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3 April 1997 Performance of filter-bank-based spreading codes for cellular and microcellular channels
Kenneth J. Hetling, Gary J. Saulnier, Pankaj K. Das
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Proceedings Volume 3078, Wavelet Applications IV; (1997) https://doi.org/10.1117/12.271754
Event: AeroSense '97, 1997, Orlando, FL, United States
Abstract
Recently, a new class of spreading codes has been developed based upon the time-frequency duality of multirate filter bank structures. Unlike the maximal length sequences, these new codes are not limited to being binary valued. Instead, the elements of the sequences are determined by an optimization process which emphasizes certain desirable code properties. In this paper, spreading codes based upon multirate filter banks are developed for use in a cellular or microcellular channel in which partial synchronization is maintained between the users. This situation allows the cross-correlation between the codes to be optimized over a fraction of the total range of possible phase shifts between the codes. COdes are designed for an example set of channel conditions and bit error rate results are generated. These results show that the new codes perform better than conventional Gold codes.
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Kenneth J. Hetling, Gary J. Saulnier, and Pankaj K. Das "Performance of filter-bank-based spreading codes for cellular and microcellular channels", Proc. SPIE 3078, Wavelet Applications IV, (3 April 1997); https://doi.org/10.1117/12.271754
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KEYWORDS
Gold
Matrices
Fourier transforms
Binary data
Phase shifts
Signal processing
Telecommunications
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