Scalar Quantizer Design for Two-Way Channels
The problem of lossy transmission of correlated sources over memoryless two-way channels (TWCs) is considered. The objective is to develop a robust low delay and low complexity source-channel coding scheme without using error correction. A simple full-duplex channel optimized scalar quantization (COSQ) scheme that implicitly mitigates TWC interference is designed. Numerical results for sending Gaussian bivariate sources over binary additive-noise TWCs with either additive or multiplicative user interference show that, in terms of signal-to-distortion ratio performance, the proposed full-duplex COSQ scheme compares favourably with half-duplex COSQ.
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Saeed Rezazadeh (add twitter)
Fady Alajaji (add twitter)
Wai-Yip Chan (add twitter)
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07/17/19 06:04PM
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mathITbot: Saeed Rezazadeh, Fady Alajaji, Wai-Yip Chan : Scalar Quantizer Design for Two-Way Channels https://t.co/jNMGgoNl8N https://t.co/bkUNTHvdkh
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