|
[1] D.H. Lyon, “A military perspective on small unmanned aerial vehicles,” IEEE Instrumentation & Measurement Magazine, vol.7, Issue: 3, pp.27-31, 2004. [2] J.M. Sullivan, “Evolution or revolution? the rise of UAVs,” IEEE Technology and Society Magazine, vol.25, Issue: 3, pp.43-49, 2006. [3] R.W. Beard, T.W. McLain, M.A. Goodrich, and E.P. Anderson, “Coordinated target assignment and intercept for unmanned air vehicles,” IEEE Transactions on Robotics and Automation, Volume: 18, Issue: 6, pp.911-922, 2002. [4] P.B. Sujit and D. Ghose, “Search using multiple UAVs with flight time constraints,” IEEE Transactions on Aerospace and Electronic Systems, Volume: 40, Issue: 2, pp.491-509, 2004. [5] Doug Lipinski and Kamran Mohseni, “Micro/Miniature Aerial Vehicle Guidance for Hurricane Research,” IEEE Systems Journal, Volume: 10, Issue: 3, pp. 1263 - 1270, 2016. [6] Guoru Ding, Qihui Wu, Linyuan Zhang, Yun Lin, Theodoros A. Tsiftsis, and Yu-Dong Yao, “An Amateur Drone Surveillance System Based on Cognitive Internet of Things,” Amateur drone surveillance, Cognitive internet of things, Unmanned aerial vehicles, Anti-drone technology, pp.1-17, 2017. [7] Everton Castelão Tetila, Bruno Brandoli Machado, Nícolas Alessandro de Souza Belete, David Augusto Guimarães, and Hemerson Pistori, “Identification of Soybean Foliar Diseases Using Unmanned Aerial Vehicle Images,” IEEE Geoscience and Remote Sensing Letters, Volume: 14, Issue: 12, pp. 2190 - 2194, 2017. [8] Milan Erdelj, Enrico Natalizio, Kaushik R. Chowdhury, and Ian F. Akyildiz, “Help from the Sky: Leveraging UAVs for Disaster Management,” IEEE Pervasive Computing, Volume: 16, Issue: 1, pp. 24 - 32, 2017. [9] Tullio Joseph Tanzi, “Some thoughts on disaster management,” URSI Radio Science Bulletin, Volume: 2015, Issue: 355, pp. 13 - 17, 2015. [10] Wai Fong Boh, Wee-Kiat Lim and Yi Zeng, “Da Jiang Innovations (DJI): the rise of the drones,” the Asian Business Case Centre-Nanying Technology University Singapore, pp.1-28, 2017. [11] T.J. Diaz, “Lights, drone... action,” IEEE Spectrum, Volume: 52, Issue: 7, pp. 36-41, 2015. [12] Marc Lort, Albert Aguasca, Carlos López-Martínez and Tomás Martínez Marín, “Initial Evaluation of SAR Capabilities in UAV Multicopter Platforms,” IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, Volume: 11, Issue: 1, pp. 127-140, 2018. [13] Paul Dempsey, “View from Washington [News Comment],” Engineering & Technology, Volume: 10, Issue: 2, pp.14, 2015. [14] Miroslav Kratky and Vaclav Minarik, “The non-destructive methods of fight against UAVs,” 2017 International Conference on Military Technologies (ICMT), pp.690-394, 2017. [15] Andrew Hull and David Markov, “Foreign Counter-Unmanned Aerial Systems: Developments in the International Arms Markets,” IDA Research Notes, pp.25-33, 2017. [16] Guoru Ding, Qihui Wu, Linyuan Zhang, Yun Lin, Theodoros A. Tsiftsis, and Yu-Dong Yao, “ An Amateur Drone Surveillance System Based on Cognitive Internet of Things,” Amateur drone surveillance, Cognitive internet of things, Unmanned aerial vehicles, Anti-drone technology, pp.1-17, 2017. [17] Holland Michel, “About the Center for the Study of the Drone,” Counter-Drone System, pp.1-20, 2018. [18] POP Sebastain and LUCHIAN Andrei, “Considerations Regarding Detection and Combat System for UAV's,” RECENT, Volume: 18, Issue: 1(15), pp.49-55, 2017. [19] Dinakar Peri, “Expanding Anti-UAVs Market to Counter Drone Technology,” CLAWS Journal, pp.152-158, Winter, 2015. [20] 阿蒙(2018) 反制無人機!土耳其研高能量雷射砲,成功通過測試。檢自https://dronesplayer.com/anti-drone/土國高能量雷射砲-反制無人機又防路邊炸彈/(13 Aug 2018) [21]阿蒙(2018) 以色列反無人機系統,軟硬兼施任君選擇。檢自https://dronesplayer.com/anti-drone/以色列反無人機系統-軟硬兼施任君選擇/(13 Aug 2018) [22] 阿蒙(2018) 丹麥推出便攜式無人機偵察器,比平板電腦還要小。檢自https://dronesplayer.com/anti-drone/丹麥推出便攜式無人機偵察器%e3%80%80比平板電腦還要小/(13 Aug 2018) [23] Pablo Valerio(2017)「反無人機技術」商機崛起。檢自https://www.edntaiwan.com/news/article/20170119NT51-steep-rise-of-drones-boosts-other-business (13 Aug 2018) [24] Wiki(2018)全站儀。檢自https://zh.wikipedia.org/wiki/全站儀 [25] Lightweight Laser Designator Rangefinder (LLDR), Retrieved from chrome-extension://ikhdkkncnoglghljlkmcimlnlhkeamad/pdf-viewer/web/viewer.html?file=https%3A%2F%2Fwww.northropgrumman.com%2FCapabilities%2FANPED1LLDR%2FDocuments%2Flldr.pdf [26] Christopher Woody(2018) US soldiers tested the new targeting system that can turn artillery into a 'giant sniper rifle' — and they liked what they saw, Retrieved from https://www.businessinsider.com/us-soldiers-testing-joint-effects-targeting-system-2018-3(13 Aug 2018) [27] Aselsan company, SARP Remote Commanded Stabilized Weapon System, Retrieved from https://www.aselsan.com.tr/tr-tr/cozumlerimiz/silah-sistemleri/uzaktan-komutali-atis-sistemleri/sarp-uzaktan-komutali-stabilize-silah-sistemi(13 Aug 2018) [28] 增強現實中國-軍事(2017) 瑞典居然研製「玻璃戰車」,附身致命武器的AR有多牛?檢自https://kknews.cc/zh-tw/military/oo2ezl6.html(13 Aug 2018) [29]Jams J. Gibson, “The Perception of the Visual World,” Greenwood Pub Group, 1950. [30]Berthold K.P. Horn, and Brian G. Rhunck, “Determining optical flow,” Artificial Intelligence Laboratory, Massachusetts Institute of Technology, Volume: 17, Issues:1-3, pp.185-203, 1981. [31]B. D. Lucas and T. Kanade, “An iterative image registration technique with an application to stereo vision,”International Joint Conference on Artificial Intelligence (IJCAI), San Francisco, CA, USA, pp.24-28 Aug.,1981. [32]Jean-Yves Bouguet, “Pyramidal Implementation of the Lucas Kanade Feature Tracker Description of the Algorithm,” Intel Corporation Microprocessor Research Labs, 2001. [33]C. Stauffer and W. E. L. Grimson, “Adaptive background mixture models for real-time tracking,” Proceedings. 1999 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (Cat. No PR00149), Volume: 2, pp. 252, 1999. [34]P. KaewTraKulPong, and R. Bowden, “An Improved Adaptive Background Mixture Model for Realtime Tracking with Shadow Detection,” In Proc. 2nd European Workshop on Advanced Video Based Surveillance Systems, pp. 135-144, 2001. [35]Hui Zhang, Baojun Zhao, Linbo Tang, Jianke Li, “Variational-Based Contour Tracking in Infrared Imagery,” 2009 2nd International Congress on Image and Signal Processing, pp.1-5, 2009. [36]Navneet Dalal and Bill Triggs, “Histograms of Oriented Gradients for Human Detection,” 2005 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'05), pp.1-8, 2005. [37]Dae-Eon Kim and Dong-Soo Kwon, “Pedestrian Detection and Tracking in Thermal Images Using Shape Features,” 2015 12th International Conference on Ubiquitous Robots and Ambient Intelligence (URAI), pp.1-17, 2015. [38]紅外線熱像儀在微小元件機械性質量測與系統整合創新產品開發應用研討會, NEC TH9100紅外線熱像儀原理及操作介紹, 2005。 [39]維基百科, 黑體輻射. Available: https://zh.wikipedia.org/wiki/黑体辐射 (Jul. 5, 2018) [40]Zion Market Research, Global Thermal Imaging Market Set for Rapid Growth, to Reach around USD 10.31 billion by 2021. Available: https://www.zionmarketresearch.com/news/global-thermal-imaging-market (Jul. 5, 2018) [41]先鋒科技, Germanium鍺鏡片. Available: http://www.teo.com.tw/prodDetail.asp?id=1556 (Aug. 25, 2018) [42] 得揚科技股份有限公司。VH121 HDMI 2.0 雙向式2路分路器。檢自http://www.digisuntech.com.tw/tw/product_detail.asp?PID=204&CID=18(13 Aug 2018) [43] 勝特力電子。L9110S-Module雙通道直流電機驅動模塊。檢自chrome-extension://ikhdkkncnoglghljlkmcimlnlhkeamad/pdf-viewer/web/viewer.html?file=http%3A%2F%2Fimages.100y.com.tw%2Fpdf_file%2F79-L9110S-Module.pdf [44] Tianjin LY Lighting Co.,Ltd(2016), LRF Module V 1.1 DataSheet [45] 超核電子科技。HiPNUC HI21X系列 VRU/AHRS模組。檢自http://www.hipnuc.com/(13 Aug 2018) [46] U-blox, NEO-M8 u-blox M8 concurrent GNSS modules datasheet, Retrieved from chrome-extension://ikhdkkncnoglghljlkmcimlnlhkeamad/pdf-viewer/web/ viewer.html?file=https%3A%2F%2Fwww.u-blox.com%2Fsites%2Fdefault%2Ffiles%2FNEO-M8_DataSheet_(UBX-13003366).pdf [47] 成都億佰特電子科技有限公司。E32-TTL-100 (433T20DC)。檢自http://www.cdebyte.com/product-view-news.aspx?id=5(13 Aug 2018) [48] tqueen (2014)根據兩點的經緯度求方位角和距離。檢自http://blog.sina.com.cn/s/blog_658a93570101hynw.html (13 Aug 2018) [49] Nie Hongshan, Zhang Yumei, Li Tiegen, Sun Zhaolin, Zeng Shengqiang, and Li Qingjiang, “The Study of Sphere Rhombus Grid Recursive Subdivision,” 2010 International Conference on Intelligent System Design and Engineering Application, Volume: 2, pp. 744-747, 2010. [50] Xu Chang and Xie Haiyan, “Notice of Retraction-Using sphere parameters to detect construction quality of spherical buildings,” 2010 2nd International Conference on Advanced Computer Control, Volume: 4, pp.17, 2010. [51] Homayoon Oraizi and Hadi Soleimani, “Optimum pattern synthesis of non-uniform spherical arrays using the Euler rotation,” IET Microwaves, Antennas & Propagation, Volume: 9 , Issue: 9, pp. 898-904, 2015. [52] Hokuyo-USA https://www.hokuyo-usa.com/products/obstacle-detection/ust-10ln
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