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2-dimensional human-like driver model for autonomous vehicles in mixed traffic
journal contribution
posted on 2021-03-18, 11:40 authored by MN Sharath, NR Velaga, Mohammed Quddus© The Institution of Engineering and Technology 2020. Classical artificial potential approach of motion planning is extended for emulating human driving behaviour in two dimensions. Different stimulus parameters including type of ego-vehicle, type of obstacles, relative velocity, relative acceleration, and lane offset are used. All the surrounding vehicles are considered to influence drivers' decisions. No emphasis is laid on vehicle control; instead, an ego vehicle is assumed to reach the desired state. The study is on human-like driving behaviour modelling. The developed motion planning algorithm formulates repulsive and attractive potentials in a data-driven way in contrast to the classical arbitrary formulation. Interaction between the stimulus parameters is explicitly considered by using multivariate cumulative distribution functions. Comparison of two-dimensional (lateral and longitudinal) performance indicators with a baseline model and generative adversarial networks indicate the effectiveness and suitability of the developed motion planning algorithm in the mixed traffic environment.
History
School
- Architecture, Building and Civil Engineering
Published in
IET Intelligent Transport SystemsVolume
14Issue
13Pages
1913 - 1922Publisher
WILEYVersion
- AM (Accepted Manuscript)
Rights holder
© 2020 The Institution of Engineering and TechnologyPublisher statement
This paper was accepted for publication in the journal IET Intelligent Transport Systems and the definitive published version is available at https://doi.org/10.1049/iet-its.2020.0297Acceptance date
2020-12-09Publication date
2021-01-13Copyright date
2020ISSN
1751-956XeISSN
1751-9578Publisher version
Language
- en
Depositor
Prof Mohammed Quddus. Deposit date: 16 March 2021Usage metrics
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No categories selectedKeywords
road trafficroad safetydriver information systemsroad vehiclespath planningmobile robotstraffic engineering computingcollision avoidancedriver modelautonomous vehiclesclassical artificial potential approachhuman driving behaviourdifferent stimulus parameters including typeego-vehiclerelative velocityrelative accelerationdriversvehicle controlego vehicledesired statebehaviour modellingdeveloped motion planning algorithmattractive potentialsclassical arbitrary formulationmultivariate cumulative distribution functionsbaseline modelmixed traffic environmentScience & TechnologyTechnologyEngineering, Electrical & ElectronicTransportation Science & TechnologyEngineeringTransportationCAR-FOLLOWING MODELOF-THE-ARTBEHAVIORSFRAMEWORKDECISIONSYSTEMLogistics & TransportationElectrical and Electronic Engineering
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