Abstract :
As wireless technologies have evolved, the available radiofrequency spectrum has become an important commodity. The current crowding of the spectrum leads to the investigation of more efficient uses of allocated bandwidth. Quadrature-vestigial-sideband (QVSB) is a bandwidth-efficient modulation scheme that doubles the data capacity of conventional VSB. By superimposing two VSB-modulated, independent data streams, QVSB can achieve data rates equivalent to conventional, Nyquist-filtered, double-sideband (DSB) schemes, using half the bandwidth. Efficient, high-rate, turbo-product-codes (TPCs) are used in conjunction with QVSB modulation, to achieve a system which is both power and bandwidth efficient. In particular, capacity performance is about 4 to 5.5 dB from the Shannon bound, up to approximately 5 bits/s/Hz, the highest capacity simulated thus far.
Keywords :
data communication; modulation coding; turbo codes; Nyquist-filtered modulation; Shannon bound; bandwidth allocation; bandwidth-efficient modulation; data capacity; double-sideband modulation; quadrature VSB modulation; quadrature-vestigial-sideband modulation; radiofrequency spectrum; turbo codes; turbo-product-codes; wireless communications; Amplitude modulation; Arm; Bandwidth; Bit error rate; Crosstalk; Filtering; Intersymbol interference; Radio frequency; Signal to noise ratio; Wireless communication;
