_version_ 1826193951749570560
author Lee, Y. W.
Bose, A. G.
Bruce, R. A.
Hause, A. D.
Schetzen, M.
author_facet Lee, Y. W.
Bose, A. G.
Bruce, R. A.
Hause, A. D.
Schetzen, M.
author_sort Lee, Y. W.
collection MIT
description Contains reports on four research projects.
first_indexed 2024-09-23T09:47:51Z
format Technical Report
id mit-1721.1/53602
institution Massachusetts Institute of Technology
language English
last_indexed 2024-09-23T09:47:51Z
publishDate 2010
publisher Research Laboratory of Electronics (RLE) at the Massachusetts Institute of Technology (MIT)
record_format dspace
spelling mit-1721.1/536022019-04-12T10:01:42Z Statistical Communication Theory Lee, Y. W. Bose, A. G. Bruce, R. A. Hause, A. D. Schetzen, M. Statistical Communication Theory Works Completed Experimental Measurement of Correlation Functions by Orthogonal Expansion Mutual Information in Signal Representation Power Absorbed by a Nonlinear Two-Terminal Network with a White Gaussian Input Contains reports on four research projects. 2010-04-08T18:49:44Z 2010-04-08T18:49:44Z 1961-07-15 Technical Report RLE_QPR_062_VIII http://hdl.handle.net/1721.1/53602 en Massachusetts Institute of Technology, Research Laboratory of Electronics, Quarterly Progress Report, July 15, 1961 Statistical Communication Theory Massachusetts Institute of Technology. Research Laboratory of Electronics. Quarterly Progress Report, no. 62 Copyright (c) 2008 by the Massachusetts Institute of Technology. All rights reserved. application/pdf Research Laboratory of Electronics (RLE) at the Massachusetts Institute of Technology (MIT)
spellingShingle Statistical Communication Theory
Works Completed
Experimental Measurement of Correlation Functions by Orthogonal Expansion
Mutual Information in Signal Representation
Power Absorbed by a Nonlinear Two-Terminal Network with a White Gaussian Input
Lee, Y. W.
Bose, A. G.
Bruce, R. A.
Hause, A. D.
Schetzen, M.
Statistical Communication Theory
title Statistical Communication Theory
title_full Statistical Communication Theory
title_fullStr Statistical Communication Theory
title_full_unstemmed Statistical Communication Theory
title_short Statistical Communication Theory
title_sort statistical communication theory
topic Statistical Communication Theory
Works Completed
Experimental Measurement of Correlation Functions by Orthogonal Expansion
Mutual Information in Signal Representation
Power Absorbed by a Nonlinear Two-Terminal Network with a White Gaussian Input
url http://hdl.handle.net/1721.1/53602
work_keys_str_mv AT leeyw statisticalcommunicationtheory
AT boseag statisticalcommunicationtheory
AT brucera statisticalcommunicationtheory
AT hausead statisticalcommunicationtheory
AT schetzenm statisticalcommunicationtheory