References
- Adam, M., Marwa, T., Thamrin, K. H., & Bashir, A. (2017). Analysis of rice distribution in South Sumatera, Indonesia. International Journal of Economics and Financial Issues, 7(3), 166–171. https://econjournals.com/index.php/ijefi/article/view/4528/pdf
- Alfa, B. N., & Subagyo, S. (2018). Analysis of rice supply chain mechanism with simulation approach. IPTEK Journal of Proceedings Series, 3(1), 37–44. https://doi.org/https://doi.org/10.12962/j23546026.y2018i3.3704
- Andreas, D. (2019). Produksi Beras Nasional Turun pada 2019 [National rice production declines in 2019]. https://www.ayobandung.com/read/2020/02/07/78771/produksi-beras-nasional-turun-pada-2019
- Armendáriz, V., Armenia, S., & Atzori, A. S. (2016). Systemic analysis of food supply and distribution systems in city-region systems: An examination of FAO’s policy guidelines towards sustainable agri-food systems. Agriculture, 6(4), 65–83. https://doi.org/https://doi.org/10.3390/agriculture6040065
- Aronson, D., & Angelaki, D. (2018). The system thinker – Step-by-step stocks and flows: Converting from causal loop diagrams. https://thesystemsthinker.com/step-by-step-stocks-and-flows-converting-from-causal-loop-diagrams
- Aslam, T., & Ng, A. H. (2015, December). Strategy evaluation using system dynamics and multi-objective optimization for an internal supply chain. In 2015 Winter Simulation Conference (WSC) (pp. 2033–2044). IEEE.
- Bala, B. K., Bhuiyan, M. G. K., Alam, M. M., Arshad, F. M., Sidique, S. F., & Alias, E. F. (2017). Modelling of supply chain of rice in Bangladesh. International Journal of Systems Science: Operations & Logistics, 4(2), 181–197. https://doi.org/https://doi.org/10.1080/23302674.2016.1179813
- Barlas, Y. (1996). Formal aspects of model validity and validation in system dynamics. System Dynamics Review, 12(3), 183–210. https://doi.org/https://doi.org/10.1002/(SICI)1099-1727(199623)12:3<183::AID-SDR103>3.0.CO;2-4
- BPS (Badan Pusat Statistik). (2015). Produksi Padi Menurut Provinsi (Ton) Tahun 1993-2015 [Rice production by Province in 1993-2015]. https://www.bps.go.id/linkTableDinamis/view/id/865
- BPS (Badan Pusat Statistik). (2016). Rata-Rata Harga Gabah Menurut Kelompok Kualitas dan HPP di Tingkat Petani dan Tingkat Penggilingan (Rupiah/kg) [Average grain prices by quality and HPP (Cost of goods sold) group at Farmer Level and Milling Level (IDR/kgs)]. https://www.bps.go.id/statictable/2014/10/20/1596/rata-rata-harga-gabah-menurut-kelompok-kualitas-dan-hpp-di-tingkat-petani-dan-tingkat-penggilingan-rupiah-kg-2000-2016.html
- BPS (Badan Pusat Statistik). (2017). NTP (Nilai Tukar Petani) nasional Agustus 2017 sebesar 101,60 atau naik 0,94 persen [National NTP (Farmer exchange rate) in August 2017 is 101.60 or up by 0.94 percent]. https://www.bps.go.id/pressrelease/2017/09/04/1388/ntp-nasional-agustus-2017-sebesar-101-60-atau-naik-0-94-persen-.html.
- BPS (Badan Pusat Statistik). (2018). Ringkasan Eksekutif Luas Panen dan Produksi Beras di Indonesia 2018 [Executive Summary of Harvested Area and Rice Production in Indonesia 2018]. https://www.bps.go.id/publication/2018/12/21/7faa198f77150c12c31df395/ringkasan-eksekutif-luas-panen-dan-produksi-beras-di-indonesia-2018.html
- BPS (Badan Pusat Statistik). 2019. Nilai Tukar Petani (NTP) Desember 2018 sebesar 103,16 atau naik 0,04 persen. Harga Gabah Kering Panen di Tingkat Petani naik 2,35 persen dan Harga Beras Medium di Penggilingan naik 2,03 persen [Farmer Exchange Rate (NTP) in December 2018 amounted to 103.16, up by 0.04 percent. Dry Paddy Grain prices at the Farmer Level rose 2.35 percent and Medium Rice Prices at Milling rose 2.03 percent]. https://www.bps.go.id/pressrelease/2019/01/02/1544/nilai-tukar-petani–ntp–desember-2018-sebesar-103-16-atau-naik-0-04-persen–harga-gabah-kering-panen-di-tingkat-petani-naik-2-35-persen-dan-harga-beras-medium-di-penggilingan-naik-2-03-persen.html.
- Brose, A., Fügenschuh, A., Gausemeier, P., Vierhaus, I., & Seliger, G. (2013). System dynamic enhancement for the scenario technique. ZIB-Report, 4(1), 13–24. https://opus4.kobv.de/opus4-zib/frontdoor/deliver/index/docId/1815/file/ZR-13-24.pdf
- Brzezina, N., Kopainsky, B., & Mathijs, E. (2016). Can organic farming reduce vulnerabilities and enhance the resilience of the European food system? A critical assessment using system dynamics structural thinking tools. Sustainability, 8(10), 971. https://doi.org/https://doi.org/10.3390/su8100971
- Chung, B. (2018). System dynamics modelling and simulation of the Malaysian rice value chain: Effects of the removal of price controls and an import monopoly on rice prices and self‐sufficiency levels in Malaysia. Systems Research and Behavioral Science, 35(3), 248–264. https://doi.org/https://doi.org/10.1002/sres.2477
- Eeaden.org. (2017). Maize value chain report. http://eaden.org/wp-content/uploads/2017/05/Maize-Value-Chain-Report-revised.pdf
- FAO (Food and Agriculture Organization of United Nations) (2013). Rice value chain analysis in Tamil Nadu, India. http://www.fao.org/3/i8367en/i8367en.pdf.
- Forrester, J. W. (1994). System dynamics, systems thinking, and soft OR. System Dynamics Review, 10(2–3), 245–256. https://doi.org/https://doi.org/10.1002/sdr.4260100211
- Garside, A. K., & Syaifullah, Y. (2012). Pola distribusi dan margin pemasaran beras di Jawa Timur [Distribution patterns and margin of rice marketing in East Java]. http://research-report.umm.ac.id/index.php/research-report/article/view/411.
- Goodman, M. (2006). Everyone’s problem to solve: Systems thinking cross-functionally. https://thesystemsthinker.com/everyones-problem-to-solve.
- Herjanto, E. (2008). Manajemen produksi dan operasi [Production and operations management] (2nd ed.). PT Gramedia Widiasarana, Indonesia.
- Hidayat, Y. R. (2016). Analisis stakeholders rantai pasok beras di Kabupaten Indramayu [Analysis of rice supply chain stakeholders in Indramayu Regency]. Jurnal Logika, 18(3), 55–60. http://jurnal.unswagati.ac.id/index.php/logika/article/download/220/141
- Hutahaean, L., & Hendayana, R. (2015). Perspektif sosial ekonomi pengembangan pertanian bio-industri berbasis padi [Socio-economic perspective of rice-based bio-industrial agriculture development]. https://www.slideshare.net/rachmathendayana/pertanian-bioindustri-berbasis-padi
- IFPRI, BAPPENAS, & ADB. (2019). Policies to support investment requirements of Indonesia’s food and agriculture development during 2020-2045. https://www.adb.org/sites/default/files/publication/534336/indonesia-food-agri-development-2020-2045.pdf
- Ishaq, M., Rumiati, A. T., & Permatasari, E. O. (2016). Analisis faktor-faktor yang mempengaruhi produksi padi di Provinsi Jawa Timur dengan metode regresi semiparametrik spline [Analysis of factors affecting rice production in East Jawa Province by the spline semiparametric regression method]. Sains Dan Seni ITS, 5(2), 1–6.http://ejurnal.its.ac.id/index.php/sains_seni/article/download/16992/3082
- Iswari, K. (2012). Kesiapan teknologi panen dan pascapanen padi dalam menekan kehilangan hasil dan meningkatkan mutu beras [Harvest technology and postharvest rice readiness in suppressing yield loss and improving rice quality]. Jurnal Litbang Pertanian, 31(2), 58–67. http://ejurnal.litbang.pertanian.go.id/index.php/jppp/article/view/552.
- Lane, D. C. (2000). Should system dynamics be described as a ‘hard’ or ‘deterministic’ systems approach? Systems Research and Behavioral Science, 17(1), 3–22. https://doi.org/https://doi.org/10.1002/(SICI)1099-1743(200001/02)17:1<3::AID-SRES344>3.0.CO;2-7
- Lokadata. (2017). Produksi padi nasional tahun 2010-2017 [National rice production in 2010-2017]. https://lokadata.beritagar.id/chart/preview/produksi-padi-nasional-2010-2017-1515999290.
- Lokollo, E. M. (2012). Indonesian agricultural commodity supply chain rate [Bunga Rampai Rantai Pasok Komoditas Pertanian Indonesia]. IPB Press.
- Lund, H., Arler, F., Østergaard, P. A., Hvelplund, F., Connolly, D., Mathiesen, B. V., & Karnøe, P. (2017). Simulation versus optimisation: Theoretical positions in energy system modelling. Energies, 10(7), 840. https://doi.org/https://doi.org/10.3390/en10070840
- Mariyono, J. (2014). Rice production in Indonesia: Policy and performance. Asia Pacific Journal of Public Administration, 36(2), 123–134. https://doi.org/https://doi.org/10.1080/23276665.2014.911489
- McRoberts, K. C., Nicholson, C. F., Blake, R. W., Tucker, T. W., & Padilla, G. D. (2013). Group model building to assess rural dairy cooperative feasibility in South-Central Mexico. International Food and Agribusiness Management Review, 16(3), 55–98. https://doi.org/http://dx.doi.org/10.22004/ag.econ.156459
- Nejat, A., & Damnjanovic, I. (2012). Agent-based modeling of behavioral housing recovery following disasters. Computer‐Aided Civil and Infrastructure Engineering, 27(10), 748–763. https://doi.org/https://doi.org/10.1111/j.1467-8667.2012.00787.x
- Newman, J., Velasco, M. A., Martín, L., & Fantini, A. M. (2003, July). A system dynamics approach to monitoring and evaluation at the country level: An application to the evaluation of malaria-control programs in Bolivia. Proceedings of the Fifth Biennial World Bank Conference on Evaluation and Development (pp. 1–16). Operations Evaluation Department.
- Nugraha, S. (2009). Rice quality evaluation in the Provinces of West Java, Central Java and East Java Results of the 2007 dry season harvest [Evaluasi Mutu Beras di Propinsi Jawa Barat, Jawa Tengah dan Jawa Timur Hasil Panen Musim Kemarau 2007]. Buletin Teknologi Pascapanen Pertanian, 5(1), 56–60.http://repository.pertanian.go.id/handle/123456789/3416
- Patiwiri, A. W. (2005). Partnership in efforts to increase quantity and quality of rice production [Kemitraan Dalam Upaya Peningkatan Kuantitas dan Kualitas Produksi Padi]. In Prosiding Lokakarya Nasional (pp. 15–32). Institut Pertanian Bogor (IPB).
- PUSDATIN (Pusat Data dan Sistem Informasi Pertanian). (2016). Outlook: Food crop subsector agriculture commodities [Komoditas Pertanian Subsektor Tanaman Pangan]. http://perpustakaan.bappenas.go.id/lontar/file?file=digital/166966-[_Konten_]-Konten%20D1883.pdf
- Putra, S., & Haryati, Y. (2018). Study of productivity and farmers response to new superior varieties rice in Sukabumi Regency, West Java. Journal of Agricultural Technology Study and Development [Kajian Produktivitas dan Respon Petani Terhadap Padi Varietas Unggul Baru di Kabupaten Sukabumi Jawa Barat]. Jurnal Pengkajian Dan Pengembangan Teknologi Pertanian, 21(1), 1–10.http://repository.pertanian.go.id/handle/123456789/1964
- Qudrat-ullah, H. (2012). On the validation of system dynamics type simulation model. Telecommunication Systems, 51(2–3), 159–166. https://doi.org/https://doi.org/10.1007/s11235-011-9425-4
- Schuh, G. (2014). Optimization in manufacturing systems, fundamentals. In The International Academy for Production Engineering, L. Laperrière, & G. Reinhart (Eds.), CIRP encyclopedia of production engineering. Berlin, Heidelberg: Springer. https://doi.org/https://doi.org/10.1007/978-3-642-20617-7_6682
- Sharma, V., Giri, S., & Rai, S. S. (2013). Supply chain management of rice in India: A rice processing company’s perspective. International Journal of Managing Value and Supply Chains (IJMVSC), 4(1), 25–36. https://doi.org/https://doi.org/10.5121/ijmvsc.2013.4103
- Shi, T., & Gill, R. (2005). Developing effective policies for the sustainable development of ecological agriculture in China: The case study of Jinshan. Ecological Economics, 53(2), 223–246. https://doi.org/https://doi.org/10.1016/j.ecolecon.2004.08.006
- Silalahi, N. H., Yudha, R. O., Dwiyanti, E. I., Zulvianita, D., Feranti, S. N., & Yustiana, Y. (2019). Government policy statements related to rice problems in Indonesia: Review. Journal of Biological Science, 3(1), 35–41.http://journals.itb.ac.id/index.php/3bio/article/viewFile/8863/3856
- Siskaperbapo. (2013). Grafik Harga Beras Konsumen 30 Hari dari Tanggal Terpilih [Consumer Price Chart for Rice 30 Days from the Selected Date]. http://siskaperbapo.com/harga/grafik/?tanggal=2013-01-16&kabkota=surabayakota&pasar=&bhnpokok=01
- Sterman, J. D. (2000). Business dynamics: Systems thinking and modeling for a complex world. McGraw-Hill.
- Sudana, W., Sudiono, S., & Sujatmo. (2002). Perilaku Perberasan di Jawa Timur [Rice Behaviour in East Java]. SOCA: Jurnal Sosial Ekonomi Pertanian, 2(2), 1–25.https://ojs.unud.ac.id/index.php/soca/article/download/4011/3000
- Sumbogodjati, G. (2020). Kementan Jaga Harga Beras saat Panen Raya Melalui Kostraling [Ministry of Agriculture Maintains Price of Rice when Harvesting Through Kostraling]. https://kilaskementerian.kompas.com/kementan/read/2020/04/04/132532626/kementan-jaga-harga-beras-saat-panen-raya-melalui-kostraling.
- Suoth, O., Sumarauw, J., & Karuntu, M. (2017). Analisis desain jaringan supply chain komoditas beras di Desa Karondoran Kecamatan Langowan Timur Kabupaten Minahasa [Analysis of supply chain network design for rice commodities in Karondoran Village, Langowan Timur District, Minahasa Regency]. Jurnal EMBA, 5(2), 511–519.https://ejournal.unsrat.ac.id/index.php/emba/article/download/15716/15229
- Suryani, E. (2011). Dynamic simulation model of demand forecasting and capacity planning. Proceedings of the annual meeting of science and technology studies (AMSTECS’11). http://personal.its.ac.id/files/pub/4540-erma-is-Erma%20Amstecs%20FPaper%20Submit.pdf.
- Suryani, E., Chou, S. Y., & Chen, C. H. (2010). Air passenger demand forecasting and passenger terminal capacity expansion: A system dynamics framework. Expert Systems with Applications, 37(3), 2324–2339. https://doi.org/https://doi.org/10.1016/j.eswa.2009.07.041
- Suryani, E., Hendrawan, R. A., Mulyono, T., & Dewi, L. P. (2014). System dynamics model to support rice production and distribution for food security. Jurnal Teknologi (Sciences and Engineering), 68(3), 45–51. https://doi.org/https://doi.org/10.11113/jt.v68.2928
- This requires East Java Province to continue increasing its rice production for the achievement of food self-sufficiency, generally for Indonesia and specifically for the people of East Java. Ishaq et al., 2016
- Thahir, R. (2002). Tinjauan penelitian peningkatan kualitas beras melalui perbaikan teknologi penyosohan [Review of research on improving the quality of rice through improvement in milling technology]. Seminar Jatidiri, Balai Besar Pengembangan Alat dan Mesin Pertanian.
- Venter, G. (2010). Review of Optimization Techniques. Encyclopedia of Aerospace Engineering, 1–12. https://doi.org/https://doi.org/10.1002/9780470686652.eae495
- Walters, J. P., Archer, D. W., Sassenrath, G. F., Hendrickson, J. R., Hanson, J. D., Halloran, J. M., Vadas, P., & Alarcon, V. J. (2016). Exploring agricultural production systems and their fundamental components with system dynamics modelling. Ecological Modelling, 333(1), 51–65. https://doi.org/https://doi.org/10.1016/j.ecolmodel.2016.04.015
- Wang, Z., & Deisboeck, T. S. (2013). Agent-based modeling. Springer.
- Wibowo, A. D., Moeis, A. O., Wiguna, C. B., & Chaulan, T. A. (2015). Policy model of production and price of rice in Kalimantan Selatan. Agriculture and Agricultural Science Procedia, 3(1), 266–273. https://doi.org/https://doi.org/10.1016/j.aaspro.2015.01.051
- Widowati, S. (2001). Pemanfaatan hasil samping penggilingan padi dalam menunjang sistem agroindustri di pedesaan [The utilization of by-products of rice milling in supporting agro-industry systems in rural areas]. Bulletin AgroBio, 4(1), 33–38.https://docplayer.info/44507500-Pemanfaatan-hasil-samping-penggilingan-padi-dalam-menunjang-sistem-agroindustri-di-pedesaan.html
- Wiguna, I. M. A., Susrusa, K. B., & Udayani, P. (2016). Analisis kelayakan usaha penyosohan padi menggunakan mesin pengering berbahan bakar sekam di UD Sari Uma Bali [Feasibility analysis of rice hulling business using husk-fueled dryers at UD Sari Uma Bali]. E-Journal Agribisnis Dan Agrowisata, 5(1), 1–10.https://ojs.unud.ac.id/index.php/JAA/article/download/18661/12126
- Wurbs, R. A. (1993). Reservoir-system simulation and optimization models. Journal of Water Resources Planning and Management, 119(4), 455–472. https://doi.org/https://doi.org/10.1061/(ASCE)0733-9496(1993)119:4(455)
- Xu, J., Huang, E., Hsieh, L., Lee, L. H., Jia, Q. S., & Chen, C. H. (2017). Simulation optimization in the era of Industrial 4.0 and the Industrial Internet. Journal of Simulation, 10(4), 310–320. https://doi.org/https://doi.org/10.1057/s41273-016-0037-6
- Yusuf, S. (2016). jawa timur surplus padi 4,94 juta ton [East Java paddy surplus of 4.94 million tons]. https://www.beritasatu.com/nasional/349690-jawa-timur-surplus-padi-494-juta-ton.