DocumentCode
1080875
Title
The Factor Graph Approach to Model-Based Signal Processing
Author
Loeliger, Hans-Andrea ; Dauwels, Justin ; Hu, Junli ; Korl, Sascha ; Ping, Li ; Kschischang, Frank R.
Author_Institution
ETH, Zurich
Volume
95
Issue
6
fYear
2007
fDate
6/1/2007 12:00:00 AM
Firstpage
1295
Lastpage
1322
Abstract
The message-passing approach to model-based signal processing is developed with a focus on Gaussian message passing in linear state-space models, which includes recursive least squares, linear minimum-mean-squared-error estimation, and Kalman filtering algorithms. Tabulated message computation rules for the building blocks of linear models allow us to compose a variety of such algorithms without additional derivations or computations. Beyond the Gaussian case, it is emphasized that the message-passing approach encourages us to mix and match different algorithmic techniques, which is exemplified by two different approaches - steepest descent and expectation maximization - to message passing through a multiplier node.
Keywords
Kalman filters; expectation-maximisation algorithm; filtering theory; graph theory; least mean squares methods; message passing; signal processing; Gaussian message passing; Kalman filtering algorithms; expectation maximization; factor graph approach; linear minimum-mean-squared-error estimation; linear state-space models; message-passing approach; model-based signal processing; recursive least squares; steepest descent; tabulated message computation; Algorithm design and analysis; Graphical models; Information technology; Kalman filters; Least squares approximation; Machine learning algorithms; Message passing; Signal design; Signal processing; Signal processing algorithms; Estimation; Kalman filtering; factor graphs; graphical models; message passing; signal processing;
fLanguage
English
Journal_Title
Proceedings of the IEEE
Publisher
ieee
ISSN
0018-9219
Type
jour
DOI
10.1109/JPROC.2007.896497
Filename
4282128
Link To Document