电子科技大学学报
電子科技大學學報
전자과기대학학보
JOURNAL OF UNIVERSITY OF ELECTRONIC SCIENCE AND TECHNOLOGY OF CHINA
2014年
5期
678-684
,共7页
罗亚松%胡洪宁%刘忠%胡生亮%张建强
囉亞鬆%鬍洪寧%劉忠%鬍生亮%張建彊
라아송%호홍저%류충%호생량%장건강
信道估计%正交频分复用%自适应%水声通信
信道估計%正交頻分複用%自適應%水聲通信
신도고계%정교빈분복용%자괄응%수성통신
channel estimation%OFDM%self-adjusting%underwater acoustic communication
建立适用于OFDM水声通信信号的信道估计模型,对MP算法进行改进,引入路径门限调整机制克服虚假路径造成的不良影响,通过重要路径权系数的迭代修正降低非正交性引入的估计误差,以较小计算量取得了与OMP算法相当的估计精度;针对传统信道估计算法对信道长度信息的依赖问题,提出了一种信道长度自适应信道估计算法,该算法能够对信道估计质量进行实时评价,并根据评价结果实现信道估计算法预估信道长度的自适应调整,满足未知水声信道精确估计及通信应用的需要;基于OFDM导频元素个数与信道估计效果的关系研究,提出了OFDM导频序列自调整的通信方案,以较小的带宽损失保证了可靠的水声通信。通过仿真和实地试验,验证了该文研究内容的有效性。
建立適用于OFDM水聲通信信號的信道估計模型,對MP算法進行改進,引入路徑門限調整機製剋服虛假路徑造成的不良影響,通過重要路徑權繫數的迭代脩正降低非正交性引入的估計誤差,以較小計算量取得瞭與OMP算法相噹的估計精度;針對傳統信道估計算法對信道長度信息的依賴問題,提齣瞭一種信道長度自適應信道估計算法,該算法能夠對信道估計質量進行實時評價,併根據評價結果實現信道估計算法預估信道長度的自適應調整,滿足未知水聲信道精確估計及通信應用的需要;基于OFDM導頻元素箇數與信道估計效果的關繫研究,提齣瞭OFDM導頻序列自調整的通信方案,以較小的帶寬損失保證瞭可靠的水聲通信。通過倣真和實地試驗,驗證瞭該文研究內容的有效性。
건립괄용우OFDM수성통신신호적신도고계모형,대MP산법진행개진,인입로경문한조정궤제극복허가로경조성적불량영향,통과중요로경권계수적질대수정강저비정교성인입적고계오차,이교소계산량취득료여OMP산법상당적고계정도;침대전통신도고계산법대신도장도신식적의뢰문제,제출료일충신도장도자괄응신도고계산법,해산법능구대신도고계질량진행실시평개,병근거평개결과실현신도고계산법예고신도장도적자괄응조정,만족미지수성신도정학고계급통신응용적수요;기우OFDM도빈원소개수여신도고계효과적관계연구,제출료OFDM도빈서렬자조정적통신방안,이교소적대관손실보증료가고적수성통신。통과방진화실지시험,험증료해문연구내용적유효성。
The channel estimation model suitable for underwater acoustic OFDM communication signals is studied in this paper. Based on the analysis of existing channel estimation algorithms, the matching pursuit (MP) algorithm was improved by introducing a threshold adjusting mechanism which can effectively avoid false paths. An iterative correction method is used to decrease the estimation error caused by non-orthogonality. The improved MP algorithm can achieve a comparative estimation precision with OMP, but has smaller computation amount. In order to overcome the dependences on the information of channel’s length, a new channel estimation algorithm is proposed to adjust pre-estimated channel length automatically based on the real-time evaluation of channel estimation’s quality. Besides, the relations between the number of pilots and channel estimation effects are studied and a self-adjusting OFDM underwater acoustic communication scheme is presented for achieving reliable communication with lesser bandwidth recourse losses. The correctness and validity of the presented results are validated by simulations and experiments.
