One of the main applications of mobile robots is the large-scale perception of the outdoor environment. One of the main challenges of this application is fusing environmental data obtained by multiple robots, especially heterogeneous robots. This paper proposes an enhanced iterative closest point (ICP) method for the fast and accurate registration of 3D environmental models. First, a hierarchical searching scheme is combined with the octree-based ICP algorithm. Second, an early-warning mechanism is used to perceive the local minimum problem. Third, a heuristic escape scheme based on sampled potential transformation vectors is used to avoid local minima and achieve optimal registration. Experiments involving one unmanned aerial vehicle and o...
The paper proposes a novel framework for registering and segmenting 3D point clouds of large-scale n...
Registration is a fundamental task in computer vision. The Iterative Closest Point (ICP) algorithm i...
3D environment modeling and motion planning are two essential tasks for an autonomous mobile robot&#...
One of the main applications of mobile robots is the large-scale perception of the outdoor environme...
One of the main applications of mobile robots is the large-scale perception of the outdoor environme...
Heterogeneous robot introduce a higher perception ability than single type robots in outdoor environ...
This paper introduces a novel iterative 3D mapping framework for large scale natural terrain and com...
In this paper, we focus on the problem of fast and accurate featureless registration of outdoor larg...
Point cloud registration is a fundamental building block of many robotic applications. In this paper...
Building maps within an unknown environment while keeping track of the current position is a major s...
In large-scale and sparse scenes, such as farmland, orchards, mines, and substations, 3D simultaneou...
The iterative closest point (ICP) algorithm is widely used for the registration of 3D geometric data...
Registration is a fundamental task in computer vision. The Iterative Closest Point (ICP) algorithm i...
This paper addresses the problem of 3D registration of outdoor environments combining heterogeneous ...
Point cloud registration is an essential part for many robotics applications and this problem is usu...
The paper proposes a novel framework for registering and segmenting 3D point clouds of large-scale n...
Registration is a fundamental task in computer vision. The Iterative Closest Point (ICP) algorithm i...
3D environment modeling and motion planning are two essential tasks for an autonomous mobile robot&#...
One of the main applications of mobile robots is the large-scale perception of the outdoor environme...
One of the main applications of mobile robots is the large-scale perception of the outdoor environme...
Heterogeneous robot introduce a higher perception ability than single type robots in outdoor environ...
This paper introduces a novel iterative 3D mapping framework for large scale natural terrain and com...
In this paper, we focus on the problem of fast and accurate featureless registration of outdoor larg...
Point cloud registration is a fundamental building block of many robotic applications. In this paper...
Building maps within an unknown environment while keeping track of the current position is a major s...
In large-scale and sparse scenes, such as farmland, orchards, mines, and substations, 3D simultaneou...
The iterative closest point (ICP) algorithm is widely used for the registration of 3D geometric data...
Registration is a fundamental task in computer vision. The Iterative Closest Point (ICP) algorithm i...
This paper addresses the problem of 3D registration of outdoor environments combining heterogeneous ...
Point cloud registration is an essential part for many robotics applications and this problem is usu...
The paper proposes a novel framework for registering and segmenting 3D point clouds of large-scale n...
Registration is a fundamental task in computer vision. The Iterative Closest Point (ICP) algorithm i...
3D environment modeling and motion planning are two essential tasks for an autonomous mobile robot&#...