Title :
An adaptive UWB modulation scheme for optimization of energy, BER, and data rate
Author :
August, Nathaniel J. ; Thirugnanam, Rajesh ; Ha, Dong Sam
Author_Institution :
VTVT Lab., Virginia Tech., VA, USA
Abstract :
For many networks, different types of data require various QoS (quality of service) constraints such as bit error rate (BER), data rate, or energy dissipation. High data rate, low power dissipation, and simple RF circuitry make ultra wideband (UWB) an attractive technology to meet many QoS requirements. Typical UWB systems are built to meet QoS constraints even under the worst environmental conditions, although the worst environmental conditions occur infrequently. To prevent this waste of resources, we propose a UWB physical layer that adapts its modulation scheme to meet QoS requirements efficiently. The system employs m-ary PPM and adapts its pulse repetition interval (PRI) and/or the number of bits per symbol (log2m). Compared to a non-adaptive system, the adaptive system can improve BER up to 50%, energy by 60%, or data rate by 260%.
Keywords :
adaptive modulation; broadband networks; error statistics; optimisation; pulse position modulation; quality of service; radio networks; resource allocation; BER optimization; PRI; QoS; UWB physical layer; adaptive UWB modulation scheme; adaptive modulation; adaptive resource allocation; bit error rate; data rate optimization; energy optimization; m-ary PPM; pulse repetition interval; quality of service; simple RF circuitry; Adaptive systems; Bit error rate; Circuits; Energy dissipation; Physical layer; Pulse modulation; Quality of service; Radio frequency; Sensor systems; Ultra wideband technology;
Conference_Titel :
Ultra Wideband Systems, 2004. Joint with Conference on Ultrawideband Systems and Technologies. Joint UWBST & IWUWBS. 2004 International Workshop on
Print_ISBN :
0-7803-8373-7
DOI :
10.1109/UWBST.2004.1320960
