Analysis of Stabilization Control in a Hexapod Robot: An Approach Utilizing MPU6050 and Kalman Filtering

Dennys Báez Sánchez; Julio Montesdeoca; Cisne Ortega Cabrera; Walter Orozco; Juan Marcos Toibero; Luis Serpa-Andrade

doi:10.1007/978-3-031-98290-3_9

Analysis of Stabilization Control in a Hexapod Robot: An Approach Utilizing MPU6050 and Kalman Filtering

Dennys Báez Sánchez
, Julio Montesdeoca
, Cisne Ortega Cabrera
, Walter Orozco
, Juan Marcos Toibero
, Luis Serpa-Andrade

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución de conferencia › revisión exhaustiva

Resumen

This paper presents a stabilization control system for the Freenove Big Hexapod robot, aimed at enhancing locomotion on uneven terrains. The system integrates an MPU6050 sensor for motion tracking, a Kalman filter to reduce sensor noise, and a PD controller to compensate for roll and pitch deviations. Designed for real-time operation, the system dynamically adjusts the robot’s posture to maintain stability during movement. Experimental validation was conducted on a custom-built inclined platform simulating various terrain conditions, demonstrating the system’s ability to reduce instability and maintain balance under moderate inclinations. While effective within specific limits, the results highlight areas for future improvement, including adaptive control techniques for handling steeper and more variable terrains. The proposed approach underscores the potential of stability-focused control systems in advancing robotic locomotion in complex environments.

Idioma original	Inglés
Título de la publicación alojada	Smart Technologies, Systems and Applications - 4th International Conference, SmartTech-IC 2024, Revised Selected Papers
Editores	Fabián R. Narváez, Micaela N. Villa, Gloria M. Díaz
Editorial	Springer Science and Business Media Deutschland GmbH
Páginas	112-124
Número de páginas	13
ISBN (versión impresa)	9783031982897
DOI	https://doi.org/10.1007/978-3-031-98290-3_9
Estado	Publicada - 2026
Evento	4th International Conference on Smart Technologies, Systems and Applications, SmartTech-IC 2024 - Quito, Ecuador Duración: 2 dic. 2024 → 4 dic. 2024

Serie de la publicación

Nombre	Communications in Computer and Information Science
Volumen	2393 CCIS
ISSN (versión impresa)	1865-0929
ISSN (versión digital)	1865-0937

Conferencia

Conferencia	4th International Conference on Smart Technologies, Systems and Applications, SmartTech-IC 2024
País/Territorio	Ecuador
Ciudad	Quito
Período	2/12/24 → 4/12/24

Nota bibliográfica

Publisher Copyright:
© The Author(s), under exclusive license to Springer Nature Switzerland AG 2026.

Acceder al documento

10.1007/978-3-031-98290-3_9

Otros archivos y enlaces

Enlace a la publicación en Scopus

Citar esto

Báez Sánchez, D., Montesdeoca, J., Ortega Cabrera, C., Orozco, W., Toibero, J. M., & Serpa-Andrade, L. (2026). Analysis of Stabilization Control in a Hexapod Robot: An Approach Utilizing MPU6050 and Kalman Filtering. En F. R. Narváez, M. N. Villa, & G. M. Díaz (Eds.), Smart Technologies, Systems and Applications - 4th International Conference, SmartTech-IC 2024, Revised Selected Papers (pp. 112-124). (Communications in Computer and Information Science; Vol. 2393 CCIS). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-031-98290-3_9

Báez Sánchez, Dennys ; Montesdeoca, Julio ; Ortega Cabrera, Cisne et al. / Analysis of Stabilization Control in a Hexapod Robot : An Approach Utilizing MPU6050 and Kalman Filtering. Smart Technologies, Systems and Applications - 4th International Conference, SmartTech-IC 2024, Revised Selected Papers. editor / Fabián R. Narváez ; Micaela N. Villa ; Gloria M. Díaz. Springer Science and Business Media Deutschland GmbH, 2026. pp. 112-124 (Communications in Computer and Information Science).

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abstract = "This paper presents a stabilization control system for the Freenove Big Hexapod robot, aimed at enhancing locomotion on uneven terrains. The system integrates an MPU6050 sensor for motion tracking, a Kalman filter to reduce sensor noise, and a PD controller to compensate for roll and pitch deviations. Designed for real-time operation, the system dynamically adjusts the robot{\textquoteright}s posture to maintain stability during movement. Experimental validation was conducted on a custom-built inclined platform simulating various terrain conditions, demonstrating the system{\textquoteright}s ability to reduce instability and maintain balance under moderate inclinations. While effective within specific limits, the results highlight areas for future improvement, including adaptive control techniques for handling steeper and more variable terrains. The proposed approach underscores the potential of stability-focused control systems in advancing robotic locomotion in complex environments.",

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author = "\{B{\'a}ez S{\'a}nchez\}, Dennys and Julio Montesdeoca and \{Ortega Cabrera\}, Cisne and Walter Orozco and Toibero, \{Juan Marcos\} and Luis Serpa-Andrade",

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Báez Sánchez, D, Montesdeoca, J, Ortega Cabrera, C, Orozco, W, Toibero, JM & Serpa-Andrade, L 2026, Analysis of Stabilization Control in a Hexapod Robot: An Approach Utilizing MPU6050 and Kalman Filtering. En FR Narváez, MN Villa & GM Díaz (eds.), Smart Technologies, Systems and Applications - 4th International Conference, SmartTech-IC 2024, Revised Selected Papers. Communications in Computer and Information Science, vol. 2393 CCIS, Springer Science and Business Media Deutschland GmbH, pp. 112-124, 4th International Conference on Smart Technologies, Systems and Applications, SmartTech-IC 2024, Quito, Ecuador, 2/12/24. https://doi.org/10.1007/978-3-031-98290-3_9

Analysis of Stabilization Control in a Hexapod Robot: An Approach Utilizing MPU6050 and Kalman Filtering. / Báez Sánchez, Dennys; Montesdeoca, Julio; Ortega Cabrera, Cisne et al.
Smart Technologies, Systems and Applications - 4th International Conference, SmartTech-IC 2024, Revised Selected Papers. ed. / Fabián R. Narváez; Micaela N. Villa; Gloria M. Díaz. Springer Science and Business Media Deutschland GmbH, 2026. p. 112-124 (Communications in Computer and Information Science; Vol. 2393 CCIS).

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución de conferencia › revisión exhaustiva

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T2 - 4th International Conference on Smart Technologies, Systems and Applications, SmartTech-IC 2024

AU - Báez Sánchez, Dennys

AU - Montesdeoca, Julio

AU - Ortega Cabrera, Cisne

AU - Orozco, Walter

AU - Toibero, Juan Marcos

AU - Serpa-Andrade, Luis

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Switzerland AG 2026.

PY - 2026

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N2 - This paper presents a stabilization control system for the Freenove Big Hexapod robot, aimed at enhancing locomotion on uneven terrains. The system integrates an MPU6050 sensor for motion tracking, a Kalman filter to reduce sensor noise, and a PD controller to compensate for roll and pitch deviations. Designed for real-time operation, the system dynamically adjusts the robot’s posture to maintain stability during movement. Experimental validation was conducted on a custom-built inclined platform simulating various terrain conditions, demonstrating the system’s ability to reduce instability and maintain balance under moderate inclinations. While effective within specific limits, the results highlight areas for future improvement, including adaptive control techniques for handling steeper and more variable terrains. The proposed approach underscores the potential of stability-focused control systems in advancing robotic locomotion in complex environments.

AB - This paper presents a stabilization control system for the Freenove Big Hexapod robot, aimed at enhancing locomotion on uneven terrains. The system integrates an MPU6050 sensor for motion tracking, a Kalman filter to reduce sensor noise, and a PD controller to compensate for roll and pitch deviations. Designed for real-time operation, the system dynamically adjusts the robot’s posture to maintain stability during movement. Experimental validation was conducted on a custom-built inclined platform simulating various terrain conditions, demonstrating the system’s ability to reduce instability and maintain balance under moderate inclinations. While effective within specific limits, the results highlight areas for future improvement, including adaptive control techniques for handling steeper and more variable terrains. The proposed approach underscores the potential of stability-focused control systems in advancing robotic locomotion in complex environments.

KW - Hexapod Robot

KW - Kalman Filter

KW - Locomotion

KW - MPU6050

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Báez Sánchez D, Montesdeoca J, Ortega Cabrera C, Orozco W, Toibero JM, Serpa-Andrade L. Analysis of Stabilization Control in a Hexapod Robot: An Approach Utilizing MPU6050 and Kalman Filtering. En Narváez FR, Villa MN, Díaz GM, editores, Smart Technologies, Systems and Applications - 4th International Conference, SmartTech-IC 2024, Revised Selected Papers. Springer Science and Business Media Deutschland GmbH. 2026. p. 112-124. (Communications in Computer and Information Science). doi: 10.1007/978-3-031-98290-3_9