Optimization of a Passive Parallelogram Suspension System for a Planetary Rover Using Differential Evolution

Optimization of a Passive Parallelogram Suspension System for a Planetary Rover Using Differential Evolution

This work presents the optimization process of a passive suspension system for a rover mobile robot. It is based on the development of a quasi-static analysis, where the value of the normal forces and torques of the wheels that allow the system to be in equilibrium in different positions is calculat...

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Veröffentlicht in:Revista IEEE América Latina 2021-08, Vol.19 (8), p.1366-1374
Hauptverfasser: Aguirre-Anaya, Jose Alejandro, Gutierrez-Frias, Octavio, Sossa-Azuela, Humberto
Format: Artikel
Sprache:eng
Schlagworte:
evolutionary algorithm
Evolutionary algorithms
Evolutionary computation
Force distribution
Friction reduction
Kinematics
Measurement
Media
Mobile robots
Multibody systems
Optimization
Optimization method
Parameter modification
Planetary evolution
Planetary rover
quasistatic analysis
Robots
Space vehicles
Static models
Stress concentration
Suspension systems
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Beschreibung
Zusammenfassung:This work presents the optimization process of a passive suspension system for a rover mobile robot. It is based on the development of a quasi-static analysis, where the value of the normal forces and torques of the wheels that allow the system to be in equilibrium in different positions is calculated using a bidimensional static model and the friction required metric. To minimize the metric, the differential evolution algorithm is used to find kinematic parameters of the mechanism. The optimized parameters are tested in three different terrains using multibody simulation. Results confirmed that modifying the kinematic parameters to alter the normal force distribution reduce the friction available at the wheelterrain interfaces required to overcome the obstacles, thus improving rover mobility.
ISSN:1548-0992
1548-0992
DOI:10.1109/TLA.2021.9475867