Delay-Distortion-Power Trade Offs in Quasi-Stationary Source Transmission over Block Fading Channels
نویسندگان
چکیده
This paper investigates delay-distortion-power trade offs in transmission of quasi-stationary sources over block fading channels by studying encoder and decoder buffering techniques to smooth out the source and channel variations. Four source and channel coding schemes that consider buffer and power constraints are presented to minimize the reconstructed source distortion. The first one is a high performance scheme, which benefits from optimized source and channel rate adaptation. In the second scheme, the channel coding rate is fixed and optimized along with transmission power with respect to channel and source variations; hence this scheme enjoys simplicity of implementation. The two last schemes have fixed transmission power with optimized adaptive or fixed channel coding rate. For all the proposed schemes, closed form solutions for mean distortion, optimized rate and power are provided and in the high SNR regime, the mean distortion exponent and the asymptotic mean power gains are derived. The proposed schemes with buffering exploit the diversity due to source and channel variations. Specifically, when the buffer size is limited, fixed channel rate adaptive power scheme outperforms an adaptive rate fixed power scheme. Furthermore, analytical and numerical results demonstrate that with limited buffer size, the system performance in terms of reconstructed signal SNR saturates as transmission power is increased, suggesting that appropriate buffer size selection is important to achieve a desired reconstruction quality. Part of this work was done while Roghayeh Joda was visiting the Deptartment of Electrical and Computer Engineering, New York University, Polytechnic School of Engineering. ar X iv :1 50 5. 00 65 1v 1 [ cs .I T ] 4 M ay 2 01 5
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ورودعنوان ژورنال:
- CoRR
دوره abs/1505.00651 شماره
صفحات -
تاریخ انتشار 2015