Title :
Uncoded Transmission Is Exactly Optimal for a Simple Gaussian “Sensor” Network
Author :
Gastpar, Michael
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Univ. of California, Berkeley, CA
Abstract :
A single memoryless Gaussian source is observed by many terminals, subject to independent Gaussian observation noises. The terminals are linked to a fusion center via a standard Gaussian multiple-access channel. The fusion center needs to recover the underlying Gaussian source with respect to mean-squared error. In this correspondence, a theorem of Witsenhausen is shown to imply that an optimal communication strategy is uncoded transmission, i.e., each terminal´s channel input is merely a scaled version of its noisy observation.
Keywords :
Gaussian channels; combined source-channel coding; distributed sensors; mean square error methods; memoryless systems; multi-access systems; sensor fusion; Gaussian ldquosensorrdquo network; Gaussian multiple-access channel; Witsenhausen theorem; fusion center; independent Gaussian observation noises; joint source channel coding; mean-squared error; memoryless Gaussian source; optimal communication strategy; uncoded transmission; Application software; Communication standards; Decoding; Digital communication; Engineering profession; Gaussian noise; Information theory; Random variables; Sensor fusion; Telecommunication network reliability; Cut-set bound; joint source-channel coding; maximum correlation coefficient; source-channel separation theorem;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2008.929967
