Drought is a serious problem that often arises during the dry season. Hydrometeorologically, drought is caused by reduced rainfall in a certain period. Therefore, it is necessary to take the latest actions that can overcome this problem. This research aims to predict the potential for a drought to occur again in the Kupang City, Indonesia by developing a rainfall forecasting model. Incomplete daily local climate data for Kupang City is an obstacle in this analysis of rainfall forecasting. Data correction was then carried out through imputed missing values using the Kalman Filter method with Arima State-Space model. The Kalman Filter and Arima State-Space model (2,1,1) produces the best missing data imputation with a Root Mean Square Error (RMSE) of 0.930. The rainfall forecasting process is carried out using Statistical Downscaling with the Principal Component Regression (PCR) model that considers global atmospheric circulation from the Global Circular Model (GCM). The results showed that the PCR model obtained was quite good with a Mean Absolute Percent Error (MAPE) value of 2.81%. This model is used to predict the daily rainfall of Kupang City by utilizing GCM data.

Ananda, E. Y. P., & Wahyuni, M. S. (2021, November). Rainfall Forecasting Model Using ARIMA and Kalman Filter in Makassar, Indonesia. In Journal of Physics: Conference Series (Vol. 2123, No. 1, p. 012044). IOP Publishing.

Boesday, O. J., Kaho, L. M. R., & Effendi, J. (2020, November). An Analysis of Disaster Mitigation Readiness in Coastal Areas of Kupang City. In International Seminar on Sustainable Development in Country Border Areas (Vol. 2, No. 1, pp. 71-81).

Estiningtyas, W., & Wigena, A. H. (2011). Teknik statistical downscaling dengan regresi komponen utama dan regresi kuadrat terkecil parsial untuk prediksi curah hujan pada kondisi el nino, la nina, dan normal. Jurnal Meteorologi dan Geofisika, 12(1), 65-72.

Farikha, E. F., Hadi, A. F., Anggraeni, D., & Riski, A. (2021, May). Projection pursuit regression in statistical downscaling model using artificial neural network for rainfall prediction. In Journal of Physics: Conference Series (Vol. 1872, No. 1, p. 012021). IOP Publishing.

Field, R. D., Wang, Y., & Roswintiarti, O. (2004). A drought-based predictor of recent haze events in western Indonesia. Atmospheric Environment, 38(13), 1869-1878.

Gill, M. K., Asefa, T., Kaheil, Y., & McKee, M. (2007). Effect of missing data on performance of learning algorithms for hydrologic predictions: Implications to an imputation technique. Water resources research, 43(7), 1-12.

Kumar, A., & Goyal, P. (2011). Forecasting of air quality in Delhi using principal component regression technique. Atmospheric Pollution Research, 2(4), 436-444.

Mehta, W. A., & Sukmawaty, Y. (2021, November). Rainfall prediction climatological station of Banjarbaru using arima kalman filter. In Journal of Physics: Conference Series (Vol. 2106, No. 1, p. 012003). IOP Publishing.

Mursidi, A., & Sari, A. D. P. (2017). Management of drought disaster in Indonesia. Jurnal Terapan Manajemen dan Bisnis, 3(2), 165-171.

Rozaki, Z., Wijaya, O., Rahmawati, N., & Rahayu, L. (2021). Farmers’ disaster mitigation strategies in Indonesia. Reviews in Agricultural Science, 9, 178-194.

Sachindra, D. A., Ahmed, K., Rashid, M. M., Shahid, S., & Perera, B. J. C. (2018). Statistical downscaling of precipitation using machine learning techniques. Atmospheric research, 212, 240-258.

Sahriman, S., Djuraidah, A., & Wigena, A. H. (2014). Application of principal component regression with dummy variable in statistical downscaling to forecast rainfall. Open Journal of Statistics, 4(09), 678.

Susandi, A., Tamamadin, M., Djamal, E., & Las, I. (2015, September). Information system of rice planting calendar based on ten-day (Dasarian) rainfall prediction. In AIP Conference Proceedings (Vol. 1677, No. 1, p. 100002). AIP Publishing LLC.

Titu-Eki, A., & Kotta, H. Z. (2021). Environmental geology assessment on the regional Pitay landfill site: a case study in Kupang, Indonesia. SN Applied Sciences, 3(1), 1-13.

Yu, Z. P., Chu, P. S., & Schroeder, T. (1997). Predictive skills of seasonal to annual rainfall variations in the US affiliated Pacific islands: Canonical correlation analysis and multivariate principal component regression approaches. Journal of Climate, 10(10), 2586-2599.

Zulfi, M., Hasan, M., & Purnomo, K. D. (2018, April). The development rainfall forecasting using kalman filter. In Journal of Physics: Conference Series (Vol. 1008, No. 1, p. 012006). IOP Publishing.