Add to ORKGMany modern sensors used for mapping produce 3D point clouds, which are typically registered together using the iterative closest point (ICP) algorithm. Because ICP has many variants whose performances depend on the environment and the sensor, hundreds of variations have been published. However, no comparison frameworks are available, leading to an arduous selection of an appropriate variant for particular experimental conditions. The first contribution of this paper consists of a protocol that allows for a comparison between ICP variants, taking into account a broad range of inputs. The second contribution is an open-source ICP library, which is fast enough to be usable in multiple real-world applications, while being modular enough to eas...
This paper introduces a novel iterative 3D mapping framework for large scale natural terrain and com...
Point clouds are commontly used in many areas of technical practice. Nowadays, the common applicatio...
International audience— The Iterative Closest Point (ICP) algorithm is a classical approach to obtai...
International audienceMany modern sensors used for mapping produce 3D point clouds, which are typica...
Many variants of the Iterative Closest Point (ICP) algorithm have been proposed for registering poin...
To advance robotic science it is important to perform experiments that can be replicated by other re...
Abstract — To advance robotic science it is important to per-form experiments that can be replicated...
In this article, an accurate method for the registration of point clouds returned by a 3D rangefinde...
Point cloud registration is an essential part for many robotics applications and this problem is usu...
International audienceIn mobile robotics, scan matching of point clouds using Iterative Closest Poin...
In this paper, we derive a novel iterative closest point (ICP) technique that performs point cloud a...
Modern robotic systems are required to operate in challenging environments, which demand reliable lo...
In this study, we compare different variations of the Iterative ClosestPoint (ICP) algorithm for the...
Robust and accurate pose estimation of a robotic platform, so-called sensor-based odometry, is an es...
The self-localization of mobile robots is one of the most fundamental problems in the robotics navi...
This paper introduces a novel iterative 3D mapping framework for large scale natural terrain and com...
Point clouds are commontly used in many areas of technical practice. Nowadays, the common applicatio...
International audience— The Iterative Closest Point (ICP) algorithm is a classical approach to obtai...
International audienceMany modern sensors used for mapping produce 3D point clouds, which are typica...
Many variants of the Iterative Closest Point (ICP) algorithm have been proposed for registering poin...
To advance robotic science it is important to perform experiments that can be replicated by other re...
Abstract — To advance robotic science it is important to per-form experiments that can be replicated...
In this article, an accurate method for the registration of point clouds returned by a 3D rangefinde...
Point cloud registration is an essential part for many robotics applications and this problem is usu...
International audienceIn mobile robotics, scan matching of point clouds using Iterative Closest Poin...
In this paper, we derive a novel iterative closest point (ICP) technique that performs point cloud a...
Modern robotic systems are required to operate in challenging environments, which demand reliable lo...
In this study, we compare different variations of the Iterative ClosestPoint (ICP) algorithm for the...
Robust and accurate pose estimation of a robotic platform, so-called sensor-based odometry, is an es...
The self-localization of mobile robots is one of the most fundamental problems in the robotics navi...
This paper introduces a novel iterative 3D mapping framework for large scale natural terrain and com...
Point clouds are commontly used in many areas of technical practice. Nowadays, the common applicatio...
International audience— The Iterative Closest Point (ICP) algorithm is a classical approach to obtai...