The high production of salak pondoh in Sleman Regency is not in line with the welfare of the farmers. The farmers receive a low price during the main harvest season, where the selling price per kilogram drops below the cost of production, so that the profit margins of farmers are not met. Abundant production during the main harvest and characteristics of perishable fruit are the cause of this problem, so that most farmers sell their crops to the nearest traders. This condition makes the bargaining position of farmers weak and the price determined by the traders, thus impacting on the decline in their welfare level. The purpose of this study is to formulate the salak pondoh business model in Sleman Regency in the form of dynamic simulations to carry out various scenarios of procuring business products based on raw materials in the form of fruit and waste from salak pondoh. The results of this simulation are expected to provide an alternative picture of solutions, steps, and conditions for academics, business people, and government in the form of a simulation template for each scenario. Data collection was carried out through direct observation to the salak pondoh place of business in Sleman Regency, brainstorming, interviews with related parties such as the salak pondoh association and the Sleman District Agriculture Office, and secondary data documentation on research topics. Scenarios of derivative business procurement (fruit and waste-based raw materials) provide a significant increase in income compared to business as usual business conditions, ranging from 4% - 44% in various fractions tested and up to 293% in extreme conditions and able to reduce the number of unemployed in Sleman Regency. The scenario of supplying derivative business made from pondoh salak fruit provides a significant increase in income compared to procurement of derivative business made from pondoh salak plant waste. It takes a probability value of sales of derivative products of more than 48.97% so that the revenue value from the business procurement scenario is greater than business as usual

BPS Kabupaten Sleman, Kabupaten Sleman dalam Angka 2017. Sleman: BPS Kabupaten Sleman, 2017.

M. P. Bimantio, “PERSPEKTIF SISTEM DINAMIS DALAM USAHA

PENINGKATAN PENDAPATAN INDUSTRI SALAK PONDOH DI KABUPATEN SLEMAN DENGAN SINERGI ACADEMIC-BUSINESS-GOVERNMENT (ABG),” in PROSIDING SEMINAR INSTIPER TAHUN 2018 Perkembangan Penelitian INSTIPER dalam Menanggapi Era Teknologi Maju Bidang Perkebunan I, 2018, pp. 145–158.

R. Thamrin, M. Runtuwene, and M. Sangi, “Production of Bio-Ethanol From Flesh Of Salak Fruit ( Salacca zalacca ),” J. Ilm. Sains, vol. 11, no. 2, pp. 249–252, 2011.

R. Hartono, Suprodjo, B. Rahardjo, and Tranggono, “The Respiration Modelling of Salacca (Salacca zalacca cv. Pondoh) Fruit Stored In The Modified Atmosphere Based on Enzyme Kinetics,” Agritech, vol. 23, no. 4, pp. 170–173, 1998.

D. Lin and Y. Zhao, “Innovations in the Development and Application of Edible Coatings for Fresh and Minimally Processed Fruits and Vegetables,” Compr. Rev. Food Sci. Food Saf., vol. 6, no. 3, pp. 60–75, 2007.

A. Setiyoko, “Sintesis dan Karakterisasi Carboxy Methyl Cellulose (CMC) Dari Biji Salak (Salacca edulis Reinw) Pondoh Super,” Universitas Gadjah Mada, 2016.

R. Pratiwi, F. B. Lestari, and D. Widianto, “Pemanfaatan Limbah Buah Salak Pondoh Sebagai Substrat Nata De Salacca Melalui Aplikasi Bioteknologi Di Dusun Tegal Domban, Sleman, Yogyakarta,” Indones. J. Community Engagem., vol. 1, no. 1, pp. 39– 52, 2015.

R. A. S. Lestari, W. B. Sediawan, S. Syamsiah, Sarto, and J. A. Teixeira, “Hydrogen sulfide removal from biogas using a salak fruit seeds packed.pdf,” J. Environ. Chem. Eng., vol. 4, pp. 2370–2377, 2016.

M. P. Bimantio, “System Dynamic Simulation of Salacca-Pondoh’s Business as Usual Condition in Sleman District, Yogyakarta Province, Indonesia,” J. Tek. Ind., vol. 21, no. 1, pp. 25–32, 2019.

H. Bouloiz, E. Garbolino, M. Tkiouat, and F. Guarnieri, “A system dynamics model for behavioral analysis of safety conditions in a chemical storage unit,” Saf. Sci., vol. 58, pp. 32–40, 2013.

R. Špicar, “System dynamics archetypes in capacity planning,” Procedia Eng., vol. 69, pp. 1350–1355, 2014.

O. Axella and E. Suryani, “Aplikasi Model Sistem Dinamik untuk Menganalisis Permintaan dan Ketersediaan Listrik Sektor Industri (Studi Kasus: Jawa Timur),” J. Tek. ITS, vol. 1, pp. 339–344, 2012.

N. Hasan, E. Suryani, and R. Hendrawan, “Analysis of Soybean Production and Demand to Develop Strategic Policy of Food Self Sufficiency: A System Dynamics Framework,” Procedia Comput. Sci., vol. 72, pp. 605–612, 2015.

A. M. Hasibuan, R. Nurmalina, and A. Wahyudi, “Policy Analysis of Cocoa Downstream Industry Development (A System Dynamic Approach),” Inform. Pertan., vol. 21, no. 2, pp. 59–70, 2012.

A. Blumberga, G. Bazbauers, P. Davidsen, D. Blumberga, A. Gravelsins, and T. Prodanuks, “System dynamics model of a biotechonomy,” J. Clean. Prod., pp. 1–15, 2016.

J. P. Walters et al., “Exploring agricultural production systems and their fundamental components with system dynamics modelling,” Ecol. Modell., vol. 333, pp. 51–65, 2016.

K. H. Widodo and D. Rembulan, “Basic Supply Chain Bawang Merah Daerah Istimewa Yogyakarta Dari Perspektif Sistem Dinamis,” INASEA, vol. 11, no. 2, pp. 87–95, 2010.

M. Aminudin, “Simulasi Model Sistem Dinamis Rantai Pasok Kentang dalam Upaya Ketahanan Pangan Nasional,” Univesitas Islam Negeri Syarif Hidayatullah, 2014.

N. Kusnadi and N. Tinaprilla, “Indonesia Rice Supply and Demand Dynamic Model,”

AFBE J., vol. 4, no. 2, pp. 502–520, 2011.

G. B. Hirsch, R. Levine, and R. L. Miller, “Using system dynamics modeling to understand the impact of social change initiatives,” Am. J. Community Psychol., vol. 39, no. 3–4, pp. 239–253, 2007.

J. D. Sterman, “Business Dynamics. System Thinking and Modeling for A Complex World,” McGraw-Hill Educ. Bost., no. January 2000, p. 982 pp, 2000.

F. Purba, “Analisis Kelayakan dan Efisiensi Usaha Agroindustri Salak Pondoh di Kecamatan Turi Kabupaten Sleman,” Universitas Gadjah Mada, 2015.

Gusti, “Mahasiswa UGM Kembangkan Kompor Bioetanol dari Limbah Salak Pondoh,” 2010. [Online]. Available: https://www.ugm.ac.id/id/berita/2689-mahasiswa.ugm.kembangkan.kompor.bioetanol.dari.limbah.salak.pondoh. [Accessed: 19-Dec-2017].

D. Willy, “Pemanfaatan Dahan Salak (Salacca Edulis) Untuk Komponen Interior Dan

Kerajinan,” 2012. [Online]. Available: https://apikayu.wordpress.com/2012/05/24/pemanfaatan-dahan-salak/. [Accessed: 19-Dec-2017].