On adaptive filtering with combined least-mean-squares and H^∞ criteria
- Creators
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Hassibi, Babak
- Kailath, Thomas
Abstract
We study the possibility of combining least-mean-squares, or stochastic, performance with H^∞-optimal, or worst-case, performance in adaptive filtering. The resulting adaptive algorithms allow for a trade-off between average and worst-case performances and are most applicable in situations, such as mobile communications, where, due to modeling errors and rapid time-variation of system parameters, the exact statistics and distributions of the underlying signals are not known. We mention some of the open problems in this field, and construct a nonlinear adaptive filter (requiring O(n^2) operations per iteration, where n is the number of filter weights) that recursively minimizes the least-mean-squares error over all filters that guarantee a specified worst-case H^∞ bound. We also present some simple examples to compare the algorithm's behaviour with standard least-squares and H^∞ adaptive filters.
Additional Information
© 1997 IEEE. This work was supported in part by DARPA through the Department of Air Force under contract F49620-95-1-0525-P00001 and by the Joint Service Electronics Program at Stanford under contract DAAH04-94-G-0058-P00003.Attached Files
Published - On_adaptive_filtering_with_combined_least-mean-squares_and_H∞_criteria.pdf
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Additional details
- Eprint ID
- 54903
- Resolver ID
- CaltechAUTHORS:20150218-070609299
- F49620-95-1-0525-P00001
- Air Force Office of Scientific Research (AFOSR)
- DAAH04-94-G-0058-P00003
- Joint Service Electronics Program
- Created
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2015-02-27Created from EPrint's datestamp field
- Updated
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2021-11-10Created from EPrint's last_modified field