Publications
Massively parallel WRNN reconstructors for spectrum recovery in astronomical photometrical surveys,
, NEURAL NETWORKS, Volume {83}, Number {False}, p.42-50, (2016)
On the Maritime Spatial Planning (MSP) to Enhance Safety and Security at Sea,
, International Conference of Advanced Intelligent Maritime Safety and Technology (Ai-MAST), p.318–328, (2015)
A MapReduce Based Tool for the Analysis and Discovery of Novel Therapeutic Targets,
, Volume {False}, Number {False}, p.323-328, (2019)
A MapReduce Based Tool for the Analysis and Discovery of Novel Therapeutic Targets,
, Volume {False}, Number {False}, p.323-328, (2019)
Mapping Infected Crops Through UAV Inspection: The Sunflower Downy Mildew Parasite Case,
, Advances and Trends in Artificial Intelligence. From Theory to Practice, p.495–503, (2019)
Mapping infected crops through uav inspection: The sunflower downy mildew parasite case,
, Volume {11606}, Number {False}, p.495-503, (2019)
Mapping infected crops through uav inspection: The sunflower downy mildew parasite case,
, Volume {11606}, Number {False}, p.495-503, (2019)
LU4R: adaptive spoken language understanding for robots,
, IJCOL, Volume {3}, Number {1}, p.59-76, (2017)
LS-VO: Learning Dense Optical Subspace for Robust Visual Odometry Estimation,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {3}, Number {3}, p.1735-1742, (2018)
Low-Overhead Cooperative Detection of False Sensor Readings,
, July, Utrecht, p.11–16, (2005)
Low-cost Sonar Navigation System,
, Volume {False}, Number {False}, p.692-697, (2019)
Low-cost Sonar Navigation System,
, Volume {False}, Number {False}, p.692-697, (2019)
LOOP: Iterative learning for optimistic planning on robots,
, ROBOTICS AND AUTONOMOUS SYSTEMS, Volume {136}, Number {False}, p.103693-False, (2021)
Living with Robots: Interactive Environmental Knowledge Acquisition,
, Robotics and Autonomous Systems, Volume 78, p.1–16, (2016)
Living with robots: Interactive environmental knowledge acquisition,
, ROBOTICS AND AUTONOMOUS SYSTEMS, Volume {78}, Number {False}, p.1-16, (2016)
Living with robots: Interactive environmental knowledge acquisition,
, ROBOTICS AND AUTONOMOUS SYSTEMS, Volume {78}, Number {False}, p.1-16, (2016)
A lightweight navigation system for mobile robots,
, Proc. of Third Iberian Robotics Conference (ROBOT 2017), Nov 22-24, Sevilla, Spain, (2017)
A Lightweight Navigation System for Mobile Robots,
, Volume {694}, Number {False}, p.295-306, (2018)
A Lightweight Navigation System for Mobile Robots,
, Volume {694}, Number {False}, p.295-306, (2018)
A Lightweight Navigation System for Mobile Robots,
, Volume {694}, Number {False}, p.295-306, (2018)
A Lightweight Navigation System for Mobile Robots,
, Volume {694}, Number {False}, p.295-306, (2018)
Ligand-based and structure-based studies to develop predictive models for SARS-CoV-2 main protease inhibitors through the 3d-qsar.com portal},
, JOURNAL OF COMPUTER-AIDED MOLECULAR DESIGN, Volume {36}, Number {7}, p.483-505, (2022)
Ligand-based and structure-based studies to develop predictive models for SARS-CoV-2 main protease inhibitors through the 3d-qsar.com portal},
, JOURNAL OF COMPUTER-AIDED MOLECULAR DESIGN, Volume {36}, Number {7}, p.483-505, (2022)
Ligand-based and structure-based studies to develop predictive models for SARS-CoV-2 main protease inhibitors through the 3d-qsar.com portal},
, JOURNAL OF COMPUTER-AIDED MOLECULAR DESIGN, Volume {36}, Number {7}, p.483-505, (2022)
Ligand-based and structure-based studies to develop predictive models for SARS-CoV-2 main protease inhibitors through the 3d-qsar.com portal},
, JOURNAL OF COMPUTER-AIDED MOLECULAR DESIGN, Volume {36}, Number {7}, p.483-505, (2022)
Ligand-based and structure-based studies to develop predictive models for SARS-CoV-2 main protease inhibitors through the 3d-qsar.com portal},
, JOURNAL OF COMPUTER-AIDED MOLECULAR DESIGN, Volume {36}, Number {7}, p.483-505, (2022)
Lessening stress and anxiety-related behaviors by means of AI-driven drones for aromatherapy,
, Volume {2594}, Number {False}, p.7-12, (2020)
Lessening stress and anxiety-related behaviors by means of AI-driven drones for aromatherapy,
, Volume {2594}, Number {False}, p.7-12, (2020)
Legionellosis in health care facilities. state of the art in control and prevention in Italy,
, ANNALI DI IGIENE MEDICINA PREVENTIVA E DI COMUNITÀ, Volume {31}, Number {5}, p.474-481, (2019)
Legionella indoor air contamination in healthcare environments,
, Volume {False}, Number {False}, p.63-71, (2017)
Least Squares Optimization: from Theory to Practice,
, Robotics, July, Volume 9, Number 3, p.51, (2020)
Least squares optimization: From theory to practice,
, ROBOTICS, Volume {9}, Number {3}, p.51-94, (2020)
Least squares optimization: From theory to practice,
, ROBOTICS, Volume {9}, Number {3}, p.51-94, (2020)
Least squares optimization: From theory to practice,
, ROBOTICS, Volume {9}, Number {3}, p.51-94, (2020)
LearnPNP: A Tool for Learning Agent Behaviors,
, RoboCup 2010: Robot Soccer World Cup XIV, p.418-429, (2011)
Learning transferable policies for autonomous planetary landing via deep reinforcement learning,
, Volume {False}, Number {False}, p.False-False, (2021)
Learning to Smooth with Bidirectional Predictive State Inference Machines,
, Proceedings of the 32nd Conference on Uncertainty in Artificial Intelligence (UAI-2016), (2016)
Learning to Smooth with Bidirectional Predictive State Inference Machines,
, Volume {False}, Number {False}, p.706-715, (2016)
Learning to Smooth with Bidirectional Predictive State Inference Machines,
, Volume {False}, Number {False}, p.706-715, (2016)
Learning Task Knowledge from Dialog and Web Access,
, Robotics, Volume 4, Number 2, p.223-252, (2015)
Learning Task Knowledge from Dialog and Web Access,
, ROBOTICS, Volume {4}, Number {2}, p.223-252, (2015)
Learning Task Knowledge from Dialog and Web Access,
, ROBOTICS, Volume {4}, Number {2}, p.223-252, (2015)
Learning Task Knowledge from Dialog and Web Access,
, ROBOTICS, Volume {4}, Number {2}, p.223-252, (2015)
Learning Newtonian Physics through Programming Robot Experiments,
, TECHNOLOGY, KNOWLEDGE AND LEARNING, Volume {False}, Number {False}, p.False-False, (2021)
Learning Newtonian Physics through Programming Robot Experiments,
, TECHNOLOGY, KNOWLEDGE AND LEARNING, Volume {False}, Number {False}, p.False-False, (2021)
Learning Human-Robot Handovers Through π-STAM: Policy Improvement With Spatio-Temporal Affordance Maps,
, International Conference on Humanoid Robots (HUMANOIDS'16), (2016)
Learning human-robot handovers through π-STAM: Policy improvement with spatio-temporal affordance maps,
, Volume {False}, Number {False}, p.857-863, (2016)
Learning human-robot handovers through π-STAM: Policy improvement with spatio-temporal affordance maps,
, Volume {False}, Number {False}, p.857-863, (2016)