Autonomous indoor service robots are supposed to accomplish tasks, like serve a cup, which involve manipulation actions. Particularly, for complex manipulation tasks which are subject to geometric constraints, spatial information and a rich semantic knowledge about objects, types, and functionality are required, together with the way in which these objects can be manipulated. In this line, this paper presents an ontological-based reasoning framework called Perception and Manipulation Knowledge (PMK) that includes: (1) the modeling of the environment in a standardized way to provide common vocabularies for information exchange in human-robot or robot-robot collaboration, (2) a sensory module to perceive the objects in the environment and ass...
Task Planning is developed for an autonomous mobile robot in order to support the robot to accomplis...
Robotics as a technology has an incredible potential for improving our everyday lives. Robots could ...
A robot should be able to autonomously modify and utilize its environment to assist its task complet...
Autonomous service robots are conceived to work in semi-structured and complex human environments pe...
This thesis develops a series of modeling and reasoning tools for knowledge-oriented manipulation pl...
Within the next decades, robots will need to be able to execute a large variety of tasks autonomousl...
This paper describes the actions taken in developing a framework that aims to improve the motion pla...
The pervasive use of artificial intelligence and neural networks in several different research field...
This is an Accepted Manuscript of an article published by Taylor & Francis in Journal of experimenta...
Autonomous mobile robotic agents are increasingly present in highly dynamic environments, thus makin...
Knowledge processing methods are an important resource for robots that perform challenging tasks in ...
Physics-based motion planning is a challenging task, since it requires the computation of the robot ...
The paper presents an implementation of knowledge representation and task representation, based on o...
AbstractThis paper presents a developed approach for intelligently generating symbolic plans by mobi...
In manipulation planning, dynamic interactions between the objects and the robots play a significant...
Task Planning is developed for an autonomous mobile robot in order to support the robot to accomplis...
Robotics as a technology has an incredible potential for improving our everyday lives. Robots could ...
A robot should be able to autonomously modify and utilize its environment to assist its task complet...
Autonomous service robots are conceived to work in semi-structured and complex human environments pe...
This thesis develops a series of modeling and reasoning tools for knowledge-oriented manipulation pl...
Within the next decades, robots will need to be able to execute a large variety of tasks autonomousl...
This paper describes the actions taken in developing a framework that aims to improve the motion pla...
The pervasive use of artificial intelligence and neural networks in several different research field...
This is an Accepted Manuscript of an article published by Taylor & Francis in Journal of experimenta...
Autonomous mobile robotic agents are increasingly present in highly dynamic environments, thus makin...
Knowledge processing methods are an important resource for robots that perform challenging tasks in ...
Physics-based motion planning is a challenging task, since it requires the computation of the robot ...
The paper presents an implementation of knowledge representation and task representation, based on o...
AbstractThis paper presents a developed approach for intelligently generating symbolic plans by mobi...
In manipulation planning, dynamic interactions between the objects and the robots play a significant...
Task Planning is developed for an autonomous mobile robot in order to support the robot to accomplis...
Robotics as a technology has an incredible potential for improving our everyday lives. Robots could ...
A robot should be able to autonomously modify and utilize its environment to assist its task complet...