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Dipak K. Srinivasan David Artis Ben Baker Robert Stilwell Robert Wallis 《Acta Astronautica》2009,65(11-12):1639-1649
The NASA Radiation Belt Storm Probes (RBSP) mission, currently in Phase B, is a two-spacecraft, Earth-orbiting mission, which will launch in 2012. The spacecraft's S-band radio frequency (RF) telecommunications subsystem has three primary functions: provide spacecraft command capability, provide spacecraft telemetry and science data return, and provide accurate Doppler data for navigation. The primary communications link to the ground is via the Johns Hopkins University Applied Physics Laboratory's (JHU/APL) 18 m dish, with secondary links to the NASA 13 m Ground Network and the Tracking and Data Relay Spacecraft System (TDRSS) in single-access mode. The on-board RF subsystem features the APL-built coherent transceiver and in-house builds of a solid-state power amplifier and conical bifilar helix broad-beam antennas. The coherent transceiver provides coherency digitally, and controls the downlink data rate and encoding within its field-programmable gate array (FPGA). The transceiver also provides a critical command decoder (CCD) function, which is used to protect against box-level upsets in the C&DH subsystem. Because RBSP is a spin-stabilized mission, the antennas must be symmetric about the spin axis. Two broad-beam antennas point along both ends of the spin axis, providing communication coverage from boresight to 70°. An RF splitter excites both antennas; therefore, the mission is designed such that no communications are required close to 90° from the spin axis due to the interferometer effect from the two antennas. To maximize the total downlink volume from the spacecraft, the CCSDS File Delivery Protocol (CFDP) has been baselined for the RBSP mission. During real-time ground contacts with the APL ground station, downlinked files are checked for errors. Handshaking between flight and ground CFDP software results in requests to retransmit only the file fragments lost due to dropouts. This allows minimization of RF link margins, thereby maximizing data rate and thus data volume. 相似文献
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简要介绍了SNMP(简单网络管理协议)管理模型,基于测控设备C/S(客户/服务器)监控模式现状,分析了测控设备监控信息传输的特点,对现有监控信息传输协议与SNMP协议进行了研究,从传输可靠性、传输效率与协议操作应用等方面进行了比较,并开展了基于SNMP协议的远程监控信息传输试验。试验结果表明,基于SNMP协议可实现测控设备参数与状态监视信息的传输。 相似文献
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简要介绍了A/D、D/A转换器的主要测试参数,着重讨论转换特性参数的测试方法及其在混合集成电路测试系统上的实现;同时还介绍了A/D、D/A转换器的一些其他测试方法。 相似文献
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移动代理(MA)综述 总被引:4,自引:0,他引:4
吴杰宏 《沈阳航空工业学院学报》2004,21(5):58-60
随着网络规模的日益扩大,如何保证网络管理系统的可扩展性和高效率性已成为网络管理人员迫切需要解决的问题。移动代理技术是新型的分布计算技术,具有很好的应用前景。移动代理系统是实现移动代理应用的基础框架。文章简述了移动代理(mobile agent)的定义和特点、代理的分类及移动代理的实现语言、以及移动的分类和移动机制;还提出了移动代理的特有技术优势,并对其发展前景进行了展望。文章在论述移动代理系统基本组成的同时,对IBM的移动代理平台aglet系统进行了介绍。 相似文献