Statements (102)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:Research_Institute
|
| gptkbp:aims_to |
intelligent agents
adaptive robots intelligent robotic systems autonomous robotic systems generalizable skills |
| gptkbp:aims_to_improve |
human-robot collaboration
AI research collaboration training time collaborative robotics AI technology transfer robotic adaptability robotic efficiency robotic research initiatives robotic system performance robotic intelligence robotic task execution robot learning efficiency robotic learning capabilities |
| gptkbp:applies_to |
gptkb:neural_networks
|
| gptkbp:collaborates_with |
government agencies
non-profit organizations research institutions technology companies industry partners various universities academic researchers international research groups |
| gptkbp:contributes_to |
gptkb:vehicles
AI ethics |
| gptkbp:develops |
AI algorithms
simulation environments robotic prototypes AI safety protocols robotic vision systems robotic control systems AI-powered drones robotic software frameworks AI training frameworks AI-based control algorithms AI-driven robots AI-enhanced robotic tools |
| gptkbp:enhances |
robot perception
|
| gptkbp:explores |
transfer learning
robotic locomotion robotic data analysis robotic teleoperation robotic assembly robotic learning paradigms robotic system applications robotic system interoperability robotic system resilience |
| gptkbp:focuses_on |
real-world applications
AI-driven automation data efficiency sustainable robotics robotic manipulation AI-driven decision making safety in AI robotic safety measures AI-driven robotics solutions |
| https://www.w3.org/2000/01/rdf-schema#label |
Deep Mind for Robotics
|
| gptkbp:improves |
robotic dexterity
|
| gptkbp:investigates |
human-robot interaction
robotic ethics robotic learning algorithms robotic system adaptability robotic swarm intelligence robotic autonomy robotic system scalability robotic cognitive functions |
| gptkbp:is_optimized_for |
robot performance
|
| gptkbp:participates_in |
AI competitions
|
| gptkbp:publishes |
research papers
|
| gptkbp:research |
multi-agent systems
robotic navigation robotic system integration robotic task planning robotic system architecture robotic system optimization robotic feedback systems robotic interaction models robotic system dynamics task generalization |
| gptkbp:trains |
gptkb:vehicles
gptkb:robotics gptkb:AI_technology machine learning models robotic assistants AI models for robotics AI systems for robotics |
| gptkbp:uses |
large datasets
|
| gptkbp:utilizes |
gptkb:cloud_computing
machine learning techniques simulation tools reinforcement learning big data analytics advanced sensors deep learning techniques virtual reality for training |
| gptkbp:bfsParent |
gptkb:Deep_Mind
|
| gptkbp:bfsLayer |
5
|