For human-robot interaction, a 3D representation of the robot’s close environment based on depth measurements is proposed. First, the current close range is defined by computing the reachable space of the robot. Then obstacles and occluded space within the close range are represented in an octree structure considering obstacle occlusions as well as robot occlusions. Based on the obstacle octree, the minimum distance between the robot and the surrounding obstacles is determined. Experimental results with depth sensor data from multiple on-board sensors of a mobile manipulator are shown
In shared human-robot workspaces, safety has to be ensured by monitoring humans and other obstacles ...
One of the most important abilities for a mobile robot is detecting obstacles in order to avoid coll...
In this paper a real-time collision avoidance approach is presented for safe human-robot coexistence...
Abstract With the development of biped robots, systems became able to navigate in a 3 dimensional w...
We propose a method for computing the absolute distances to obstacles using only one omnidirectional...
Service robots are characterized by autonomously performing indoor tasks in unstructured environment...
How to enable a robot to explore in an unknown environment containing obstacles via local sensing is...
We present a novel approach to estimate the distance between a generic point in the Cartesian space ...
© 2017 IEEE. An adequate representation of the environment is an essential component of a mobile rob...
We present an efficient method to evaluate distances between dynamic obstacles and a number of point...
A novel mobile robots 3D-perception obstacle regions method in indoor environment based on Improved ...
[[abstract]]Using stereo vision and marks pasted on wall to solve the guidance and the environment l...
A critical challenge in the creation of autonomous mobile robots is the reliable detection of moving...
Robot navigation in unknown and dynamic environments may result in aimless wandering, corner traps a...
This paper describes a novel obstacle avoidance method for mobile robots based on relative coordinat...
In shared human-robot workspaces, safety has to be ensured by monitoring humans and other obstacles ...
One of the most important abilities for a mobile robot is detecting obstacles in order to avoid coll...
In this paper a real-time collision avoidance approach is presented for safe human-robot coexistence...
Abstract With the development of biped robots, systems became able to navigate in a 3 dimensional w...
We propose a method for computing the absolute distances to obstacles using only one omnidirectional...
Service robots are characterized by autonomously performing indoor tasks in unstructured environment...
How to enable a robot to explore in an unknown environment containing obstacles via local sensing is...
We present a novel approach to estimate the distance between a generic point in the Cartesian space ...
© 2017 IEEE. An adequate representation of the environment is an essential component of a mobile rob...
We present an efficient method to evaluate distances between dynamic obstacles and a number of point...
A novel mobile robots 3D-perception obstacle regions method in indoor environment based on Improved ...
[[abstract]]Using stereo vision and marks pasted on wall to solve the guidance and the environment l...
A critical challenge in the creation of autonomous mobile robots is the reliable detection of moving...
Robot navigation in unknown and dynamic environments may result in aimless wandering, corner traps a...
This paper describes a novel obstacle avoidance method for mobile robots based on relative coordinat...
In shared human-robot workspaces, safety has to be ensured by monitoring humans and other obstacles ...
One of the most important abilities for a mobile robot is detecting obstacles in order to avoid coll...
In this paper a real-time collision avoidance approach is presented for safe human-robot coexistence...