The world of robotics is currently developing; many robots are created to help humans work in carrying out daily activities. Various types of robots have been created, one of which is a type of robot that resembles a human body (humanoid). Humanoid robots are developing in many countries, including Indonesia. In its development, the walking technique is a major factor in making humanoid robots. Humanoid robots have the ability to walk like humans by balancing their body positions while walking, so they don’t fall. In maintaining this balance, a tilt detection system for the robot’s position and a balancing system is needed when the robot is about to fall. So, to overcome this problem, implementation is carried out using the sensor fusion method at the output of the sensors that are used to minimize noise or interference with the sensor output value. The accuracy of the sensor output value on the position angle tilt detector can help the robot provide a balancing act. By implementing a PD control system and sensor fusion consisting of a Kalman filter and a complementary filter, the robot was successfully carried up and down the plane to a maximum slope of 12 °.

D. P. Riananda. Algoritma Optimasi Lintasan Berjalan Untuk Robot Sepakbola Menyerupai Manusia Pada Rumput Sintetis. Surabaya, 2014.

A. H. Alasiry, N. F. Satria, and A. Sugiarto, "Balance Control of Humanoid Dancing Robot ERISA while Walking on Sloped Surface using PID," 2018 International Seminar on Research of Information Technology and Intelligent Systems (ISRITI), Yogyakarta, Indonesia, 2018, pp. 577-581, doi: 10.1109/ISRITI.2018.8864447.

Tang, Chong & Xu, Fang & Zou, Fengshan. (2017). A Stable Trot Strategy of Quadruped Robot Based on Capture Point. 427-431. 10.1109/CYBER.2017.8446191.

H. Z. Fahmi, R. Maulana, and W. Kurniawan, “Implementasi Complementary Filter Menggunakan Sensor Accelerometer dan Gyroscope pada Keseimbangan Gerak Robot Humanoid,” 2017 Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer, Malang, 2017, vol. 1, pp.1376-1384. e-ISSN: 2548-964X.

T. Islam, S. Islam, and S. U. Mahmud, "Comparison of Complementary and Kalman Filter based Data Fusion for Attitide Heading Reference System," 2017 Proceedings of the International Conference on Mechanical Engineering and Applied Science (ICMEAS), Dhaka, Bangladesh, 2017, pp.02002-1 untill 02002-0, doi : 10.1063/1.5018520.

E. H. Binugroho, D. Pratama, A. Z. R. Syahputra and D. Pramadihanto, "Control for balancing line follower robot using discrete cascaded PID algorithm on ADROIT V1 education robot," 2015 International Electronics Symposium (IES), Surabaya, 2015, pp. 245-250. doi: 10.1109/ELECSYM.2015.7380849.

Martin, D. I. H. Putri, Riyanto, and C. Machbub, “Gait Controllers on Humanoid Robot Using Kalman Filter and PD Controller,” 2018 International Conference on Control, Automation, Robotics and Vision (ICARCV), Singapore, 2018, pp.36-41, doi : 10.1109/ICARCV.2018.8581061.

S. Yuliani, H.M.Saputra, ”Kolaborasi Kalman Filter dengan Complementary Filter untuk Mengoptimasi Hasil Sensor Gyroscope dan Accelerometer,” 2107 ITENAS National Conference. Bandung, 2017, pp.63-67.

G. Welch and G. Bishop, “Kalman Filter.” An Introduction to the Kalman Filter”, University of North Carolina at Chapel Hill Department of Computer Science Chapel Hill, NC 27599-3175, February 2009.

Yufei Liu, Noboru Noguchi, Kazunobu Ishii, ”Development of a Low-cost IMU by Using Sensor Fusion for Attitude Angle Estimation“, Proceeding of International conference IFAC(International Federation of Automatic Control), volume 19, pages 4435-4440, 2014.

Dung Duong Quoc, Jinwei Sun, Van Nhu Le, and Lei Luo, “Complementary Filter Performance Enhancement through Filter Gain”, International Journal of Signal Processing, Image Processing and Pattern Recognition, vol. 8, No.7, pp.97-110, 2015.

R. E. Kalman, “A new approach to linear filtering and prediction problems”, Transactions of the ASME{Journal of Basic Engineering, volume 82, no. Series D, pages 35-45, 1960.

Sławomir ROMANIUK, Zdzisław GOSIEWSKI, “Kalman Filter Realization for Orientation and Position Estimation on Dedicated Processor”, Acta Mechanica et Automatica, vol.8 no.2 (2014).