Title :
Differential UWB Communications With Digital Multicarrier Modulation
Author :
Xu, Huilin ; Yang, Liuqing
Author_Institution :
Florida Univ., Gainesville
Abstract :
As a high-rate alternative of impulse radio (IR) ultrawideband (UWB) communications, analog and digital multicarrier UWB radios with coherent detection have been introduced. In this paper, we investigate digital multicarrier differential (MCD) modulation and demodulation schemes for UWB communications. In our approach, the differential encoding and decoding are carried out across multiple digital carriers in the frequency domain. Hence, channel estimation is bypassed by using neighboring carriers as reference carriers. Compared with the transmitted reference TR-UWB which relies on delaying and correlating the received signal segments in time domain, our MCD-UWB avoids the need for analog delay elements. In addition, our digital-carrier based approach does not incur any spectrum expansion. We also show that our approach enables variable data rates, and remains operational even in the presence of severe interframe interference (IFI). In addition, the small spacing between differentially encoded carriers ensures that the data rate is not limited by the channel coherence bandwidth. Furthermore, our schemes are flexible in providing variable-rate transmissions. Simulations are also carried out to corroborate our theoretical analysis.
Keywords :
channel estimation; modulation; ultra wideband communication; IFI; IR; channel estimation; differential UWB communications; digital multicarrier modulation; impulse radio; interframe interference; Channel estimation; Decoding; Delay effects; Demodulation; Digital modulation; Frequency domain analysis; Infrared detectors; Interference; Ultra wideband communication; Ultra wideband technology; Differential modulation and demodulation; digital multicarrier; ultrawideband (UWB);
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2007.901656
