Differential pulse position modulation for power-efficient wireless infrared communication

Author

Shiu, Da-shan ; Kahn, Joseph M.

Author_Institution

California Univ., Berkeley, CA, USA

Volume

1

fYear

1998

fDate

1998

Firstpage

219

Abstract

We examine the use of differential pulse-position modulation (DPPM) for indoor wireless infrared communication. We show that for a given bandwidth, DPPM requires significantly less average power and provides higher throughput than PPM. We examine the power requirement of DPPM in the presence of multipath intersymbol interference (ISI) and show that ISI penalty is essentially determined by the delay spread-bandwidth product. To reduce the ISI penalty, we propose chip-rate equalization and compare its performance to optimum maximum-likelihood sequence detection. We also derive the power spectrum of DPPM signals

Keywords

decision feedback equalisers; dispersive channels; error statistics; maximum likelihood detection; multipath channels; optical communication; optical modulation; pulse position modulation; DPPM signals; ISI penalty; PPM; average power; bandwidth; chip-rate equalization; delay spread-bandwidth product; differential pulse position modulation; dispersive channels; error-probability analysis; hard-decision-feedback equalization; indoor wireless IR communication; multipath intersymbol interference; nondispersive channels; optimum maximum-likelihood sequence detection; power spectrum; power-efficient wireless infrared communication; throughput; Additive white noise; Gaussian noise; Intersymbol interference; Optical distortion; Optical fiber communication; Optical noise; Optical receivers; Optical transmitters; Pulse modulation; Wireless communication;

fLanguage

English

Publisher

ieee

Conference_Titel

Global Telecommunications Conference, 1998. GLOBECOM 1998. The Bridge to Global Integration. IEEE

Conference_Location

Sydney,NSW

Print_ISBN

0-7803-4984-9

Type

conf

DOI

10.1109/GLOCOM.1998.775727

Filename

775727