Trellis coding technique to improve adjacent channel interference

Abstract

An optimum communication system for communicating on adjacent frequency bands with minimal interference between adjacent channels comprises an encoder that is serially coupled to a mapper and two parallel processing branches, each processing branch having a transmit filter a digital-to-analog converter, a low pass filter and a modulator coupled in series. Both modulators are coupled to a summer, and an rf amplifier having a transmit antenna. The encoder is optimized by choosing a desired minimum Euclidean distance (DMED) between symbols, an encoder alphabet and a number of constellation points, permutating all possible encoder states and all possible input symbols to result in a plurality of encoder sets U, determining an in-band to adjacent band power ratio P.sub.ib /P.sub.ab for each code set is determined, discarding code sets U that having a minimum distance between symbol sets that do not exceed DMED, shifting by 90 degrees with respect to each other the phase of the signals passing through the modulators, and transmitting to a receiver the summation of the signals in each one of the parallel processing branches, whereby the encoder produces the code set of the remaining sets having the largest in-band to adjacent band power ratio P.sub.ib /P.sub.ab resulting in a transmitted signal having a spectrum that maximizes the ratio of in-band to adjacent band power for LMR systems. Maximizing the in-band to adjacent band power increases the ACIPR and also allows for increased data transmission rates.