Abdelaziz, Mahmoud Karem Mahmoud2017-08-162017-08-1620172017-08-16http://hdl.handle.net/1828/8428Adaptive modulation is widely employed to improve spectral e ciency. To date, square signal constellations have been used for adaptive modulation. In this disser- tation, triangular constellations are considered for this purpose. Triangle quadrature amplitude modulation (TQAM) for both power-of-two and non-power-of-two mod- ulation orders is examined. A technique for TQAM mapping is presented which is better than existing approaches. A new type of TQAM called semi-regular TQAM (S-TQAM) is introduced. Bit error rate expressions for TQAM are derived, and the detection complexity of S-TQAM is compared with that of regular TQAM (R-TQAM) and irregular TQAM (I-TQAM). The performance of S-TQAM over additive white Gaussian noise and Rayleigh fading channels is compared with that of R-TQAM and I-TQAM. The construction of ternary convolutional codes (TCCs) for ternary phase shift keying (TPSK) modulation is considered. Tables of non-recursive non-systematic TCCs with maximum free distance are given for rates 1=2, 1=3 and 1=4. The conver- sion from binary data to ternary symbols is investigated. The performance of TCCs with binary to ternary conversion using TPSK is compared with the best BCCs using binary phase shift keying (BPSK).enAvailable to the World Wide WebAdaptive ModulationConvolutional CodesTrellis Coded ModulationTernary to Binary ConversionThesisM. Abdelaziz and T. A. Gulliver, “Ternary convolutional codes for ternary phase shift keying,” IEEE Commun. Lett., vol. 20, no. 9, pp. 1709–1712, Sep. 2016.