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A STATISTICAL MECHANICAL VIEW OF KALMAN FILTERING ∗ (2008)

Abstract

Abstract. We develop a physical analogy for the Kalman-Bucy filter, in which the partially observed signal describes a statistical mechanical system interacting with a heat bath. The ‘universe ’ comprising this system and the heat bath obeys a non-decrease law of entropy similar to the Second Law of Thermodynamics. However, this law can be violated in the presence of partial observations. Like Maxwell’s demon, the filter uses observations to extract work from the signal, thus ‘cooling ’ it, but without causing any increase in entropy. The analogy provides a quantitative example of Landauer’s Principle. Further analogies and generalisations are briefly mentioned.

Publication details

Download	http://citeseerx.ist.psu.edu/viewdoc/summary?doi=?doi=10.1.1.123.5088
Source	http://www.mtns2004.be/database/papersubmission/upload/129.pdf
Contributors	CiteSeerX
Repository	CiteSeerX - Scientific Literature Digital Library and Search Engine (United States)
Keywords	Information Theory, Landauer’s Principle, Non-Equilibrium Statistical Mechanics, Statistical Filtering
Type	text
Language	English
Relation	10.1.1.41.2974, 10.1.1.122.8059