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2 February 2001 Robust equalizer in optical fiber systems under parameter uncertainty
Kyungsup Kim, Jinho Bae, Joohwan Chun
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Proceedings Volume 4216, Optical Devices for Fiber Communication II; (2001) https://doi.org/10.1117/12.414115
Event: Information Technologies 2000, 2000, Boston, MA, United States
Abstract
An H(infinity )-optimized equalizer is presented to realize an optimal causal and stable equalizer in optical fiber systems. With an ordinary (non-adaptive) equalizer, uncertainty due to the length of an optical fiber, the number of users and temperature may cause degradation to the system performance. The proposed non-adaptive equalizer still gives satisfactory performance because it uses the H(infinity )-criterion, i.e., it is designed to cope with the worst-case. Our algorithm is robust while the channel characteristics and the statistics of input and external noise are uncertain with a bound. Moreover, while the conventional H(infinity ) approach is to minimize the peak error gain over the entire frequency range, we propose a modified H(infinity ) equalizer to focus on the limited used frequency region by using a weight function.
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Kyungsup Kim, Jinho Bae, and Joohwan Chun "Robust equalizer in optical fiber systems under parameter uncertainty", Proc. SPIE 4216, Optical Devices for Fiber Communication II, (2 February 2001); https://doi.org/10.1117/12.414115
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KEYWORDS
Optical fibers
Error analysis
Electronic filtering
Interference (communication)
Telecommunications
Filtering (signal processing)
Dispersion
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