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Power Consumption Modeling of Wheeled Mobile Robots With Multiple Driving Modes

Pushpendra Kumar, Ismail Bensekrane, Rochdi Merzouki

2022IEEE Transactions on Industrial Electronics17 citationsDOI

Abstract

Wheeled mobile robots (WMRs) are being used in many real-world applications. The main challenge in the deployment of WMRs is their limited battery power. In order to complete a given task autonomously, it becomes necessary to estimating a priori the total energy consumption for the task assigned to a WMR. An accurate power consumption model allows to estimate the energy consumption of a WMR. This article presents the power consumption modeling of WMRs using a power-based graphical modeling tool called bond graph. First, the dynamic bond graph model is developed for the generalized configuration of a WMR according to number and types of wheels attached in chassis. Then, the developed bond graph model is utilized for the power consumption modeling of a WMR. The proposed power consumption model includes the various driving modes of a WMR, by considering its degree of steerability. Finally, the proposed methodology is applied to a reconfigurable outdoor WMR with a degree of steerability varying from 0 to 2. The estimated power from the model is compared with the measured power from the experiments. Further, the proposed power model is used for the energy planning in a trajectory tracking task based on changing driving modes of a reconfigurable WMR.

Topics & Concepts

Mobile robotEnergy consumptionBond graphChassisComputer sciencePower (physics)GraphSimulationRobotEngineeringElectrical engineeringArtificial intelligenceMathematicsAerospace engineeringTheoretical computer sciencePhysicsQuantum mechanicsCombinatoricsControl and Dynamics of Mobile RobotsRobotic Path Planning AlgorithmsRobotic Locomotion and Control