This paper addresses the structure-and-motion problem, that requires to find camera motion and 3D structure from point matches. A new pipeline, dubbed Samantha, is presented, that departs from the prevailing sequential paradigm and embraces instead a hierarchical approach. This method has several advantages, like a provably lower computational complexity, which is necessary to achieve true scalability, and better error containment, leading to more stability and less drift. Moreover, a practical autocalibration procedure allows to process images without ancillary information. Experiments with real data assess the accuracy and the computational efficiency of the method
This papers introduces a novel hierarchical scheme for computing Structure and Motion. The images ar...
This paper proposes a hierarchical framework that resamples 3D reconstructed points to reduce comput...
Abstract. We present a novel approach to structure from motion that integrates wide baseline local f...
We present a completely automated Structure and Mo- tion pipeline capable of working with uncalibrat...
SAMANTHA is a software capable of computing camera orientation and structure recovery from a sparse ...
SAMANTHA is a software capable of computing camera orientation and structure recovery from a sparse ...
In this paper we describe SAMANTHA, a Structure and Motion pipeline from images which is both more r...
A structure from motion algorithm is described which recovers structure and camera position, modulo ...
The recovery of 3D shape and camera motion for non-rigid scenes from single-camera video footage is ...
In this paper we present a novel pipeline for large-scale SfM. We first organise the images into a h...
A picture of a scene is a 2-dimensional representation of a 3-dimensional world. In the process of p...
This paper is about the estimation of calibration parameters of images to be used in Structure from ...
This dissertation investigates the general structure from motion problem. That is, how to compute in...
In this thesis the problem of Structure from Motion (SfM) for uncalibrated and unordered image colle...
We address the problem of estimating three-dimensional motion, and structure from motion with an unc...
This papers introduces a novel hierarchical scheme for computing Structure and Motion. The images ar...
This paper proposes a hierarchical framework that resamples 3D reconstructed points to reduce comput...
Abstract. We present a novel approach to structure from motion that integrates wide baseline local f...
We present a completely automated Structure and Mo- tion pipeline capable of working with uncalibrat...
SAMANTHA is a software capable of computing camera orientation and structure recovery from a sparse ...
SAMANTHA is a software capable of computing camera orientation and structure recovery from a sparse ...
In this paper we describe SAMANTHA, a Structure and Motion pipeline from images which is both more r...
A structure from motion algorithm is described which recovers structure and camera position, modulo ...
The recovery of 3D shape and camera motion for non-rigid scenes from single-camera video footage is ...
In this paper we present a novel pipeline for large-scale SfM. We first organise the images into a h...
A picture of a scene is a 2-dimensional representation of a 3-dimensional world. In the process of p...
This paper is about the estimation of calibration parameters of images to be used in Structure from ...
This dissertation investigates the general structure from motion problem. That is, how to compute in...
In this thesis the problem of Structure from Motion (SfM) for uncalibrated and unordered image colle...
We address the problem of estimating three-dimensional motion, and structure from motion with an unc...
This papers introduces a novel hierarchical scheme for computing Structure and Motion. The images ar...
This paper proposes a hierarchical framework that resamples 3D reconstructed points to reduce comput...
Abstract. We present a novel approach to structure from motion that integrates wide baseline local f...