水下通信,underwater communication
1)underwater communication水下通信
1.Pilot based channel estimation for OFDMunderwater communication基于导频的OFDM水下通信信道估计
2.In order to decrease the major influences of time-varying multipath and fading in underwater channels and increase the transmit distance and reliability of anunderwater communications system,research and analysis were done on an adaptive spatio-temporal decision feedback equalizer(DFE) with an embedded digital-phase-locked-loop(DPLL) in a high-speed underwater digital communications system.为了克服水下信道严重的时变多途干扰和衰落对水下通信的影响,提高水下通信的作用距离和可靠性,在水下高速数字通信中对内嵌数字锁相环(digital phase-locked loop,DPLL)的自适应空时DFE(判决反馈均衡器)进行了研究和分析,给出了这种自适应空时判决反馈均衡器中各种算法和参数条件下的仿真结果。
3.Underwater communication ad-hoc network is important matter and research aspect inunderwater communication and key technique in underwater naval ships forming into columns.随着海军和海防的发展,舰艇编队已成为现代海战中执行复杂任务的重要形式,点对点的小范围通信难以满足水下多节点的通信需求,迫切需要研究和建立水下通信自组织网以满足海军现代化建设的需要。
英文短句/例句
1.undersea communication and detection system水下通信和探测系统
2.Channel Estimation and Synchronization for OFDM Underwater Communication;OFDM水下通信信道估计与同步技术研究
3.Pilot based channel estimation for OFDM underwater communication基于导频的OFDM水下通信信道估计
4.The Design and Implementation of the Signal Procesing Platform of UWAN Node水下通信网络节点信号处理平台的设计与实现
5.Research of Key Technologies in Phase Coherent Underwater High Speed Communication;相位相干高速水下通信的关键技术研究
6.Hardware Design and Implementation of the Digital Signal Processing Module of Underwater Acoustic Communication Network水下通信网数字信号处理模块硬件平台设计与实现
7.A vacuum is an ideal medium for radio communication, but underwater communications are limited to much slower sound waves.真空是理想的无线电通信媒体,但是水下通信却仅限于频率甚低的声波。
8.Research on Communication Mechanisms of AUVs Based on Multi Agents;基于多Agent的水下机器人通信机制研究
9.Research on CDMA Based Multi-user of Underwater Acoustic Communication;基于CDMA的水下多用户通信技术研究
10.Design of Underwater Close Range Wireless Communication System for Diver潜水员水下近距离简易通信系统的设计
11.Research on Multi-AUV Coordination Method with Limited Communication弱通信条件下水下机器人协调方法研究
12.The Design and Realization of the Receiver of a FSK Underwater Acoustic Communication;一种FSK水下声通信接收系统的设计与实现
13.Research on Communication Algorithm for AUV in Underwater Acoustic Sensor Networks;基于水下传感器网络的AUV通信算法研究
14.Development of Acoustic Communication System on Underwater Robot under VxWorks;基于VxWorks的水下机器人声通信系统软件设计
15.The Design and Realization of PDS Mode in the UWA Communication Experimental System;PDS体制在水下声通信实验系统中的设计与实现
16.Research on Digital Underwater Acoustic Voice Communications Systems;水下数字语音通信系统的硬件设计与实现研究
17.The Key Technology Research on Underwater Wireless Optical Communication Systems水下光学无线通信系统的关键技术研究
18.Research on Speech Synthesis Algorithm for Low Bit-rate Underwater Speech Communication一种低码率水下语音通信方法的合成算法研究
相关短句/例句
underwater acoustic communications水下声通信
3)underwater optical communication水下光通信
1.Modeling and simulation ofunderwater optical communication system水下光通信系统的建模与仿真
4)submarine laser communication水下激光通信
1.Study of upward transmission characteristics insubmarine laser communication;水下激光通信上行传输特性研究
5)high speed underwater communications高速水下通信
6)underwater communication set水下通信装置
延伸阅读
水下通信岸上实体(人或物)对水下目标的通信和水下实体之间的通信。水下通信按其手段通常可以分为电磁波通信和非电磁波通信两种。电磁波在水中传播与在空气中不同。由于水的电导率σ和介电常数&ε与空气中的电导率 σ0和介电常数&ε0不同(见表),因此其传播特性也不一样。电磁波从空气进入海水中时,电场的水平分量Ex远大于垂直分量Ey,电场方向基本是水平的,因此传播方向是向下的(见图)。这时,在深度为h处的场强 是按指数规律衰减的,衰减很快。波长越短,衰减越大;水的电导率越高,衰减越大。由于上述这些特点,电磁波在海水中的传播距离有限。一般来说,长波可穿透水的深度是几米,甚长波穿透水深是10~20米,越长波穿透水深是100~200米。电磁波在海水中的传播速度为式中c为光速,&λO为空气中的波长。因而在水中的波长为利用电磁波对海水中目标通信时,电磁波主要是先通过大气再穿透海水。因为超长波和甚长波在大气中的衰减仅为1.5~3分贝/兆米,而在海水中的衰减是0.2~10分贝/米,所以利用电磁波进行水下通信,大部分路径要靠大气传播。水下通信需要波长很长的电磁波,为了得到一定的辐射功率,就需要庞大的天线系统(兆瓦级甚长波发射天线通常占地面积为数平方公里,超长波发射天线还要大得多),以及很大功率的发射机(几十千瓦到数兆瓦);然而水中接收天线则可以做得较小。因此,这种通信只限于岸台发射,水中接收。水下通信还可以采用非电磁波通信,如水声通信。电于声波在海水中衰减较小,利用声波在海水中通信可得到数十公里的通信距离,在有波导现象存在时,通信距离会更远。水面船只对潜艇或潜艇之间的通信,大多采用水声通信,
