差分混沌移位键控在水声通信中的应用

代红英; 陈梦蕾; 徐位凯

doi:10.11959/j.issn.1000-0801.2019217

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差分混沌移位键控在水声通信中的应用

研究与开发 | 更新时间：2024-06-05

- 差分混沌移位键控在水声通信中的应用
- Underwater acoustic communications based on differential chaos shift keying
- 电信科学 2019年35卷第9期页码：69-84
- 作者机构：
  
  1. 重庆工程学院，重庆 400056
  2. 国家电网浙江省电力有限公司信息通信分公司，浙江杭州 310000
  3. 厦门大学信息与通信工程系，福建厦门 361005
- 作者简介：
  
  [ "代红英（1977- ），女，重庆工程学院副教授，主要研究方向为通信技术。" ]
  [ "陈梦蕾（1995- ），女，国家电网浙江省电力有限公司信息通信分公司工程师，主要研究方向为无线通信。" ]
  [ "徐位凯（1976- ），男，博士，厦门大学信息与通信工程系副教授，主要研究方向为无线通信、水声通信。" ]
- 基金信息：
- DOI：10.11959/j.issn.1000-0801.2019217
  中图分类号： TN911
- 网络出版日期：2019-09，
  
  纸质出版日期：2019-09-20
- 稿件说明：
移动端阅览
代红英, 陈梦蕾, 徐位凯. 差分混沌移位键控在水声通信中的应用[J]. 电信科学, 2019,35(9):69-84.

Hongying DAI, Menglei CHEN, Weikai XU. Underwater acoustic communications based on differential chaos shift keying[J]. Telecommunications science, 2019, 35(9): 69-84.
代红英, 陈梦蕾, 徐位凯. 差分混沌移位键控在水声通信中的应用[J]. 电信科学, 2019,35(9):69-84. DOI： 10.11959/j.issn.1000-0801.2019217.

Hongying DAI, Menglei CHEN, Weikai XU. Underwater acoustic communications based on differential chaos shift keying[J]. Telecommunications science, 2019, 35(9): 69-84. DOI： 10.11959/j.issn.1000-0801.2019217.

摘要

水声信道作为目前已知最严酷、最复杂的无线通信信道之一，具有强多途干扰、时—频率双扩展、高噪、带宽窄等特征。水声信道的时变特性，使得估计与跟踪信道很困难，因此，研究无需信道估计与均衡的非相干稳健水声通信调制方法具有重要的意义。首先介绍了基于正交频分复用（OFDM）和扩频调制的水声调制技术的研究进展，然后，分析了差分混沌移位键控在水声信道下的可行性，提出了两种基于OFDM的多载波差分混沌移位键控方案，给出两个方案的调制解调器原理。在时—频双扩展信道和水声信道下，对两个方案进行了性能仿真和分析。性能结果表明所提出的方案在水声信道下具有良好的稳健性。

Abstract

As the most stringent and complicated channel

underwater acoustic (UWA) channels are featured by high multipath interference

time-frequency doubly spread

high noise

and narrow bandwidth.Due to time varying of underwater acoustic

it is difficult to trance and estimate channel state information (CSI).The underwater acoustic communication techniques based on orthogonal frequency division multiplex (OFDM) and spread spectrum were reviewed.Then

the characteristic of differential chaos shift keying (DCSK) was analyzed

and two multicarrier differential chaos shift keying modulations were proposed.Finally

over time-frequency doubly spread channel and underwater acoustic channel

the bit errors rate (BER) performances for two proposed schemes were presented and analyzed.Numerical results show that the proposed schemes own good robustness over underwater acoustic channels.

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references

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