The IRMA Community
Newsletters
Research IRM
Click a keyword to search titles using our InfoSci-OnDemand powered search:
|
Performance and Complexity Evaluation of OTR-UWB Receiver
Abstract
This article presents a new transmitted reference UWB receiver, which utilizes the orthogonal property of even and odd order derivatives of Gaussian pulses in neighboring chips for synchronization. This system, referred to as orthogonal TR-UWB (OTR-UWB), employs only a single spreading code, which results in much lower mean detection time compared to DS-UWB systems. The hardware complexity for OTR-UWB receiver is significantly reduced against conventional TR-UWB systems. In addition, simulation results show that BER performance is improved, while the new system is capable of supporting higher data rates. Also, this article presents the FPGA implementation of OTR-UWB, with a bit-rate of 25Mb/s without using equalizer. In addition, we present the DSP algorithm of baseband. Hardware of this system is implemented on two different FPGAs from ALTERA and XILINX, CycloneII (EP2C35F672C6) and Spartan 3 (3s4000fg676-5). Gate estimation and power analysis are performed by Quartus II 7.2 (ALTERA) and ISE 8.1 (XILINX) softwares.
Related Content
|
JianTong Yu, Li Li.
© 2024.
20 pages.
|
|
Md. Alimul Haque, Sultan Ahmad, Ali J. Abboud, Md. Alamgir Hossain, Kailash Kumar, Shameemul Haque, Deepa Sonal, Moidur Rahman, Senapathy Marisennayya.
© 2024.
27 pages.
|
|
Neeraj Kumar, Ritu Chauhan.
© 2024.
18 pages.
|
|
Gerald Dapaah Gyamfi, Eunice Akpene Dzidzinyo, Ebenezer Nortei Dowuona.
© 2024.
17 pages.
|
|
Konstantin Malyshenko, Vadim Malyshenko, Marina Anashkina, Dmitry Anashkin.
© 2024.
21 pages.
|
|
Aleyah Al-Sharhan, Ahmad Alsaber, Yousef Al Khasham, Anwaar Al Kandari, Rania Nafea, Parul Setiya.
© 2024.
16 pages.
|
|
Angelin Gladston, S. Naveenkumar, K. Sanjeev, A. Gowthamraj.
© 2024.
25 pages.
|
|
|