Title :
Decision-feedback equalization of pulse-position modulation on measured nondirected indoor infrared channels
Author :
Audeh, Malik D. ; Kahn, Joseph M. ; Barry, John R.
Author_Institution :
Hybrid Networks Inc., San Jose, CA, USA
fDate :
4/1/1999 12:00:00 AM
Abstract :
We examine the performance of two decision-feedback equalizers (DFEs) for pulse-position modulation (PPM) on measured nondirected indoor infrared channels with intersymbol interference. PPM offers high average-power efficiency, but on ISI channels, unequalized PPM suffers severe performance penalties. We have previously examined the performance of the maximum-likelihood sequence detector (MLSD), and found that it yields significant improvements. However, the MLSD often requires such large complexity and delay that it may be impractical. We investigate suboptimal, reduced-complexity equalization techniques for PPM, providing a performance analysis of zero-forcing chip-rate and symbol-rate DFEs. Our results show that a symbol-rate DFE provides performance that closely approaches that of the optimal MLSD
Keywords :
decision feedback equalisers; error statistics; intersymbol interference; optical communication; optical modulation; pulse position modulation; telecommunication channels; BER; ISI channels; PPM; decision-feedback equalization; delay; high average-power efficiency; intersymbol interference; maximum-likelihood sequence detector; measured nondirected indoor infrared channels; optimal MLSD; performance; pulse-position modulation; reduced-complexity equalization; suboptimal equalization techniques; symbol-rate DFE; zero-forcing chip-rate DFE; zero-forcing symbol-rate DFE; Bit error rate; Decision feedback equalizers; Intersymbol interference; Maximum likelihood detection; Optical fiber communication; Optical noise; Optical receivers; Optical transmitters; Pulse measurements; Pulse modulation;
Journal_Title :
Communications, IEEE Transactions on
