Search results for "Autonomous Driving"

showing 3 items of 3 documents

Semantic Analysis of the Driving Environment in Urban Scenarios

2021

Understanding urban scenes require recognizing the semantic constituents of a scene and the complex interactions between them. In this work, we explore and provide effective representations for understanding urban scenes based on in situ perception, which can be helpful for planning and decision-making in various complex urban environments and under a variety of environmental conditions. We first present a taxonomy of deep learning methods in the area of semantic segmentation, the most studied topic in the literature for understanding urban driving scenes. The methods are categorized based on their architectural structure and further elaborated with a discussion of their advantages, possibl…

Deep LearningMotion Compensation[INFO.INFO-CV] Computer Science [cs]/Computer Vision and Pattern Recognition [cs.CV]Conduite AutonomeAttention VisuelleApprentissage ProfondSemantic SegmentationMoving Object DetectionDétection d'objets en MouvementVisual AttentionCompensation de MouvementAutonomous DrivingSegmentation Sémantique
researchProduct

Development of a Simulator for Prototyping Reinforcement Learning-Based Autonomous Cars

2022

Autonomous driving is a research field that has received attention in recent years, with increasing applications of reinforcement learning (RL) algorithms. It is impractical to train an autonomous vehicle thoroughly in the physical space, i.e., the so-called ’real world’; therefore, simulators are used in almost all training of autonomous driving algorithms. There are numerous autonomous driving simulators, very few of which are specifically targeted at RL. RL-based cars are challenging due to the variety of reward functions available. There is a lack of simulators addressing many central RL research tasks within autonomous driving, such as scene understanding, localization and mapping, pla…

Human-Computer InteractionVDP::Teknologi: 500autonomous driving; simulators; reinforcement learningComputer Networks and CommunicationsCommunicationInformatics
researchProduct

Towards visual urban scene understanding for autonomous vehicle path tracking using GPS positioning data.

2019

This PhD thesis focuses on developing a path tracking approach based on visual perception and localization in urban environments. The proposed approach comprises two systems. The first one concerns environment perception. This task is carried out using deep learning techniques to automatically extract 2D visual features and use them to learn in order to distinguish the different objects in the driving scenarios. Three deep learning techniques are adopted: semantic segmentation to assign each image pixel to a class, instance segmentation to identify separated instances of the same class and, image classification to further recognize the specific labels of the instances. Here our system segme…

[INFO.INFO-OH] Computer Science [cs]/Other [cs.OH]Urban environment perceptionPerception de l'environnement urbainTraffic signsPath trackingAutonomous drivingSuivi de trajectoireConduite autonomeCnnPanneaux de signalisation
researchProduct