Title :
Equalization of microwave digital radio channels with a hybrid acousto-optic and digital processor
Author :
Anderson, Chris S.
Author_Institution :
Dynetic Inc., Huntsville, AL, USA
fDate :
10/1/1996 12:00:00 AM
Abstract :
Digital radio transmission systems use complex modulation schemes that require powerful signal processing techniques to correct channel distortions and to minimize bit-error rates (BERs). Combined analog and digital processors are investigated for minimizing the mean square error (MSE) of the radio receiver. The analog filters are implemented using acousto-optic (AO) processing since rapidly adaptable, inverse channel filters can be produced for either minimum or nonminimum phase channels. A specific architecture is identified and a laboratory system is tested to verify the ability of the processor to track and correct time-varying channels. Computer simulations are used to show that hybrid analog and digital equalization allows an increase in the modulation capacity of radio, relative to all digital equalization, while maintaining similar equipment signatures
Keywords :
acousto-optical signal processing; adaptive filters; analogue processing circuits; digital radio; equalisers; filtering theory; microwave links; microwave receivers; modulation; radio receivers; time-varying channels; BER; MSE; acousto-optic processing; adaptive inverse channel filters; analog equalisation; analog filters; analog processors; bit error rates; channel distortions; computer simulations; digital equalization; digital processor; digital radio transmission systems; hybrid acousto-optic processor; laboratory system; mean square error; microwave digital radio channels; minimum phase channels; modulation; nonminimum phase channels; radio receiver; signal processing; time-varying channels; Bit error rate; Computer architecture; Digital communication; Digital modulation; Digital signal processing; Distortion; Filters; Laboratories; Mean square error methods; Receivers;
Journal_Title :
Communications, IEEE Transactions on
