Title :
HFM spread spectrum modulation scheme in shallow water acoustic channels
Author :
Lan Zhang ; Xiaomei Xu ; Wei Feng ; Yougan Chen
Author_Institution :
Key Lab. of Underwater Acoust. Commun. & Marine Inf. Technol., Xiamen Univ., Xiamen, China
Abstract :
Owing to the large delay spread caused by multipath propagation and the severe Doppler Effect of the shallow water acoustic channel, a spread spectrum modulation scheme using hyperbolic frequency modulated (HFM) signal named as “HFM spread-spectrum modulation” (HFM-SS) was exploited to substantially improve the performance of communications over such channels. Apart from some advantages such as reducing influence of narrow-band noise, HFM signals provide Doppler-invariability and low power cost. The effects of multipath and Doppler shift on the proposed scheme were investigated by establishing a model of a shallow water acoustic communication system. The emulated results demonstrate that it has a good prospect for underwater acoustic communication system, especially for moving platforms. High transmission stability of this approach was validated in lake experiments carried out in the summer 2011.
Keywords :
Doppler shift; delays; frequency modulation; multipath channels; spread spectrum communication; underwater acoustic communication; underwater acoustic propagation; Doppler effect; Doppler shift; Doppler- invariability; HFM-SS; delay spread; hyperbolic frequency modulated spread spectrum modulation scheme; multipath propagation; narrow-band noise reduction; shallow water acoustic communication channel; transmission stability; Doppler effect; Frequency modulation; Receivers; Underwater acoustics; Doppler Effect; Doppler-invariability; HFM signal; Shallow rwater acoustic communication; Spread-spectrum modulation;
Conference_Titel :
Oceans, 2012
Conference_Location :
Hampton Roads, VA
Print_ISBN :
978-1-4673-0829-8
DOI :
10.1109/OCEANS.2012.6404896
