Intelligent Vehicles

This book presents the results of the successful Sensors Special Issue on Intelligent Vehicles that received submissions between March 2019 and May 2020. The Guest Editors of this Special Issue are Dr. David Fernández-Llorca, Dr. Ignacio Parra-Alonso, Dr. Iván García-Daza and Dr. Noelia Parra-Alo...

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Other Authors: Fernández-Llorca, David (Editor), Parra Alonso, Ignacio (Editor), García Daza, Iván (Editor), Parra, Noelia Hernández (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:
IMU
Online Access:DOAB: download the publication
DOAB: description of the publication
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100 1 |a Fernández-Llorca, David  |4 edt 
700 1 |a Parra Alonso, Ignacio  |4 edt 
700 1 |a García Daza, Iván  |4 edt 
700 1 |a Parra, Noelia Hernández  |4 edt 
700 1 |a Fernández-Llorca, David  |4 oth 
700 1 |a Parra Alonso, Ignacio  |4 oth 
700 1 |a García Daza, Iván  |4 oth 
700 1 |a Parra, Noelia Hernández  |4 oth 
245 1 0 |a Intelligent Vehicles 
260 |a Basel, Switzerland  |b MDPI - Multidisciplinary Digital Publishing Institute  |c 2020 
300 |a 1 electronic resource (752 p.) 
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520 |a This book presents the results of the successful Sensors Special Issue on Intelligent Vehicles that received submissions between March 2019 and May 2020. The Guest Editors of this Special Issue are Dr. David Fernández-Llorca, Dr. Ignacio Parra-Alonso, Dr. Iván García-Daza and Dr. Noelia Parra-Alonso, all from the Computer Engineering Department at the University of Alcalá (Madrid, Spain). A total of 32 manuscripts were finally accepted between 2019 and 2020, presented by top researchers from all over the world. The reader will find a well-representative set of current research and developments related to sensors and sensing for intelligent vehicles. The topics of the published manuscripts can be grouped into seven main categories: (1) assistance systems and automatic vehicle operation, (2) vehicle positioning and localization, (3) fault diagnosis and fail-x systems, (4) perception and scene understanding, (5) smart regenerative braking systems for electric vehicles, (6) driver behavior modeling and (7) intelligent sensing. We, the Guest Editors, hope that the readers will find this book to contain interesting papers for their research, papers that they will enjoy reading as much as we have enjoyed organizing this Special Issue 
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546 |a English 
650 7 |a History of engineering & technology  |2 bicssc 
653 |a tracking-by-detection 
653 |a multi-vehicle tracking 
653 |a Siamese network 
653 |a data association 
653 |a Markov decision process 
653 |a driving behavior 
653 |a real-time monitoring 
653 |a driver distraction 
653 |a mobile application 
653 |a portable system 
653 |a simulation test 
653 |a dynamic driving behavior 
653 |a traffic scene augmentation 
653 |a corridor model 
653 |a IMU 
653 |a vision 
653 |a classification networks 
653 |a Hough transform 
653 |a lane markings detection 
653 |a semantic segmentation 
653 |a transfer learning 
653 |a autonomous 
653 |a off-road driving 
653 |a tire-road forces estimation 
653 |a slip angle estimation 
653 |a gauge sensors 
653 |a fuzzy logic system 
653 |a load transfer estimation 
653 |a simulation results 
653 |a normalization 
653 |a lateral force empirical model 
653 |a driver monitor 
653 |a lane departure 
653 |a statistical process control 
653 |a fault detection 
653 |a sensor fault 
653 |a signal restoration 
653 |a intelligent vehicle 
653 |a autonomous vehicle 
653 |a kinematic model 
653 |a visual SLAM 
653 |a sparse direct method 
653 |a photometric calibration 
653 |a corner detection and filtering 
653 |a loop closure detection 
653 |a road friction coefficient 
653 |a tire model 
653 |a nonlinear observer 
653 |a self-aligning torque 
653 |a lateral displacement 
653 |a Lyapunov method 
653 |a automatic parking system (APS) 
653 |a end-to-end parking 
653 |a reinforcement learning 
653 |a parking slot tracking 
653 |a deceleration planning 
653 |a multi-layer perceptron 
653 |a smart regenerative braking 
653 |a electric vehicles 
653 |a vehicle speed prediction 
653 |a driver behavior modeling 
653 |a electric vehicle control 
653 |a driver characteristics online learning 
653 |a objects' edge detection 
653 |a stixel histograms accumulate 
653 |a point cloud segmentation 
653 |a autonomous vehicles 
653 |a scene understanding 
653 |a occlusion reasoning 
653 |a road detection 
653 |a advanced driver assistance system 
653 |a trajectory prediction 
653 |a risk assessment 
653 |a collision warning 
653 |a connected vehicles 
653 |a vehicular communications 
653 |a vulnerable road users 
653 |a fail-operational systems 
653 |a fall-back strategy 
653 |a automated driving 
653 |a advanced driving assistance systems 
653 |a illumination 
653 |a shadow detection 
653 |a shadow edge 
653 |a image processing 
653 |a traffic light detection 
653 |a intelligent transportation system 
653 |a lane-changing 
653 |a merging maneuvers 
653 |a game theory 
653 |a decision-making 
653 |a intelligent vehicles 
653 |a model predictive controller 
653 |a automatic train operation 
653 |a softness factor 
653 |a fusion velocity 
653 |a online obtaining 
653 |a hardware-in-the-loop simulation 
653 |a driving assistant 
653 |a driving diagnosis 
653 |a accident risk maps 
653 |a driving safety 
653 |a intelligent driving 
653 |a virtual test environment 
653 |a millimeter wave radar 
653 |a lane-change decision 
653 |a risk perception 
653 |a mixed traffic 
653 |a minimum safe deceleration 
653 |a automated driving system (ADS) 
653 |a sensor fusion 
653 |a multi-lane detection 
653 |a particle filter 
653 |a self-driving car 
653 |a unscented Kalman filter 
653 |a vehicle model 
653 |a Monte Carlo localization 
653 |a millimeter-wave radar 
653 |a square-root cubature Kalman filter 
653 |a Sage-Husa algorithm 
653 |a target tracking 
653 |a stationary and moving object classification 
653 |a localization 
653 |a LiDAR 
653 |a GNSS 
653 |a Global Positioning System (GPS) 
653 |a monte carlo 
653 |a autonomous driving 
653 |a robot motion 
653 |a path planning 
653 |a piecewise linear approximation 
653 |a multiple-target path planning 
653 |a autonomous mobile robot 
653 |a homotopy based path planning 
653 |a LiDAR signal processing 
653 |a sensor and information fusion 
653 |a advanced driver assistance systems 
653 |a autonomous racing 
653 |a high-speed camera 
653 |a real-time systems 
653 |a LiDAR odometry 
653 |a fail-aware 
653 |a sensors 
653 |a sensing 
653 |a percepction 
653 |a object detection and tracking 
653 |a scene segmentation 
653 |a vehicle positioning 
653 |a fail-x systems 
653 |a driver behavior modelling 
653 |a automatic operation 
856 4 0 |a www.oapen.org  |u https://mdpi.com/books/pdfview/book/3126  |7 0  |z DOAB: download the publication 
856 4 0 |a www.oapen.org  |u https://directory.doabooks.org/handle/20.500.12854/69334  |7 0  |z DOAB: description of the publication