Smart Agriculture Implementation Planning To Increase Rice Production And Reduce Greenhouse Gas Emissions Using System Dynamics Approach

Authors(2) :-Trigati Widyandari LW, Erma Suryani

Smart Agriculture addresses the challenges of food safety and climate change that are interconnected and benefits farmer by improving input efficiencies such as labor, seed, and fertilizer. Smart Agriculture includes agricultural practices by adopting the internet of things (IoT), sensors and others, to improve agricultural productivity while reducing greenhouse gas emissions from rice farming activities. In this study, the increase of rice production is modeled using a system dynamics to analyze current conditions and evaluate existing problems and provide alternative problem-solving scenarios. The increase of rice production was carried out by applying the smart agriculture concept.

Authors and Affiliations

Trigati Widyandari LW
Information Systems Department, Institut Teknologi Sepuluh Nopember, Surabaya, Indonesia
Erma Suryani
Information Systems Department, Institut Teknologi Sepuluh Nopember, Surabaya, Indonesia

Smart Agriculture, System Dynamics, Greenhouse Gas Emission, Productivity, Rice Production

  1. Investasi Sektor Pertanian di Propinsi Jawa Timur. Nugroho, Iwan and Hanani, Nuhfil . Malang : ResearchGate, 2007.
  2. Analisis Profitabilitas Usaha Tani Padi Pada Agroekosistem Lahan Sawah Irigasi Di Jawa Dan Luar Jawa Pedesaan Patanas. Nurasa, Tjetjep and Purwoto, Adreng. s.l. : Pusat Sosial Ekonomi dan Kebijakan Pertanian, 2011.
  3. PENGEMBANGAN MODEL SISTEM DINAMIK PEMENUHAN LOGISTIK BERAS UNTUK MENJAGA STABILITAS HARGA. Suprianto, Joko and Suryani, Erma. 1, Surabaya : ResearchGate, 2014, Vol. V.
  4. Pengembangan Model Rantai Pasok Produksi Beras Untuk Meningkatkan Ketahanan Pangan Dengan Menggunakan Sistem Dinamik. Muhandhis, Isnaini and Suryani, Erma. Surabaya : Prosiding Seminar Nasional Manajemen Teknologi XXIII, 2015.
  5. Identifying Factors Influencing Production and Rice Farming Income with Approach of Path Analysis. Alam, Max Nur and Effendy. Palu : American Journal of Agricultural and Biological Sciences, 2017.
  6. Sachchamarga , Kwinarajit and Williams, Gary W.ECONOMIC FACTORS AFFECTING RICE PRODUCTION IN THAILAND. Thailand : TAMRC International Research, 2004.
  7. A Study on Factors Affecting Rice Production in Malaysia. Amer, Afizan . Malaysia : International Conference on Arts, Social Sciences and Technology iCAST, 2010.
  8. PENGELOLAAN SUMBERDAYA IKLIM DAN AIR UNTUK ANTISIPASI PERUBAHAN IKLIM. Subagyono, Kasdi and Surmaini, Elsa. Bogor : JURNAL METEOROLOGI DAN GEOFISIKA, 2014.
  9. Badan Litbang Pertanian. Teknologi Mitigasi Gas Rumah Kaca (Grk) Dari Lahan Sawah. 21-27, 2011.
  10. Suryani, Erma.Pemodelan dan Simulasi. Surabaya : Graha Ilmu, 2006.
  11. Air passenger demand forecasting and passeer terminal capacity expantion: A system dynamics framework. Suryani, Erma, Chou, Shuo-Yan and Chen, Chih-Hsien. 37, s.l. : Expert System With Application, 2010.
  12. Sterman, John D.Business Dynamics Systems: Thinking and modeling for a complex world. s.l. : McGraw-Hill, 2000.
  13. Multiple tests for validation of system dynamics type of simulation models. Barlas, Yaman. 1, USA : European Journal of Operational Research, 1989, Vol. 42.
  14. FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATIONS (FAO). climate-smart agriculture. Food and Agriculture Organization Of The United Nations (FAO). [Online] 2017. http://www.fao.org/3/a-an177e.pdf.
  15. Sequential Adoption and Cost Savings from Precision Agriculture. Schimmelpfennig, David and Ebel, Robert . s.l. : Journal of Agricultural and Resource Economics, 2016. ISSN 1068-5502.
  16. Role Of Precision Farming For Sustainability Of Rice-Wheat Cropping System In Western Indo Gangetic Plains. Naresh, R. K. , et al. 2012, International Journal of Life Sciences Biotechnology and Pharma Research.
  17. Precision Agriculture Technologies Positively Contributing to GHG Emissions Mitigation, Farm Productivity and Economics. Balafoutis, Athanasios , Beck, Bert and Fount, Spyros . 2017, Sustainability.
  18. Paddy Water Management for Precision Farming of Rice. Amin, M. S. N, Wayayok, Aimrun and Rowshon, M. K. . 2011, ResearchGate.

Publication Details

Published in : Volume 3 | Issue 6 | July-August 2018
Date of Publication : 2018-08-30
License:  This work is licensed under a Creative Commons Attribution 4.0 International License.
Page(s) : 602-608
Manuscript Number : CSEIT1836115
Publisher : Technoscience Academy

ISSN : 2456-3307

Cite This Article :

Trigati Widyandari LW, Erma Suryani, "Smart Agriculture Implementation Planning To Increase Rice Production And Reduce Greenhouse Gas Emissions Using System Dynamics Approach ", International Journal of Scientific Research in Computer Science, Engineering and Information Technology (IJSRCSEIT), ISSN : 2456-3307, Volume 3, Issue 6, pp.602-608, July-August-2018.
Journal URL : http://ijsrcseit.com/CSEIT1836115

Article Preview

Follow Us

Contact Us