Title :
Zero-forcing electrical filters for direct detection optical systems
Author :
Li, Peter C. ; Humblet, Pierre A.
Author_Institution :
Naval Undersea Warfare Center, Newport, RI, USA
fDate :
6/1/1996 12:00:00 AM
Abstract :
Intersymbol interference (ISI) in direct detection optical systems can limit channel spacing in frequency division multiplexing systems, and data rates, and transmission distances in long-haul transmission. It is desirable to reduce or cancel ISI in these situations, We investigate zero-forcing electrical filters to cancel ISI, and obtain tight performance bounds for minimum noise variance zero-forcing filters. We apply the results to Mach-Zehnder and Fabry-Perot filters, and to fibers with second order dispersion. We compare the performance of zero-forcing filters to that of rectangular impulse response filters and find that zero-forcing filters are advantageous in severe ISI situations with multilevel signalling
Keywords :
Fabry-Perot interferometers; Mach-Zehnder interferometers; filtering theory; filters; frequency division multiplexing; interference suppression; intersymbol interference; optical receivers; optical signal detection; telecommunication channels; telecommunication signalling; Fabry-Perot filters; ISI cancellation; Mach-Zehnder filters; channel spacing; data rates; direct detection optical systems; dispersive channel; frequency division multiplexing systems; intersymbol interference; long haul transmission; minimum noise variance zero-forcing filters; multilevel signalling; performance; performance bounds; rectangular impulse response filters; second order dispersion; transmission distances; zero-forcing electrical filters; Channel spacing; Fabry-Perot; Frequency division multiplexing; Intersymbol interference; Noise cancellation; Noise reduction; Optical detectors; Optical fiber filters; Optical filters; Optical noise;
Journal_Title :
Communications, IEEE Transactions on
