Journal of Korean Society of Rural Planning (농촌계획)

Korean Society of Rural Planning (한국농촌계획학회)
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Development of A Pilot Android Application for Location-based Mobile Agricultural Information System

위치기반 모바일 농업정보시스템 구축을 위한 안드로이드 애플리케이션 시험 개발

  • Kim, Sang Min (Dept. of Agricultural Engineering (Insti. of Agric. & Life Sci.), Gyeongsang National University) ;
  • Jang, Min-Won (Dept. of Agricultural Engineering (Insti. of Agric. & Life Sci.), Gyeongsang National University)
  • 김상민 (경상대학교 지역환경기반공학과 (농업생명과학연구원)) ;
  • 장민원 (경상대학교 지역환경기반공학과 (농업생명과학연구원))
  • Received : 2014.08.13
  • Accepted : 2014.11.20
  • Published : 2014.12.30
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Abstract

Recently the use of smart phones and mobile devices is increasing rapidly, data search and retrieval in the mobile environments are generalized. There are only few mobile applications available in the area of agriculture while huge amount of new applications are developed and uploaded. The purpose of this study was to develop the android based mobile application for providing agricultural infrastructure and disaster information. The mobile application was designed through the database establishment and management system, server management system, and mobile application development. The database is composed of weather data, agricultural infrastructure data, and agricultural disaster data. By developing the mobile application which provides agricultural infrastructure information, it is expected to improve the accessibility to agricultural information and mitigate the agricultural disaster damages.

Keywords

References

  1. Rural Development Administration (RDA), 2012, Research of Development the Usage of Smartphone
  2. Agriculture Management and Marketing Strategies, RDA Research Report on Agricultural Technology & Management, 1-140.
  3. Eun, S. K., T. G. Kim, J. M. Lee, K. Suh, and M. W. Jang, 2013, Mobile Application Design for Farmland Flooding Prevention and Realtime Data Collection, Journal of Korean Society of Rural Planning, 19(3), 1-12. https://doi.org/10.7851/ksrp.2013.19.3.001
  4. Hur, S. O., K. H. Hang, S. H. Jeon, Y. S. Jang, S. W. Kang, and S. O. Chung, 2011, Application of Smartphone and Wi-fi Communication for Remote Monitoring and Control of Protected Crop Production Environment, CNU Journal of Agricultural Science, 38(4), 753-759.
  5. Jang, M. W. and S. M. Kim, 2013, Development of Meteorologic Data Retrieval Program for Vulnerability Assessment to Natural Hazards, Journal of Korean Society of Rural Planning, 19(4), 47-54. https://doi.org/10.7851/ksrp.2013.19.4.047
  6. Jeong, K. J. and W. J. Kim, A Design and Implementation of Mobile Application SREMS, Journal of the Korean Institute of Electronic Communication Sciences, 7(5), 1173-1180.
  7. Kang, H. J., J. W. Lee, and S. S. Kang, 2012, An Implementation of the Management Support Service for Agricultural Environment Using Smart Devices, Smart Media Journal, 1(1), 42-47.
  8. Kim, H. J., B. C. Jeon, H. S. Lim, and S. J. Lee, 2012a, A Development of an U-Farm Monitoring System, Proceedings of 2012 Summer KAIS Conference, Korean, The Korea Academia-Industrial Cooperation Society (KAIS), 704-707.
  9. Kim, J. S., S. K. Lee, H. Y. Ahn, D. J. Seo, D. C. Seo, and J. C. Lee, 2012b, Accuracy Evaluation of a Smartphone-based Technology for Coastal Monitoring, Measurement, Journal of Coastal Research, 46(1), 233-248.
  10. Kim, T. G., W. H. Nam, T. S. Lee, J. Y. Choi, and J. T, Kim, 2012c, Assessment of Mobile Technology Operability Based on RFID and QR Code for Real Time Information Management of Irrigation Facilities, Journal of the Korean Society of Agricultural Engineers, 54(1), 1-9. https://doi.org/10.5389/KSAE.2012.54.1.001
  11. Kim, M. H. and Y. J. Chung, 2007, A Design & Development of GIS based on LBS for Agriculture Field Investigation, Proceedings of 2007 KSII Spring Conferences, 8(1), Korean Society for Internet Information (KSII), 485-489.
  12. Kwon, Y. W., S. H. Jung, K. J. Kim, C. B. Sim, and K. So. Yoo, 2011, Implementation of u-farm Cultivation Diary System for Smart Phone Users, Proceedings of 2011 KIISE (the Korean Institute of Information Scientists and Engineers) Spring Conference, 5(1), 65-69.
  13. National Academy of Agricultural Science (NAAS), 2013, A Study on Applying Information Technology for Rural Amenity Resources, Experimental Research Report, 1-108.
  14. National Academy of Agricultural Science, 2014, Development of Mobile Information Model based on Rural Amenity Resources, Research Report on Agricultural Base Technology, 1-144.
  15. Rankey.Com, 2013. Mobile App Top 100 Ranking, Available at http://www.rankey.com/mobile/mobile_app_top100.php.
  16. Shin, Y. S., 2012, Mitigating Climate-induced Crop Damages using Mobile Service -Implementation of Agricultural Technology Information Service, Local Informaton Magazine, 76, 78-81.
  17. Sung, S. J., 2011, How can we use mobile apps for diaster communications in Taiwan: Problems and possible practice, International Telecommunications Society Conference, 1-15.
  18. 국회입법조사처, 2011, 공공앱 현황과 발전방안, 국회입법조사처 현안보고서 141호
  19. 바른사회시민회의, 2014, 공공기관 모바일 앱, 누구를 위해 만드나, 바른사회시민회의 기획조사자료