Abstrak: Saat ini, negara berkembang seperti India dan Indonesia mengalami peningkatan populasi penduduk di wilayah perkotaan sebagai dampak adanya urbanisasi. Peningkatan penduduk ini berkaitan erat dengan peningkatan lahan terbangun yang menjadi indikator adanya pertumbuhan perkotaan. Pertumbuhan perkotaan yang tidak terkendali dapat menyebabkan kerusakan pada ekosistem serta berbagai permasalahan keruangan. Oleh karena itu, diperlukan prediksi perubahan penggunaan lahan/tutupan lahan (LU/LC) sebagai masukan dalam kebijakan tata ruang yang berkelanjutan. Tujuan dari kajian ini adalah untuk melihat tren penelitian di India dan Indonesia serta melihat perbandingan pola perluasan lahan terbangun di Kota Kolkata, India dan Kota Mataram, Indonesia. Kajian ini dilakukan dengan metode studi literatur dan deskriptif komparatif prediksi perluasan lahan terbangun. Hasil dari penelitian ini adalah metode CA-MC dan remote sensing menjadi tren metode prediksi LU/LC di India dan Indonesia. Kota Kolkata, India dan Kota Mataram, Indonesia mengalami perluasan lahan terbangun yang polanya mengikuti pola pembangunan infrastruktur transportasi. Peningkatan luas lahan terbangun ini diimbangi dengan penurunan luas lahan pertanian.Harapannya penelitian ini dapat digunakan oleh pemangku kebijakan sebagai masukan perencanaan wilayah khususnya di Kota Mataram.

Abstract: Currently, developing countries such as India and Indonesia are experiencing an increase in population in urban areas as a result of urbanization. This increase in population is closely related to the increase in built-up land which is an indicator of urban growth. Uncontrolled urban growth can cause damage to ecosystems as well as various spatial problems. Therefore, it is necessary to predict changes in land use/land cover (LU/LC) as input for sustainable spatial planning policies. The purpose of this study is to look at research trends in India and Indonesia and to see a comparison of the expansion patterns of built-up land in the City of Kolkata, India and the City of Mataram, Indonesia. This study was carried out using the method of comparative descriptive and literature study in predicting the expansion of built-up land. The results of this study are that the CA-MC and remote sensing methods are becoming a trend in LU/LC prediction methods in India and Indonesia. The city of Kolkata, India and the city of Mataram, Indonesia experienced an expansion of built-up land whose pattern followed the pattern of transportation infrastructure development. The increase in built-up land area was offset by a decrease in agricultural land area.  Hopefully, this research can be used by policy makers as input for regional planning, especially in Mataram City.

Agustina, IH, Aji, RR, Fardani, I., Rochman, GP, Ekasari, AM, & Mohmed, FAJ (2022). Cellular Automata for Cirebon City Land Cover and Development Prediction. Journal of the Malaysian Institute of Planners VOLUME , 20 , 77–88.

Das, S., Kumar Shit, P., Bera, B., & Adhikary, PP (2022). Effect of urbanization on the dynamics of ecosystem services: An analysis for decision making in Kolkata urban agglomeration. Urban Ecosystems , 25 (5), 1541–1559. https://doi.org/10.1007/s11252-022-01246-3

Debnath, M., Islam, N., Gayen, SK, Roy, PB, Sarkar, B., & Ray, S. (2023). Prediction of spatio-temporal (2030 and 2050) land-use and land-cover changes in Koch Bihar urban agglomeration (West Bengal), India, using an artificial neural network-based Markov chain model. Modeling Earth Systems and Environment . https://doi.org/10.1007/s40808-023-01713-6

Ghani, GA, Dimyati, M., & Damayanti, A. (2021). Prediction of Land Cover and Land Surface Temperature in South Kuta Sub-district, Bali Province. International Journal on Advance Science Engineering Information Technology , 11 (1).

Hasnine, M., & Rukhsana. (2023). Spatial and Temporal Analysis of Land Use and Land Cover Change In and Around Kolkata City, India, Using Geospatial Techniques. Journal of the Indian Society of Remote Sensing . https://doi.org/10.1007/s12524-023-01669-1

Kumar, KS, Kumari, DKP, & Bhaskar, DPU (2016). Application of Markov Chain & Cellular Automata based model for prediction of Urban transitions. International Conference on Electrical, Electronics, and Optimization Techniques (ICEEOT) , 4007–4012.

Lisanyoto, L., Supriatna, & Sumadio, W. (2019). Spatial Model of Settlement Expansion and its Suitability to the Landscapes in Singkawang City, West Kalimantan Province. IOP Conference Series: Earth and Environmental Science , 338 (1).

https://doi.org/10.1088/1755-1315/338/1/012034

Mallick, SK, Rudra, S., & Maity, B. (2023). Unplanned urban built-up growth creates problems in human adaptability: Evidence from a growing up city in eastern Himalayan foothills. Applied Geography , 150 . https://doi.org/10.1016/j.apgeog.2022.102842

Naikoo, MW, Shahfahad, Talukdar, S., Ishtiaq, M., & Rahman, A. (2023). Modeling the built-up land expansion probability using the integrated fuzzy logic and coupling coordination degree model. Journal of Environmental Management 325 .

Prasetyo, A., Hendro Koestoer, R., & Waryono, T. (2016). Spatial Patterns of Urban Sprawl in Bodetabek: Study of the Application of the Shannon's Entropy Model. Gea. Journal of Geography Education , 16 (2).

Putri, IMG, Supriatna, Koestoer, RH, & Siwi, SE (2019). Model of land cover change with cellular automata, Mataram city, West Nusa Tenggara. IOP Conference Series: Earth and Environmental Science , 311 (1). https://doi.org/10.1088/1755-1315/311/1/012075

Ridwana, R., Sugandi, D., Arrasyid, R., Himayah, S., & Pamungkas, TD (2021). Multitemporal landsat image utilization for spatial prediction of built up area in tasikmalaya city, indonesia. IOP Conference Series: Earth and Environmental Science , 683 (1). https://doi.org/10.1088/1755-1315/683/1/012101

True, AW, Buchori, I., & Rudiarto, I. (2019). The spatio-temporal trends of urban growth and surface urban heat islands over two decades in the Semarang Metropolitan Region. Sustainable Cities and Society , 46 . https://doi.org/10.1016/j.scs.2019.101432

Supriatna, Mukhtar, MK, Wardani, KK, Hashilah, F., & Manessa, MDM (2022). CA-Markov Chain Model-based Predictions of Land Cover: A Case Study of Banjarmasin City. Indonesian Journal of Geography , 54 (3), 365–372. https://doi.org/10.22146/IJG.71721

Tupan, T., Rahayu, RN, Rachmawati, R., & Rahayu, ESR (2018). Bibliometric Analysis of Instrumentation Research Development. READ: JOURNAL OF DOCUMENTATION AND INFORMATION , 39 (2), 135. https://doi.org/10.14203/j.baca.v39i2.413

Yadav, V., & Ghosh, SK (2021). Assessment and prediction of urban growth for a mega-city using the CA-Markov model. Geocarto International , 36 (17), 1960–1992. https://doi.org/10.1080/10106049.2019.1690054