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In this thesis, we present a general method to calculate the error performance of cellular mobile systems which employ frequency-hopped spread spectrum (FH/SS) signaling and error-correction coding. The developement utilizes the concept of circularly symmetric signals and expresses the problem in terms of Bessel integral. The method provides an efficient evaluation of error probability with respect to unequal power levels, delays, cochannel interference, interchannel interference, noise, and data streams of interfering users. By using this analysis, we can investigate the multiple-access capability of the FH/SS systems in the presence of multiple tone interference and channel noise. As a result, the system capacities of different FH/SS system are derived and shown in this thesis.
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