應用雷射雕刻法於蜜蜂進出巢活動之影像監測系統

Chia-Ying Wu; 伍家瑩

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/62799

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	Chia-Ying Wu	en
dc.contributor.author	伍家瑩	zh_TW
dc.date.accessioned	2021-06-16T16:10:47Z	-
dc.date.available	2016-03-06
dc.date.copyright	2013-03-06
dc.date.issued	2013
dc.date.submitted	2013-02-20
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Co. Gonzalez, R. C., and R. C. Woods. 1992. Digital Image Processing Reading, Mass.:Addison-Wesley. Hammond, G., M. Blankenship and K. Francl. 2009. Apis Mellifera. The Animal Diversity Web 2011(October 06). 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. 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. Kim, Y.-T. 1997. Contrast Enhancement Using Brightness Preserving Bi-Histogram Equalization. Consumer Electronics, IEEE Transactions on 43(1):1-8. 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. Neumann, P., S. E. Radloff, R. F. A. Moritz, H. R. Hepburn, and S. L. Reece. 2001. Social Parasitism by Honeybee Workers (Apis Mellifera Capensis Escholtz): Host Finding and Resistance of Hybrid Host Colonies. Behavioral Ecology 12(4):419-428. Otsu, N. 1975. A Threshold Selection Method from Gray-Level Histograms. Automatica 11(285-296):23. Patterson, J. 1935. A New Type of Bee Counter. Scientific Agriculture 15(5). Pavlidis, T. 1974. Segmentation of Plane Curves. IEEE Transactions on Computers 100(8):860. 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. Root, A. I., R. A. Morse, and K. Flottum. 1990. The Abc & Xyz of Bee Culture : An Encyclopedia Pertaining to Thescientific and Practical Culture of Honey Bees Ohio:A.I. Root Co. Ruttner, F. 1976. Honeybees of the Tropics: Their Variety and Characteristics of Importance for Apiculture. In 'Proc. Apiculture in Tropical Climates', 41-46. E. Crane eds. London:International Bee Research Association. Ruttner, F. 1987. Biogeography and Taxonomy of Honeybees Berlin:Springer-Verlag. 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., R. H. Seeley, and P. Akratanakul. 1982. Colony Defense Strategies of the Honeybees in Thailand. Ecological Monographs 52(1):43-63. Siegwart, R., I. R. Nourbakhsh, and D. Scaramuzza. 2011. Introduction to Autonomous Mobile Robots Cambridge, Mass.:MIT Press. Sklansky, J. 1982. Finding the Convex Hull of a Simple Polygon. Pattern Recognition Letters 1(2):79-83. Streit, S., F. 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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/62799	-
dc.description.abstract	蜜蜂對於人類作物之授粉影響深遠，而傳統上，對於蜂群狀態的評估都來自人工對於蜜蜂進出狀態的評估。本研究目的在於開發一套蜜蜂進出巢活動的影像監測系統，並在盡量不影響蜜蜂行為的前提下，進行監測、紀錄與分析蜜蜂進出巢的相關資訊。為了減少標記對蜜蜂的影響，同時發展出雷射雕刻的標記方法。在雷射標記法方面，本研究中設計固定蜜蜂的雕刻架，標記的流程為採集蜜蜂、蜜蜂固定、初步清理、塗膠、塗顏料、雷射雕刻、塗指甲油，此標記方式一次可標記5 隻。標記時間約為每小時10 隻，成功率為49.1%。在影像監測系統的硬體部分，主體是使用深色不透明壓克力作為支撐，並使用黑色壓克力製作燈罩搭配工業級CCD 攝影機及紅外線投光器來取得均勻穩定光源的影像，並增加設計S 型通道來限制蜜蜂行走以增加系統的穩定性。在影像監測系統的演算法部分，使用Qt 做為主要開發軟體。標記的偵測是使用前景與背景相互比較的原理，利用其標記上的L型來進行標籤對位，並利用二元編碼系統，利用基本影像處理進行辨識。目前的影像辨識系統，在標記良好的前提下，整體標籤偵測率為99.1 %，整體辨識率為73.4 %。而應用時，本系統須加裝於蜂箱出入口處，利用通道來限制蜜蜂的移動路徑，藉此監測蜜蜂進出巢的活動。	zh_TW
dc.description.abstract	Honeybees are beneficial for agriculture and food supply. Traditionally, the hive status evaluation is conducted by labor observation of in-and-out activity, which is not only time-consuming but also labor-intensive. The objective of this research is to construct an imaging system for monitoring honeybee in-and-out activity. The system is utilized to record, monitor and analyze the in-and-out activity. In order to minimize the influence of monitoring and labeling on honeybee, a genuine laser labeling method has been proposed and implemented. In order to carry out the laser labeling process, a fixation device was designed to prepare honeybees for laser engraving. The labeling process includes seven steps: honeybee collection, honeybee immobilization, initial cleaning, glue coating, paint coating, laser engraving and varnish coating. In each labeling round, five honeybees are laser engraved at once. The labeling efficiency is about 10 honeybees per hour with a success rate of 49.1%. The hardware of imaging system was mainly constructed by a black acrylic shell. Inside the acrylic shell, there are one transparent channel panel for confining honeybees’ movements, a uniform IR light source system with IR projectors and a camera. The software of imaging system was developed in Qt. The label is detected by background and foreground subtraction, and is orientated by the L-shape line identification. The individual label is recognized by a simple comparison with the oriented image. The label detection rate is 99.1%, and the label recognition rate is 73.4%. The system is designed to be attached to the entrance of the beehive to confine the movement of honeybees through the channels constructed, in the honeybee in-and-out activity monitoring applications. The in-and-out activity can be long-term monitored by this system, which including the daily patterns and daily in-and-out frequencies. The analysis of in-and-out activities can be utilized in evaluating the condition of beehives.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T16:10:47Z (GMT). No. of bitstreams: 1 ntu-102-R99631014-1.pdf: 40351463 bytes, checksum: 3c01a73a0aa2dc2dba2de13b48dabfc1 (MD5) Previous issue date: 2013	en
dc.description.tableofcontents	摘要 ii Abstract iii Table of Contents iv List of Figures viii List of Tables x Chapter 1 Introduction 1 1.1 Introduction 1 1.2 Objectives 4 Chapter 2 Literature Review 5 2.1 Honeybee 5 2.2 Honeybee Monitor Methods 9 2.2.1 Mechanical Counter Method 9 2.2.2 Infrared Light Counter Method 11 2.2.3 Radio Frequency Identification (RFID) Method 12 2.2.4 Imaging Methods 13 2.3 Honeybee Labeling Methods 13 2.3.1 Paint 13 2.3.2 Paper Label 14 2.3.3 RFID Label 14 Chapter 3 Honeybee Labeling Methods 16 3.1 Label Design 17 3.2 Honeybee Labeling Procedure 20 3.2.1 Honeybee collection 20 3.2.2 Honeybee immobilization 23 3.2.3 Surface cleaning 25 3.2.4 Glue coating 26 3.2.5 Paint coating 28 3.2.6 Laser engraving 30 3.2.7 Varnish coating 31 3.3 Labeling Devices 33 3.3.1 Fixation Device 33 3.3.2 Glue 36 3.3.3 Paint 37 3.3.4 Laser Engraver 39 3.3.5 Transparent Varnish 40 3.3.6 Gauze 41 3.4 The SOP of Laser Labeling Method 43 Chapter 4 Honeybee Monitoring Methods 45 4.1 Hardware Architecture 45 4.1.1 Honeybee 46 4.1.2 Beehive 46 4.1.3 The Shell of Imaging System 48 4.1.4 Camera and Uniform Light Source System 49 4.1.5 Channel 54 4.1.6 Computer 55 4.2 Honeybee Monitoring Procedure 57 4.3 Camera Calibration 58 4.4 Label Detection 59 4.5 Label Recognition 61 4.5.1 Image Preprocessing 62 4.5.2 Label Orientation 65 4.5.3 Number Calculation 67 4.6 In-and-out Algorithm 67 Chapter 5 Experimental Results and Discussion 68 5.1 The Performance of Honeybee Labeling Method 68 5.1.1 The honeybee immobilization 68 5.1.2 The factors paint coating 68 5.2 The Performance of Imaging System 69 5.2.1 Hardware 69 5.2.2 Software 71 5.2.3 Label Detection 72 5.2.4 Label Recognition 72 Chapter 6 Conclusions and Suggestions 78 6.1 Conclusions 78 6.2 Suggestions 80 References 81
dc.language.iso	en
dc.title	應用雷射雕刻法於蜜蜂進出巢活動之影像監測系統	zh_TW
dc.title	An Imaging System for Monitoring Honeybee In-and-out Activity Using Laser Labeling Method	en
dc.type	Thesis
dc.date.schoolyear	101-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	楊恩誠,江昭皚
dc.subject.keyword	蜜蜂,雷射雕刻,影像處理,行為監測,	zh_TW
dc.subject.keyword	Honeybee,Image processing,Laser labeling,Behavior monitoring,	en
dc.relation.page	86
dc.rights.note	有償授權
dc.date.accepted	2013-02-20
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

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