Optimal Linear Joint Source-Channel Coding with Delay Constraint

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Abstract

The problem of joint source-channel coding is considered for a stationary remote (noisy) Gaussian source and a Gaussian channel. The encoder and decoder are assumed to be causal and their combined operations are subject to a delay constraint. It is shown that, under the mean-square error distortion metric, an optimal encoder-decoder pair from the linear and time-invariant (LTI) class can be found by minimization of a convex functional and a spectral factorization. The functional to be minimized is the sum of the well-known cost in a corresponding Wiener filter problem and a new term, which is induced by the channel noise and whose coefficient is the inverse of the channel's signal-to-noise ratio. This result is shown to also hold in the case of vector-valued signals, assuming parallel additive white Gaussian noise channels. It is also shown that optimal LTI encoders and decoders generally require infinite memory, which implies that approximations are necessary.
A numerical example is provided, which compares the performance to the lower bound provided by rate-distortion theory.

Detaljer

Författare
Enheter & grupper
Forskningsområden

Ämnesklassifikation (UKÄ) – OBLIGATORISK

  • Matematik
  • Datorseende och robotik (autonoma system)
  • Reglerteknik

Nyckelord

Originalspråkengelska
TidskriftIEEE Transactions on Information Theory
StatusSubmitted - 2012
PublikationskategoriForskning
Peer review utfördNej

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