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Study of the Simultaneous Physical Retrieval Method for Meteorological Parameters over the Continental Plateau of China 被引量:2
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作者 黎光清 董超华 +3 位作者 张文建 吴保锁 王维和 吴治电 《Advances in Atmospheric Sciences》 SCIE CAS CSCD 1994年第3期296-310,共15页
It is common knowledge that continental retrieval especially for Qinghai-Xizang Plateau has not been solved todate. In order to explore applicable inverse model and method for continent including the plateau, in this ... It is common knowledge that continental retrieval especially for Qinghai-Xizang Plateau has not been solved todate. In order to explore applicable inverse model and method for continent including the plateau, in this study authors use an improved simultaneous physical retrieval method hereafter referred to as the ISPRM, for computing meteorological parameters from NOAA-10 satellite TOVS data. The retrieval results verified by nearby radiosondesshow that the ISPRM is more applicable for the continental plateau. 展开更多
关键词 Retrieval method Optimum first guess Self-consistence Forward Computation ground truth verification
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Ground-based verification and data processing of Yutu rover Active Particle-induced X-ray Spectrometer
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作者 郭东亚 王焕玉 +14 位作者 彭文溪 崔兴柱 张承模 刘雅清 梁晓华 董亦凡 汪锦州 高旻 杨家卫 张家宇 李春来 邹永廖 张广良 张力岩 付晓辉 《Chinese Physics C》 SCIE CAS CSCD 2015年第7期42-47,共6页
The Active Particle-induced X-ray Spectrometer(APXS) is one of the payloads on board the Yutu rover of the Chang'E-3 mission. In order to assess the instrumental performance of APXS, a ground verification test was ... The Active Particle-induced X-ray Spectrometer(APXS) is one of the payloads on board the Yutu rover of the Chang'E-3 mission. In order to assess the instrumental performance of APXS, a ground verification test was performed for two unknown samples(basaltic rock, mixed powder sample). In this paper, the details of the experiment configurations and data analysis method are presented. The results show that the elemental abundance of major elements can be well determined by the APXS with relative deviations 〈15 wt.%(detection distance=30 mm,acquisition time=30 min). The derived detection limit of each major element is inversely proportional to acquisition time and directly proportional to detection distance, suggesting that the appropriate distance should be 〈50 mm. 展开更多
关键词 APXS ground verification test quantitative analysis detection limit
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Characteristics of Zhangsanying-Tongshanzi aeromagnetic anomaly zone and prospecting potential of iron deposits in northern Hebei,China
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作者 LI Wenyong LIU Yanxu +3 位作者 LU Wenfen MA Guoqing ZHANG Chongshan ZHAO Jiawei 《Global Geology》 2020年第2期99-115,共17页
Based on the latest high-precision aeromagnetic data,an aeromagnetic anomaly zone is identified at Zhangsanying--Tongshanzi in northern Hebei Province.By the potential field conversion processing,including the reducti... Based on the latest high-precision aeromagnetic data,an aeromagnetic anomaly zone is identified at Zhangsanying--Tongshanzi in northern Hebei Province.By the potential field conversion processing,including the reduction to the pole,vertical derivative,upward continuation and residual anomaly,the authors analyzed the characteristics of three typical aeromagnetic anomalies in Zhangsanying--Tongshanzi aeromagnetic anomaly zone and their geological origin.The methods include the forward and inversion methods,such as 2.5D optimization fitting and Euler deconvolution.Moreover,combined with the geological outcrop,known iron deposits,ground magnetic survey and verification,the authors studied the relationship between the aeromagnetic anomalies and iron deposits.The result shows that the Zhangsanying--Tongshanzi aeromagnetic anomaly zone is composed of 10 large magnetic anomalies with high amplitude and clear boundary.The aeromagnetic anomalies are comparable and intrinsically related to the ground magnetic anomalies and IP anomalies,indicating that the anomalies are caused by magnetite deposits.It has good magnetite prospecting potential in the Zhangsanying--Tongshanzi aeromagnetic anomaly zone. 展开更多
关键词 Zhangsanying-Tongshanzi aeromagnetic anomaly zone forward and inversion ground survey and verification prospecting potential iron deposit northern Hebei
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Current status and future trends of precision agricultural aviation technologies 被引量:46
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作者 Yubin Lan Chen Shengde Bradley K Fritz 《International Journal of Agricultural and Biological Engineering》 SCIE EI CAS 2017年第3期1-17,共17页
Modern technologies and information tools can be used to maximize agricultural aviation productivity allowing for precision application of agrochemical products.This paper reviews and summarizes the state-of-the-art i... Modern technologies and information tools can be used to maximize agricultural aviation productivity allowing for precision application of agrochemical products.This paper reviews and summarizes the state-of-the-art in precision agricultural aviation technology highlighting remote sensing,aerial spraying and ground verification technologies.Further,the authors forecast the future of precision agricultural aviation technology with key development directions in precision agricultural aviation technologies,such as real-time image processing,variable-rate spraying,multi-sensor data fusion and RTK differential positioning,and other supporting technologies for UAV-based aerial spraying.This review is expected to provide references for peers by summarizing the history and achievements,and encourage further development of precision agricultural aviation technologies. 展开更多
关键词 precision agricultural aviation technology remote sensing aerial spraying UAV PESTICIDE ground verification
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Gravity compensation method via magnetic quasi-zero stiffness combined with a quasi-zero deformation control strategy
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作者 ZHOU Rui ZHOU YiFan +4 位作者 CHEN XueDong HOU WeiJie WANG Chang WANG Hao JIANG Wei 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2022年第8期1738-1748,共11页
Gravity compensation refers to the creation of a constant supporting force to fully or partly counteract the gravitational force for ground verification to simulate the spacecraft dynamics in outer space with zero-or ... Gravity compensation refers to the creation of a constant supporting force to fully or partly counteract the gravitational force for ground verification to simulate the spacecraft dynamics in outer space with zero-or micro-gravity. Gravity compensation is usually implemented via a very low stiffness suspension/supporting unit, and a servo system in series is adopted to extend the simulation range to hundreds of millimeters. The error of suspension force can be up to tens of Newton due to the contact/friction in the suspension/supporting unit and the error of the force/pressure sensor. It has become a bottleneck for the ground verification of spacecraft guidance, navigation, and control systems with extreme requirements, such as tons of payload and fine thrust in sub-Newtons. In this article, a novel gravity compensation method characterized by quasi-zero stiffness plus quasi-zero deformation(QZS-QZD) is proposed. A magnetic negative stiffness spring in parallel with positive springs and aerostatic bearing is adopted to form a QZS supporting unit, and disturbance forces, such as contact or friction, can be eliminated. The deformation of the QZS supporting unit is measured via a displacement sensor, and the QZD control strategy is applied to guarantee the force error of gravity compensation to be less than sub-newtons and irrelevant to the payload. The principle of gravity compensation with QZS-QZD is analyzed, and performance tests on a prototype are carried out. The results show that when the spacecraft moves smoothly, the absolute force error is less than 0.5 N, the relative error of gravity compensation is less than 0.1%, and when collisions with other objects occur, the relative errors are 0.32% and 0.65%. The proposed method can significantly improve the gravity compensation accuracy in comparison with conventional approaches. 展开更多
关键词 gravity compensation zero-gravity ground verification quasi-zero stiffness quasi-zero deformation
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