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321.
Yongxing Zhu Kang Zheng Xianqiang Cui Qinghua Zhang Xiaolin Jia Mingming Zhang Shunxi Fan 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(8):2483-2490
BeiDou-3 Navigation Satellite System (BDS-3) satellites are equipped with the new generation GNSS signals B1C and B2a, which support the interoperability with GPS and Galileo systems. In this study, the pseudo-range multipath error and carrier phase observation noise of the BDS-3 B1C and B2a signals were evaluated based on zero baseline measurements from the day of year (DOY) 113 to 116, 2020. Further, the precision and performance of the single point positioning (SPP) and precise point positioning (PPP) are assessed at 9 stations. This assessment manifests that the standard deviations (STDs) of the pseudo-range multipath error are about 0.09 ~ 0.22 m, while STDs of the carrier phase observation noise are about 0.075 mm. For the single-frequency SPP, its positioning precision is about 2.03 ~ 4.85 m and 3.29 ~ 10.73 m at the 99.99% confidence level in horizontal and vertical directions, respectively, while the dual-frequency SPP precision is about 1.92 ~ 8.02 m and 4.81 ~ 12.77 m in horizontal and vertical directions, respectively. For the daily static PPP, the convergence time is about 20 ~ 30 min, while the daily positioning precision can reach 1.38 ~ 4.42 cm and -1.31 ~ 4.34 cm in horizontal and vertical directions, respectively. In general, the quality and the SPP and PPP performance of the BDS-3 B1C&B2a signals are comparable to the GPS and Galileo. 相似文献
322.
323.
Sari Katz Uriel Goldvais Colin Price 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(10):3237-3249
Space weather is driven and modulated by the activity in the Sun. Space weather events have the potential to inflict critical damage to space systems. Nowadays, space assets are essential in our basic needs, such as communications, cell phone networks, navigation systems, television and internet. Hence, understanding space weather dynamics and its effects on spacecraft is crucial for satellites engineers and satellite operators, in order to prevent and mitigate its impacts.In the last decade our Sun has erupted several times causing dozens of space weather events. Some of these led to satellite malfunctions and outages lasting from mere hours, up to days and weeks. This research is focused on two different space weather events, March 7–8, 2012, and September 6–10, 2017, that occurred during the last ten years and caused satellite anomalies that are related to an increase in the single event upsets rate. Single event upset is a bit flip in a memory device due to high energy particle interaction with the device sensitive volume. During these two periods, Eros B, a low Earth orbiting polar satellite detected an increased rate of single event upsets on two of its processing computers when the high energy proton flux was elevated. On both occasions X-class flares were detected, and the increased single event upsets count rate in Eros B took place only after the 100 MeV protons flux was three orders of magnitude above the background levels. In this research, Israeli satellite anomalies that were detected are first demonstrated. 相似文献
324.
汤平 《南京航空航天大学学报》2019,51(1):49-55
飞机外翼与中央翼的对接结构承担着传递外翼载荷到中机身和中央翼的重任。本文首先梳理了先进民用客机的下壁板对接形式,然后给出了不同下壁板对接结构的设计要点,最后分析了典型机型下壁板对接结构的传力特性,指出下壁板结构的材料类型会影响对接结构的设计。 相似文献
325.
一种单子样旋转矢量姿态算法 总被引:4,自引:0,他引:4
旋转矢量姿态算法可有效抑制高动态环境下捷联惯导系统(SINS)产生的圆锥误差。当 直接应用多子样旋转矢量姿态算法时,会降低系统姿态更新频率;若要保持姿态更新频率, 则需要提高采样频率,从而增加了导航计算机的硬件负担,并导致量化误差突出。针对上述 不足,提出了一种利用当前及前N个姿态更新周期角增量的单子样旋转矢量姿态算 法,并在典型圆锥运动条件下推导了算法补偿项系数。此外,由于陀螺输出经过数字滤波处 理后其幅频特性的改变会影响圆锥误差的补偿效果,根据滤波器特性推导了单子样旋 转矢量姿态算法的修正算法,以便于在工程中推广应用。该算法在不降低姿态更新频率 的同时,可获得较高的解算精度,适于高动态环境应用,实验结果验证了上述算法的正确性 和有效性。
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326.
SUN Da-wei 《航空动力学报》2010,25(5):1097-1102
This paper presented an experimental investigation the effects of the trailing edge cooling on the aerodynamic performance. The experiments were conducted on the low-speed linear cascade tunnel at Northwestern Polytechnical University. The external aerodynamic characteristics in the 40 percent chord downstream of exit plane were measured using five-hole probe with the different ejection rates. The results showed that the total pressure loss coefficient at the middle spanwise plane increased at first and then it has a decreasing tendency with the increase of ejection ratio. The trailing edge cooling would influence the structure of the turbine cascade outlet flow field. When the ejection rate was 3%,the loss area near the blade endwall would become stronger,but it would become weaker with the 6% ejection ratio. On the whole,the trailing edge cooling had more influence on the profile loss than on the secondary loss. 相似文献
327.
328.
采用当量加速环境谱对LY12CZ铝合金材料进行了不同年限的加速腐蚀试验,并对腐蚀后的试件进行疲劳试验,根据试验数据,对不同腐蚀年限下试件的疲劳缺口系数Kf和DFR值进行了计算,并研究了其随腐蚀年限变化的规律。 相似文献
329.
介绍了A300—600飞机前缘缝翼系统的工作原理,对于航线维护中出现的典型故障进行了详细的分析,简述了故障的排除方法,给出了提高该系统可靠性的维护建议。 相似文献
330.
Accuracy assessment of single and double difference models for the single epoch GPS compass 总被引:1,自引:0,他引:1
Wantong Chen Honglei Qin Yanzhong Zhang Tian Jin 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2012
The single epoch GPS compass is an important field of study, since it is a valuable technique for the orientation estimation of vehicles and it can guarantee a total independence from carrier phase slips in practical applications. To achieve highly accurate angular estimates, the unknown integer ambiguities of the carrier phase observables need to be resolved. Past researches focus on the ambiguity resolution for single epoch; however, accuracy is another significant problem for many challenging applications. In this contribution, the accuracy is evaluated for the non-common clock scheme of the receivers and the common clock scheme of the receivers, respectively. We focus on three scenarios for either scheme: single difference model vs. double difference model, single frequency model vs. multiple frequency model and optimal linear combinations vs. traditional triple-frequency least squares. We deduce the short baseline precision for a number of different available models and analyze the difference in accuracy for those models. Compared with the single or double difference model of the non-common clock scheme, the single difference model of the common clock scheme can greatly reduce the vertical component error of baseline vector, which results in higher elevation accuracy. The least squares estimator can also reduce the error of fixed baseline vector with the aid of the multi-frequency observation, thereby improving the attitude accuracy. In essence, the “accuracy improvement” is attributed to the difference in accuracy for different models, not a real improvement for any specific model. If all noise levels of GPS triple frequency carrier phase are assumed the same in unit of cycles, it can be proved that the optimal linear combination approach is equivalent to the traditional triple-frequency least squares, no matter which scheme is utilized. Both simulations and actual experiments have been performed to verify the correctness of theoretical analysis. 相似文献