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    • 3. 发明授权
    • Frame timing synchronization in a geostationary satellite system
    • 地球静止卫星系统中的帧定时同步
    • US09166675B2
    • 2015-10-20
    • US14265356
    • 2014-04-29
    • Hughes Network Systems, LLC
    • Udaya BhaskarYezdi AntiaSatyajit Roy
    • H04B7/204H04W56/00
    • H04B7/2048H04B7/18513H04B7/2125H04W56/001
    • Aspects of the invention provide a system and method to allow inroute frame timing synchronization without the aid of hub signal loopback or satellite ephemeris data. Furthermore, it allows tracking and compensating of the satellite motion to allow multiple remotes to use TDMA on the inroute frequencies, while minimizing the aperture. Two main techniques proposed are CLT and polling based approaches, which are used in combination for an optimum solution. In CLT based approach, hub transmits remote specific timing correction feedback messages on the outroute on as needed basis. In polling based approach, the remotes derive their timing based on a per-beam average delay estimate broadcast by the hub and a measured local delay specific to each outroute stream from a remote. An aspect of the invention uses triangulation method to determine satellite position. Furthermore, an aspect of the invention uses hub burst arrival method instead of polling approach.
    • 本发明的方面提供了一种系统和方法,其允许在无需集线器信号环回或卫星星历数据的帮助下进行帧定时同步。 此外,它允许跟踪和补偿卫星运动,以允许多个遥控器在最小化孔径的同时使用TDMA在路由频率上。 提出的两个主要技术是基于CLT和轮询的方法,它们被组合用于最佳解决方案。 在基于CLT的方法中,集线器根据需要在远端传输远程特定定时校正反馈消息。 在基于轮询的方法中,遥控器基于由集线器广播的每个波束的平均延迟估计和来自远程的每个外向流特定的测量的本地延迟导出其定时。 本发明的一个方面使用三角测量方法来确定卫星位置。 此外,本发明的一个方面使用集线器突发到达方法而不是轮询方法。
    • 4. 发明授权
    • Acquisition system for the SDMA/TDMA satellite communication system
    • SDMA / TDMA卫星通信系统采集系统
    • US3958083A
    • 1976-05-18
    • US551675
    • 1975-02-21
    • Takao HaraYoshikazu TsujiYasuhiko Sakamoto
    • Takao HaraYoshikazu TsujiYasuhiko Sakamoto
    • H04B7/204H04J3/06H04B7/20
    • H04B7/2048
    • An acquisition system for the SDMA/TDMA satellite communication system is disclosed in which a synchronization signal receiving time slot and a plurality of data signal receiving time slots, for communication between predetermined groups of earth stations and between the earth stations of each group, are sequentially provided at the satellite based on timing signal in the satellite. An acquisition signal having a plurality of signal burst portions is transmitted from the earth station, with its transmit time slot being shifted in a first sweep mode until one part of the acquisition signal is received by said transmitting earth station. At that time the transmit time slot is shifted in a second sweep mode, whereby a control is made to obtain synchronization of the earth station with the satellite so that the plurality of burst portions in the acquisition signal may be properly communicated to the predetermined groups.Further, an acquisition control is shown to be effectively achieved in the case where the SN ratio of the received acquisition signal is extremely deteriorated or where it is necessary to prevent disturbing another earth station of the same group of earth stations which has already accessed the satellite.
    • 公开了一种用于SDMA / TDMA卫星通信系统的采集系统,其中同步信号接收时隙和多个数据信号接收时隙用于在预定的地球站组之间和每个组的地球站之间进行通信, 基于卫星中的定时信号在卫星上提供。 具有多个信号突发部分的获取信号从地球站发射,其发射时隙以第一扫描模式移位,直到所述发射地球站接收到采集信号的一部分。 此时,发送时隙在第二扫描模式中移位,由此进行控制以获得地球站与卫星的同步,使得采集信号中的多个突发部分可以适当地传送到预定的组。