디지털융복합연구 (Journal of Digital Convergence)

  • 제20권4호
  • /
  • Pages.147-157
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  • 2022
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  • 2713-6434(pISSN)
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  • 2713-6442(eISSN)
한국디지털정책학회 (The Society of Digital Policy and Management)
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국내 실정에 적합한 스마트팜 개발 전략 -6차산업의 발전을 위한 ICT 기술적 특성을 중심으로-

Smart farm development strategy suitable for domestic situation -Focusing on ICT technical characteristics for the development of the industry6.0-

  • 한상호 (한성대학교 스마트융합컨설팅학과) ;
  • 주형근 (한성대학교 지식서비스&컨설팅대학원)
  • Han, Sang-Ho (Division of Smart Convergence Consulting, Hansung University) ;
  • Joo, Hyung-Kun (Dept. of Graduate School of Knowledge Service & Consulting, Hansung University)
  • 투고 : 2022.03.29
  • 심사 : 2022.04.20
  • 발행 : 2022.04.28
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초록

본 연구는 국내 사정에 적합한 스마트팜 기술 전략을 ICT 기술의 국내 사정에 적합한 차별화를 중심으로 제안하고자 했다. 해외 농산업 선진국의 경우 각 나라의 지형적 특성, 농산업 특성, 국민 수요 특성 등을 전반적으로 반영한 특정 단계 개발에 주력함을 확인했으나, 국내 스마트팜의 경우 해외 기술을 여과 없이 수용하여 국내사정에 적합한 기술의 선별적 개발이 수행되지 않음을 확인했다. 따라서, 본 연구는 국내 농촌 인구의 급격한 감소, 인구 고령화, 농작물 가격 경쟁력 상실, 휴경지 증가, 경지 이용률 감소 등 문제에 따라, 차후 스마트팜 ICT 기술 개발 방향성을 품질 좋은 농산물을 창출하여 가격 경쟁력을 갖추기 위한 성능의 우수함, 노동인구 고령화에 따른 사용의 용이성, 영세한 경영규모에 적합한 경제성 등에 주목하여 스마트팜을 추진해야 함을 제시했다. 첫째, 경제성 차원에서 영세농가(1차) 경영환경에 필요한 기능들만 선별하여 ICT 기술을 구성하고, 이들과 원활한 의사소통 체계를 ICT 기술에 적용하여 실제 농가에서 필요로 하는 기능을 점차적으로 업데이트함으로써 비용 감소에 일조할 수 있음을 제안했다. 둘째, 성능차원에 있어서는 국내 고령화 인구에 적합한 빅데이터 난이도 조절, 이들에게 적합한 언어사용, 이들의 예측 성향을 반영한 알고리즘 설정 등 ICT의 의사소통 기능 개선에 주목한다면 작동 정확성을 증대할 수 있음을 제안했다. 셋째, 사용용이성 차원이다. 6차산업(1차(농업,임업)+2차(농수산물가공)+3차(서비스,농어촌체험,유통)) 발전을 위한 ICT 기술에 기반한 스마트팜은 특정 명령어에 따라 동작을 수행하는 바, 특정 명령에 빅데이터에 근거한 추론을 통한 추가적 기능들이 자동적으로 수반될 것과, 각 지역적 환경에 맞춤화된 빅데이터 구성에 기반한 장치를 미리 세팅, 표준화하여 사용용이성을 촉진할 수 있음을 최종 제시했다.

This study tried to propose a smart farm technology strategy suitable for the domestic situation, focusing on the differentiation suitable for the domestic situation of ICT technology. In the case of advanced countries in the overseas agricultural industry, it was confirmed that they focused on the development of a specific stage that reflected the geographical characteristics of each country, the characteristics of the agricultural industry, and the characteristics of the people's demand. Confirmed that no enemy development is being performed. Therefore, in response to problems such as a rapid decrease in the domestic rural population, aging population, loss of agricultural price competitiveness, increase in fallow land, and decrease in use rate of arable land, this study aims to develop smart farm ICT technology in the future to create quality agricultural products and have price competitiveness. It was suggested that the smart farm should be promoted by paying attention to the excellent performance, ease of use due to the aging of the labor force, and economic feasibility suitable for a small business scale. First, in terms of economic feasibility, the ICT technology is configured by selecting only the functions necessary for the small farm household (primary) business environment, and the smooth communication system with these is applied to the ICT technology to gradually update the functions required by the actual farmhouse. suggested that it may contribute to the reduction. Second, in terms of performance, it is suggested that the operation accuracy can be increased if attention is paid to improving the communication function of ICT, such as adjusting the difficulty of big data suitable for the aging population in Korea, using a language suitable for them, and setting an algorithm that reflects their prediction tendencies. Third, the level of ease of use. Smart farms based on ICT technology for the development of the Industry6.0 (1.0(Agriculture, Forestry) + 2.0(Agricultural and Water & Water Processing) + 3.0 (Service, Rural Experience, SCM)) perform operations according to specific commands, finally suggested that ease of use can be promoted by presetting and standardizing devices based on big data configuration customized for each regional environment.

키워드

참고문헌

  1. DH Kim, IT Hwang & SH Lee (2015). The relationship between the factors of farmers' acceptance and resistance to innovative technologies and the intention to expand the agro-food ICT convergence business. Rural guidance and development, 22(1), 43-54.
  2. DH Kim, JM Lee & YP Park (2012). A Study on Cloud Computing Characteristic Factors Affecting Enterprises' Intention to Introduce Cloud Computing Service. Journal of the Korean Electronic Transaction Association,17(1), 111-136.
  3. SC Kim (2017). Industry4.0 revolution and smart farm technology development. Korea Academy of Agricultural Sciences.
  4. CH Kim (2019). A study for the activation of smart farms using service design: Focusing on the plant cultivation system for urban agriculture. Master's thesis. Korea Polytechnic University Graduate School.
  5. Ministry of Employment and Labor. (2019). Effect of smart farm activation policy on employment.
  6. Rural Research Institute. (2019). 2nd year export strategy technology development project Intelligent Smart Farm Platform Export Research Group Trend Report.
  7. JH Min. (2017). Smart farm technology trends and development directions. Korea Electronics and Telecommunications Research Institute..
  8. SH Park, JS Park & MK Lee (2015). Value chain model and big data utilization plan for successful Industry6.0. Journal of Digital Industry Information Society, 11(2), 141-152.
  9. SK Park. (2021). A study on the effect of recognition of ICT technical characteristics in agricultural industry and entrepreneurship motivation on smart farm start-up intention: Focusing on the moderating effect of start-up support policy. PhD thesis. Hoseo University Graduate School.
  10. CW Paik, EI Son, & SU Lim. (2018). A study on standard jobs in the 6th industry and smart farms. Fall Conference Proceedings of the Korean Society for Quality Management, 2018, 84-84.
  11. KPNG(2016)Future agriculture led by smart farm https://home.kpmg/kr/ko/home/insights/2016/10/issue-monitor-62.html
  12. MH Ahn & CM Heo (2019). Effect of smart farm's technical characteristics on acceptance intention through effort expectation. Digital Convergence Research, 17(6), 145-157.
  13. C Yang & MH Kim (2017). Effect of personal characteristics, system characteristics, and social characteristics on acceptance intention according to mobile payment applications. Arts, Humanities and Social Convergence Multimedia Paper, 7, 45-59.
  14. Y Hyun (2019). Current status of overseas agricultural big data utilization. world agriculture, 226, 37-57.
  15. OK Yoon. (2014). For research on Korean geography textbooks at Jihaksa High School.
  16. JU Lee, JW Whang, Y Hyun. (2014). Trend and development direction of agricultural ICT convergence technology. Information and Communications Magazine, 31(5), 54-60.
  17. TY Lee (2020). A study on the effect of ICT convergence technology acceptance factors on smart farm startup intention using integrated technology acceptance theory: Focusing on the mediating effect of technology acceptance intention and the moderating effect of regulatory focus. PhD thesis. Hoseo University Graduate School.
  18. G Cho, JS Park, C Yack & YG Kim (2020). The effect of mobile payment system characteristics on technology acceptance and intention to use: Focusing on offline stores. e-trade research, 18(1), 49-75.
  19. Statistical Office. (2019). 2019 Agriculture, Forestry and Fisheries Survey Results.
  20. Poongsan Holdings (2019). The era of smart agriculture 'Smart Farm'. http://www.poongsan.co.kr/kor/pswebzine/201911.php?p=informationyard%7Cinfo_1
  21. Korea Agricultural Machinery Newspaper (2020). The success or failure of the future smart farm depends on 'professional manpower development'. https://www.kamnews.co.kr/news/articleView.html?idxno=4365
  22. Korea Rural Economic Research Institute. (2020). Agricultural Outlook 2020. Agriculture, rural inclusion and innovation and a sustainable future.
  23. MS Choi(2021), Smart Farm Control System for Improving Energy Efficiency, Journal of Digital Convergence, 19, 331-337
  24. DH Kim(2019), New and Renewable Energy Systems Applicable to Smart Farm, Korean Society for Agricultural Machinery, 24, 49-49
  25. Park, S. G., & Heo, C. M. (2020). The Effect of the Perception of ICT Technical Characteristics in Agricultural Industry on the Intention to Start Smart Farm: Focusing on the Mediating Effects of Effort Expectation and Acceptance Intention of Smart Farm. Asia-Pacific Journal of Business Venturing and Entrepreneurship, 15(3), 19-32. https://doi.org/10.16972/APJBVE.15.3.202006.19
  26. Shin, B. H., & Jeon, H. K. (2020). ICT-based Smart Farm Design. Journal of Convergence for Information Technology, 10(2), 15-20. https://doi.org/10.22156/CS4SMB.2020.10.02.015
  27. Choi, M. (2020). A Study on the Efficient Implementation Method of Cloud-based Smart Farm Control System. Journal of digital convergence, 18(3), 171-177. https://doi.org/10.14400/JDC.2020.18.3.171