Author :
Tang, Xiaosong ; Thng, Ian Li-Jin ; Li, Xinrong
Abstract :
A minimax optimization approach has previously been contributed to extend the conventional two-dimensional (2D) carrierless amplitude/phase modulation (CAP) scheme to three-dimensional (3D) (see Shalash, A. and Parhi, K.K., IEEE Trans. Commun., vol.47, p.1655-67, 1999; Proc. IEEE ISCAS ´97, p.2136-9, 1997). We show that there is no guarantee of spectral efficiency by this approach. This is a potentially fatal design flaw which results in the 3D CAP system being exceptionally susceptible to noise, even if it is of very small magnitude, for example, quantization noise. A new minimax approach is, thus, contributed to design bandwidth-efficient 3D CAP waveforms which are more robust and useful for very high-speed digital subscriber loop applications and high-speed LAN systems. Some design examples are provided.
Keywords :
amplitude modulation; digital subscriber lines; local area networks; minimax techniques; phase modulation; random noise; 3D waveforms; amplitude modulation; carrierless amplitude/phase modulation; digital subscriber loop; high-speed LAN; minimax optimization; phase modulation; quantization noise; spectral efficiency; Bandwidth; Costs; DSL; Local area networks; Minimax techniques; Passband; Phase modulation; Pulse modulation; Transceivers; Two dimensional displays;
