Cottatellucci L, Müller R, Debbah M (2010)
Publication Status: Published
Publication Type: Journal article, Original article
Publication year: 2010
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Book Volume: 56
Pages Range: 1498-1520
Article Number: 5437421
Journal Issue: 4
Totally asynchronous code-division multiple-access (CDMA) systems are addressed. In Part I, the fundamental limits of asynchronous CDMA systems are analyzed in terms of spectral efficiency and SINR at the output of the optimum linear detector. The focus of Part II is the design of low-complexity implementations of linear multiuser detectors in systems with many users that admit a multistage representation, e.g., reduced rank multistage Wiener filters, polynomial expansion detectors, weighted linear parallel interference cancellers. The effects of excess bandwidth, chip-pulse shaping, and time delay distribution on CDMA with suboptimum linear receiver structures are investigated. Recursive expressions for universal weight design are given. The performance in terms of SINR is derived in the large-system limit and the performance improvement over synchronous systems is quantified. The considerations distinguish between two ways of forming discrete-time statistics: chip-matched filtering and oversampling. © 2006 IEEE.
APA:
Cottatellucci, L., Müller, R., & Debbah, M. (2010). Asynchronous CDMA systems with random spreadingpart II: Design criteria. IEEE Transactions on Information Theory, 56(4), 1498-1520. https://doi.org/10.1109/TIT.2010.2040898
MLA:
Cottatellucci, Laura, Ralf Müller, and Merouane Debbah. "Asynchronous CDMA systems with random spreadingpart II: Design criteria." IEEE Transactions on Information Theory 56.4 (2010): 1498-1520.
BibTeX: Download