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미래 농업을 위한 바이오시스템공학  

Ju, Chan-Yeong (전남대학교 지역.바이오시스템공학과)
Park, Seon-Ho (전남대학교 지역.바이오시스템공학과)
Park, Yeong-Ju (전남대학교 지역.바이오시스템공학과)
Lee, Do-Hyeon (전남대학교 지역.바이오시스템공학과)
Kim, Jang-Ho (전남대학교 지역.바이오시스템공학과)
Son, Hyeong-Il (전남대학교 지역.바이오시스템공학과)
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ICROS / v.22, no.3, 2016 , pp. 43-57 More about this Journal
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1 SPARC, Farming with robots, www.robohub.org/farming-withrobots/, 2016.05
2 김들풀, 일본 농업위기 '드론.무인 트랙터.로봇.클라우드'로 돌파구 찾는다, http://www.itnews.or.kr/?p=18684, 2016.06
3 성진혁, 나노기술과 농업과학의 만남, 국가산업융합지원센터, 2014.07.17.
4 조우석, 나노과학: 농약, 비료 효과적인 전달에 작지만 강한 힘발휘, 농업인신문, 2015.06.19.
5 Ali et al., "Nanotechnology: A new frontier in Agriculture," Advancements in Life Sciences, Vol. 1, pp. 129-138, 2014.05.
6 김현란, 변영웅, 이병서, 김윤호, 강방훈, "나노기술: 농업의 신 개척지," 농촌진흥청, 2014.12.
7 김기영, "농식품 안전성 식속판정기술 개발," 농촌진흥청, 2008.
8 정진태, 김밝금, 김철수, 이경환, "작물 가뭄스트레스 진단 을 위한 종이 기반 센서" 한국농업기계학회, Vol. 20, pp. 135-136
9 심영보 외 6인, "양면열-나노임프린트를이용한극저반사 필름 제조", 한국정밀공학회, pp 726-727, 2016. 05
10 Siddhartha S Mukhopadhyay, "Nanotechnology in agriculture: prospects and constraints," Nanotechnology Science and Applications, Vol. 7, pp 63-71, April 2014.
11 Claudia Parisi, Mauro Vigani and Emilio Rodriguez-Cerezo, " Agricultural Nanotechnologies: What are the current possibilities?," Nanotoday, Vol. 10, pp. 124-127, 2015   DOI
12 Tiju Joseph and Mark Morrison, "Nanotechnology in Agriculture and Food," A Nanoforum report, April 2006.
13 ETC (Action Group on Erosion, Technology and Concentration), "Down on the Farm: The Impact of Nanoscale Technologies on Food and Agriculture," 2003.
14 Khodakovskaya et al., "Carbon nanotubes are able to penetrate plant seed coat and dramatically affect seed germination and plant growth," Acs Nano, Vol. 3, pp 3221-3227, 2009.   DOI
15 Giraldo et al., "Plant nanobionincs approach to augment photosynthesis and biochemical sensing," Nature materials, Vol. 13, pp 400-408, 2014   DOI
16 Maria C. DeRosa, Carlos Monreal, Morris Schnitzer, Ryan Walsh and Yasir Sultan, "Nanotechnology in fertilizer," Nature nanotechnology, Vol. 5, pp 91, 2010.   DOI
17 윤석권, "감귤박을 이용한 바이오소재의 생산 방법", 대한민국특허청, 2014. 11. 26.
18 Young Ju Lee, Yong Joo Sung, "Preparations Purified Cellulose from Rice Hull", Jounal of Korea TAPPI, Vol. 44. No. 3, pp 79-85, June 2012.
19 Jeong-Hwan Kim, Yeon-Hee Kim, Sung-Koo Kim, Byung-Woo Kim, Soo-Wan Nam, "Properties and Industrial Applications of Seaweed Polysaccharides-degrading Enzymes from the Marine Microorganisms", Korean J. Microbiol. Biotechnol, Vol. 39, No. 3, pp 189-199, August 2011.
20 농림축산식품부, "비목재 자원을 활용한 바이오신소재 개발: 고온성 효모(KM) 세포공장 플랫폼 구축 및 그린바이오 신소재 생산기술 개발", 2015. 07 30.
21 Jong Eon Kim, Byeong Eun Moon, Byung Ok Jin, Sang Yun Lee, Chung Seop Lee et al.", Evaluation on Separation and Purification Efficiency of Biogas from Livestock Manure using Hollw Fiber Membrane", Jouran of Agriculture & Life Science, 48(6), pp 425-434, November 2014.   DOI
22 권용덕, "농업과IT 융합기술을 활용한 경남IT농업의방향과 과제," 경남정책 Brief, pp. 1-12, 2012.06
23 농립수산식품기술기획평가원, "제4차 산헙혁명과 농업," R&D 이슈보고서, 2016.07
24 김관중, 허기웅 "스마트팜 기술동향 및 전망," 한국전자통신연구원 전자통신동향분석, 제 30 권, 제 5 호, 2015.10
25 김홍상, 이명기, 윤성은, "창조농업 실현을 위한 ICT 기술융합의 전략과 과제," 한국농촌경제연구원 기본연구보고서, pp. 1-171, 2014.12
26 이지웅, 황정환, 여현", 농업ICT 융합기술동향및발전방향,"한국통신학회지(정보와통신), 제 31 권, 제 5 호, pp. 54-60, 2014.04
27 김태헌, "농촌진흥청 연구 개발 7대 분야 기술 수준, 미국의 83.4%," 농촌진흥청 보도자료, 2016.03
28 MEDIA SK, 스마트한 기술로 살 맛 나는 농촌을 만들다, NEWS SK라이브 , http://www.cdnews.co.kr/blog/blogOpenView.html?idxno=236030, 2014.10
29 편집부, "첨단 ICT기술을 적용한 스마트 농업 확산전략 방안에 대한 연구," 한국경영학회 통합학술발표논문집, pp. 1896-1910, 2015.08
30 O. Vermesan et. al., "Internet of Things Strategic Research Roadmap," The Cluster of European Research Projects, Global Technological and Societal Trends 1, pp.9-52, 2011.
31 이영완, 한국형 '스마트팜' 뜬다, 조선일보 보도자료, http://biz.chosun.com/site/data/html_dir/2016/01/13/2016011303518.html, 2016.01
32 AgFUNDER, "AGTECH FUNDING REPORT 2015:YEAR IN REVIEW,"Investing Report, 2016.02
33 김남훈, "IT기술과의 융합으로 재조명 받는 스마트 농업," 하나금융연구소 Weely Kana Financial Focus, 제 6 권, 제 22호, 2016.06
34 손종구, "차세대 식물공장," KISTI MARKET REPORT, Vol. 3, Issue 12, 2013
35 구한승, 민재홍, 박주영, "스마트농업 동향분석,"한국전자통신연구원 전자통신동향분석, 제 30 권, 제 2 호, 2015.04
36 한국농촌경제연구원, "세계농업,"제185 호, 2016.01
37 Agronics, ICT 스마트팜팩토리 통합 운영 플랫폼, http://agronics.co.kr/wp/, 2014
38 박현섭, 김상철, "농업로봇 기술동향과 산업전망," KEIT PD Issue Report, vol. 15-2, pp. 35-49, 2015.02
39 김대중, "미래 농업을 말한다. 전라북도 농업용 로봇미래," Issue & Tech, vol. 38, pp. 01-20, 2015.06
40 John Deere., "The Precision-Farming Guide for Agriculturists," Deere & Company, pp. 02.1-05.22, 2010
41 Y. Zhao, L. Gong, Y. Huang and C. Liu., "Robust Tomato Recognition for Robotic Harvesting Using Feature Images Fusion,"Sensors, vol. 16(2), 173, 2016   DOI
42 Wendel, Alexander, and James Underwood., "Self-supervised weed detection in vegetable crops using ground based hyperspectral imaging," Proceedings of the IEEE International Conference on Robotics and Automation, pp. 5128-5135, 2016
43 S. Hayashi, S. Yamamoto, S. Saito and Y. Ochiai., "Field operation of a movable strawberry-harvesting robot using a travel platform," Japan Agricultural Research Quarterly, vol. 48(3), pp. 307-316, 2014   DOI
44 H. Anil, K. S. Nikhil, V. Chaitra, B. S. Gurusharan, "Revolutionizing farming using swarm robotics," Proceedings of the IEEE International Conference on Intelligent Systems, Modelling and Simulation, pp. 141-147, 2015
45 FENDI, Project MARS: Research in the field of agricultural robotics, https://www.fendt.com/int/11649.asp
46 Milen I. Georgiew, Natural products utilization, Springer Science+Business Media Dordrecht, 13, pp 339-341, May 2014.
47 TEDxPenn, Vijay Kumar: The future of flying robots, https://www.ted.com/talks/vijay_kumar_the_future_of_flying_robots, 2015.04
48 Ag Leader Technology, Products & services, pp. 01-36, 2016
49 Kim et al., "Development and characterization of fast-hardening composite cements composed of natural ceramics originated from horse bones and chitosan solution", Tissue Engineering and Regenerative Medicine, Volume 11, Issue 5, pp 362-371, October 2014.   DOI
50 Intorobotics, 35+ Robots in Agriculture, https://www.intorobotics.com/35-robots-in-agriculture, 2016.07
51 이성규, 농업이 로봇.빅데이터와 만나면, http://www.bloter.net/archives/222676, 2015.03
52 Jeremy H. Brown, From Precision Farming to Autonomous Farming, http://robohub.org/from-precision-farming-toautonomous-farming-how-commodity-technologies-enablerevolutionary-impact/, 2013.11