Abstract — Vehicle detection is a key problem in computer vision, with applications in driver assistance and active safety. A challenging aspect of the problem is the common occlusion of vehicles in the scene. In this paper, we present a vision-based system for vehicle localization and tracking for detecting partially visible vehicles. Consequently, vehicles are localized more reliably and tracked for longer periods of time. The proposed system detects vehicles using an active-learning based monocular vision approach and motion (optical flow) cues. A calibrated stereo rig is utilized to acquire a depth map, and consequently the real-world coordinates of each detected vehi-cle. Tracking is performed using a Kalman filter. The tracking is for...
This paper presents a computer vision-based approach to tracking surrounding vehicles and estimating...
Vehicle detection and tracking in road traffic surveillance is a classical task in computer vision a...
Many emerging applications in the field of assisted and autonomous driving rely on accurate position...
The proposed vision system detects partially visible vehicles using an active-learning based monocul...
This dissertation seeks to enable intelligent vehicles to see, to infer context, and to understand t...
Abstract—This paper provides a review of the literature in on-road vision-based vehicle detection, t...
Abstract—In this paper, we introduce vehicle detection by in-dependent parts (VDIP) for urban driver...
This paper presents a vision-based vehicle identification system which consists of object extraction...
Abstract—This paper describes a monocular vision-based Vehicle Recognition System in which the basic...
Computer-vision methods have recently been extensively used in intelligent transportation systems fo...
AbstractOn the basis of a cost-effective embedded system, this work implements a preceding vehicle d...
[[abstract]]This paper presents a vision-based vehicle identification system which consists of objec...
In this paper we present a computer vision system for daytime vehicle detection and localization, an...
Projet VIPAInternational audienceWe address the problem of vehicle (mobile robot) navigation by comb...
This paper presents a computer vision-based approach to tracking surrounding vehicles and estimating...
This paper presents a computer vision-based approach to tracking surrounding vehicles and estimating...
Vehicle detection and tracking in road traffic surveillance is a classical task in computer vision a...
Many emerging applications in the field of assisted and autonomous driving rely on accurate position...
The proposed vision system detects partially visible vehicles using an active-learning based monocul...
This dissertation seeks to enable intelligent vehicles to see, to infer context, and to understand t...
Abstract—This paper provides a review of the literature in on-road vision-based vehicle detection, t...
Abstract—In this paper, we introduce vehicle detection by in-dependent parts (VDIP) for urban driver...
This paper presents a vision-based vehicle identification system which consists of object extraction...
Abstract—This paper describes a monocular vision-based Vehicle Recognition System in which the basic...
Computer-vision methods have recently been extensively used in intelligent transportation systems fo...
AbstractOn the basis of a cost-effective embedded system, this work implements a preceding vehicle d...
[[abstract]]This paper presents a vision-based vehicle identification system which consists of objec...
In this paper we present a computer vision system for daytime vehicle detection and localization, an...
Projet VIPAInternational audienceWe address the problem of vehicle (mobile robot) navigation by comb...
This paper presents a computer vision-based approach to tracking surrounding vehicles and estimating...
This paper presents a computer vision-based approach to tracking surrounding vehicles and estimating...
Vehicle detection and tracking in road traffic surveillance is a classical task in computer vision a...
Many emerging applications in the field of assisted and autonomous driving rely on accurate position...
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