A robot’s local navigation is often done through forward simulation of robot velocities and measuring the possible trajectories against safety, distance to the final goal and the generated path of a global path planner. Then, the computed velocities vector for the winning trajectory is executed on the robot. This process is done continuously through the whole navigation process and requires an extensive amount of processing. This only allows for a very limited sampling space. In this paper, we propose a novel approach to automatically detect the type of surrounding environment based on navigation complexity using unsupervised clustering, and limit the local controller’s sampling space. The experimental results in 3D simulation and using a r...
Simultaneous localization and mapping responds to the problem of building a map of the environment w...
DRDC Suffield TM 2005-038 i This document surveys existing methods of local navigation of mobile rob...
In this paper, we summarize recent research enabling high-speed navigation in unknown environments f...
A robot’s local navigation is often done through forward simulation of robot velocities and measurin...
One of the challenging problems in mobile robotics is mapping a dynamic environment for navigating r...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Appli...
In this paper we present a simulation approach in the field of landmark-based mobile robot navigatio...
©2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
The ability to detect, characterize, and avoid obstacles is a critical requirement for autonomous ro...
Robot mobile navigation is a hard task that requires, essentially, avoiding static and dynamic objec...
Abstract. Sampling in the space of controls or actions is a well-established method for ensuring fea...
To hasten the process of saving lives after disasters in urban areas, autonomous robots are being lo...
Mobile robot motions often originate from an uninformed path sampling process such as random or low-...
This paper introduces a three-dimensional volumetric representation for safe navigation. It is based...
A very challenging issue in robot navigation or path planning in an unknown environment is to find a...
Simultaneous localization and mapping responds to the problem of building a map of the environment w...
DRDC Suffield TM 2005-038 i This document surveys existing methods of local navigation of mobile rob...
In this paper, we summarize recent research enabling high-speed navigation in unknown environments f...
A robot’s local navigation is often done through forward simulation of robot velocities and measurin...
One of the challenging problems in mobile robotics is mapping a dynamic environment for navigating r...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Appli...
In this paper we present a simulation approach in the field of landmark-based mobile robot navigatio...
©2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
The ability to detect, characterize, and avoid obstacles is a critical requirement for autonomous ro...
Robot mobile navigation is a hard task that requires, essentially, avoiding static and dynamic objec...
Abstract. Sampling in the space of controls or actions is a well-established method for ensuring fea...
To hasten the process of saving lives after disasters in urban areas, autonomous robots are being lo...
Mobile robot motions often originate from an uninformed path sampling process such as random or low-...
This paper introduces a three-dimensional volumetric representation for safe navigation. It is based...
A very challenging issue in robot navigation or path planning in an unknown environment is to find a...
Simultaneous localization and mapping responds to the problem of building a map of the environment w...
DRDC Suffield TM 2005-038 i This document surveys existing methods of local navigation of mobile rob...
In this paper, we summarize recent research enabling high-speed navigation in unknown environments f...