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In this paper, a tracking method for optoelectronic imaging platform of tethered balloon based on difference global positioning system/inertial navigation system is presented in detail. The location and attitude information of optoelectronic imaging platform, the azimuth and elevation angles of camera’s line of sight are used by this method to locate the ground target at the centre point of the camera's field of view through corresponding coordinate transformation. And then, the method makes use of the update position and attitude information to solve the theoretical point of camera's line of sight inversely. Finally, an angle control commend will be sent to the inertially-stabilized turntable on the optoelectronic imaging platform, which will adjust its azimuth and elevation angle to make the camera's line of sight to the ground target. A lot of experiments are conducted, and the results show that the initial ground target is always in the centre of camera's field of view no matter how the balloon's position and attitude change, and the new location data of ground target has little difference with the initial location data, while the difference between them is close to 0.
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Czasopismo
Rocznik
Tom
Strony
242--248
Opis fizyczny
Bibliogr. 21 poz., il., wykr.
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autor
autor
autor
autor
- School of Instrumentation Science & Opto-Electronics Engineering, Key Laboratory of Precision Opto-Mechatronics Technology, Ministry of Education, Beihang University, Xueyuan Road 37, Beijing, 100191 China, wangyawei436@yahoo.com.cn
Bibliografia
- [1] C. Lambert, M. Nahon, and D. Chalmers: Study of a multitethered aerostat system: experimental observations and model validation. AIAA J. Aircraft 43, 1182-1189, 2006.
- [2] A. Colozza and J.L. Dolce: High-altitude, long-endurance airships for coastal surveillance. NASA Technical Report, NASA/TM-2005-213427, 2005.
- [3] J.P. Hirl: Tethered telecommunications, broadcast, and monitoring systems. Lighter-than-Air Systems Technology Conf., Palo Alto, Calif., 173-180, 1979.
- [4] G.M. Djuknic, J. Freidenfelds, and Y. Okunev: Establishing wireless communications services via high-altitude aeronautical platforms: A concept whose time has come? IEEE Commun. Mag. 35, 128-135, 1997.
- [5] T.C. Tozer and D. Grace: High-altitude platforms for wireless communications. IEE Electron. Commun. Eng. J. 13, 127-137, 2001.
- [6] Jane's electro-optic systems 1999-2000. Jane's Electro-Optics Systems (Hardcover), Jane's Information Group, 5th edition, 1999.
- [7] M. Hewish: The all-seeing eye above. Jane's Int. Defence Rev. 35, 48-53, 2002.
- [8] W.M. Hu, T.N. Tan, L. Wang, and S. Maybank: A survey on visual surveillance of object motion and behaviours. IEEE T. Syst., Man Cy. C 34, 334-352, 2004.
- [9] J. Jinfeng: Research of infrared image target detection, identification and tracking technology. Northwestern Polytechnical University, Xi'an, China, 2004.
- [10] W.H. Zhou, Y.W. Wang, X.Q. Han, and J. Yuan: Vehicle tethered aerostat optoelectronic monitoring platform system for Shanghai World EXPO. Proc. SPIE, 7544, 75443R, 2010).
- [11] J. Farrell and M. Barth, The Global Positioning System and Inertial Navigation, New York, McGraw-Hill, 2003.
- [12] SUN Hongxing: DGPS/INS integrated position and attitude determination and its application in MMS. The School of Remote Sensing Information Engineering, Wuhan University, Wuhan, 2004.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWAD-0022-0018