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Design and Detection of Multilinear Chirp Signals for Underwater Acoustic Sensor Networks

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  • En Cheng
  • Shengli Chen
  • Fei Yuan

Abstract

In Underwater Acoustic Sensor Networks (UW-ASNs), some key problems have attracted more and more attention, including power consumption, performance of multiple access, and complexity of node. Motivated by finding reduced power consumption and improved performance of multiple access in UW-ASNs, a multilinear chirp-Code Division Multiple Access (MLC-CDMA) scheme is proposed. The differences between single slope chirp signal and multilinear chirp signal are analyzed in the paper. At the receiving end, a new detection technique called mixing-change rate along with fractional Fourier transform (MCR-FrFT) is proposed to detect the multirate chirp (MRC) signal and reduce complexity of node. There are two steps to realize the detection technique MCR-FrFT. By using the MCR-FrFT, the computation of detection can be decreased to 50% compared with direct FrFT. The simulation results indicate that, using the MCR-FrFT technique, the different users' signal can be separated and detected rapidly.

Suggested Citation

  • En Cheng & Shengli Chen & Fei Yuan, 2015. "Design and Detection of Multilinear Chirp Signals for Underwater Acoustic Sensor Networks," International Journal of Distributed Sensor Networks, , vol. 11(11), pages 371579-3715, November.
    • Handle: RePEc:sae:intdis:v:11:y:2015:i:11:p:371579
    DOI: 10.1155/2015/371579
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