We present a purely rotational visual servoing algorithm, which aligns the orientation between two cameras at different locations in space. Specifically, our kinematic controller steers a set of so-called bi-tangent lines to intersect at the epipole using a purely image-based bi-tangent line Jacobian. Bi-tangent lines, i.e. lines joining corresponding features on the superposition of two views of a scene, can be defined for both points and contours, so we apply our controller to both feature types. Simulated experiments demonstrate the parametric robustness of the proposed method
This paper proposes a visual servoing algorithm for mobile robot navigation based on the epipolar ge...
A new image-based visual servoing algorithm is presented for nonholonomic mobile robots. The algorit...
This paper presents an image-based visual servoing strategy for holonomic mobile robots equipped wit...
We present a purely rotational visual servoing algorithm which aligns the orientation between two ca...
We present a purely rotational visual servoing algorithm, which aligns the orientation between two c...
This paper presents an epipolar based visual servoing for mobile robots equipped with a panoramic ca...
A novel visual servoing method is presented. The algorithm works for both apparent contours and poin...
A visual servoing algorithm for hand-eye robotic system based on epipolar geometry is proposed. The ...
This paper proposes a visual servoing algorithm for hand-eye robotic system based on epipolar geomet...
In this work, we present a fundamentally new approach to visual servoing using lines. It is based on...
This paper presents an image-based visual servoing strategy for the autonomous navigation of a mobil...
A visual servoing algorithm for mobile robots is proposed. The main feature of the algorithm is that...
This paper proposes a visual servoing algorithm for mobile robot navigation based on the epipolar ge...
This paper proposes a visual servoing algorithm for mobile robot navigation based on the epipolar ge...
A new image-based visual servoing algorithm is presented for nonholonomic mobile robots. The algorit...
This paper presents an image-based visual servoing strategy for holonomic mobile robots equipped wit...
We present a purely rotational visual servoing algorithm which aligns the orientation between two ca...
We present a purely rotational visual servoing algorithm, which aligns the orientation between two c...
This paper presents an epipolar based visual servoing for mobile robots equipped with a panoramic ca...
A novel visual servoing method is presented. The algorithm works for both apparent contours and poin...
A visual servoing algorithm for hand-eye robotic system based on epipolar geometry is proposed. The ...
This paper proposes a visual servoing algorithm for hand-eye robotic system based on epipolar geomet...
In this work, we present a fundamentally new approach to visual servoing using lines. It is based on...
This paper presents an image-based visual servoing strategy for the autonomous navigation of a mobil...
A visual servoing algorithm for mobile robots is proposed. The main feature of the algorithm is that...
This paper proposes a visual servoing algorithm for mobile robot navigation based on the epipolar ge...
This paper proposes a visual servoing algorithm for mobile robot navigation based on the epipolar ge...
A new image-based visual servoing algorithm is presented for nonholonomic mobile robots. The algorit...
This paper presents an image-based visual servoing strategy for holonomic mobile robots equipped wit...