed package for data transmission over analog lines | |
| [COM 16-D54] France Telecom (Q14/16): Support of a direction indication in the generic announcement package | |
| [COM 16-D55] Israel (Q13/16): H.225.0 Annex G profile negotiation | |
| [COM 16-D56] Israel (Q13/16): Clarifications related to H.225.0 Annex G service ID's | |
| [COM 16-D57] Oki Electric Industry Co. (Q13/16): Adding ServiceControl fields to LRJ/LCF | |
| [COM 16-D58] Nokia Corporation (Q.7/16): Upgraded data rates into V.80 synchronous acces mode | |
| [COM16-D59] Lucent Technologies (Q14/16): Proposal for support of H.324 Annex C multimedia calls in decomposed gateway | |
| [COM16-D60] BT (Q22/16): Reply to ITU-T SG16 communication on basic operators | |
| [COM16-D61] Nokia (Q13/16): Changes to the H.323 Annex H - Proposal | |
| [COM16-D62] Nokia (Q.13/16): New messages and message fields to the H.225 Annex G due to usage in H.323 Annex H | |
| [COM16-D63] Matsushita Electric Industrial Co., Ltd. (Q20/16): High-level description for proposed wideband (7kHz) codec algorithm | |
| [COM16-D64] Matsushita Electric Industrial Co., Ltd. (Q20/16): WB Experiment 1 Qualification test results for candidate codec F (Matsushita codec) | |
| [COM16-D65] Matsushita Electric Industrial Co., Ltd. (Q20/16): WB Experiment 2 qualification test results for candidate codec F (Matsushita's codec) | |
| [COM16-D66] Ericsson (Q24/16): Communication to ITU-T Q.24/16 on "Parameters for variable bit rate voice codec operation and information on channel models" | |
| [COM16-D67] Lucent Technologies (Q20/16): Comments for consideration during the drafting of the selection test plan for "a Wideband Speech Coding Algorithm around 16 kb/s" | |
| [COM16-D68] Lucent Technologies (Q20/16): High level description and qualification test results of the Lucent Technologies candidate wideband coding algorithm at 12.8 to 24 kbit/sec | |
| [COM16-D69] Lucent Technologies (Q20/16): Intellectual property statement relating to the Lucent Technologies candidate wideband speech codec algorithm at bit rates around 16 kbit/sec | |
| [COM16-D70] Conexant and AT&T (Q21/16): High level description of the 4 kbit/s algorithm submitted by AT&T, Conexant, Deutsche Telekom, France Telecom, Matsushita and NTT | |
| [COM16-D71] Conexant Systems Inc. (Q19/16): Investigation of discrepancy between the description and C-code of the VAD in G.729 Annex B | |
| [COM16-D72] Conexant Systems, Inc., Lucent Technologies (Q24/16): Technical merits of VBR coding system and SMV | |
| [COM16-D73] Qualcomm, Inc. (Q24/16): CDMA2000 and IS95 system capacity benefits derived from a VBR coding scheme | |
| [COM16-D74] Deutsche Telekom, France Telecom (Q21/16): Notice of audio demonstration of 2.4 and 6.4 kbit/s extensions and DTX-enabled verison of ACDFM's 4kbit/s speech coding candidate | |
| [COM16-D75] France Telecom (Q13/16): Proposal for mobility management protocol in H.323 Annex H | |
| [COM16-D76] Nokia (Q20/16): Communication with ITU-T Q.20/16 "Audio & Wideband Coding" | |
| [COM16-D77] Nokia (Q20/16): BER/RBER/FER mapping used in 3GPP/GSM AMR wideband codec selection tests | |
| [COM16-D78] Nokia (Q20/16): High level description of the 3GPP/GSM AMR-WB codec recommended for selection in 3GPP | |
| [COM16-D79] NTT (Q19/16): Proposal of editorial corrections to ITU-T G.729 Annexes C+, F and I | |
| [COM16-D80] NTT (Q20/16): High level description of NTT's wideband coder around 16 kbit/s | |
| [COM16-D81] NTT (Q20/16): WB experiment 1 qualifications test results for NTT's wideband speech coder | |
| [COM16-D82] NTT (Q20/16): WB experiment 2 qualification test results for NTT's wideband speech coder | |
| [COM16-D83] Lucent Technologies (Q14/16): Proposal to create an SDL representation of H.248 | |
| [COM16-D84] Texas Instruments (Q20/16): Experiment 1 test results of Texas Instrument's 16kbit/s wideband speech codec | |
| [COM16-D85] Texas Instruments (Q20/16): Experiment 2 test results of Texas Instrument's 16 kbit/s wideband speech codec | |
| [COM16-D86] Texas Instruments (Q20/16): High level descriptions of TI's wideband coder | |
| [COM16-D87] Texas Instruments (Q20/16): IPR statement for TI's wideband coder | |
| [COM16-D88] Texas Instruments (Q20/16): High level description of TI/Nokia/Ericsson 4kb/s coder | |
| [COM16-D89] France Telecom R&D (Q21/16): France Telecom R&D results for the ITU-T 4 kbit/s selection phase - Experiments 1 & 3b | |
| [COM16-D90] Canada (Q20/16): WB Experiment 1 qualification test results for VoiceAge's candidate codec | |
| [COM16-D91] Canada (Q20/16): WB Experiment 2 qualifications test results for VoiceAge's candidate codec | |
| [COM16-D92] Canada (Q20/16): High level description of VoiceAge's candidate code for ITU-T WB speech coding standard | |
