Enhancing UAV elevator actuator model using multibody dynamics simulation

Akhmad Farid WIDODO; Fuad Surastyo PRANOTO; Idris Eko PUTRO; Effendi Dodi ARISANDI

doi:10.13111/2066-8201.2024.16.1.12

INCAS Bulletin (Mar 2024)

Enhancing UAV elevator actuator model using multibody dynamics simulation

Akhmad Farid WIDODO,
Fuad Surastyo PRANOTO,
Idris Eko PUTRO,
Effendi Dodi ARISANDI

Affiliations

Akhmad Farid WIDODO: Research Organization for Aeronautics and Space, National Research and Innovation Agency (BRIN), Jl. Pemuda Persil No. 1 Jakarta 13220 Indonesia, [email protected]
Fuad Surastyo PRANOTO: Research Organization for Aeronautics and Space, National Research and Innovation Agency (BRIN), Jl. Pemuda Persil No. 1 Jakarta 13220 Indonesia
Idris Eko PUTRO: Research Organization for Aeronautics and Space, National Research and Innovation Agency (BRIN), Jl. Pemuda Persil No. 1 Jakarta 13220 Indonesia
Effendi Dodi ARISANDI: Research Organization for Aeronautics and Space, National Research and Innovation Agency (BRIN), Jl. Pemuda Persil No. 1 Jakarta 13220 Indonesia

DOI: https://doi.org/10.13111/2066-8201.2024.16.1.12
Journal volume & issue: Vol. 16, no. 1
pp. 117 – 124

Abstract

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This paper proposes an improved actuator system model for UAV elevators using multibody dynamics simulation. The multibody dynamics simulation employs the Simscape Multibody, module in MATLAB coupled with Simulink to model the servo and hinge moment calculation. The actuator system comprises an electrical servo and mechanical components, including arms, push rods, horns, and the elevator. The electrical servo is modeled using a PID controller and a simplified motor model. The multibody dynamics simulation is employed to capture the dynamics of the mechanical components, coupled with the electrical servo through torque delivery to the mechanical components. The simulation is applied to the elevator of a medium altitude long endurance (MALE) UAV with a Maximum Take Off Weight of 1300 Kg. Generating these quantities provide a benefit in capturing the operational envelope of the servo to be compared to its limitations. Given the features of this simulation, it is proposed to extend the research by integrating this method with flight dynamics simulation.

Published in INCAS Bulletin

ISSN: 2066-8201 (Print); 2247-4528 (Online)
Publisher: National Institute for Aerospace Research “Elie Carafoli” - INCAS
Country of publisher: Romania
LCC subjects: Technology: Motor vehicles. Aeronautics. Astronautics
Website: http://bulletin.incas.ro

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