Title :
Infinite series of interference variables with Cantor-type distributions
Author :
Wittke, P.H. ; Smith, Wendy S. ; Campbell, L. Lorne
Author_Institution :
Queen´´s Univ., Kingston, Ont., Canada
fDate :
11/1/1988 12:00:00 AM
Abstract :
The sum of an infinite series of weighted binary random variables arises in communications problems involving intersymbol and adjacent-channel interference. If the weighting decays asymptotically at least exponentially and if the decay is not too slow, the sum has an unusual distribution which has neither a density nor a discrete mass function, and therefore cannot be manipulated with usual techniques. The distribution of the sum is given, and the calculus for dealing with the distribution is presented. It is shown that these Cantor-type random variables arise in a range of digital communications models, and exact explicit expressions for performance measures, such as the probability of error, may be obtained. Several examples are given
Keywords :
digital communication systems; error statistics; information theory; intersymbol interference; random processes; Cantor-type distributions; adjacent-channel interference; decay; digital communications models; infinite series; interference variables; intersymbol interference; performance measures; probability of error; weighted binary random variables; weighting; Additive noise; Baseband; Calculus; Digital communication; Filters; Interchannel interference; Intersymbol interference; Pulse modulation; Pulse shaping methods; Random variables; Statistics;
Journal_Title :
Information Theory, IEEE Transactions on
