Forecasting coal demand needs is important to minimize operational costs. Forecasting will help companies determine the right amount and time to order coal from suppliers. Research on coal forecasting in Indonesia generally uses a statistical approach and has not analyzed the performance of other forecasting models. This research aims to forecast coal demand using statistical and machine learning methods, namely ARIMA, Exponential Smoothing, Support Vector Regression (SVR), Recurrent Neural Network (RNN) and Long Short-Term Memory (LSTM). The evaluation methods used to analyze forecasting performance are Mean Absolute Error (MAE) and Mean Absolute Percentage Error (MAPE). The new coal demand data used is 1097 daily data taken from January 2021 to December 2022 in the form of a timeseries and is stationary which has been tested using Augmented Dickey-Fuller (ADF). The test results show that the ARIMA model has MAPE value of 5.11%, MAE 2.91 and R-Square 0.925, Exponential Smoothing MAPE 1.07%, MAE 0.55 and R-Square 0.997, SVR with MAPE value of 5.48%, MAE 3.16 and R-Square 0.88, RNN with MAPE value of 5.19%, MAE 2.91 and R-Square 0.896, LSTM with MAPE value of 4.83%, MAE 2.84 and R-Square 0.897. From the test results it was found that exponential smoothing had the smallest error values among the other models. With forecasting results that have a small error rate, it can help management in making decisions to minimize costs in coal ordering and warehouse management.

Aviso, A. (2023, 3 30). https://fitsmallbusiness.com. Retrieved 9 24, 2013, from https://fitsmallbusiness.com/inventory-carrying-cost/

Bank Indonesia. (2023, 7 25). https://www.bi.go.id/. (Bank) Retrieved 8 1, 2023, from https://www.bi.go.id/id/default.aspx

BPPT. (2013). Daya Dukung Pembangkit Listrik Tenaga Uap Bahan Bakar Batu Bara (ISBN 978-979-3733-97-5 ed.). (BPPT, Ed.) Badan Pengkajian dan Penerapan Teknologi.

Cecep Mochammad Yasin. (2021). Road Map Pengembangan dan Pemanfaatan Batubara 2021 - 2045. Jakarta: Direktorat Jenderal Mineral dan Batubara - 2021.

Chao, C., & Hui, L. (2020). Medium-term wind power forecasting based on multi-resolution multi learner ensemble and adaptive model selection. Energy And Confesion Energy.

Dai, Q., Fang, Y., & Yu, J. (2021). Research on Coal Price Forecast Based on Exponential Smothing Forecast and Multiple Linear Regression. Financial Engineering and Risk Management, 4, 59-63.

Dolphin, R. (2020, October 22). A Detailed Explanation. Retrieved Juni 19, 2023, from https://towardsdatascience.com/lstm-networks-a-detailed-explanation-8fae6aefc7f9

Effendi, M., & Rusdiansyah, A. (2020). Dynamic Simulation to Minimize Inventory Cost of Coal Considering Uncertainty Demand of Product. IPTEK Journal of Proceedings Series.

Geron, A. (2019). Hand On Machine Learning with Scikit-Learn, Keras and TensorFlow (5 ed.). United States of America: O’Reilly Media, Inc.

Kelleher, J., Mac Namee, B., & D’Arcy, A. (2020). Fundamentals of Machine Learning for Predictive Data Analytics, second edition: Algorithms, Worked Example and case studies. Second ed. ed. The MIT Press.

Kumar, V. (2023). Analytics Vidhya. Retrieved 10 26, 2023, from https://www.analyticsvidhya.com/blog/2021/06/statistical-tests-to-check-stationarity-in-time-series-part-1/

Laubscher, R. (2019). Time-series forecasting of coal-fired power plant reheater metal temperatures using encoder-decoder recurrent neural networks. Energy.

Putra, G., & Maulud, A. R. (2020). Peramalan Kebutuhan Batubara Menggunakan Metode Single Exponential Smooting di PT Solusi Bangun Andalas. joptimalisasi, 6(2 Oktober 2020), 2.

Putra, J. W. (2020). Pengenalan Konsep Pembelajaran Mesin dan Deep Learning (1.4 ed.). Tokyo, Jepang.

Rizki, M., Wenda, A., Umam, M. I., Hamzah, M. L., Pahlevi, F. D., & Sutoyo. (2021). Comparison of Four Time Series Forecasting Methods for Coal Material Supplies: Case Study of.

Saini, A. (2023, 7 7). analyticsvidhya. Retrieved 10 18, 2023, from https://www.analyticsvidhya.com/blog/2021/10/support-vector-machinessvm-a-complete-guide-for-beginners/

Sharma, Himanshu, Marinovici, Laurentiu, Adetola, Veronica, . . . T, H. (2023). Data-driven modeling of power generation for a coal power plant undercycling. Energy and AI.

Subagyo, P. (2004). Forcasting Konsep dan Aplikasi. In Forcasting Konsep dan Aplikasi.

Xiao, L., Li, M., & Zhang, S. (2022). Short-term power load interval forecasting based on nonparametric Bootstrap errors sampling. Energy Reports.