Unified framework of source-channel-modulation coding in low power multimedia wireless communications

We study the problem of jointly optimizing source/channel/modulation coding to achieve a given quality of service while minimizing the total power consumption of mobiles. This paper emphasizes the design of a robust transmission framework in the context of a total power minimization scheme. We design a simple but efficient transmission scheme which is called multistage coded modulation that combines source/channel (S/C) coding and multirate modulation (MM). We then integrate into this scheme a complexity-scalable video coder to achieve the best trade-offs in multimedia wireless communications between total power, quality of service, and capacity. Preliminary results show superior video frame quality (around 3 dB better than the simple S/C coding scheme) of the proposed system in the severe channel condition, with total power consumption kept to a minimum.

[1]  Nariman Farvardin,et al.  A study of vector quantization for noisy channels , 1990, IEEE Trans. Inf. Theory.

[2]  Avideh Zakhor,et al.  Joint source/channel coding of scalable video over noisy channels , 1996, Proceedings of 3rd IEEE International Conference on Image Processing.

[3]  Ahmed H. Tewfik,et al.  Adaptive low power multimedia wireless communications , 1997, Proceedings of First Signal Processing Society Workshop on Multimedia Signal Processing.

[4]  K.M. Uz,et al.  Multiresolution Broadcast for Digital HDTV Using Joint Source/Channel Coding , 1993, IEEE J. Sel. Areas Commun..

[5]  Ahmed H. Tewfik,et al.  Power optimized mode selection for H.263 video coding and wireless communications , 1998, Proceedings 1998 International Conference on Image Processing. ICIP98 (Cat. No.98CB36269).

[6]  Kannan Ramchandran,et al.  Multiresolution joint source-channel coding using embedded constellations for power-constrained time-varying channels , 1996, 1996 IEEE International Conference on Acoustics, Speech, and Signal Processing Conference Proceedings.