Linear Transmission of Composite Gaussian Measurements over a Fading Channel under Delay Constraints


Por: Tan, O, Gunduz, D, Gomez-Vilardebo, J

Publicada: 1 ene 2016
Resumen:
Delay constrained linear transmission (LT) strategies are considered for the transmission of composite Gaussian measurements over an additive white Gaussian noise fading channel under an average power constraint. If the channel state information (CSI) is known by both the encoder and decoder, the optimal LT scheme in terms of the average mean-square error distortion is characterized under a strict delay constraint, and a graphical interpretation of the optimal power allocation strategy is presented. Then, for general delay constraints, two LT strategies are proposed based on the solution to a particular multiple measurements-parallel channels scenario. It is shown that the distortion decreases as the delay constraint is relaxed, and when the delay constraint is completely removed, both strategies achieve the optimal performance under certain matching conditions. If the CSI is known only by the decoder, the optimal LT strategy is derived under a strict delay constraint. The extension to general delay constraints is elusive. As a first step toward understanding the structure of the optimal scheme in this case, it is shown that for the multiple measurements-parallel channels scenario, any LT scheme that uses only a one-to-one linear mapping between measurements and channels is suboptimal in general. © 2016 IEEE.

Filiaciones:
Tan, O:
 CTTC, Barcelona 08860, Spain

Gunduz, D:
 Univ London Imperial Coll Sci Technol & Med, London SW7 2BT, England

Gomez-Vilardebo, J:
 CTTC, Barcelona 08860, Spain
ISSN: 15361276
Editorial
Institute of Electrical and Electronics Engineers Inc., 445 HOES LANE, PISCATAWAY, NJ 08855-4141 USA, Estados Unidos America
Tipo de documento: Article
Volumen: 15 Número: 6
Páginas: 4335-4347
WOS Id: 000378506600041
imagen Green Submitted, All Open Access; Green Open Access

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