EE 478: Multiple User Information Theory

MULTIPLE ACCESS:

R. Ahlswede, “Multiway communication channels”, Proc. 2nd. Int. Symp. Information theory(Tsahkadsor), Arminian S.S.R. Prague, PP.23-52, 1971.

Henry H. J. Liao Multiple access channels (Ph.D. Thesis abstr.), IEEE Trans. Info. Theory, vol. IT-19, p. 253, March 1973.

[MA01] Tadao Kasami, Shu Lin Coding for a multiple-access channel, IEEE Trans. Info. Theory, vol. IT-22, pp. 129 - 137, March 1976.

[MA02] Tadao Kasami, Shu Lin Bounds on the achievable rates of block coding for a memoryless multiple-access channel, IEEE Trans. Info. Theory, vol. IT-24, pp. 187 - 197, March 1978.

[MA03] Thomas M. Cover, Abbas A. El Gamal, Masoud Salehi Multiple access channels with arbitrarily correlated sources, IEEE Trans. Info. Theory, vol. IT-26, pp. 648 - 657, November 1980.

[MA04] Gunter Dueck A note on the multiple access channel with correlated sources (Corresp.), IEEE Trans. Info. Theory, vol. IT-27, pp. 232 - 235, March 1981.

[MA05] Motoaki Ohkubo A strong outer bound to the capacity region for multiple access channels (Corresp.), IEEE Trans. Info. Theory, vol. IT-27, pp. 505 - 508, July 1981.

[MA06] Thomas M. Cover, Robert J. McEliece, Edward C. Posner Asynchronous multiple-access channel capacity, IEEE Trans. Info. Theory, vol. IT-27, pp. 409 - 413, July 1981.

[MA07] Motoaki Ohkubo Universal coding for multiple access channels, IEEE Trans. Info. Theory, vol. IT-27, pp. 728 - 734, November 1981.

[MA08] Robert G. Gallager, A perspective on multiaccess channels, IEEE Trans. Info. Theory, vol. IT-31, pp. 124 - 142, March 1985.

E. C. Van der Meulen, "Recent coding theorems and converses for multi-way channels. Part II: The multiple access channel (1976–1985)", Department Wiskunde, Katholieke Universiteit Leuven, Leuven, Belgium, 1985.

[MA09] Roger S. Cheng, Sergio Verdú; The effect of asynchronism on the total capacity of Gaussian multiple-access channels, IEEE Trans. Info. Theory, vol. IT-38, pp. 2 - 13, January 1992.

V. A. Mikhailov, B. S. Tsybakov, "Upper bound for the capacity of a random multiple access system", Probl. Pered. Inform., vol.17, pp.90-95, 1981.

[MAI01] Rudolf F. Ahlswede, Te Sun Han; On source coding with side information via a multiple-access channel and related problems in multi-user information theory, IEEE Trans. Info. Theory, vol. IT-29, pp. 396 - 412, May 1983.

[MAI02] J. Y. N. Hui, Pierre A. Humblet; The capacity region of the totally asynchronous multiple-access channel, IEEE Trans. Info. Theory, vol. IT-31, pp. 207 - 216, March 1985.

[MAI03] Sergio Verdú; Minimum probability of error for asynchronous Gaussian multiple-access channels, IEEE Trans. Info. Theory, vol. IT-32, pp. 85 - 96, January 1986.

[MAI04] Sergio Verdú; Multiple-access channels with memory with and without frame synchronism, IEEE Trans. Info. Theory, vol. IT-35, pp. 605 - 619, May 1989.

[MAI05] Sergio Verdú; The capacity region of the symbol-asynchronous Gaussian multiple-access channel, IEEE Trans. Info. Theory, vol. IT-35, pp. 733 - 751, July 1989.

[MAI06] John A. Gubner; On the capacity region of the discrete additive multiple-access arbitrarily varying channel (Corresp.), IEEE Trans. Info. Theory, vol. IT-38, pp. 1344 - 1347, July 1992.

[MAI07] Roger S. Cheng, Sergio Verdú; Gaussian multiaccess channels with ISI: Capacity region and multiuser water-filling, IEEE Trans. Info. Theory, vol. IT-39, pp. 773 - 785, May 1993.

[MAI08] Alexander J. Grant, Bixio Rimoldi, Rüdiger L. Urbanke, Philip A. Whiting; Rate-splitting multiple access for discrete memoryless channels, IEEE Trans. Info. Theory, vol. IT-47, pp. 873 - 890, March 2001.

[MAI09] A. Das, P. Narayan, Capacities of time-varying multiple-access channels with side information, Information Theory, IEEE Transactions on , Volume: 48 Issue: 1 , Jan. 2002, PP. 4 -25

BROADCAST:

[BC01] T.M. Cover Broadcast channels, IEEE Trans. Info. Theory, vol. IT-18, pp. 2 - 14, January 1972.

[BC02] P.P. Bergmans Random coding theorem for broadcast channels with degraded components, IEEE Trans. Info. Theory, vol. IT-19, pp. 197 - 207, March 1973.

[BC03] P.P. Bergmans A simple converse for broadcast channels with additive white Gaussian noise (Corresp.), IEEE Trans. Info. Theory, vol. IT-20, pp. 279 - 280, March 1974.

[BC04] P.P. Bergmans, T.M. Cover Cooperative broadcasting, IEEE Trans. Info. Theory, vol. IT-20, pp. 317 - 324, May 1974.

R. G. Gallager, "Capacity and coding for degraded broadcast channels", Probl. Pered. Inform., vol.10, no.3, pp.3-14, July–Sept. 1974

[BC05] E.C. van der Meulen Random coding theorems for the general discrete memoryless broadcast channel, IEEE Trans. Info. Theory, vol. IT-21, pp. 180 - 190, March 1975.

[BC06] T. M. Cover An achievable rate region for the broadcast channel, IEEE Trans. Info. Theory, vol. IT-21, pp. 399 - 404, July 1975.

T. M. Cover, "Some advances in broadcast channels", Advances in Communication Systems, Vol. 4, Theory and Applications, Academic, New York, 1975.

[BC07] J. Körner, K. Marton General broadcast channels with degraded message sets, IEEE Trans. Info. Theory, vol. IT-23, pp. 60 - 64, January 1977.

* K. Marton, "The capacity region of deterministic broadcast channels", Trans. Int. Symp. Inform. Theory, Paris-Cachan, France, 1977.

* M. S. Pinsker, "Capacity of noiseless broadcast channels", Probl. Pered. Inform., vol.14, no.2, pp.28-34, Apr.–June 1978.

[BC08] A. A. El Gamal The capacity of a class of broadcast channels, IEEE Trans. Info. Theory, vol. IT-25, pp. 166 - 169, March 1979.

[BC09] K. Marton A coding theorem for the discrete memoryless broadcast channel, IEEE Trans. Info. Theory, vol. IT-25, pp. 306 - 311, May 1979.

[BC10] A. A. El Gamal, E. C. van der Meulen A proof of Marton's coding theorem for the discrete memoryless broadcast channel (Corresp.), IEEE. Trans. Info. Theory, vol. IT-27, pp. 120 - 122, January 1981.

[BC11] Te Sun Han The capacity region for the deterministic broadcast channel with a common message (Corresp.), IEEE Trans. Info. Theory, vol. IT-27, pp. 122 - 125, January 1981.

* G. S. Poltyrev, "Random-coding bounds for some broadcast channels", Probl. Pered. Inform., vol.19, no.1, pp.9-20, Jan.–Mar. 1983.

[BC12] Te Sun Han, M. H. M. Costa Broadcast channels with arbitrarily correlated sources, IEEE Trans. Info. Theory, vol. IT-33, pp. 641 - 650, September 1987.

[BC13] T. M. Cover, Comments on Broadcast Channels, IEEE Trans. Info. Theory, vol. IT-44, pp. 2524 - 2530, October 1998.

[BC14] Lifang Li, A. J. ``Goldsmith Capacity and optimal resource allocation for fading broadcast channels--Part I: Ergodic capacity,'' IEEE Trans. Info. Theory, vol. IT-47, pp. 1083 - 1102, March 2001.

[BC15] J. Korner, K. Marton, Images of a set via two channels and their role in Mult-User Communication,'' IEEE Trans. Info. Theory, vol. IT-23, pp. 751-761, November 1977.

G. S. Poltyrev, "Carrying capacity for parallel broadcast channels with degraded components", Probl. Pered. Inform., vol.13, no.2, pp.23-35, Apr.–June 1977.

S. I. Gelfand, "Capacity of one broadcast channel", Probl. Pered. Inform., vol.13, no.3, pp.106-108, July–Sept. 1977

[BCI01] Imre Csiszár, János Körner; Broadcast channels with confidential messages, IEEE Trans. Info. Theory, vol. IT-24, pp. 339 - 348, May 1978.

[BCI02] H. Sato, "An outer bound to the capacity region of broadcast channels", IEEE Trans. Inform. Theory, vol.IT-24, pp.374-May 1978.

[BCI03] H. Sato; On degraded Gaussian two-user channels (Corresp.), IEEE Trans. Info. Theory, vol. IT-24, pp. 637 - 640, September 1978.

[BCI04] B. E. Hajek, M. B. Pursley, "Evaluation of an achievable rate region for the broadcast channel", IEEE Trans. Inform. Theory, Chicago, IL, vol.IT-25, pp.36-46, Jan 1979.

B. D. Kudryashov, "Upper bounds for decoding error probability in some broadcast channels", Probl. Pered. Inform., vol.15, no.3, pp.3-17, July–Sept. 1979.

G. S. Poltyrev, "Capacity for a sum of broadcast channels", Probl. Inform Transm., vol.15, no.2, pp.111-114, Apr.–June 1979.

J. Körner, A. Sgarro Universally attainable error exponents for broadcast channels with degraded message sets, IEEE Trans. Info. Theory, vol. IT-26, pp. 670 - 679, November 1980.

A. A. El Gamal, Capacity of the product and sum of two unmatched broadcast channels, Probl. Pered. Inform., vol. 16, no. 1, pp. 3 - 23, 1980.

L. A. Bassalygo, "Bound for permissible transmission rates in a broadcast channel with errors in both components", Probl. Pered. Inform., vol.17, no.4, pp.198-28, Oct.–Dec. 1981.

R. J. McEliece, L. Swanson, "A note on the wide-band Gaussian broadcast channel", IEEE Trans. Comm., vol. 35, pp.452-453, Apr. 1987.

F. M. J. Willems, "The maximal-error and average-error capacity region of the broadcast channel are identical", Probl. Contr. Inform. Theory—Probl. Upravl. I Teorii Inform., vol.19, no.4, pp.339-347, 1990

B. Verboven, E.C. Van der Meulen, “Capacity bounds for identification via broadcast channels that are optimal for the determination of broadcast channel”, Information Theory, IEEE Transactions on , Volume: 36, Issue: 6, pp. 1197 –1205, Nov. 1990.

[BCI05] M. van Dijk; On a special class of broadcast channels with confidential messages, IEEE Trans. Info. Theory, vol. IT-43, pp. 712 - 714, March 1997.

INTERFERENCE:

[IF01] N. M. Blachman The effect of statistically dependent interference upon channel capacity, IEEE Trans. Info. Theory, vol. IT-8, pp. 53 - 57, September 1962.

[IF02] A. B. Carleial, A case where interference does not reduce capacity (Corresp.), IEEE Trans. Info. Theory, vol. IT-21, pp. 569 - 570, September 1975.

[IF03] A. B. Carleial Interference channels, IEEE Trans. Info. Theory, vol. IT-24, pp. 60 - 70, January 1978.

[IF04] H. Sato On the capacity region of a discrete two-user channel for strong interference (Corresp.), IEEE Trans. Info. Theory, vol. IT-24, pp. 377 - 379, May 1978.

[IF05] R. Benzel, The capacity region of a class of discrete additive degraded interference channels (Corresp.), IEEE Trans. Info. Theory, vol. IT-25, pp. 228 - 231, March 1979.

[IF06] Te Sun Han, K. Kobayashi A new achievable rate region for the interference channel, IEEE Trans. Info. Theory, vol. IT-27, pp. 49 - 60, January 1981.

[IF07] H. Sato The capacity of the Gaussian interference channel under strong interference (Corresp.), IEEE Trans. Info. Theory, vol. IT-27, pp. 786 - 788, November 1981.

[IF08] A. A. El Gamal, M. H. M. Costa The capacity region of a class of deterministic interference channels (Corresp.), IEEE Trans. Info. Theory, vol. IT-28, pp. 343 - 346, March 1982.

[IF09] A. B. Carleial Outer bounds on the capacity of interference channels (Corresp.), IEEE Trans. Info. Theory, vol. IT-29, pp. 602 - 606, July 1983.

[IF10] R. J. McEliece, W. E. Stark Channels with block interference, IEEE Trans. Info. Theory, vol. IT-30, pp. 44 - 53, January 1984.

[IF11] M. H. M. Costa, On the Gaussian interference channel, IEEE Trans. Info. Theory, vol. IT-31, pp. 607 - 615, September 1985.

[IF12] M. H. M. Costa, A. A. El Gamal The capacity region of the discrete memoryless interference channel with strong interference (Corresp.), IEEE Trans. Info. Theory, vol. IT-33, pp. 710 - 711, September 1987.

[IF13] W. E. Stark, R. J. McEliece On the capacity of channels with block memory (Corresp.), IEEE Trans. Info. Theory, vol. IT-34, pp. 322 - 324, March 1988.

H. H. Tan, Two-user interference channels with correlated information sources., Information and Control, vol.44, no.1, pp.77-104, Jan 1980

[IFI01] W. Hirt, J. L. Massey, “Capacity of the discrete-time Gaussian channel with intersymbol interference” , Information Theory, IEEE Transactions on , Volume: 34, Issue: 3, pp.38, May 1988.

[IFI02] M. V. Hegde, W. E. Stark, D. Teneketzis, On the capacity of channels with unknown interference, IEEE Trans. Info. Theory, vol. IT-35, pp. 770 - 783, July 1989.

E. C. van der Meulen, Some Reflections on the Interference Channel. Boston, MA: Kluwer, pp. 409–421, 1994.

RELAY:

E.Van Der Muelen, “three terminal communication channels”, adv, appl., prob., Vol. 3, PP. 120-154, 1971.

E. C. van der Meulen A survey of multi-way channels in information theory: 1961-1976, IEEE Trans. Info. Theory, vol. IT-23, pp. 1 - 37, January 1977.

[RL01] T. M. Cover, A. A. El Gamal Capacity theorems for the relay channel, IEEE Trans. Info. Theory, vol. IT-25, pp. 572 - 584, September 1979.

M. Aref, "Information flow in relay networks", Stanford Univ., Stanford, CA, Oct. 1980.

[RL02] A. A. El Gamal, M. Aref; The capacity of the semideterministic relay channel (Corresp.), IEEE Trans. Info. Theory, vol. IT-28, p. 536, May 1982.

[RL03] Z. Zhang Partial converse for a relay channel (Corresp.), IEEE Trans. Info. Theory, vol. IT-34, pp. 1106 - 1110, September 1988.

[RL04] P. M. Piret; Two results on the permuting mailbox channel (Corresp.), IEEE Trans. Info. Theory, vol. IT-35, pp. 888 - 892, July 1989.

[RL05] P. Vanroose, E. C. van der Meulen; Uniquely decodable codes for deterministic relay channels, IEEE Trans. Info. Theory, vol. IT-38, pp. 1203 - 1212, July 1992.

SOURCE CODING: [SC01] Richard M. Karp Minimum-redundancy coding for the discrete noiseless channel, IEEE Trans. Info. Theory, vol. IT-7, pp. 27 - 38, January 1961.

[SC02] Jack K. Wolf, Jacob Ziv Transmission of noisy information to a noisy receiver with minimum distortion, IEEE Trans. Info. Theory, vol. IT-16, pp. 406 - 411, July 1970.

[SC03] Toby Berger The source coding game, IEEE Trans. Info. Theory, vol. IT-17, pp. 71 - 76, January 1971.

[SC04] David S. Slepian, Jack K. Wolf Noiseless coding of correlated information sources, IEEE Trans. Info. Theory, vol. IT-19, pp. 471 - 480, July 1973.

[SC05] Thomas M. Cover A proof of the data compression theorem of Slepian and Wolf for ergodic sources (Corresp.), IEEE Trans. Info. Theory, vol. IT-21, pp. 226 - 228, March 1975.

[SC06] Aaron D. Wyner The common information of two dependent random variables, IEEE Trans. Info. Theory, vol. IT-21, pp. 163 - 179, March 1975.

[SC07] Rudolf F. Ahlswede, János Körner Source coding with side information and a converse for degraded broadcast channels, IEEE Trans. Info. Theory, vol. IT-21, pp. 629 - 637, November 1975.

[SC08] Te Sun Han, Kingo Kobayashi A unified achievable rate region for a general class of multiterminal source coding systems, IEEE Trans. Info. Theory, vol. IT-26, pp. 277 - 288, May 1980.

[SC09] Thomas M. Cover, Abbas A. El Gamal, Masoud Salehi Multiple access channels with arbitrarily correlated sources, IEEE Trans. Info. Theory, vol. IT-26, pp. 648 - 657, November 1980.

[SC10] Rudolf F. Ahlswede, Te Sun Han On source coding with side information via a multiple-access channel and related problems in multi-user information theory, IEEE Trans. Info. Theory, vol. IT-29, pp. 396 - 412, May 1983.

[SC11] Abbas A. El Gamal A simple proof of the Ahlswede - Csiszár one-bit theorem (Corresp.), IEEE Trans. Info. Theory, vol. IT-29, pp. 931 - 933, November 1983.

[SC12] Zhen Zhang, Toby Berger New results in binary multiple descriptions, IEEE Trans. Info. Theory, vol. IT-33, pp. 502 - 521, July 1987.

[SC13] Te Sun Han, Max H. M. Costa Broadcast channels with arbitrarily correlated sources, IEEE Trans. Info. Theory, vol. IT-33, pp. 641 - 650, September 1987.

[SC14] Frans M. J. Willems Totally asynchronous Slepian-Wolf data compression, IEEE Trans. Info. Theory, vol. IT-34, pp. 35 - 44, January 1988.

[SC15] Toby Berger, Raymond W. Yeung Multiterminal source encoding with one distortion criterion, IEEE Trans. Info. Theory, vol. IT-35, pp. 228 - 236, March 1989.

[SC16] Zhen Zhang, T. Berger Multiple description source coding with no excess marginal rate, IEEE Trans. Info. Theory, vol. IT-41, pp. 349 - 357, March 1995.

[SC17] Hirosuke Yamamoto Source coding theory for a triangular communication system, IEEE Trans. Info. Theory, vol. IT-42, pp. 848 - 853, May 1996.

[SC18] E. A. Haroutunian Multiterminal source coding achievable rates and reliability, IEEE Trans. Info. Theory, vol. IT-42, pp. 2094 - 2101, November 1996.

[SC19] Y. Oohama Gaussian multiterminal source coding, IEEE Trans. Info. Theory, vol. IT-43, pp. 1912 - 1923, November 1997.

[SC20] Toby Berger, Jerry D. Gibson Lossy Source Coding, IEEE Trans. Info. Theory, vol. IT-44, pp. 2693 - 2723, October 1998.

[SC21] János Körner, Alon Orlitsky Zero-Error Information Theory, IEEE Trans. Info. Theory, vol. IT-44, pp. 2207 - 2229, October 1998.

[SC22] Ram Zamir, Toby Berger Multiterminal Source Coding with High Resolution, IEEE Trans. Info. Theory, vol. IT-45, pp. 106 - 117, January 1999.

[SC23] Toby Berger, Ram Zamir A semi-continuous version of the Berger--Yeung problem, IEEE Trans. Info. Theory, vol. IT-45, pp. 1520 - 1526, July 1999.

[SC24] Ram Zamir; Gaussian codes and Shannon bounds for multiple descriptions, IEEE Trans. Info. Theory, vol. IT-45, pp. 2629 - 2636, November 1999.

[SC25] Ram Zamir; Gaussian codes and Shannon bounds for multiple descriptions, IEEE Trans. Info. Theory, vol. IT-45, pp. 2629 - 2636, November 1999.

[SC26] Shlomo (Shitz) Shamai, Sergio Verdú, Ram Zamir; Systematic Lossy Source/Channel Coding, IEEE Trans. Info. Theory, vol. IT-44, pp. 564 - 579, March 1998.

[SC27] T. Berger, Zhen Zhang, H. Viswanathan; The CEO problem [multiterminal source coding], IEEE Trans. Info. Theory, vol. IT-42, pp. 887 - 902, May 1996.

[SC28] Abbas A. El Gamal, Thomas M. Cover; Achievable rates for multiple descriptions, IEEE Trans. Info. Theory, vol. IT-28, pp. 851 - 857, November 1982.

[SC29] Fang-Wei Fu, R.W. Yeung, “On the rate-distortion region for multiple descriptions” , Information Theory, IEEE Transactions on, Volume: 48, Issue: 7, pp. 2012 –2021, July 2002 .

*R.M. Gray, "Source Coding Theory", Boston, MA, 1990.

[SCI01] Andrea Sgarro Source coding with side information at several decoders, IEEE Trans. Info. Theory, vol. IT-23, pp. 179 - 182, March 1977.

[SCI02] Imre Csiszár, János Körner Towards a general theory of source networks, IEEE Trans. Info. Theory, vol. IT-26, pp. 155 - 165, March 1980.

[SCI03] Amiram H. Kaspi Two-way source coding with a fidelity criterion, IEEE Trans. Info. Theory, vol. IT-31, pp. 735 - 740, November 1985.

[SCI04] Thomas J. Flynn, Robert M. Gray Encoding of correlated observations, IEEE Trans. Info. Theory, vol. IT-33, pp. 773 - 787, November 1987.

[SCI05] Zhen Zhang, En-Hui Yang, Victor K. W. Wei The redundancy of source coding with a fidelity criterion. 1. Known statistics, IEEE Trans. Info. Theory, vol. IT-43, pp. 71 - 91, January 1997.

[SCI06] Sergio Verdú, Te Sun Han The role of the asymptotic equipartition property in noiseless source coding, IEEE Trans. Info. Theory, vol. IT-43, pp. 847 - 857, May 1997.

[SCI07] Bertrand Hochwald Tradeoff Between Source and Channel Coding on a Gaussian Channel, IEEE Trans. Info. Theory, vol. IT-44, pp. 3044 - 3055, November 1998.

[SCI08] Michelle Effros Distortion-rate bounds for fixed- and variable-rate multiresolution source codes, IEEE Trans. Info. Theory, vol. IT-45, pp. 1887 - 1910, September 1999.

[SCI09] Tamás Linder, Ram Zamir, Kenneth Zeger On source coding with side-information-dependent distortion measures, IEEE Trans. Info. Theory, vol. IT-46, pp. 2697 - 2704, November 2000.

[SCI10] Harish Viswanathan, Toby Berger; Sequential coding of correlated sources, IEEE Trans. Info. Theory, vol. IT-46, pp. 236 - 246, January 2000.

[SCI11] Katalin Marton Sequences achieving the boundary of the entropy region for a two-source are virtually memoryless (Corresp.), IEEE Trans. Info. Theory, vol. IT-33, pp. 443 - 448, May 1987.

[SCI12] János Körner; OPEC or a basic problem in source networks, IEEE Trans. Info. Theory, vol. IT-30, pp. 68 - 77, January 1984.

[SCI13] Toby Berger, Ram Zamir A semi-continuous version of the Berger--Yeung problem IEEE trans, info. Theory, vol. IT-45, pp. 1520 - 1526, July 1999.

[SCI14] Amiram H. Kaspi, Toby Berger; Rate-distortion for correlated sources with partially separated encoders, IEEE Trans. Info. Theory, vol. IT-28, pp. 828 - 840, November 1982.

[SCI15] Thomas M. Cover, Zhen Zhang; On the maximum entropy of the sum of two dependent random variables, IEEE Trans. Info. Theory, vol. IT-40, pp. 1244 - 1246, July 1994.

*T. Berger; Rate Distortion Theory, Prentice-Hall, Englewood Cliffs, NJ, 1971.

D. Wyner, J. Ziv, "The rate distortion function for source coding with side information at the decoder", IEEE Trans. Inform. Theory, vol.IT-22, pp.1-10, Jan. 1976.

RATE DISTORTION:

[RD01] Jack K. Wolf, Jacob Ziv Transmission of noisy information to a noisy receiver with minimum distortion, IEEE Trans. Info. Theory, vol. IT-16, pp. 406 - 411, July 1970.

T. Berger; Rate Distortion Theory, Prentice-Hall, Englewood Cliffs, NJ, 1971.

[RD02] Aaron D. Wyner, Jacob Ziv; The rate-distortion function for source coding with side information at the decoder, IEEE Trans. Info. Theory, vol. IT-22, pp. 1 - 10, January 1976.

[RD03] Andrea Sgarro Source coding with side information at several decoders, IEEE Trans. Info. Theory, vol. IT-23, pp. 179 - 182, March 1977.

L. Ozarow; On a source coding problem with two channels and three receivers, Bell Syst. Tech. J., vol. 59, pp. 1909 - 1921, Dec. 1980.

[RD04] Amiram H. Kaspi, Toby Berger; Rate-distortion for correlated sources with partially separated encoders, IEEE Trans. Info. Theory, vol. IT-28, pp. 828 - 840, November 1982.

[RD05] Amiram H. Kaspi Two-way source coding with a fidelity criterion, IEEE Trans. Info. Theory, vol. IT-31, pp. 735 - 740, November 1985.

[RD06] Toby Berger, Raymond W. Yeung Multiterminal source encoding with one distortion criterion, IEEE Trans. Info. Theory, vol. IT-35, pp. 228 - 236, March 1989.

[RD07] Zhen Zhang, En-Hui Yang, Victor K. W. Wei The redundancy of source coding with a fidelity criterion. 1. Known statistics, IEEE Trans. Info. Theory, vol. IT-43, pp. 71 - 91, January 1997.

[RD08] Y. Oohama Gaussian multiterminal source coding, IEEE Trans. Info. Theory, vol. IT-43, pp. 1912 - 1923, November 1997.

[RD09] Shlomo (Shitz) Shamai, Sergio Verdú, Ram Zamir; Systematic Lossy Source/Channel Coding, IEEE Trans. Info. Theory, vol. IT-44, pp. 564 - 579, March 1998.

[RD10] Toby Berger, Jerry D. Gibson Lossy Source Coding, IEEE Trans. Info. Theory, vol. IT-44, pp. 2693 - 2723, October 1998.

[RD11] Ram Zamir, Toby Berger Multiterminal Source Coding with High Resolution, IEEE Trans. Info. Theory, vol. IT-45, pp. 106 - 117, January 1999.

[RD12] Toby Berger, Ram Zamir A semi-continuous version of the Berger--Yeung problem, IEEE Trans. Info. Theory, vol. IT-45, pp. 1520 - 1526, July 1999.

[RD13] Michelle Effros Distortion-rate bounds for fixed- and variable-rate multiresolution source codes, IEEE Trans. Info. Theory, vol. IT-45, pp. 1887 - 1910, September 1999.

[RD14] Tamás Linder, Ram Zamir, Kenneth Zeger On source coding with side-information-dependent distortion measures, IEEE Trans. Info. Theory, vol. IT-46, pp. 2697 - 2704, November 2000.

[RD15] Fang-Wei Fu, R.W. Yeung, "On the rate-distortion region for multiple descriptions" , Information Theory, IEEE Transactions on, Volume: 48, Issue: 7, pp. 2012 -2021, July 2002 .

MULTIPLE DESCRIPTIONS:

J. Wolf, A. Wyner, J. Ziv; "Source coding for multiple descriptions", Bell Syst. Tech. J., vol. 59, no. 8, pp. 1417 - 1426, Oct. 1980.

H. S. Witsenhausen, A. D. Wyner, "Source coding for multiple descriptions II: A binary source", Tech. Rep. TM-80-1217, Bell Labs., Dec. 1980.

L. Ozarow, "On a source coding problem with two channels and three receivers", Bell Syst. Tech. J., vol. 59, pp. 1909 - 1921, Dec. 1980.

[MD01] Abbas A. El Gamal, Thomas M. Cover; Achievable rates for multiple descriptions, IEEE Trans. Info. Theory, vol. IT-28, pp. 851 - 857, November 1982.

[MD02] Rudolf F. Ahlswede; The rate-distortion region for multiple descriptions without excess rate, IEEE Trans. Info. Theory, vol. IT-31, pp. 721 - 726, November 1985.

[MD03] Zhen Zhang, Toby Berger; New results in binary multiple descriptions, IEEE Trans. Info. Theory, vol. IT-33, pp. 502 - 521, July 1987.

[MD04] Zhen Zhang, T. Berger Multiple description source coding with no excess marginal rate, IEEE Trans. Info. Theory, vol. IT-41, pp. 349 - 357, March 1995.

[MD05] Ram Zamir; Gaussian codes and Shannon bounds for multiple descriptions, IEEE Trans. Info. Theory, vol. IT-45, pp. 2629 - 2636, November 1999.

[MD06] Fang-Wei Fu, R.W. Yeung, "On the rate-distortion region for multiple descriptions", Information Theory, IEEE Transactions on, Volume: 48, Issue: 7, pp. 2012 -2021, July 2002 .

FEEDBACK:

[FB01] Claude E. Shannon The zero error capacity of a noisy channel, IEEE Trans. Info. Theory, vol. IT-2, pp. 8 - 19, September 1956.

[FB02] J. Pieter M. Schalkwijk, Thomas Kailath A coding scheme for additive noise channels with feedback--I: No bandwidth constraint, IEEE Trans. Info. Theory, vol. IT-12, pp. 172 - 182, April 1966.

[FB03] Rangasami L. Kashyap Feedback coding schemes for an additive noise channel with a noisy feedback link, IEEE Trans. Info. Theory, vol. IT-14, pp. 471 - 480, May 1968.

[FB04] T. T. Kadota, Moshe M. Zakai, Jacob Ziv Capacity of a continuous memoryless channel with feedback, IEEE Trans. Info. Theory, vol. IT-17, pp. 372 - 378, July 1971.

[FB05] T. T. Kadota, Moshe M. Zakai, Jacob Ziv Mutual information of the white Gaussian channel with and without feedback, IEEE Trans. Info. Theory, vol. IT-17, pp. 368 - 371, July 1971.

[FB06] N. Thomas Gaarder, Jack K. Wolf The capacity region of a multiple-access discrete memoryless channel can increase with feedback (Corresp.), IEEE Trans. Info. Theory, vol. IT-21, pp. 100 - 102, January 1975.

[FB07] Abbas A. El Gamal The feedback capacity of degraded broadcast channels (Corresp.), IEEE Trans. Info. Theory, vol. IT-24, pp. 379 - 381, May 1978.

[FB08] Lawrence H. Ozarow, Sik K. Leung-Yan-Cheong An achievable region and outer bound for the Gaussian broadcast channel with feedback (Corresp.), IEEE Trans. Info. Theory, vol. IT-30, pp. 667 - 671, July 1984.

[FB09] Lawrence H. Ozarow The capacity of the white Gaussian multiple access channel with feedback, IEEE Trans. Info. Theory, vol. IT-30, pp. 623 - 629, July 1984.

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*.P. M. Ebert, "The capacity region of the Gaussian channel with feedback", Bell Syst. Tech. J., vol.49, pp.1705-1712, Oct. 1970.

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*T. M. Cover; Conjecture: Feedback does not help much, Open Problems in Communication and Computation, T. Cover, B. Gopinath, Eds., Springer-Verlag, New York, pp. 70 - 71, 1987.

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[IF15] Gerhard Kramer, "Feedback strategies for white gaussian interference networks, " IEEE Transactions on Information Theory, June 2002, PP 1423 -1438

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[MAF02] Aydano B. Carleial Multiple-access channels with different generalized feedback signals, IEEE Trans. Info. Theory, vol. IT-28, pp. 841 - 850, November 1982.

[MAF03] Thomas M. Cover, Cyril S. K. Leung; An achievable rate region for the multiple-access channel with feedback, IEEE Trans. Info. Theory, vol. IT-27, pp. 292 - 298, May 1981.

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[MAF10] Joy A. Thomas; Feedback can at most double Gaussian multiple access channel capacity (Corresp.), IEEE Trans. Info. Theory, vol. IT-33, pp. 711 - 716, September 1987.

*R. King, "Multiple access channels with generalized feedback", Stanford Univ., Stanford, CA, Mar. 1978.

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