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Unmanned ground vehicles: adaptive control system for real-time rollover prevention

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dc.contributor.advisor Wang, Zenghui
dc.contributor.author Mlati, Malavi Clifford
dc.date.accessioned 2020-04-14T05:28:15Z
dc.date.available 2020-04-14T05:28:15Z
dc.date.issued 2019-10
dc.date.submitted 2020-04
dc.identifier.uri http://hdl.handle.net/10500/26367
dc.description.abstract Real-Time Rollover prevention of Unmanned Ground Vehicle (UGV) is very paramount to its reliability and survivability mostly when operating on unknown and rough terrains like mines or other planets.Therefore this research presents the method of real-time rollover prevention of UGVs making use of Adaptive control techniques based on Recursive least Squares (RLS) estimation of unknown parameters, in order to enable the UGVs to adapt to unknown hush terrains thereby increasing their reliability and survivability. The adaptation is achieved by using indirect adaptive control technique where the controller parameters are computed in real time based on the online estimation of the plant’s (UGV) parameters (Rollover index and Roll Angle) and desired UGV’s performance in order to appropriately adjust the UGV speed and suspension actuators to counter-act the vehicle rollover. A great challenge of indirect adaptive control system is online parameter identification, where in this case the RLS based estimator is used to estimate the vehicles rollover index and Roll Angle from lateral acceleration measurements and height of the centre of gravity of the UGV. RLS is suitable for online parameter identification due to its nature of updating parameter estimate at each sample time. The performance of the adaptive control algorithms and techniques is evaluated using Matlab Simulink® system model with the UGV Model built using SimMechanics physical modelling platform and the whole system runs within Simulink environment to emulate real world application. The simulation results of the proposed adaptive control algorithm based on RLS estimation, show that the adaptive control algorithm does prevent or minimize the likely hood of vehicle rollover in real time. en
dc.format.extent 1 online resource (ix, 86 leaves) : illustrations (chiefly color), graphs (chiefly color) en
dc.language.iso en en
dc.subject Adaptive control system en
dc.subject Unmanned ground vehicle en
dc.subject Roll angle en
dc.subject Rollover index en
dc.subject Recursive least squares en
dc.subject Lateral acceleration en
dc.subject Parameter estimation en
dc.subject.ddc 629.836
dc.subject.lcsh Adaptive control systems en
dc.subject.lcsh Vehicles, Remotely piloted en
dc.subject.lcsh Parameter estimation en
dc.subject.lcsh Real-time control en
dc.subject.lcsh Least squares en
dc.title Unmanned ground vehicles: adaptive control system for real-time rollover prevention en
dc.type Dissertation en
dc.description.department Electrical and Mining Engineering en
dc.description.degree M. Tech. (Electrical Engineering)


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