應用影像系統於蜂箱內蜜蜂運動行為之追蹤

Ta-Yu Chen; 陳大宇

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/55763

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	林達德(Ta-Te Lin)
dc.contributor.author	Ta-Yu Chen	en
dc.contributor.author	陳大宇	zh_TW
dc.date.accessioned	2021-06-16T05:08:09Z	-
dc.date.available	2014-08-26
dc.date.copyright	2014-08-26
dc.date.issued	2014
dc.date.submitted	2014-08-20
dc.identifier.citation	伍家瑩。2013。應用雷射雕刻法於蜜蜂進出巢活動之影像監測系統。碩士論文。臺北：國立臺灣大學生物產業機電工程所。張惠君。2010。益達胺的亞致死劑量對蜜蜂學習行為之影響。碩士論文。臺北：國立臺灣大學昆蟲學研究所。 Adjare, S. O. 1990. Beekeeping in Africa. FAO Agricultural Services Bulletin 68/6. Food and Agriculture Organisation of the United Nations. Rome. Anderson, D., and I. J. East. 2008. The latest buzz about colony collapse disorder. Science 319(5864): 724. Ashwin, T., and P. Sastry. 2002. A font and size-independent ocr system for printed kannada documents using support vector machines. Sadhana 27(1): 35-58. Autrum, H., and V. Zwehl. 1964. Die spektrale empfindlichkeit einzelner sehzellen des bienenauges. Journal of Comparative Physiology A: Neuroethology, Sensory, Neural, and Behavioral Physiology 48(4): 357-384. Brittain, W. H. 1933. Apple pollination studies in the annapolis valley. Canada Department of Agriculture Bulletin 162: 158-193. Campbell, J., L. Mummert, and R. Sukthankar. 2008. Video monitoring of honey bee colonies at the hive entrance. Visual Observation and Analysis of Animal & Insect Behavior, ICPR 8: 1-4. Chang, C. C., and C. J. Lin. 2011. Libsvm: a library for support vector machines. Software available at http://www.csie.ntu.edu.tw/~cjlin/libsvm. Accessed 15 June 2013. Chen, C., E. C. Yang, J. A. Jiang, and T. T. Lin. 2012. An imaging system for monitoring the in-and-out activity of honey bees. Computers and Electronics in Agriculture 89: 100-109. Chiron, G., P. Gomez-Kramer, and M. Menard. 2013. Detecting and tracking honeybeesin 3d at the beehive entrance using stereo vision. EURASIP Journal on Image and Video Processing 1:59. Cox-Foster, D. L. et al. 2007. A metagenomic survey of microbes in honey bee colony collapse disorder. Science 318(5848): 283-287. Daumer, K. 1956. Reizmetrische untersuchung des farbensehens der bienen. Journal of Comparative Physiology 38(5): 413. Decourtye, A., J. Devillers, P. Aupinel, F. Brun, C. Bagnis, J. Fourrier, and M. Gauthier. 2011. Honeybee tracking with microchips: a new methodology to measure the effects of pesticides. Ecotoxicology 20(2): 429-437. Dreller, C., and W. H. Kirchner. 1993. How honeybees perceive the information of the dance language. Naturwissenschaften 80(7): 319-321. Duda R. O., and P. E. Hart. 1972. Use of the hough transformation to detect lines and curves in pictures. Communications of the ACM 15 (1): 11-15. Faberge, A. C. 1943. Apparatus for recording the number of bees leaving and entering a hive. Journal of Scientific Instruments 20(2): 28. Frisch, K. V. 1923. Uber die 'sprache' der bienen: eine ttierpsychologie untersuchung. Jena: G. Fischer. Frisch, K. V. 1967. The dance language and orientation of bees cambridge, Mass: Belknap Press of Harvard University Press. Gary, N., N. Welch, W. Hart, B. Lear, A. Ulrich, W. W. Allen, C. Qualset, J. Prato, J. Rupert, and H. Vogt. 1971. A new tagging and recapture method for evaluating honeybee pollination activity. California Agriculture 25(6): 4-6. Gary, N. E. 1967. A method for evaluating honey bee flight activity at the hive entrance1. Journal of Economic Entomology 60(1): 102-105. Guo, G., S. Z. Li, and K. L. Chan. 2001. Support vector machines for face recognition. Image and Vision Computing 19(9): 631-638. Hendriks, C., Z. Yu, A. Lecocq, T. Bakker, B. Locke, and O. Terenius. 2012. Identifying all individuals in a honeybee hive - progress towards mapping all social interactions. In Visual Observation and Analysis of Animal and Insect Behavior 5-8. Henry, M., M. Beguin, F. Requier, O. Rollin, J.-F. Odoux, P. Aupinel, J. Aptel, S. Tchamitchian, and A. Decourtye. 2012. A common pesticide decreases foraging success and survival in honey bees. Science 336(6079): 348-350. Kien, J., and R. Menzel. 1977. Chromatic properties of interneurons in the optic lobes of the bee. Journal of Comparative Physiology A: Neuroethology, Sensory, Neural, and Behavioral Physiology 113(1): 17-34. Kimura, T., M. Ohashi, R. Okada, and H. Ikeno. 2011. A new approach for the simultaneous tracking of multiple honeybees for analysis of hive behavior. Apidologie 42(5): 607-617. Landgraf, T., and R. Rojas. 2007. Tracking honey bee dances from sparse optical flow fields. Technical Report B-07-11, FB Mathematik und Informatik, Freie Universit‥at Berlin. Li, Z., Y. Chen, S. Zhang, S. Chen, W. Li, L. Yan, L. Shi, L. Wu, A. Sohr, and S. Su. 2013. Viral infection affects sucrose responsiveness and homing ability of forager honey bees, apis mellifera l. PloS one 8(10): e77354. Liu, C., J. J. Leonard, and J. J. Feddes. 1990. Automated monitoring of flight activity at a beehive entrance using infrared light sensors. Journal of Apicultural Research 29: 8. Lundie, A. E. 1925. The flight activities of the honeybee. United States Department of Agriculture Bulletin. Menzel, R., and M. Blakers. 1976. Colour receptors in the bee eye - morphology and spectral sensitivity. Journal of Comparative Physiology A: Neuroethology, Sensory, Neural, and Behavioral Physiology 108(1): 11-13. Nieh, J. C. 1998. The honey bee shaking signal: function and design of a modulatory communication signal. Behavioral Ecology and Sociobiology 42(1): 23-36. Pickard, R., and D. Hepworth. 1979. A method for electronically monitoring the ambulatory activity of honeybees under dark conditions. Behavior Research Methods 11(4): 433-436. Ruttner, F. 1976. Honeybees of the tropics: their variety and characteristics of importance for apiculture. Conference on Apiculture in Tropical Climates. 41-46. Schneider, C. W., J. Tautz, B. Grunewald, and S. Fuchs. 2012. RFID tracking of sublethal effects of two neonicotinoid insecticides on the foraging behavior of apis mellifera. PloS one 7(1): e30023. Seeley, T. D. 1983. Division of labor between scouts and recruits in honeybee foraging. Behavioral Ecology and Sociobiology 12(3): 253-259. Seeley, T. D., A. Weidenmuller, and S. Kuhnholz. 1998. The shaking signal of the honey bee informs workers to prepare for greater activity. Ethology 104(1): 10-26. Shanthi, N., and K. Duraiswamy. 2010. A novel svm-based handwritten tamil character recognition system. Pattern Analysis and Applications 13(2): 173-180. Shaw, J. A. et al. 2011. Long - wave infrared imaging for non - invasive beehive population assessment. Optics Express 19(1): 399-408. Spangler, H. G. 1969. Photoelectrical counting of outgoing and incoming honey bees 1,2,3. Journal of Economic Entomology 62(5): 1183-1184. Streit, S., F. Bock, C. W. Pirk, and J. Tautz. 2003. Automatic life - long monitoring of individual insect behaviour now possible. Zoology 106(3): 169-171. Struye, M. H. 1994. Microprocessor - controlled monitoring of honeybee flight activity at the hive entrance. Apidologie 25(4): 384. Struye, M. H. 2001. Possibilities and limitations of monitoring the flight activity of honeybees by means of beescan bee counters. COLLOQUES_INRA 9: 269-278. Sumner, S., E. Lucas, J. Barker, and N. Isaac. 2007. Radio - tagging technology reveals extreme nest - drifting behavior in a eusocial insect. Current Biology 17(2): 140-145. Suykens, J. A., and J. Vandewalle. 1999. Least squares support vector machine classifiers. Neural Processing Letters 9(3): 293-300. Trier, O. D., A. K. Jain, and T. Taxt. 1996. Feature extraction methods for character recognition - a survey. Pattern Recognition 29(4): 641-662. Walavalkar, L., M. Yeasin, A. Narasimhamurthy, and R. Sharma. 2003. Support vector learning for gender classification using audio and visual cues. International Journal of Pattern Recognition and Artificial Intelligence 17(3): 417-439. Wratten, S. D. 1994. Video techniques in animal ecology and behaviour. London, New York, Tokyo: Chapman and Hall.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/55763	-
dc.description.abstract	蜜蜂在開花植物的授粉上扮演了重要的角色，許多的經濟作物都需要藉由蜜蜂來授粉。然而，人類對於蜜蜂的行為所掌握的資訊並不多，特別是蜂箱內的蜜蜂行為。本研究目的在於開發一套影像系統對蜂箱內蜜蜂的運動軌跡進行追蹤並建立運動行為指標評估蜂群狀態。為了順利地監測蜜蜂在箱內的活動，故挖空蜂箱的側邊並加裝透明玻璃，降低蜜蜂對影像系統的干擾。在影像系統硬體部分，以防水觀測箱當作系統外殼，內部架設2臺工業級CCD攝影機，並藉由紅外線燈板提供穩定光源使得攝影機取得高解析度的影像資訊。而影像系統的演算法可分為蜜蜂運動軌跡追蹤與行為分析。透過圓形貼紙標籤標記蜜蜂，並使用霍爾圓轉換與支持向量機來進行標籤的偵測與辨識，利用位置和編號資訊並搭配最小距離來追蹤軌跡，其軌跡辨識率為94%。透過軌跡分析，建立蜜蜂運動行為指標，依序是各時段有效軌跡次數、各時段蜜蜂移動距離、各時段長型軌跡與團型軌跡之比例和位置交互重疊次數。為了實際監測蜂箱內蜜蜂運動行為與探討益達胺 (imidacloprid) 對蜜蜂之影響，因此進行三種不同的實驗，依序為室內實驗、室內餵食農藥實驗、室外餵食農藥實驗。由室內實驗結果可得知，蜜蜂的運動行為在白天有較活躍的趨勢。由室內與室外餵食農藥實驗結果得知，餵食益達胺的蜜蜂在蜂箱內的交互關係強度較正常蜜蜂弱且運動行為也較不活躍。	zh_TW
dc.description.abstract	Honeybees play an important role in pollinating flowering plants. Many economic plants are pollinated by honeybees. However, human being has very little knowledge about honeybee behavior in the beehive especially. The objective of this research is to develop an imaging system for tracking honeybee trajectory and to build up activity indices for evaluating honeybee’s daily activity in the beehive. In order to observe honeybee, a side wall of the beehive was hollowed and inserted a transparent glass which prevented the imaging system influenced from the influence of honeybees. The hardware of imaging system was mainly constructed by a waterproof observation box which consisted of two CCD cameras and one rectangular infrared light panel. The infrared light panel provided stable illuminations to acquire high resolution images. The software of imaging system consists of honeybee trajectory tracking and behavior analyses. Round labels were stuck on honeybees. The individual honeybee was detected by the circular label via Hough circle transform method and recognized via support vector machine (SVM). Through the position and identity of the bee and the minimum distance, the trajectory was tracked with 94% trajectory recognition rate. Through the trajectory analysis, we constructed the activity indices including how many times effective trajectory appear per hour, honeybee moving distance per hour, the ratio between thread-like and blob-like trajectory per hour, and the times position overlap. In order to monitor honeybee motion in the beehive closely and investigate the effect of imidacloprid on honeybee, we executed three types of experiment including indoor experiment, indoor insecticide experiment, and outdoor insecticide experiment. From the indoor experiment results, it is clear that the honeybee activity level is more active at daytime. From results of the indoor insecticide and outdoor insecticide experiments, it can be concluded that the interactions of control honeybees are much more than those for insecticide fed honeybees and their activity level is also more active.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T05:08:09Z (GMT). No. of bitstreams: 1 ntu-103-R01631026-1.pdf: 3958055 bytes, checksum: 0482df47473cbfa84706dc0bc582c79d (MD5) Previous issue date: 2014	en
dc.description.tableofcontents	誌謝 i 摘要 iii Abstract iv 目錄 vi 圖目錄 ix 第一章緒論 1 1.1 前言 1 1.2 研究目的 2 第二章文獻探討 4 2.1蜜蜂簡介 4 2.1.1蜜蜂種類 4 2.1.2蜜蜂行為 4 2.2蜜蜂監測方法 6 2.2.1巢外監測 6 2.2.2巢內監測 8 2.3支持向量機 (support vector machine, SVM) 9 2.4光學字元辨識 (optical character recognition, OCR) 15 第三章研究設備與方法 17 3.1 硬體設備 17 3.1.1系統整體架構 17 3.1.2蜜蜂使用種類與蜂箱規格 18 3.1.3防水觀測箱與攝影機架 19 3.1.4紅外線燈板與攝影機 21 3.1.6標籤製作與黏貼 23 3.2 蜜蜂偵測與辨識之影像處理演算法 26 3.2.1蜜蜂偵側與辨識之流程 26 3.2.2蜜蜂標籤偵側 27 3.2.3字元擷取 28 3.2.4字元影像標準化 31 3.2.5字元影像辨識 32 3.3蜜蜂運動軌跡分析 33 3.3.1運動軌跡追蹤 34 3.3.2蜜蜂運動分析指標 35 3.4實驗方法與規劃 37 第四章結果與討論 40 4.1 系統性能分析 40 4.1.1系統硬體 40 4.1.2 影像系統性能分析 42 4.2 實驗結果分析 46 4.2.1室內實驗一 46 4.2.2室內實驗二 54 4.2.3室內餵食農藥實驗一 59 4.2.4室內餵食農藥實驗二 65 4.2.5室外餵食農藥實驗 70 4.3實驗結果討論 77 第五章結論與建議 78 5.1 結論 78 5.2 建議 79 參考文獻 80
dc.language.iso	zh-TW
dc.subject	蜜蜂	zh_TW
dc.subject	運動行為指標	zh_TW
dc.subject	行為監測	zh_TW
dc.subject	影像處理	zh_TW
dc.subject	支持向量機	zh_TW
dc.subject	support vector machine	en
dc.subject	honeybee	en
dc.subject	activity indices	en
dc.subject	behavior monitoring	en
dc.subject	image processing	en
dc.title	應用影像系統於蜂箱內蜜蜂運動行為之追蹤	zh_TW
dc.title	An Imaging System for Honeybee Motion Tracking in the Beehive	en
dc.type	Thesis
dc.date.schoolyear	102-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	江昭皚(Joe-Air Jiang),楊恩誠(En-Cheng Yang)
dc.subject.keyword	蜜蜂,運動行為指標,行為監測,影像處理,支持向量機,	zh_TW
dc.subject.keyword	honeybee,activity indices,behavior monitoring,image processing,support vector machine,	en
dc.relation.page	83
dc.rights.note	有償授權
dc.date.accepted	2014-08-20
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	生物產業機電工程學研究所	zh_TW
顯示於系所單位：	生物機電工程學系

文件中的檔案：

檔案	大小	格式
ntu-103-1.pdf 未授權公開取用	3.87 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。