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111.
Guangteng Fan Fei Zhang Dechao Ran 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(2):806-811
Anti-interference and high-precision measurement are two important indicators of the performance of a satellite navigation receiver. However, current receiver designs do not simultaneously satisfy these two criteria. While the carrier-phase ranging technique is necessary for high-precision receivers, frequency domain interference suppression (FDIS) results in tracking error biases for nonideal analog receiver channels. Importantly, as the FDIS filter is adaptive, the bias will vary with the jamming pattern, particularly when the frequency of interference varies. For precision navigation applications, this bias must be mitigated. Therefore, a new FDIS filter based on the mirror frequency amplitude compensation (MFAC) method is proposed in this paper. The amplitude at the symmetry position of the notch frequency is doubled in the MFAC method to mitigate this carrier-phase bias. The simulation results showed that the MFAC method can reduce the range of the carrier-phase bias by more than 60% for different interference bandwidths, which substantially exceeds that achieved using the conventional FDIS and calibration filter methods of 20 orders. 相似文献
112.
Stephen Malys Russell Solomon Jason Drotar Todd Kawakami Thomas Johnson 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(2):834-844
The operational Terrestrial Reference Frames (TRFs) realized through the evaluation of broadcast ephemerides for GPS, GLONASS, Galileo, BeiDou-2 and BeiDou-3 have been compared to IGS14, the TRF realized by the International GNSS Service (IGS). The TRFs realized by the GPS, GLONASS, Galileo, and BeiDou-2 and BeiDou-3 broadcast ephemerides are the orbital realizations of WGS 84 (G1762′), PZ90.11, GTRF19v01, and BDCS respectively. These TRFs are compared using up to 56 days of data (21 July-14 Sept 2019) at a 5 or 15-min rate. The operational TRFs are compared to IGS14 in a 7-parameter similarity (Helmert) transformation. Numerical results show that the operational GNSS TRFs differ from IGS14 at a level no greater than 4 cm for Galileo, 6 cm for GPS and BeiDou-3, 13 cm for GLONASS, and 48 cm for a limited set of BeiDou-2 Medium Earth Orbit (MEO) vehicles. 相似文献
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介绍了用铷吸收光谱法对半导体激光器进行稳频,通过对包括半导体激光驱动源、稳频器、吸收室、光路等系统的优化设计,达到具有高信噪比微分误差信号,从而大大提高了半导体激光器稳频锁定灵敏度和长期稳定性。采用文中介绍的方法建立的光波长标准系统,其波长的测量重复性、稳定性可满足当前和将来很长一段时间光波长计校准的需要。 相似文献
115.
谐振式光子晶体光纤陀螺是一种具有小型化、高精度等潜在技术优势的新型光纤陀螺,是国内外惯性器件研究的一个重要发展方向。针对谐振式光子晶体光纤陀螺的结构和信号检测原理进行了详细的叙述,确定了基于FPGA的陀螺信号检测总体方案,陀螺信号处理及控制模块主要由频差信号解调、复合拍频检测、闭环反馈控制、数据编码输出以及调制信号模块组成;随后重点介绍了窄线宽半导体激光器的驱动控制方案,在调制解调及频率偏差检测方案上采用数字相敏检波器实现频率偏差检测,在谐振频率闭环跟踪锁定方案上采用数字PI控制器实现环路光频率控制;最后进行了谐振式光子晶体光纤陀螺实验测试系统搭建,以及谐振曲线测试和谐振频率闭环锁定测试。 相似文献
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118.
有限元频响分析中网格划分技术研究 总被引:1,自引:0,他引:1
阐述了利用有限元进行频响分析过程中存在的一个突出问题;简单介绍了波动理论的一些基本公式,并提出有限元频响分析时划分网格的参考标准;首先通过对简单结构(包括梁、矩形板)的有限元计算以及与解析解的对比初步验证了该方法的有效性,然后给出了两个工程算例的应用情况。 相似文献
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120.
《中国航空学报》2023,36(5):280-285
This paper proposes a frequency reconfigurable triangular antenna actuated by an inflated triangular structure. The open path antenna is transformed from an open type to a closed structure by inflating. Inflatable structures are easy to manufacture by fusing 2 inextensible membranes together along a defined pattern of lines. However, the prediction of their deployed shape remains a challenge. To solve the pattern changed problem, guided by geometric analyses and local buckle characteristics, the inflated triangular structure has been designed and verified by experiment and simulation. In the process of transformation of the antenna, the resonant frequency of the antenna is changed because this frequency is determined by the conformational change. The resonant frequency changes from GHz to kHz when the design of initial structure sizes is from millimeter to meter. The measured peak gains, the frequency, and the radiation direction are also reconfigurable by the initial size. Finally, the reconfigurable resonator array is presented, which is coupled to electric fields to absorb all incident radiation. In this work, the changed pattern design by inflating is applied to the antenna design, and its frequency reconfigurability is achieved. Through the electricity performance analysis of the reconfigurable antenna, precise manufacturing will be possible and provide guidance for manufacturing frequency reconfigurable antennas. 相似文献