Title :
Diversity of MRC frequency domain equalizer for single carrier UWB block transmission with direct sequence spreading
Author :
Xiaoya Zuo ; Ding Wang
Author_Institution :
Northwestern Polytech. Univ., Xian, China
Abstract :
Ultra Wideband (UWB) technology has become an ideal candidate for wireless personal area network (WPAN). UWB channel is featured by rich multipath components, which means both serious inter-symbol interference (ISI) and great multipath diversity for high data rate communications. Single carrier block transmission with frequency domain equalization is an effective way to combat frequency selective channels. However linear equalization methods are hardly to achieve full diversity. And nonlinear equalization methods are usually much more complicated. Direct sequence spreading in time domain leads to repetition and interleaving in frequency domain. In this article, a direct sequence spreading frequency domain equalizer with maximal ratio combining (DS-MRC-FDE) is proposed for block transmission UWB systems. Both theoretical analysis and simulation results show that full diversity could be achieved by linear equalization complexity.
Keywords :
diversity reception; equalisers; intersymbol interference; multipath channels; personal area networks; ultra wideband communication; DS-MRC-FDE; MRC frequency domain equalizer; UWB channel; UWB systems; WPAN; direct sequence spreading; frequency selective channels; high data rate communications; intersymbol interference; maximal ratio combining; multipath components; multipath diversity; nonlinear equalization; single carrier UWB block transmission; single carrier block transmission; ultrawideband technology; wireless personal area network; Bit error rate; Complexity theory; Diversity reception; Equalizers; Frequency-domain analysis; Vectors; Wireless communication;
Conference_Titel :
Communications in China (ICCC), 2013 IEEE/CIC International Conference on
Conference_Location :
Xi´an
DOI :
10.1109/ICCChina.2013.6671169
