Add to ORKGThis paper considers the problem of a robot navigating in a crowded or congested environment. A robot operating in such an environment can get easily blocked by moving humans and other objects. To deal with this problem it is proposed to attempt to predict the motion trajectory of humans and obstacles. Two kinds of prediction are considered: short-term and long-term. The short-term prediction refers to the one-step ahead prediction and the long-term to the prediction of the final destination point of the obstacle's movement. The robot movement is controlled by a Partially Observable Markov Decision Process (POMDP). POMDPs are utilized because of their ability to model information about the robot's location and sensory information ...
Publisher Copyright: IEEENoisy sensing, imperfect control, and environment changes are defining char...
Abstract—In this paper, we describe a novel uncertainty-based technique for predicting the future mo...
International audienceThe paper presents a navigation algorithm for dynamic, uncertain environment. ...
Abstract This paper considers the problem of autonomous robot navigation in dynamic and congested en...
In this document we address the problem of autonomous navigation in dynamic unknown environ- ments. ...
In this document we address the problem of autonomous navigation in dynamic unknown environ- ments. ...
In this document we address the problem of autonomous navigation in dynamic unknown environ- ments. ...
The thesis reports on a data-driven human trajectory prediction model to support robot navigation in...
In recent years, robotic technology has improved significantly, aided by cutting-edge scientific res...
AbstractIn order to effectively plan paths in environments inhabited by humans, robots must accurate...
Abstract—Target tracking is an important capability for au-tonomous robots. The goal of this work is...
La navigation autonome en environnement dynamique représente encore un défi important pour la roboti...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
To make robots coexist and share the environments with humans, robots should understand the behavior...
Decision-making for autonomous systems acting in real world domains are complex and difficult to for...
Publisher Copyright: IEEENoisy sensing, imperfect control, and environment changes are defining char...
Abstract—In this paper, we describe a novel uncertainty-based technique for predicting the future mo...
International audienceThe paper presents a navigation algorithm for dynamic, uncertain environment. ...
Abstract This paper considers the problem of autonomous robot navigation in dynamic and congested en...
In this document we address the problem of autonomous navigation in dynamic unknown environ- ments. ...
In this document we address the problem of autonomous navigation in dynamic unknown environ- ments. ...
In this document we address the problem of autonomous navigation in dynamic unknown environ- ments. ...
The thesis reports on a data-driven human trajectory prediction model to support robot navigation in...
In recent years, robotic technology has improved significantly, aided by cutting-edge scientific res...
AbstractIn order to effectively plan paths in environments inhabited by humans, robots must accurate...
Abstract—Target tracking is an important capability for au-tonomous robots. The goal of this work is...
La navigation autonome en environnement dynamique représente encore un défi important pour la roboti...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
To make robots coexist and share the environments with humans, robots should understand the behavior...
Decision-making for autonomous systems acting in real world domains are complex and difficult to for...
Publisher Copyright: IEEENoisy sensing, imperfect control, and environment changes are defining char...
Abstract—In this paper, we describe a novel uncertainty-based technique for predicting the future mo...
International audienceThe paper presents a navigation algorithm for dynamic, uncertain environment. ...