本文中对动中通的研究是基于一平板天线的动中通系统展开的。
The study on satellite communication in motion bases on panel antenna in this paper.
在研究卫星通讯地面站的动中通设备时,要求天线系统在车载机上能很好地跟踪指定的卫星。
At studying the "Connection in moving" equipments, of the satellite communication earth station, we request that the antenna system carried on the car can follow the appointed satellite very well.
因此“动中通”网络具有网络自组织性、拓扑结构动态变化、节点随机移动、资源有限等特点。
So it has such characteristics as self-organized, dynamic topology, random moving, limited resources and so on.
结果表明,该设计能有效提高系统的整体性能,降低系统造价,更好地满足动中通系统的实际需求。
Results show that this design can improve overall system performance, lower system costs and better meet the actual demand of COTM system.
该技术不但解决了机动系统的“动中通”问题,对以后的无线网络综合应用也提供了一个很好的方向。
This technique not only resolves the problem of "mobile communicate" in mobile system, but also provides a good direction for applying radio communication network synthetically in the future.
介绍了动中通的特点及各种可能的实现方法,对关键的技术问题进行了分析并结合实际的产品进行了介绍。
The paper explains servo system of satellite communication in motion. Primary performance is analyzed and a example of the system is introduced.
介绍了动中通的特点及各种可能的实现方法,对关键的技术问题进行了分析并结合实际的产品进行了介绍。
The paper explains servo system of satellite communication in motion. Primary performance is analyzed and a example of the system is introduced.
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