Search results for " self-driving"

showing 6 items of 6 documents

Robust Discrete-Time Lateral Control of Racecars by Unknown Input Observers

2023

This brief addresses the robust lateral control problem for self-driving racecars. It proposes a discrete-time estimation and control solution consisting of a delayed unknown input-state observer (UIO) and a robust tracking controller. Based on a nominal vehicle model, describing its motion with respect to a generic desired trajectory and requiring no information about the surrounding environment, the observer reconstructs the total force disturbance signal, resulting from imperfect knowledge of the time-varying tire-road interface characteristics, presence of other vehicles nearby, wind gusts, and other model uncertainty. Then, the controller actively compensates the estimated force and as…

Settore ING-INF/04 - AutomaticaControl and Systems EngineeringAutonomous vehicles Estimation extended state observer (ESO) Force input-state estimation Mathematical models Observers racecars robust vehicle control self-driving Trajectory Uncertainty Vehicle dynamicsElectrical and Electronic EngineeringIEEE Transactions on Control Systems Technology
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Racecar Longitudinal Control in Unknown and Highly-Varying Driving Conditions

2020

This paper focuses on racecar longitudinal control with highly-varying driving conditions. The main factors affecting the dynamic behavior of a vehicle, including aerodynamic forces, wheel rolling resistance, traction force resulting from changing tire-road interaction as well as the occurrence of sudden wind gusts or the presence of persistent winds, are considered and assumed to have unknown models. By exploiting the theory on delayed input-state observers and using measurement data about the vehicle and wheel speeds, a dynamic filter that allows the online reconstruction of the above-mentioned unknown time-varying quantities is derived. Moreover, by exploiting the notion of effective tir…

Electronic speed controlTractive forceObserver (quantum physics)Computer Networks and CommunicationsComputer scienceRolling resistanceAerospace EngineeringAerodynamicsVehicle dynamicsAerodynamic forceNoiseautonomous Vehicles input-state estimation racecars Self-drivingSettore ING-INF/04 - AutomaticaControl theoryWind gustAutomotive EngineeringElectrical and Electronic EngineeringIEEE Transactions on Vehicular Technology
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Towards the Design of Robotic Drivers for Full-Scale Self-Driving Racing Cars

2019

Autonomous vehicles are undergoing a rapid development thanks to advances in perception, planning and control methods and technologies achieved in the last two decades. Moreover, the lowering costs of sensors and computing platforms are attracting industrial entities, empowering the integration and development of innovative solutions for civilian use. Still, the development of autonomous racing cars has been confined mainly to laboratory studies and small to middle scale vehicles. This paper tackles the development of a planning and control framework for an electric full scale autonomous racing car, which is an absolute novelty in the literature, upon which we report our preliminary experim…

0209 industrial biotechnologyAutomotive self-driving car control roboticsbusiness.industryComputer scienceScale (chemistry)Control (management)Automotive industryRobotics02 engineering and technologyTrack (rail transport)Vehicle dynamicsModel predictive control020901 industrial engineering & automationSettore ING-INF/04 - Automatica020204 information systems0202 electrical engineering electronic engineering information engineeringSystems engineeringArtificial intelligencebusiness2019 International Conference on Robotics and Automation (ICRA)
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A Planning and Control System for Self-Driving Racing Vehicles

2018

Autonomous robots will soon enter our everyday life as self-driving cars. These vehicles are designed to behave according to certain sets of cooperative rules, such as traffic ones, and to respond to events that might be unpredictable in their occurrence but predictable in their nature, such as a pedestrian suddenly crossing a street, or another car losing control. As civilian autonomous cars will cross the road, racing autonomous cars are under development, which will require superior Artificial Intelligence Drivers to perform in structured but uncertain conditions. We describe some preliminary results obtained during the development of a planning and control system as key elements of an A…

Operations researchRenewable Energy Sustainability and the EnvironmentComputer scienceControl (management)Energy Engineering and Power TechnologyComputer Science Applications1707 Computer Vision and Pattern RecognitionAutonomous robots self-driving vehicles racing robotics challengePedestrianIndustrial and Manufacturing EngineeringCompetition (economics)self-driving vehiclesAutonomous robotracingComputer Networks and CommunicationSettore ING-INF/04 - AutomaticaArtificial IntelligenceAutonomous robotsControl systemself-driving vehicleTrajectoryKey (cryptography)Robotrobotics challengeEveryday lifeInstrumentation2018 IEEE 4th International Forum on Research and Technology for Society and Industry (RTSI)
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Robust Control of Nonlinear Systems: An Unknown Input Observer Based Approach

2023

Questa tesi propone un controllore robusto per sistemi non lineari tramite l'utilizzo di un osservatore ad ingressi sconosciuti. Attraverso un'opportuna riformulazione dinamica del modello, un generico sistema non lineare viene descritto come la somma di due funzioni, la prima lineare e nota e la seconda altamente non lineare e sconosciuta, derivante dalla conoscenza imperfetta del modello dinamico, dei parametri, o di eventuali disturbi esogeni agenti sul sistema etc., modellabili come perturbazioni (disturbi) della funzione lineare. Questa semplificazione consente una vantaggiosa descrizione dinamica del sistema in forma matriciale. Le informazioni necessarie sono stimate attraverso l'uti…

Robust Control Nonlinear Control State Observer Disturbance Observer Flexible Robotics Compliance and Impedance Control self-driving carSettore ING-INF/04 - Automatica
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Robust Longitudinal Control of Self-Driving Racecar Models

2022

This paper focuses on the control of longitudinal self-driving racecar models with model uncertainty and pro- poses a robust solution that comprises an online disturbance estimator and a nonlinear compensation control feedback law. By modeling all uncertainty with respect to a nominal model as suitably disturbance signals and afterward exploiting unknown- input state observer theory, a lean and fast estimator is derived for the racecar model. The estimator does not require a priori knowledge of the uncertainty. Closed-loop stability of the proposed controller ensuring the asymptotic reconstruction of the system state and disturbance inputs as well as asymptotic tracking of desired longitudi…

Racecar control self-driving robotics
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