DocumentCode
1560322
Title
Information theoretic sensor data selection for active object recognition and state estimation
Author
Denzler, Joachim ; Brown, Christopher M.
Author_Institution
Lehrstuhl fur Mustererkennung, Erlangen-Nurnberg Univ., Erlangen, Germany
Volume
24
Issue
2
fYear
2002
fDate
2/1/2002 12:00:00 AM
Firstpage
145
Lastpage
157
Abstract
We introduce a formalism for optimal sensor parameter selection for iterative state estimation in static systems. Our optimality criterion is the reduction of uncertainty in the state estimation process, rather than an estimator-specific metric (e.g., minimum mean squared estimate error). The claim is that state estimation becomes more reliable if the uncertainty and ambiguity in the estimation process can be reduced. We use Shannon´s information theory to select information-gathering actions that maximize mutual information, thus optimizing the information that the data conveys about the true state of the system. The technique explicitly takes into account the a priori probabilities governing the computation of the mutual information. Thus, a sequential decision process can be formed by treating the a priori probability at a certain time step in the decision process as the a posteriori probability of the previous time step. We demonstrate the benefits of our approach in an object recognition application using an active camera for sequential gaze control and viewpoint selection. We describe experiments with discrete and continuous density representations that suggest the effectiveness of the approach
Keywords
active vision; image sensors; information theory; object recognition; optimisation; probability; state estimation; Shannon information theory; a posteriori probability; a priori probabilities; active camera; active camera control; active object recognition; computer vision; continuous density representations; discrete density representations; information optimization; information theoretic sensor data selection; information-gathering actions; iterative state estimation; mutual information; object recognition application; optimal sensor parameter selection; optimality criterion; sequential decision process; sequential gaze control; state estimation process; static systems; time step; viewpoint selection; Cameras; Computer vision; Helium; Information theory; Mutual information; Object recognition; Sensor phenomena and characterization; Sensor systems; State estimation; Uncertainty;
fLanguage
English
Journal_Title
Pattern Analysis and Machine Intelligence, IEEE Transactions on
Publisher
ieee
ISSN
0162-8828
Type
jour
DOI
10.1109/34.982896
Filename
982896
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