Dynamic System Development: An Approach for Land Re-adjustment in Managing Slum Areas
Abstract
Land re-adjustment (LR) is a practical model in the management of land development in the urban development process. One of the most prominent issues in the management of slum improvement is the multiple ownership of the land. Most cities in developing countries, relocate and provide apartments for the inhabitants in handling a slum area. Tangerang City also has its problems in handling slums. In order to achieve sustainable development, we attempt to develop slum areas by considering three aspects: social acceptability, affordability, and environmental sustainability. The environmental aspect is analyzed by considering carbon footprint generated by community activities in the area with and without land re-adjustment. The Dynamics model then is chosen to formulate the relation between the availability of land, water resources, landfill capacity (landfill) and electricity supply capacity with consumption pattern of carbon footprint. There are major dynamic loops, namely: utility, population and housing causal loops. The dynamic model shows a causal link that population has generated the most variable loops, which then contribute to housing and utility needs. In managing slum areas, Land re-adjustment model is able to reduce carbon emissions to about 40 % compared to the other model from business as usual scenario.
Keywords: land re-adjustment, eco-design, social acceptability, affordability and environmental sustainability, dynamic model, carbon footprint
References
[1] S. Joshi, “Assesst of land governance a case study of urban land readjustment_Suresh Joshi,” 2014.
[2] M. R. Rahnama and M. Akbari, “Analysis the Status of Land Readjustment (LR) in Urban Development of Iranian Cities, A Case of Gonabad Neighborhood Garden,” Mediterr. J. Soc. Sci., vol. 7, no. 2, pp. 301–305, 2016.
[3] Bappenas, National Long-Term Development Plan 2005- 2025. Bappenas, 2007.
[4] Bappenas, Spatial Planning Proportion of Green Space in Urban Areas. 2007.
[5] Ministry of Housing, Housing & Settlement Area Slum Improvement. 2011.
[6] Mesi Shinta Dewi, Djoko M. Hartono, Setyo S. Moersidik, and Iwan Kustiwan, “Analytical Hierarchy Process for Decission Making in Managing Slum Area,” Int. J. Eng. Res., vol. V6, no. 04, 2017.
[7] A. Supriatna, “The Feasibility Study of Land Readjustment for Kampung Upgrading in Jakarta,” Earth, pp. 1–59, 2011.
[8] DLH, “Informasi Kinerja Pengelolaan Lingkungan Hidup Daerah,” Tangerang, 2018.
[9] M. S. Dewi, D. M. Hartono, S. S. Moersidik, and I. Kustiwan, “Green Housing Evaluation through Carbon Footprint Dynamic Model: Questioned the Urban Policy Sustainability,” 2010.
[10] Local Government of Tangerang Municipality, Walikota Decree concerning Slum and Squatter Area in Tangerang Municipality. 2016.
[11] M. R. Rahnama and M. Akbari, “Analysis the Status of Land Readjustment (LR) in Urban Development of Iranian Cities, A Case of Gonabad Neighborhood Garden,” Mediterr. J. Soc. Sci., no. August, 2016.
[12] P. N. Park, “Visitor ’ s Adaptability toward Natural Elements and Regulations in,” vol. 18, no. 2, pp. 227–240, 2010.
[13] Www.greenbuildingindex.org, “GBI AssesSment criteria,” Green Build. Index GBI Assess. Criteria Non-resid. Exist. Build., vol. 1.1, no. January, p. 17, 2011.
[14] M. Louwsma and M. Hartvigsen, “Land Consolidation and Land Readjustment for Sustainable Development – the Issues to be Addressed Land Consolidation and Land Readjustment for Sustainable Development – the Issues to Be Addressed (8973) Marije Louwsma, Christiaan Lemmen (Netherlands),” no. 8973, 2017.
[15] L. Chatterjee, “Housing Development in Nigeria,” no. Agency for international development, pp. 1–33, 1981.