可拆卸的插头用来接收水下通信系统。
Removable accessory plugsDesigned to receive underwater communication systems.
现代通信系统是陆-海-空三维通信网,三维通信网的组成主要制约于水下通信。
Modern communication system is a land-sea-space three-dimensional communication network whose realization is mainly restrained by underwater communication.
并根据一定的通信系统参量,利用蒙特卡罗方法模拟了水下目标接收信号的时间和空间分布。
With certain communication system parameters the temporal and spatial distributions of the received signal from submerged platform are simulated using Monte Carlo method.
该系统利用CWDM(粗波分复用)技术在一根光纤中对多路数据进行对传,从而来实现水下机器人和岸基之间的通信。
The project can permit multiplex digital signals transmit in single fiber using CWDM (Coarse Wavelength Division Multiplexing), and realize communication between the underwater robot and the bank.
通过对水下光通信系统中影响通信质量的各个因素的分析,找到提高通信质量的方法。
This paper finds a method to improve communication quality analyzing every factor which can effect the quality in optical communication system of underwater.
本文的研究方法和研究结果,对提高水下通信、探测和成像系统的性能提供了理论基础和实验验证。
The methods and results in the article provide the basic theory and experiment validation for improving performance of communication, detection and imaging under sea water.
由于水下通信信道对光信号的衰减极大,实际通信系统的编码应具有极强纠随机差错和纠突发差错的能力。
Because of the enormous fading of the optical signal in underwater laser communication, the capacity of the error-correcting code must be well enough.
研究结果表明,在较恶劣环境条件下,利用星载激光系统可以实现对水下目标的良好通信。
The results show that under severe environment robust laser communication from a satellite to a submerged platform can be achieved.
本文主要实现了履带式水下机器人的控制系统并进行了水下通信方式的实验室研究。
In this paper, a control system of tracked underwater vehicle is developed, and the underwater communication is studied in the lab.
描述了水下系统中传感测量电路以及通信、存储功能的基本设计思路。
The basic design of the sensor circuit, communication part and memory part is also discussed.
为了证明系统能够应用于水下声光通信,进行了对水下声源发出的声波频率和强度的探测实验。
To prove the system can be used in underwater acoustooptic communications, with this system, the acoustic frequency and intensity of underwater sound source are detected.
为了证明系统能够应用于水下声光通信,进行了对水下声源发出的声波频率和强度的探测实验。
To prove the system can be used in underwater acoustooptic communications, with this system, the acoustic frequency and intensity of underwater sound source are detected.
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