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Les paquets de bande élargie: une nouvelle technique de transmission

Wideband packets: A new transmission technology

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Résumé

Cet article décrit les principes et la réalisation d’une nouvelle technique de transmission par mise en paquet du trafic multimédia. Cette intégration permet une utilisation plus efficace du réseau et réduit les coûts d’exploitation et de maintenance. On présente ensuite un système d’accès et de brassage intégré (IACS) développé par AT&T comme un exemple de mise en œuvre de la technique décrite.

Abstract

The purpose of this article is to describe the principles and applications of a new transmission technology for multimedia traffic based on wideband packets. This integration allows a more efficient utilization of the network and reduces the operation and maintenance costs. Next, we present AT&T’s integrated access and cross-connect system (IACS,) as an example of an implementation of this technology.

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Bibliographie

  1. American National Standard ansi/ieee C37.1–1979. Definition, specification and analysis of manual, automatic, and supervisory station control and data acquisition. Sponsored by the Substations Committee of the ieee Power Engineering Society, December 15, 1977.

  2. Andrews (S.B.), Luderer (G.W.R.) etMesserli (E.J.). Faster packets for tomorrow’s telecommunications,AT& T Technology (1988),4, no 3, pp. 24–33.

    Google Scholar 

  3. Ashenfelter (R.C.), Bonomi (M.J.) et Bowker (D.O.). Technique for improved subjective performance in a communication systemusing attenuated noise fill. US Patent 4,864,561 (Sept. 5, 1989).

  4. Ashoka (C.P.) etPaul (R.N.). Network consolidation via wideband packet technology-Private network trial of iacs in AT& T ms,ICC’90, Atlanta, GA, (April 15-19, 1990),1, pp. 154–158.

    Google Scholar 

  5. Benvenuto (N.), Daumer (W.R.). Classification of voiceband data signals,ICC’90, Atlanta, GA (15-19 avril 1990),3, pp. 1010–1013.

    Google Scholar 

  6. Bially (T.), Gold (B.) etSeneff (S.). A technique for adaptive voice flow control in integrated packet networks,IEEE Trans. COM. (mars 1980),28, pp. 325–333.

    Article  Google Scholar 

  7. Bially (T.), Mclaughlin (A.J.) etWeinstein (C.J.). Voice communications in integrated digital voice et data networks,IEEE Trans. COM. (sept. 1980),28, pp. 1478–1490.

    Article  Google Scholar 

  8. Bonnerot (G.) etLacroix (R.). Introduction du codage à 32 kbit/s dans le réseau téléphonique: Généralités et problèmes particuliers liés à la mise en cascade,L’Onde Electrique (août-sept. 1981),61, no 8–9, pp. 23–27.

    Google Scholar 

  9. Bowker (D.O.) etArmitage (C.B.). Performance issues for pack-etized voice communication,Proc. Nat. Comm. Forum (1987),41, no 3, pp. 1087–1092.

    Google Scholar 

  10. Bowker (D.O.) etDvorak (C.A.). Speech transmission quality of wideband packet technology,Globecom’87, Tokyo, Japan (15-18 nov. 1987),3, pp. 1887–1889.

    Google Scholar 

  11. Campanella (S.J.). Digital speech interpolation,COMSAT tech. rev. (1976),6, no 1, pp. 127–158.

    Google Scholar 

  12. Cartier (M.). La numérisation de la parole,L’Onde Electrique (août-sept. 1981),61, no 8–9, pp. 21–22.

    Google Scholar 

  13. Cohen (R.S.), Kan (H.K.) etPennott (R.J.). Unified Network Management for AT& T,AT& T Technical Journal (nov.-déc. 1988), pp. 121–136.

    Google Scholar 

  14. Corley (L.T.). Bellsouth trial of wideband packet technology,ICC’90, Atlanta, GA (April 15-19, 1990),3, pp. 1000–1002.

    Google Scholar 

  15. Dalgleish (D.I.). An introduction to satellite communications,IEE, Peter Peregrinus, Ltd., (1989), pp. 234–235.

  16. Dasilva (L.A.), Petr (D.W.) etFrost (V.S.). A classe-oriented replacement technique for lost speech packets,IEEE INFO-COM’89, Ottawa, Canada (23-24 avril 1989),3, pp. 1098–1105.

    Google Scholar 

  17. Dravida (S.)et Sriram (K.). End-to-end performance models for variable bit rate voice over tandem links in packet networks. IEEE INFOCOM’89, Ottawa, Canada (April 1989), 1089–1097. Aussi in IEEE J. SAC (June 1989), pp. 718–728.

  18. Dvorak (CA.) etRosenberger (J.R.). Deriving a subjective testing methodology for digital circuit multiplication and packetized voice systems,IEEE J. Selec. Areas Commun, (feb. 1988),6, no 2, pp. 235–241.

    Article  Google Scholar 

  19. Easton (R.L.), Hutchinson (P.T.), Kolor (R.W.), Mondello (R.C.) etMuise (R.W.). Tasi-e Communications Systems,IEEE Trans. COM, (avril 1982),30, no 4, pp. 803–807.

    Article  Google Scholar 

  20. Giguere (W.J.). New applications of wideband technology,ICC’90, Atlanta, GA (April 15-19, 1990),3, pp. 0997–0999.

    Google Scholar 

  21. Goodman (D.J.), Lockhart (G.B.), Wasem (O.J.) etWong (W.C.). Waveform substitution techniques for recovering missing speech segments in packet voice communications.IEEE Trans. ASSP (déc. 1986),34, no 6, pp. 1440–1448.

    Article  Google Scholar 

  22. Gruber (J.) etStrawczynski (L.). Subjective effects of variable delay and speech loss in dynamically managed voice systems,GLOBECOM’82, Miami, FL (nov.-déc. 1982),2, F.7.3.1-F.7.3.5.

    Google Scholar 

  23. Gruber (J.G.) etLe (N.H.). Performance requirements for integrated voice/data networks.IEEE J. SAC (déc. 1983),1, no 6, pp. 981–1005.

    Google Scholar 

  24. Heffes (H.) etLucantoni (D.M.). A Markov-modulated characterization of packetized voice and data traffic and related statistical multiplexer performance,IEEE J. SAC (sept. 1986),4, no 6, pp. 856–868.

    Google Scholar 

  25. Hoeffelman (J.). Performances de la procédure de télécommunication HDLC et adaptation aux exigences d’une haute sécurité de transmission,L’Onde Electrique (nov. 1980),60, pp. 52–60.

    Google Scholar 

  26. Jayant (N.S.), Christensen (S.W.). Effects of packet losses in waveform coded speech and improvements due to an odd-even sample-interpolation procedure,IEEE Trans COM. (fév. 1981),27, no 2, pp. 101–109.

    Article  Google Scholar 

  27. Karanam (V.R.), Sriram (K.) et Bowker (D.O.). Performance evaluation of variable bit rate voice in packet networks, AT& T Technical Journal (sep.-oct. 1988), pp. 41–56. Aussi: Performance modeling of variable bit rate voice in packet switched networks, GLOBECOM’88, Hollywood, FL, (28 nov-1 déc. 1988), 3, pp. 1617–1622.

  28. Minoli (D.). Optimal packet length for packet voice communication, IEEE Trans. COM. (mar. 1979). 27, no 607–611.

  29. Montgomery (W.A.). Techniques for packet voice synchronization,IEEEJ.SAC (déc. 1983),1, no 6, pp. 1022–1028.

    Google Scholar 

  30. Muise (R.W.), Schonfeld (T.J.) et Zimmerman (G.H.). Experiments in wideband packet technology, Proc. Zurich Seminar on Digital Communication (mar. 1986), D4.1–D4.5.

  31. Noordsij (K.M.) etRajala (D.W.). AT&T’s integrated access and cross-connect system goes international,AT&T Technology (1990),5, no 2, pp. 24–33.

    Google Scholar 

  32. Petr (D.W.), Dasilva (L.A. Jr.),Frost (V.S.). Priority discarding of speech in integrated packet networks,IEEE J. Select Areas Commun, (juin 1989),7, no 5, pp. 644–656.

    Article  Google Scholar 

  33. Midema (H.) etSchachtman (M.G.). TASI quality. Effect of speech detectors and interpolation;Bell Sys. Tech. J. (juil. 1962),XL1, no 4, pp. 1455–1473.

    Google Scholar 

  34. Sherif (M.H.), Bowker (D.O.), Bertocci (G.), Orford (B.A.) etMariano (G.A.). Overview of ccitt/ansi embedded adpcm algorithms,ICC’90, Atlanta, GA (15-19 avril 1990),3, pp. 1014–1018.

    Google Scholar 

  35. Sherif (M.H.), Bowker (D.O.), Bertocci (G.), Orford (B.A.) et Mariano (G.A.). Overview and performance of ccitt/ansi embedded adpcm algorithms, accepté in IEEE Trans. COM.

  36. Shérif (M.H.), Clark (R.J.) et Forcina (G.P.). ccitt/ansi voice packetization protocol, accepté in International Journal of Satellite Communications.

  37. Sherif (M.H.), Malaret-collazo (A.D.) et Gruensfelder (M.C.). Wideband packet technology in the integrated access and cross-connect system (iacs), accepté in International Journal of Satellite Communications.

  38. Sherif (M.H.), Fite (F.D.) et Gruensfelder (M.C.). On the road to universal information services (UIS): The integrated access terminal, ENTELEC’89, New Orléans, LA (19–22 mars 1989), pp. 42–38.

  39. Sparrell (D.K.). Wideband packet technology,GLOBECOM’88, Hollywood, FL (28 nov.-l déc. 1988,3, pp. 1612–1616.

    Google Scholar 

  40. Sriram (K.). Dynamic bandwidth allocation and congestion control schemes for voice and data multiplexing in wideband packet technology,ICC’90, Atlanta, GA (15-19 avril 1990),3, pp. 1003–1009.

    Google Scholar 

  41. Sriram (K.) et Lucantoni (D.M.). Traffic smoothing effects of bit dropping in a packet voice multiplexer, IEEE INFOCOM 88, New Orleans, March 1988, pp. 759–770. Aussi dans IEEE Trans. COM. (juil. 1989), pp. 703–712.

  42. Sriram (K.) et Sherif (M.H.). Frame size requirements in frame relay networks, contributions no T1S1.1/90-185 (TIS 1.2/90-128) (17 avril 1990).

  43. Sriram (K.) et Whitt (W.). Characterizing superposition arrival process in packet multiplexers for voice and data,IEEE GLOBE-COM, New Orleans (dec. 1985), pp. 778–784.

  44. Suzuki (J.) etTaka (M.). Missing packet recovery techniques for low-bit rate coded speech,J. Select Areas Commun. (juin 1989),7, no 5, pp. 707–717.

    Article  Google Scholar 

  45. Wasem (O.J.), Goodman (D.J.), Dvorak (C.A.) etPage (H.G.). The effect of waveform substitution on the quality of pcm packet communications,IEEE Trans. ASSP (mars 1988),36, no 3, pp. 342–348.

    Article  Google Scholar 

  46. Weinstein (C.J.) etForgie (J.W.). Experience with speech communication in packet networks,IEEE J. SAC (déc. 1983),1, no 6, pp. 963–980.

    Google Scholar 

  47. Yin (N.), Stern (T.) et Li (S.Q.). Performance analysis of a priority-oriented system,IEEE INFOCOM’87, San Francisco (mars 1987), pp. 856–862.

  48. Yin (N.), Li (S.Q.) etStern (T.E.). Congestion control for packet voice by selective packet discards,GLOBECOM’87, Tokyo, Japan (15-18 nov. 1987),3, pp. 1782–1786.

    Google Scholar 

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Authors and Affiliations

  1. AT&T, Bell Laboratories, Rm. 3G-607, 07733-1988, NJ, USA

    Mostafa Hashem Sherif

  2. AT&T France, Tour Horizon, 52, quai de Dion-Boulon, F-92806, Puteaux Cedex

    Marie-Pascale Bosse

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  1. Mostafa Hashem Sherif
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  2. Marie-Pascale Bosse
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Sherif, M.H., Bosse, MP. Les paquets de bande élargie: une nouvelle technique de transmission. Ann. Télécommun. 46, 392–407 (1991). https://doi.org/10.1007/BF02999411

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  • DOI: https://doi.org/10.1007/BF02999411

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