Posted inEthics & Morals United States of America Carme Torras Tags: AI-Based Methods, Cognitive Human-Robot Interaction, Collision Avoidance, Computational Geometry, Dual Arm Manipulation, Ethics and Philosophy, female, female roboticist, Formal Methods in Robotics and Automation, Grasping, Human Factors and Human-in-the-Loop, Human-Centered Robotics, Kinematics, Learning and Adaptive Systems, Learning from Demonstration, Manipulation Planning, Motion and Path Planning, Parallel Robots, Perception for Grasping and Manipulation, Physical Human-Robot Interaction, Physically Assistive Devices, RGB-D Perception, Robot Companions, Task Planning Spanish Scientific Research Council (CSIC), Spain United States Research Areas AI-Based Methods, Cognitive Human-Robot Interaction,…
Posted inAutonomous Agents Sensors Social Human-Robot Interaction Lynne Parker Tags: Agent-Based Systems, AI-Based Methods, autonomous agents, Behavior-Based Systems, Big Data in Robotics and Automation, Cognitive Human-Robot Interaction, Cooperating Robots, Deep Learning in Robotics and Automation, Distributed Robot Systems, female, Gesture, Human Detection and Tracking, Learning and Adaptive Systems, Learning from Demonstration, Motion and Path Planning, Multi Robot systems, Networked Robots, Path Planning for Multiple Mobile Robots or Agents, Posture and Facial Expressions, Reactive and Sensor-Based Planning, roboticist, robots, Sensor Networks, SLAM, Social Human-Robot Interaction University of Tennessee, TN United States Research Areas Agent-Based Systems, AI-Based Methods, Autonomous Agents, Behavior-Based…
Posted inMachine Learning Robot Programming Robots Tomas Lozano-Perez Tags: AI-Based Methods, Collision Avoidance, Grasping, Learning and Adaptive Systems, machine learning, Manipulation Planning, Mobile Manipulation, Motion and Path Planning, Recognition, robot programming, robots, Task Planning Massachusetts Institute of Technology, MA United States Research Areas AI-Based Methods, Collision Avoidance, Grasping, Learning…
Posted inAutonomous Agents E - H H Ayanna Howard Tags: AI-Based Methods, autonomous agents, Behavior-Based Systems, Biomedical Equipment, Cognitive Human-Robot Interaction, Education Robotics, female, female roboticist, Field Robots, Gesture, Haptics and Haptic Interfaces, Human Detection and Tracking, Human-Centered Robotics, humanoid robots, Learning and Adaptive Systems, Learning from Demonstration, Legged Robots, Multi Robot systems, Neural and Fuzzy Control, Posture and Facial Expressions, Rehabilitation Robotics, Robot Companions, robots, Search and Rescue Robots, Social Human-Robot Interaction, Space Robotics and Automation, Telerobotics and Teleoperation, Virtual Reality and Interfaces, Visual-Based Navigation Ohio State University, OH United States Research Areas AI-Based Methods, Autonomous Agents, Behavior-Based Systems, Biomedical…