2) inter-satellite optical communications
星间光通信
1.
Research on the influence of PID to ATP control width in Inter-satellite optical communications;
PID算法对星间光通信ATP子系统跟踪控制带宽的影响研究
3) intersatellite optical communication
星间光通信
1.
The laser diode-coupling unit is an important part of an intersatellite optical communication system.
针对星间光通信系统的要求,采用一种新型的半导体激光耦合方案,用前后正交的非球面柱面透镜准直半导体激光束,再经渐变折射率(graduated refractive index,GR IN)自聚焦透镜聚焦,把光束耦合入单模光纤。
2.
Vibration is a key factor of intersatellite optical communication, even a minor vibration of the pointing system on one satellite can dramatically degrade the network performance.
星间光通信中振动是影响系统性能的重要因素,即使其中一个卫星的瞄准系统的很小幅度的振动也可以引起整个网络的性能急剧恶化。
4) Optical intersatellite communication
星间光通信
1.
In this thesis, focusing on high precision pointing and tracking system in optical intersatellite communication, vibration suppression and performance improving used advanced control algorithms are researched, and then the simulation results are given.
本文基于星间光通信高精度指向跟踪系统,研究了星间光通信卫星平台振动抑制方法和利用先进控制算法对系统的性能进行改善,并对所设计的内容进行了仿真验证。
5) optical intersatellite communications
星间光通信
1.
Communications is been developing for high capacity and high speed, as to optical intersatellite communications, it occupies merits as high bit-rate, low power consumption, anti-jamming etc, it is promising.
星间光通信正是以其传输码率高、功耗低、抗干扰能力强等一系列优点适应这种需求而发展起来的一项高新技术。
2.
Recently, along with the development of space, semiconductor laser and digital signal processing, the research of optical intersatellite communications is possible.
本文对星间光通信ATP子系统的跟踪控制环路进行研究、分析与设计,在此基础上采用FPGA为主芯片,最终实现了跟踪与对准功能。
6) laser communication intersatellite
激光星间通信
1.
Laser beam s acquisition,pointing and tracking are key technologies of laser communication intersatellite.
激光星间通信是未来通信的最佳解决方案之一,激光束的捕获、瞄准和跟踪技术(APT)是激光星间通信的关键技术。
补充资料:红外线通信(见光通信)
红外线通信(见光通信)
infrared communication
hongwaixian tongxin红外线通信(in fraredco~爪cation)见光通信。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条