Add to ORKGTreball de Final de Màster Universitari Erasmus Mundus en Robòtica Avançada. Curs acadèmic 2016-2017This work is based on the detection of a couple of points for optimal and robust grasping in an underwater domain. The objective is to provide a base for the development of a routine able to autonomously gather information from the surrounding environment in order to provide a robust grasp for underwater intervention robot such as the G500. For this purpose a neural network and a point cloud processing are considered: the former is meant to be able to classify shapes out of a segmented point cloud, the latter have the purpose to reconstruct those shapes out of the classified pat of the point cloud scene. The neural network has been des...
Uses of underwater videos to assess diversity and abundance of fish are being rapidly adopted by mar...
Large and diverse data is crucial to train object detection systems properly and achieve satisfactor...
Our planet is mostly covered by seas and oceans. However, our knowledge of the seabed is far more re...
Treball de Final de Màster Universitari Erasmus Mundus en Robòtica Avançada. Curs acadèmic 2016-2017...
Underwater autonomous grasping is a challenging task for robotic research. In this paper, we propose...
This article presents research on the subject of autonomous underwater robot manipulation. Ongoing r...
Extra-terrestrial ocean worlds like Europa offer tantalizing targets in the search for extant life b...
Comunicació presentada a Oceans 2017 Conference, Aberdeen, 19-22 June 2017The present research in un...
Autonomous grasping of unknown objects by a robot is a highly challenging skill that is receiving in...
The ability to learning from interaction with environments shapes an intelligent agent. For explorat...
A deep neural network architecture is proposed in this paper for underwater scene semantic segmentat...
Grasp synthesis is one of the challenging tasks for any robot object manipulation task. In this pape...
We present an approach to robotic deep learning from demonstration in virtual reality, which combine...
Deep learning, also known as deep machine learning or deep structured learning based techniques, hav...
3D point cloud learning using deep learning architecture has become an active research trend due to ...
Uses of underwater videos to assess diversity and abundance of fish are being rapidly adopted by mar...
Large and diverse data is crucial to train object detection systems properly and achieve satisfactor...
Our planet is mostly covered by seas and oceans. However, our knowledge of the seabed is far more re...
Treball de Final de Màster Universitari Erasmus Mundus en Robòtica Avançada. Curs acadèmic 2016-2017...
Underwater autonomous grasping is a challenging task for robotic research. In this paper, we propose...
This article presents research on the subject of autonomous underwater robot manipulation. Ongoing r...
Extra-terrestrial ocean worlds like Europa offer tantalizing targets in the search for extant life b...
Comunicació presentada a Oceans 2017 Conference, Aberdeen, 19-22 June 2017The present research in un...
Autonomous grasping of unknown objects by a robot is a highly challenging skill that is receiving in...
The ability to learning from interaction with environments shapes an intelligent agent. For explorat...
A deep neural network architecture is proposed in this paper for underwater scene semantic segmentat...
Grasp synthesis is one of the challenging tasks for any robot object manipulation task. In this pape...
We present an approach to robotic deep learning from demonstration in virtual reality, which combine...
Deep learning, also known as deep machine learning or deep structured learning based techniques, hav...
3D point cloud learning using deep learning architecture has become an active research trend due to ...
Uses of underwater videos to assess diversity and abundance of fish are being rapidly adopted by mar...
Large and diverse data is crucial to train object detection systems properly and achieve satisfactor...
Our planet is mostly covered by seas and oceans. However, our knowledge of the seabed is far more re...