Transmission of Progressive Images Over Noisy Channels: An End-to-End Statistical Optimization Framework

Yousefi'zadeh, H.; Jafarkhani, Hamid; Etemadi, F.

doi:10.1109/jstsp.2008.923581

Cited by 6 publications

(2 citation statements)

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“…As described by the work of [24] and [23], a Multiple Input Multiple Output (MIMO) wireless fading channel is characterized by a temporally correlated pattern of bit loss. In order to capture this loss behavior, we use the two-state Gilbert-Elliott (GE) model.…”

Section: Wireless Channel Analysismentioning

confidence: 99%

“…Thus, the probability of receiving a channel coding symbol free of errors under the GE model is described by Equation (1) with t = q = s as P (s, s). Referring to the discussion of [23], we rely on a hybrid loss model to describe the probability of channel coding block loss. In our hybrid model, channel coding inter-symbol correlation is assumed not to be significant in comparison with channel coding intrasymbol correlation captured by the expression P (s, s).…”

Section: A Protecting Against Bit Errors Onlymentioning

confidence: 99%

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Optimal Audio Transmission Over Error-Prone Wireless Links

Khalifeh

Yousefi'zadeh

2010

IEEE Trans. Multimedia

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Abstract-In this paper, we present an optimization framework for transmitting high quality audio sequences over error-prone wireless links. Our framework introduces apparatus and technique to optimally protect a stored audio sequence transmitted over a wireless link while considering the packetization overhead of audio frames. Utilizing rate compatible punctured RS codes and dynamic programming, it identifies the optimal assignment of parity to audio frames according to their perceptual importance such that the Segmented SNR of the received audio sequence is maximized. Our framework covers two cases. In the first case, a frame grouping technique is proposed to packetize audio frames and protect them against temporarily correlated bit errors introduced by a fading wireless channel. In this case, each packet is treated as a channel coding codeword. In the second case, a one-dimensional RS coder is applied vertically to a sequence of horizontally formed packets associated with an audio sequence in order to protect the sequence against both bit errors introduced by fading wireless channels and packet erasures introduced by network buffering. Our numerical results capture the performance advantage of our framework compared to existing techniques proposed in the literature of audio transmission. We also note that our framework can be generically applied to a variety of audio coders making it attractive in terms of implementation.

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Section: Wireless Channel Analysismentioning

confidence: 99%

Section: A Protecting Against Bit Errors Onlymentioning

confidence: 99%

Optimal Audio Transmission Over Error-Prone Wireless Links

Khalifeh

Yousefi'zadeh

2010

IEEE Trans. Multimedia

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A Hybrid Media Transmission Scheme for Wireless VoIP

Khalifeh

Yousefi'zadeh

2010

2010 Data Compression Conference

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Analysis of Decorrelation Transform Gain for Uncoded Wireless Image and Video Transmission

Xiong

et al. 2016

IEEE Trans. on Image Process.

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An uncoded transmission scheme called SoftCast has recently shown great potential for wireless video transmission. Unlike conventional approaches, SoftCast processes input images only by a series of transformations and modulates the coefficients directly to a dense constellation for transmission. The transmission is uncoded and lossy in nature, with its noise level commensurate with the channel condition. This paper presents a theoretical analysis for an uncoded visual communication, focusing on developing a quantitative measurements for the efficiency of decorrelation transform in a generalized uncoded transmission framework. Our analysis reveals that the energy distribution among signal elements is critical for the efficiency of uncoded transmission. A decorrelation transform can potentially bring a significant performance gain by boosting the energy diversity in signal representation. Numerical results on Markov random process and real image and video signals are reported to evaluate the performance gain of using different transforms in uncoded transmission. The analysis presented in this paper is verified by simulated SoftCast transmissions. This provide guidelines for designing efficient uncoded video transmission schemes.

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Transmission of Progressive Images Over Noisy Channels: An End-to-End Statistical Optimization Framework

Cited by 6 publications

References 50 publications

Optimal Audio Transmission Over Error-Prone Wireless Links

Optimal Audio Transmission Over Error-Prone Wireless Links

A Hybrid Media Transmission Scheme for Wireless VoIP

Analysis of Decorrelation Transform Gain for Uncoded Wireless Image and Video Transmission

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