In general, the population in Indonesia is a farmer. This causes farmers to need information about the weather to carry out agricultural activities. One way to obtain information about the weather is to use the Rain Gauge instrument. In this study, the Rain Gauge instrument at LAPAN Kototabang from 2020 to 2021 was compared with the Optical Rain Gauge instrument. This research uses descriptive research with secondary data in the form of rainfall intensity data that has been measured on the Rain Gauge and Optical Rain Gauge from LAPAN Kototabang. This research was conducted to analyze the output data from the Rain Gauge and Optical Rain Gauge in the form of rainfall intensity, rainfall accumulation, and time. From the data analysis, two results can be stated from this research. First, the analysis of the rainfall parameter data that has been processed shows that the rainfall in Kototabang in January - October 2020 and 2021 has a high rainfall value. This causes the intensity of rainfall in Kototabang to be categorized as heavy rain. The two accumulations of rainfall in 2020 and 2021 in the Kototabang area are 497.031 mm and 0.602 mm using the Rain Gauge. While the measurement using Optical Rain Gauge rainfall intensity is 0.207 mm and 0.221 mm. This proves that the intensity of rainfall in 2020 is greater than the intensity of rainfall in 2021.

C. Dewi and M. Muslikh, “Perbandingan Akurasi Backpropagation Neural Network dan ANFIS Untuk Memprediksi Cuaca,” J. Sci. Model. Comput., vol. 1, no. 1, pp. 7–13, 2013.

A. S. Handayani, “Analisis Daerah Endemik Bencana Akibat Cuaca Ekstrim Di Sumatera Utara,” J. Meteorol. dan Geofis., vol. 11, no. 1, 2010, doi: 10.31172/jmg.v11i1.62.

N. Sembilan, “Perubahan Cuaca Dan Penyakit Denggi: Kajian Kes Di Daerah Seremban, Negeri Sembilan, Malaysia,” e-BANGI J. Soc. Sci. Humanit., vol. 6, no. 1, pp. 38–48, 2011.

D. S. Permana, “Analysis of Meteorological Data from Automatic Weather Monitors of Various Elevations and Radiosonde Data in Papua,” J. Meteorology and Geophysics., vol. 12, no. 2, pp. 151–162, 2011.

B. Prasetyo, H. Irwandi, and N. Pusparini, “Topografi Di Sumatera Variable Topography-Based Rainfall Characteristic in North Sumatera Intisari,” J. Sains Teknol. Modif. Cuaca, vol. 19, no. 1, pp. 11–20, 2018.

E. H. Turyanti, A., I. Sunnarsih., “Analisa Potensi Curah Hujan Berdasarkan Data Distribusi Awan dan Data Temperature Blackbody Di Kototabang Sumatera Barat,” J. Agromet Indones., vol. 21, no. 2, pp. 39–45, 2007.

E. Hermawan, “Analisis Perilaku Curah Hujan Di Atas Kototabang Saat Bulan Basah Dan Bulan Kering,” Pros. Semin. Nas., pp. 415–424, 2009.

T. M. Vitri, “Analisis pengaruh El Nino Southern Oscilation (ENSO) Terhadap Curah Hujan Di Koto Tabang Sumatera Barat,” J. Fis. Unand, vol. 3, no. 4, pp. 214–221, 2014.

Agyei, Y. G,, “Identification of the Optimum Rain Gauge Network Density for Hydrological Modelling Based on Radar,” Journal Water, vol 12, 1906, 2020.

B. H. . Tjasyono, Ilmu Kebumian dan Antariksa. 2006.

J. A. Nystuen, “Relative Performance of Automatic Rain Gauges under Different Rainfall Conditions,” J. Atmos. Ocean. Technol., vol. 16, pp. 1025–1943, 1998.

E. Q. Ajr and F. Dwirani, “Menentukan stasiun hujan dan curah hujan dengan metode polygon thiessen daerah Kabupaten Lebak,” J. Lingkung. dan Sipil, vol. 2, no. 2, pp. 139–146, 2019.

M. I. Azhar and W. F. Mahmudy, “Prediksi Curah Hujan Menggunakan Metode Adaptive Neuro Fuzzy Inference System ( ANFIS ),” vol. 2, no. 11, 2018.

Robert, J. Moore., Villarini, G., Pradeep V. M., and Witold F. Krajewski, “Rainfall and sampling uncertainties: A rain gauge perspective, ” Journal Of Geophysical Research, vol. 113, 2008.

B. Lakitan, Dasar-dasar Klimatologi. 2002.

S. S. Laksono, “Sistem Pengukur Curah Hujan Sebagai Deteksi Dini Kekeringan Pada Pertanian Berbasis Internet of Things,” vol. 20, no. 02, pp. 117–121, 2020.

S. Laserio, D. S., Asrizal, “Analisis Data Parameter Hujan Menggunakan Fitur Guide Pada Matlab Berdasarkan Hasil Pengukuran Instrumen Optical Rain Gauge (Org) Di Loka Pengamatan Atmosfer Kototabang Lapan,” Pillar Phys., pp. 89–96, 2014.

B. Nurpilihan, Masalah Erosi Di Indonesia Dan Siklus Hidrologi. 2000.

E. Habib, W. F. Krajewski, and A. Kruger, “Sampling Errors Of Tipping-Bucket Rain Gauge Measurements,” J. Hydrol. Eng., vol. 6, no. 2, pp. 159–166, 2001.

J. Wang, B. L. Fisher, and D. B. Wolff, “Estimating Rain Rates from Tipping-Bucket Rain Gauge Measurements,” J. Atmos. Ocean. Technol., vol. 25, pp. 43–56, 2008.