การรับแอปพลิเคชันด้านการเกษตรบนอุปกรณ์เคลื่อนที่มาใช้ของเกษตรกรในจังหวัดน่าน ประเทศไทย

Alvarez, J., & Nuthall, P. (2006). Adoption of computer based information systems: The case of dairy farmers in Canterbury, NZ, and Florida, Uruguay. Computers and Electronics in Agriculture, 50, 48-60. https://doi.org/10.1016/j.compag.2005.08.013

Apps, J. W., & Iddings, R. K. (1990). What influences farmers’ computer use?. Journal of Extension, 28(1), 19-21. http://www.joe.org/joe/1990spring/a4.php

Cameron, R. (1975). The Diffusion of Technology as a Problem in Economic History. Economic Geography, 51(3), 217-230. https://doi.org/10.2307/143118

Chmiliar, L. (2010). Case study surveys. In A. J. Mills, G. Durepos, & E. Wiebe (Eds.), Encyclopedia of case study research (pp. 125-126). SAGE. https://www.doi.org/10.4135/9781412957397.n43

Csótó, M. (2015). Mobile device in agriculture: Attracting new audiences or serving the tech-savvy?. Journal of Agricultural Informatics, 6, 75-84. https:doi.org/10.17700/jai.2015.6.3.227

Cunha, C., Peres, E., Morais, R., Oliveira, A., Matos, S., Fernandes, M., Ferreira, P., & Reis, M. (2010). The use of mobile devices with multi-tag technologies for an overall contextualized vineyard management. Computers and Electronics in Agriculture, 73(2), 154-164. https:doi.org/10.1016/j.compag.2010.05.007.

Department of Agricultural Extension. (2016a). The population in Thailand’s agriculture sector 2011-2015. http://www.agriinfo.doae.go.th/5year/general/54-58/farmer54-58.pdf

Department of Agricultural Extension. (2016b). ฐานข้อมูลทะเบียนเกษตรกร ณ วันที่ 29 กุมภาพันธ์ 2559 [Database of Thailand’s agriculture population in February 2016]. https://ssnet.doae.go.th/wp-content/uploads/2016/05/ทะเบียนเกษตรกร-24-11-edit.pdf

Hall, L., Dunkelberger, J., Ferreire, W., Prevatt, J. W., & Martin, N. R. (2003). Diffusion-Adoption of Personal Computers and the Internet in Farm Business Decisions: Southeastern Beef and Peanut Farmers. Journal of Extension, 41(3). https://archives.joe.org/joe/2003june/a6.php

International Federation of Organic Agriculture Movements [IFOAM]. (2008). Definition of participatory guarantee systems. https://www.ifoam.bio/sites/default/files/pgs_definition_in_different_languages.pdf

Irungu, K. R. G., Mbugua, D., & Muia, J. (2015). Information and communication technologies (ICTs) attract youth into profitable agriculture in Kenya. East African Agricultural and Forestry Journal, 81(1), 24-33.

Kamondetdacha, R., & Janhom, T. (2022). The dynamics of university’s roles in the Participatory Guarantee System (PGS) learning process: A case of the Nan agricultural communities in Thailand. Kasetsart Journal of Social Sciences, 43(4), 1059-1066. https://doi.org/10.34044/j.kjss.2022.43.4.31

Karetsos, S., Costopoulou, C., & Sideridis, A. B. (2014). Developing a smartphone app for m-government in agriculture. Journal of Agricultural Informatics, 5, 1-8. https://doi.org/10.17700/JAI.2014.5.1.129

Katz, Y. (2019). Technology, society and the digital gap. Advances in Applied Sociology, 9, 60-69.

Knierim, A., Kernecker, M., Erdle, K., & Kraus, T. (2019). Smart farming technology innovations-insights and reflections from the German Smart-AKIS hub. NJAS-Wageningen Journal of Life Sciences, 90-91 (100314).

Lencsés, E., Takács, I., & Takács-György, K. (2014). Farmers’ Perception of Precision Farming Technology among Hungarian Farmers. Sustainability, 6, 8452-8465

Madushanki A. A. R., Halgamuge, M. N., Wirasagoda, W. A. S., & Syed, A. (2019). Adoption of the Internet of Things (IoT) in Agriculture and Smart Farming towards Urban Greening: A Review, International Journal of Advanced Computer Science and Applications, 10(4), 11-28. https://doi.org/10.14569/IJACSA.2019.0100402

Marks, D. (2011). Climate Change and Thailand: Impact and Response. Contemporary Southeast Asia A Journal of International and Strategic Affairs, 33(2), 229-258. https://doi:10.1353/csa.2011.0132

Mendes, J., Pinho, T. M., dos Santos, F. N., Sousa, J. J., Peres, E., Boaventura-Cunha, J., Cunha, M., & Morais, R. (2020). Smartphone Applications Targeting Precision Agriculture Practices–A Systematic Review. Agronomy, 10, 855. https://doi:10.3390/agronomy10060855

Office of Agricultural Economics. (2017). เศรษฐกิจการเกษตรของประเทศไทย [Indicators of Thailand’s agricultural economics]. http://www.oae.go.th/assets/portals/1/files/jounal/2561/indicator2560.pdf

Oteyo, I. N., Marra, M., Kimani, S., De Meuter, W., & Boix, E. G. (2021). A Survey on Mobile Applications for Smart Agriculture. SN Computer Science, 2, 293.

Pongnumkul, S., Chaovalit, P. & Surasvadi, N. (2015). Applications of Smartphone-Based Sensors in Agriculture: A Systematic Review of Research, Journal of Sensors, 1-18.

Ratanavararak, L., Chantarat, S., Rittinon, C., Sa-ngimnet, B., Unahalekhaka, A., Chinnachodteeranun, R., & Pantakua, K. (2019). Digital technology กับการยกระดับคุณภาพชีวิตเกษตรกรไทย [Digital technology and Enhancing quality of life of Thai farmers]. aBRIDGEd. Puey Ungphakorn Institute for Economic Research. https://www.pier.or.th/abridged/2019/19

Regan, A. (2019). Smart farming in Ireland: a risk perception study with key governance actors. NJAS-Wageningen Journal of Life Sciences, 90-91(100292). https://doi.org/10.1016/j.njas.2019.02.003

Rogers, E. M. (1962). Diffusion of Innovation. Free Press.

Sayruamyat, S., & Nadee, W. (2020). Acceptance and readiness of Thai farmers toward digital technology. In Y. D. Zhang, J. Mandal, C. So-In, & N. Thakur N (Eds.), Smart trends in computing and communications: Smart Innovation, Systems and Technologies (pp. 75-82). Springer Nature.

Shaikh, T. (2017). Impact of Mobile Application in Agriculture: Attitude of farmers towards the usage and the problem in accessing the mobile apps. ResearchGate. https://www.researchgate.net/publication/323747644_Impact_of_Mobile_Application_in_Agriculture_Attitude_of_farmers_towards_the_usage_and_the_problem_in_accessing_the_mobile_apps

Srivetbodee, S., & Igel, B. (2021). Digital Technology Adoption in Agriculture: Success Factors, Obstacles and Impact on Corporate Social Responsibility Performance in Thailand’s Smart Farming Projects. Thammasat Review, 24(2), 149-170.

Stone, M. L., & Raun, W. R. (2016). Sensing Technology for Precision Crop Farming. In Q. Zhang (Ed.), Precision Agriculture Technology for Crop Farming (pp. 21-53). CRC Press.

Suarez, S. A., & Suarez, A. M. (2013). The Impact of Mobile Phone Apps in the Agricultural Production. In B. Katalinic, & Z. Tekic (Eds), DAAAM International Scientific Book (pp. 629-636). DAAAM International Vienna.

Takács-György, K., Lencsés, E., & Takács, I. (2013). Economic benefits of precision weed control and why its uptake is so slow. Studies in Agricultural Economics, 115, 40-46.

Tanwattana, P., Janhom, T., Thongpun, S., & Northao, W. (2018). Participatory process for land use change : Haze free agriculure, Nan province, Thailand [กระบวนการปรับเปลี่ยนการใช้ประโยชน์ที่ดินแบบมีส่วนร่วม: กรณีศึกษาเกษตรกรรมไร้หมอกควัน จังหวัดน่าน], Environmental Journal, 22(3), 22-30.

Taragola, N., & Gelb, E. (2005). Information and communication technology (ICT) adoption in horticulture: a comparison to the EFITA baseline. In J. B. Cunha, & R. Morais (Eds.), Proceedings of the EFITA/WCCA 2005 Joint Conference.

Taragola, N. M., & Van Lierde, D. F. (2010). Factors affecting the internet behaviour of horticultural growers in Flanders, Belgium. Computers and Electronics in Agriculture, 70(2), 369-379. https://doi.org/10.1016/j.compag.2009.09.004

Vanichbuncha, K. (2009). สถิติสำหรับงานวิจัย [Statistics for research]. บริษัท ธรรมสาร จำกัด.

Visetnoi, S., & Sirisoponsilp, S. (2019). Uplifting Thailand’s agriculture through agricultural education: a paradigm shift for future farmers. International Journal of Agriculture Innovation, Technology, and Globalisation, 1(1), 44-56. http://dx.doi.org/10.1504/IJAITG.2019.099600

Voulodimos, A. S., Patrikakis, C. Z., Sideridis, A. B., Ntafis, V. A., & Xylouri, E. M. (2010). A complete farm management system based on animal identification using RFID technology. Computers and Electronics in Agriculture, 70(2), 380-388. https://doi.org/ 10.1016/j.compag.2009.07.009

Wayne, N., & Visetnoi, S. (2016). Thailand's Department of Agricultural Extension and Agrochemical Dependency: Perspectives on Contributing Factors and Mitigation Strategies. Journal of Agricultural Education and Extension, 22(3), 225-240. https://doi.org/10.1080/1389224X.2015.1063519

World Bank. (2021). Agriculture, forestry, and fishing, value added (% of GDP). https://data.worldbank.org/indicator/NV.AGR.TOTL.ZS

World Trade Organization. (2021). World Trade Statistical Review 2021. https://www.wto.org/english/res_e/statis_e/wts2021_e/wts2021chapter05_e.pdf

Zhao, C., Chen, L. Yang, G., & Song, X. (2016). Data Processing and Utilization in Precision Agriculture. In Q. Zhang (Ed.), Precision Agriculture Technology for Crop Farming (pp. 55-102). CRC Press.

Zheng, S., Wang, Z., & Wachenheim, C. J. (2019). Technology adoption among farmers in Jilin Province, China: the case of aerial pesticide application. China Agricultural Economic Review, 11(1), 206-216.