현장농수산연구지 (Journal of Practical Agriculture & Fisheries Research)

국립한국농수산대학교 교육개발센터 (Korea National University of Agriculture and Fisheries)
권호 표지
DOI QR코드

DOI QR Code

정밀 농업기계 교육프로그램의 발전

Development of Precision Agricultural Machine Education Program

  • 홍순중 (국립한국농수산대학 교양공통과) ;
  • 김동억 (국립한국농수산대학 교양공통과) ;
  • 강동현 (국립한국농수산대학 교양공통과) ;
  • 김진진 (국립한국농수산대학 교양공통과) ;
  • 강정균 (국립한국농수산대학) ;
  • 정선옥 (충남대학교 스마트농업시스템학과) ;
  • 모창연 (강원대학교 바이오시스템기계공학) ;
  • 유동기 (농촌인적자원개발센터 교육훈련지원과)
  • Hong, S.J. (Korea National College of Agriculture & Fisheries) ;
  • Kim, D.E. (Korea National College of Agriculture & Fisheries) ;
  • Kang, D.H. (Korea National College of Agriculture & Fisheries) ;
  • Kim, J.J. (Korea National College of Agriculture & Fisheries) ;
  • Kang, J.G. (Korea National College of Agriculture & Fisheries) ;
  • Chung, S.O. (Department of Biosystems Machinery Engineering, Chungnam National University) ;
  • Mo, C.Y. (College of Agriculture and Life Sciences) ;
  • Ryu, D.K. (Department of Education & Training Service Division, Rural Human Resources Development Center)
  • 투고 : 2020.10.31
  • 심사 : 2020.12.11
  • 발행 : 2020.12.28
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

In Korea, the agricultural machinery market has been generally on the rise, and particularly the demand for the diverse agricultural machine is increasing due to the radical changes in agriculture, such as a high supply of the advanced and automated agricultural machine and an increase in aged or female farmer population. Therefore, this study analyzes the technical trends in the precision agricultural machine domestically and globally to guide the direction of development of the ICT-based machine. The investigation of the precision agricultural machine in this study focuses on the production technology through analyzing the trends in sensor-related technology, the decision-making research, variable treatment technology, and academic publication. The result shows that information processing technology including the sensor and the decision-making requires various measurement factors and the established technologies are continually being developed.

키워드

과제정보

본 연구는 농촌진흥청(Rural Development Administration)의 농촌지원국 역량개발과의 지원으로 수행되었습니다.

참고문헌

  1. Chi JH, Lee JH, Kim HD, Choi BR, Park JS, Park KY, Jung IG. 2009. Influence of Sitespecific Fertilizer Application Using GPS and Digital Fertility Map on Rice Yield and Quality. Korean Journal of Crop Science 54(2): 192-197[in Korean]
  2. Hashimoto Y, Nakamura H, Asaga K, Karube I. 2008. A new diagnostic method for soil-borne disease using a microbial biosensor. Microbes and environments 23(1): 35-39. https://doi.org/10.1264/jsme2.23.35
  3. Hong SY, Kim YH, Choe EY, Zhang YS, Sonn YK, Park CW, Jung KH, Hyun BK, Ha SK, Song KC. 2010. Geographic information system and remote sensing in soil science. Korean Journal of Soil Science and Fertilizer 43(5): 684-695. [in Korean]
  4. Hong YG, Kim SC, Lee CG, Choi GH. (2012). Precise agriculture preparing for the next 10 years-catch two rabbits of environment and food. RDA(Rural Development Administration), (90).[in Korean]
  5. Hong YK, Kim SC, Shin IS, Kim GH, Choi HG, Jung HY. 2011. Development of portable soil electric conductivity and water content sensor. Proceedings of the KSAM & ARCs, winter conference. 16(1): 580-583. [in Korean]
  6. Jeon NS, Lee CB, Oh YT, Son GN, Kim YD, Kim WY, Park IC, Lee EJ. 2010. Exports of agricultural products in accordance with the corresponding strategy to accelerate FTA talks: a focus on strengthening export fresh produce competitive plan. Gyeongnam institute: 1-102. [in Korean]
  7. Ju CY, Park SH, Park YJ, Lee DH, Kim JH, Son HI. 2016. Biosystems engineering for future agriculture. Institute of Control, Robotics and Systems 22(3): 43-57. [in Korean]
  8. Ju CY, Kim JE, Jo SW, Kim SW Son HI. 2018. Technology development trend and application fields of unmanned aerial vehicles for smart agriculture. Institute of Control, Robotics and Systems 24(4): 23-34. [in Korean]
  9. KAMICO(Korea agricultural machinery industry cooperative). 2019. Agricultural Machinery Yearbook Republic of Korea. Korea Agricultural Machinery. [in Korean]
  10. Kang CW. 2009. A study on a plan to increase produce and agricultural foods export. The Journal of Distribution Science, 7(4), 27-36. [in Korean] https://doi.org/10.15722/jds.7.4.200912.27
  11. Kim CG, Jeong HK, Moon DH, Shobayasi M, Sasaki H. 2014. Sustainable Agricultural Policies in Major Countries. Korea Rural Economic Institute: 1-169. [in Korean]
  12. Kim SH, Kang JG, Ryu CS, Kang YS, Kang DH, Tapash KS Koo YG, Kim DE. 2018. Estimation of Moisture Content in Cucumber and Watermelon Seedlings Using Hyperspectral Imagery. Protected Horticulture and Plant Factory 27(1): 34-39. [in Korean] https://doi.org/10.12791/KSBEC.2018.27.1.34
  13. Koo HS, Min JH, Park JY. 2015. Survey of ICT-Agriculture Convergence. Electronics and Telecommunications Trends, 30(2), 49-58. [in Korean]
  14. Lee CK, Choi Y, Jun HJ, Kim HJ, Lee SB, Ryu CS. 2007. Development of a rice weighing system for head-feed combine. Journal of Biosystems Engineering, 32(5), 332-338. [in Korean] https://doi.org/10.5307/JBE.2007.32.5.332
  15. Lee JR, Im YH, Chu SJ, Kim YJ. 2019. Trends and Implications of the Fourth Industrial Revolution Innovation Policy in Agriculture and Rural Areas-Focusing on the field of agricultural machinery (unmanned and autonomous). Korea Rural Economic Institute: 1-93. [in Korean]
  16. Lee JW. 2016. Examples of overseas smart agriculture. Korea Rural Economic Institute: 1-19.[in Korean]
  17. Park DG, No SJ, Lee YO. 2018. Agricultural and rural economic trends. Korea Rural Economic Institute: 1-140. [in Korean]
  18. RDA(Rural Development Administration) 2017. ICT-based precision agricultural machinery education program development. 169 pp. [in Korean]
  19. Ryu KH, Kim YJ, Cho SI, Rhee JY. 2006. Development of variable rate granule applicator for environment-friendly precision agriculture (I)-concept design of variable rate pneumatic granule applicator and manufacture of prototype. Journal of Biosystems Engineering 31(4): 305-314. [in Korean] https://doi.org/10.5307/jbe.2006.31.4.305
  20. Seo YJ. 2016. Current Status and Major Tasks of Smart Agriculture in Korea. World agriculture 185, 51-71. [in Korean]