Add to ORKGAbstract Deformable Parts Models (DPM) are the current state-of-the-art for object detection. Nevertheless they seem sub-optimal in the representation of deformations. Object deformations are often continuous and not confined to big parts. Therefore we propose to replace the DPM star model based on big parts by a deformation field. This consists of a grid of small parts connected with pairwise constraints which can better handle continuous deformations. The naive appli-cation of this model for object detection would consist of a bounded sliding window approach: for each possible loca-tion of the image the best part configuration within a limited bound around this location is found. This is computationally very expensive.Instead, we propose ...
International audienceOur goal in this work is to recover an estimate of an object's surface from a ...
This paper presents an algorithm for the estimation of the motion of textured objects un-dergoing no...
Deformable Part Models (DPMs) as introduced by Felzenszwalb et al. have shown remarkably good result...
Deformable Parts Models (DPM) are the current state-of-the-art for object detection. Nevertheless th...
Pedersoli M., Timofte R., Tuytelaars T., Van Gool L., ''An elastic deformation field model for objec...
This paper describes a discriminatively trained, multiscale, deformable part model for object detect...
Several popular and effective object detectors separately model intra-class variations arising from ...
Abstract. The main stated contribution of the Deformable Parts Model (DPM) detector of Felzenszwalb ...
Abstract: In this work we use bounding-based techniques, such as Branch-and-Bound (BB) and Cascaded ...
In this paper, we show how to train a deformable part model (DPM) fast—typically in less than 20 min...
International audienceDeformable Part Models (DPMs) play a prominent role in current object recognit...
We propose a dynamical model-based approach for tracking the shape and deformation of highly deformi...
This paper solves the speed bottleneck of deformable part model (DPM), while maintaining the accurac...
The problem posed by complex, articulated or deformable objects has been at the focus of much tracki...
International audienceThe success of deformable part-based models (DPMs) for visual object detection...
International audienceOur goal in this work is to recover an estimate of an object's surface from a ...
This paper presents an algorithm for the estimation of the motion of textured objects un-dergoing no...
Deformable Part Models (DPMs) as introduced by Felzenszwalb et al. have shown remarkably good result...
Deformable Parts Models (DPM) are the current state-of-the-art for object detection. Nevertheless th...
Pedersoli M., Timofte R., Tuytelaars T., Van Gool L., ''An elastic deformation field model for objec...
This paper describes a discriminatively trained, multiscale, deformable part model for object detect...
Several popular and effective object detectors separately model intra-class variations arising from ...
Abstract. The main stated contribution of the Deformable Parts Model (DPM) detector of Felzenszwalb ...
Abstract: In this work we use bounding-based techniques, such as Branch-and-Bound (BB) and Cascaded ...
In this paper, we show how to train a deformable part model (DPM) fast—typically in less than 20 min...
International audienceDeformable Part Models (DPMs) play a prominent role in current object recognit...
We propose a dynamical model-based approach for tracking the shape and deformation of highly deformi...
This paper solves the speed bottleneck of deformable part model (DPM), while maintaining the accurac...
The problem posed by complex, articulated or deformable objects has been at the focus of much tracki...
International audienceThe success of deformable part-based models (DPMs) for visual object detection...
International audienceOur goal in this work is to recover an estimate of an object's surface from a ...
This paper presents an algorithm for the estimation of the motion of textured objects un-dergoing no...
Deformable Part Models (DPMs) as introduced by Felzenszwalb et al. have shown remarkably good result...