DocumentCode
1128313
Title
Multiuser Detection Techniques for TH-PPM Systems
Author
Adlakha, Sachin ; Mallik, Ranjan K. ; Vazirani, Anshu
Author_Institution
Stanford Univ., Stanford
Volume
56
Issue
5
fYear
2007
Firstpage
2915
Lastpage
2921
Abstract
This paper investigates detection mechanisms for time hopping pulse position modulated (TH-PPM) multiple access systems in both additive white Gaussian noise and fading environments. In such systems, the raw data is not linearly related to the received signal. One technique is to express the pulse position modulated signal as the sum of linearly modulated signals with the input being a nonlinear function of the raw data. This reduces the system to an equivalent pulse amplitude modulated system with a significant increase in complexity. We present two new lower complexity detectors. The first detector, which is a frame-level maximum likelihood (ML) detector, uses the properties of the pulse correlation matrix to develop a lower complexity detection method. The second detector, which is a chip-level ML detector, relies on the knowledge of the time hopping sequence to despread the received signal. The detection is then done on a chip-by-chip basis. The performance of these detectors is compared in terms of the bit error rate for the user with weakest power and the average number of correctly decoded users.
Keywords
AWGN channels; communication complexity; error statistics; fading channels; maximum likelihood detection; multi-access systems; multiuser detection; pulse position modulation; TH-PPM systems; additive white Gaussian noise; bit error rate; chip-level ML detector; fading environments; frame-level maximum likelihood detector; linearly modulated signals; low complexity detectors; multiple access systems; multiuser detection mechanisms; pulse correlation matrix; time hopping pulse position modulation; time hopping sequence; AWGN; Additive white noise; Bit error rate; Detectors; Maximum likelihood decoding; Maximum likelihood detection; Multiuser detection; Pulse modulation; Space vector pulse width modulation; Transmitters; Bit error rate (BER); correctly decoded users; multiuser detection; pulse position modulation (PPM); time hopping (TH);
fLanguage
English
Journal_Title
Vehicular Technology, IEEE Transactions on
Publisher
ieee
ISSN
0018-9545
Type
jour
DOI
10.1109/TVT.2007.898395
Filename
4305472
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