For example, see the following website: http://www.osa.org/sp/sp/sp/sp.html; P realici oaute; n cnicas for assigning; oaute; n DIN amp; Aacute; sat amp timing Mica on the communication network; eacute; Lite geo static. As an exampleThe ground processing node; eacute; geostationary Lite in satellite and amp networks can monitor the location CI amp; oacute; n from a specific beam coverage area, and can detect a beam drift transmitter, indicating that currently from one or more M amp; Aacute; coverage areas. Ground terminals may be identified as point beam services associated with fluid coverage areas or areas and affected by Se amp; ntilde; andDrift tendency. The ground terminal node can calculate an updated CI amp; oacute; n to reallocate CI amp; oacute; n from a distribution diagram; From the user terminal, the user terminal determined from its point beam is currently running to another point beam, and its way at least attempts to solve the problem that affects the quality of Se amp in part; ntilde; is confirmed to be related to rafting. Some forms of implementation and ampere, oacute interpretationADEM amp; Aacute; s, load balancing and / or other factors, and / or the ability to maintain state communication between the redeployed user terminal and the SAT amp; eacute; Lite geo static communication.
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机译:例如,请访问以下网站:http: / / www.osa.org / sp / sp / sp /sp.html; P GT;现实n用于分配的CNICA; oa n DIN放大器急性在通信网络上坐放计时云母;敏锐精简版Geo static。例如地面处理节点;敏锐卫星和安培网络中的geostationary Lite可以监视位置CI放大器; ac n来自特定的波束覆盖区域,并且可以检测到发射机的波束漂移,指示当前来自一个或多个M amp;急性覆盖区域。可以将接地终端识别为与流体覆盖区域或区域相关联并受Se amp影响的点波束服务。小提琴和漂移趋势。地面终端节点可以计算出更新后的CI amp; ac n重新分配CI放大器; ac分布图中的n;从用户终端,从其点波束确定的用户终端当前正在运行到另一点波束,并且其方式至少尝试解决部分地影响Se amp质量的问题。小提琴被确认与漂流有关。某些形式的实现和安培,不准确的解释急性s,负载平衡和/或其他因素,和/或在重新部署的用户终端与SAT放大器之间维持状态通信的能力;敏锐精简版地静通信。
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