The presence of an interferring signal i(t) in a binary coherent symmetric channel is investigated. The probability of error is maximum when i(t) is antipodal to the transmitted signal, so(t) or s1 (t). The error probability is derived in the presence of a delayed interfering signal - so (t - r), where r is the time delay. An example of phase shift keying signals is given.
Error Probability in Binary Digital Communication in the Presence of an Interfering Signal
IEEE Transactions on Aerospace and Electronic Systems ; AES-12 , 4 ; 517-519
1976-07-01
474544 byte
Article (Journal)
Electronic Resource
English