Title page for ETD etd-08312011-223241

Type of Document Master's Thesis
Author Thottappilly, Arjun
Author's Email Address arjunt01@vt.edu
URN etd-08312011-223241
Title OFDM for Underwater Acoustic Communication
Degree Master of Science
Department Electrical and Computer Engineering
Advisory Committee
Advisor Name Title
Beex, A. A. Louis Committee Chair
Ellingson, Steven W. Committee Member
Reed, Jeffrey Hugh Committee Member
  • Orthogonal Frequency Division Multiplexing
  • Underwater Acoustic Communication
  • Time Warp
  • Wideband Doppler correction
Date of Defense 2011-08-17
Availability unrestricted
Communicating wirelessly underwater has been an area of interest for researchers, engineers, and practitioners alike. One of the main reasons for the slow rate of progress in this area is that the underwater acoustic channel is in general much more hostile – in terms of multipath, frequency selectivity, noise, and the Doppler effect – than the over-the-air radio frequency channel. In this work a time warp based technique which can be used to model time-varying wideband Doppler shifts (as seen in an UWA channel) in MATLAB is proposed. A corresponding procedure to estimate the parameters from observed data, required for inverting the effect of the time warp, is also proposed. Two different Doppler correction methods are compared; both can be used to undo the Doppler effect in measured data from an experiment subject to the wideband Doppler effect.

The techniques presented correct for the wideband Doppler effect as if it changed the time scale of the received signal. The first resampling based technique corrects for the average expansion/contraction over a packet, inherently assuming the relative velocity to be constant over the duration of the packet. The second time warp based technique models time-varying Doppler shift. Sinusoids, added to the beginning and end of each packet, are used to estimate the parameters required to invert the effect of the warp.

The time warp based methods are demonstrated using Orthogonal Frequency Division Multiplexing (OFDM) signals, but will in principle work for other kinds of wideband signals also. The presented results – using MATLAB based simulations, and over-the-air experiments performed in such a way as to introduce the Doppler effect in the received signals – emphasize the improvements that can be attained by using the time warp based Doppler modeling and correction method. The thesis concludes with suggestions for future work.

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