한국해양대학교

Detailed Information

Metadata Downloads

장거리 수중음향통신을 위한 반복부호화 기반의 가중화된 다중밴드 통신기법 연구

Title
장거리 수중음향통신을 위한 반복부호화 기반의 가중화된 다중밴드 통신기법 연구
Author(s)
이희수
Issued Date
2020
Publisher
한국해양대학교 대학원
URI
http://repository.kmou.ac.kr/handle/2014.oak/12409
http://kmou.dcollection.net/common/orgView/200000283912
Abstract
Recently, underwater acoustic communication is an essential technology for underwater communication in marine research, and its application field is expanding. In addition, with the development of military AUV capable of long-distance movement, there is an increasing need to develop a technology capable of reliably communicating over a long distance for efficient marine surveillance.
In the long distance acoustic communication, as the transmission distance increases, the bandwidth decreases and the throughput efficiency decreases. Multiband transmission technique is an efficient method to improve the transmission distance and performance in long-range underwater acoustic communication. However, sometimes the performance of multiband is lower than that of single bands. This is because in the transceiver model using the conventional multiband transmission technique, signals of different frequency bands are combined with the same weight and input to the decoder, so that performance degradation of a specific frequency band affects the total band. Accordingly, this thesis propose a weighted multiband transceiver model to improve the performance of the multiband transceiver model.
In the weighted multiband transceiver model, the transmitter uses a convolution code and a turbo code of 1/3 coding rate, and receiver uses a decision feedback equalizer to compensate for multipath distortion after compensating for frequency and phase offsets in each band. And, by applying the turbo equalization technique, the equalizer and the decoder is connected to each other to update the information iteratively to improve performance as the number of iteration increases. In addition, the threshold detector adds weights by setting threshold values through preamble BER(Bit Error Rate) of each band. The weighting method according to the threshold value for each band can improve the performance by reducing the influence of the band having low performance in the total band.
Simulation results show that the performance improves as the number of bands increases when the multiband transmission technique is applied. The performance of the proposed weighted multiband transceiver model analyzed through short and 90 km long-range sea experiments. In the short-range sea experiment, it confirmed that the performance improved with the increase of the number of bands, and that the performance was improved by applying the proposed weighted multiband structure to the data with low performance when the number of bands was four. In addition, the 90 km long-range sea experiment applied a weighted multiband transceiver model for data that did not completely correct errors within 5 iterations in the conventional multiband. As a result, it confirmed that the performance is further improved when the weighted multiband is applied.
Appears in Collections:
해운항만물류학과 > Thesis
Files in This Item:
200000283912.pdf Download

Items in Repository are protected by copyright, with all rights reserved, unless otherwise indicated.

Browse