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Broadcasting a bivariate Gaussian source is a major problem in information theory. Consider, the bivariate Gaussian source is broadcast through a two user power limited Gaussian broadcast channel. The user receives the signal which is affected by Gaussian noise having mean zero and variance. Different coding schemes are used to analyze the region of simultaneously achievable distortion pairs at the two receivers. But explicit distortion regions are not found using existing methods. Also they are not aware of broadcasting bivariate Gaussian source with bandwidth mismatch. Recently a new coding scheme called hybrid digital analog (HDA) scheme is proposed which take both the advantage of analog transmission and digital coding. The hybrid digital analog coding scheme is suitable for both bandwidth compression and expansion (bandwidth ratio) and provides explicit distortion regions. This literature survey discusses about broadcasting Gaussian sources, Existing coding schemes and simultaneously achievable distortion regions. This paper also shows the result of distortion region for bandwidth compression by using layering with analog, superposition and Costa (HDA) coding for correlated Gaussian source.

Bandwidth Compression/Expansion, Gaussian Broadcast Channel, Hybrid Digital Analog Coding, Separate Source Channel Coding

T.M.Cover and J.A.Thomas, Elements of Information Theory,2nd edition. John Wiley &Sons, 2006.

V.M. Prabhakaran, R. Puri , and K,.Ramchandran, “Colored Gaussian source-channel broadcast for heterogeneous (analog/digital) receivers”, IEEE Trans. Inf. Theory, vol. 54, no. 4 , pp. 1807-1814, Apr.2008.

R. Soundarajan and S. Vishwanath, “hybrid coding for Gaussian broadcast channels with Gaussian sources”, in Proc. IEEE ISIT, june 2009.

M. Skoglund, N.Phamdo , and F. Alajaji, “Hybrid digital-analog source-channel coding for bandwidth compression/expansion”, IEEE Trans.Inf.Theory, vol. 52, no . 8 , pp. 3757-3763, aug . 2006.

S. Bross, A.Lapidoth, and S. Tinguely , “Broadcasting correlated Gaussians”, IEEE Trans. Inf. Theory, vol.56, no . 1, pp. 3507-3068, July 2010.

M. Gastpar, “Uncoded transmission is exactly optimal for a simple Gaussian sensor network”, IEEE Trans. Inf. Theory, vol. 54, no. 11, pp. 5247-5251, Nov. 2008.

M. Wilson, K. Narayanan, and G. Caire, “Joint source channel coding with side information using hybrid digital analog codes”, IEE Trans. Inf. Theory, vol. 56, no. 10, pp. 4922 – 4940, Oct. 2010.

S. Shamai, S. Verdu, and R.Zamir , “Systematic lossy /source channel coding” IEEE Trans. Inf. Theory, vol.44, no. 2, pp. 564-579, Mar.1998

U. Mittal and N.Phamdo,”Hybrid digital-analog (HDA) joint source channel codes for broadcasting and robust communication ”, IEEE Trans. Inf. Theory ,vol. 48, no. 5 , pp. 1082-1102, May 2002.

Z.Reznic , M. Feder , and R.Zamir, “Distortion bounds for broadcasting with bandwidth expansion”, IEEE Trans. Inf. Theory, vol. 52, no.8, pp. 3778-3788, Aug. 2006.

V. M. Prabhakaran, R. Puri, and K. Ramachandran, “Hybrid analog-digital strategies for source –channel broadcast”in Proc. 43rd Allerton Conf. Commun., Contr., Comput., Sep. 2005.

C.T. K. Ng, D.Guduz, A.J. Goldsmith, and E. Erkip, “Minimum expected distortion in Gaussian layered broadcast coding with successive refinement”, in Proc .IEEE ISIT , June 2007, pp. 2226-2230.

C. Tian , A. Steiner, S. Shami , and S. Diggavi, “Successive refinement via broadcast: optimizing expected distortion of a Gaussian source over a Gaussian fading channel,” IEEE Trans. Inf. Theory, vol. 54, no. 7, pp. 2903-2918, July 2008.

K. Bhattad , K. R. Narayanan, and G. Caire, “On the distortion SNR exponent of some layered transmission schemes,” IEEE Trans. Inf. Theory, vol. 54, no. 7, pp. 2943-2958, July 2008.

Z. Reznic, R. Zamir, and M. Feder, “Joint source-channel coding of a Gaussian mixture source over the Gaussian broadcast channel,” IEEE Trans. Inf. Theory, vol. 48, no. 3, pp. 776–781, Mar. 2002.

C.Tian, S.Diggavi, and S.Shamai, “The achievable distortion region of bivariate Gaussian source on Gaussian broadcast channel,” submitted to IEEE Trans. Inf . Theory, arXiv:1006.0644v1,June 2010.

Y. Gao and E. Tuncel, “Separate source-channel coding for broadcasting correlated Gaussians,” arXiv/1104.0230.

D.Gunduz, J. Nayak, and E. Tuncel, “Wyner-Ziv over broadcast channels using hybrid digital/analog transmission,” in Proc.IEEE ISIT, July 2008.

H.Behroozi, F.Alajaji, and T.Linder , “On the performance of hybrid digital- analog coding for broadcasting correlated Gaussian sources” IEE Trans. Inf. Theory, vol. 59, no.12, pp.3335-3342 , Dec. 2011.