Type:

Application of convolutional error correcting codes in ultrawideband M-ary PPM signaling

Journal: IEEE Microwave and Wireless Components Letters (15311309)Year: August 2003Volume: 13Issue: Pages: 308 - 310

a :University of Isfahan - IRAN(IR) - Isfahan

DOI:10.1109/LMWC.2003.815700Language: English

Abstract

The interference issues related to ultrawideband (UWB) radio pose tight restrictions on the maximum data rate of UWB radio telecommunication systems. A possible solution is to reduce the required signal to interference ratio (SIR) that gives satisfactory performance to the UWB system. In this letter, we propose coded M-ary UWB radio communication systems. Two classes of convolutional codes, namely, low-rate superorthogonal codes and high-rate punctured codes are considered for this purpose. Simulation results on the bit error rate of the proposed system indicates that the system is capable to work in lower SIR's and therefore supports higher data transmission rates in a real interference environment compared to the previously proposed UWB communication systems.

Author Keywords

High-rate punctured codesLow-rate superorthogonal codesM-ary pulse position modulation (PPM)Ultrawideband (UWB) radioViterbi decoding

Other Keywords

AlgorithmsBit error rateComputational complexityComputer simulationConvolutional codesData communication systemsDecodingError correctionPulse position modulationRadio interferenceSignal encodingSignal to noise ratioHigh rate punctured codesLow rate superorthogonal codesUltrawideband radioViterbi decodingRadio communication