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A novel mobile robot navigation method based on deep reinforcement learning - Hao Quan, Yansheng Li, Yi Zhang, 2020
Learning Heuristic Functions for Mobile Robot Path Planning Using Deep Neural Networks | Semantic Scholar
Mobile Robot Target Tracking System Based on Deep Learning
Virtual-to-real Deep Reinforcement Learning: Continuous Control of Mobile Robots for Mapless Navigation – arXiv Vanity
How Robots Became Essential Workers in the COVID-19 Response - IEEE Spectrum
Autonomous measuring robot: research project successfully completed
Applied Sciences | Free Full-Text | Target Recovery for Robust Deep Learning-Based Person Following in Mobile Robots: Online Trajectory Prediction
Frontiers | The Path Planning of Mobile Robot by Neural Networks and Hierarchical Reinforcement Learning
Walking Robot Control: From PID to Reinforcement Learning » Student Lounge - MATLAB & Simulink
Robotics Programming Tutorial: Programming a Simple Robot | Toptal®
Sensors | Free Full-Text | Deep-Learning-Based Indoor Human Following of Mobile Robot Using Color Feature
Processes | Free Full-Text | Mobile Robot Navigation Using Deep Reinforcement Learning
Applied Sciences | Free Full-Text | Target Recovery for Robust Deep Learning-Based Person Following in Mobile Robots: Online Trajectory Prediction
Target Tracking Demo: AI Robot Platform | NXP Semiconductors
Applied Sciences | Free Full-Text | Target Recovery for Robust Deep Learning-Based Person Following in Mobile Robots: Online Trajectory Prediction
Part of the kill chain': how can we control weaponised robots? | Artificial intelligence (AI) | The Guardian
An adaptive deep reinforcement learning framework enables curling robots with human-like performance in real-world conditions | Science Robotics
A Deep Reinforcement Learning Approach to Improve the Learning Performance in Process Control | Industrial & Engineering Chemistry Research
Sensors | Free Full-Text | Deep Reinforcement Learning for Indoor Mobile Robot Path Planning
Virtual to real Deep Reinforcement Learning Continuous Control of Mobile Robots for Mapless Navigati - YouTube
Learning from Fuzzy System Demonstration: Autonomous Navigation of Mobile Robot in Static Indoor Environment using Multimodal Deep Learning | Semantic Scholar
Autonomous environment-adaptive microrobot swarm navigation enabled by deep learning-based real-time distribution planning | Nature Machine Intelligence
Reinforcement learning-based mobile robot navigation
Applied Sciences | Free Full-Text | Target Recovery for Robust Deep Learning-Based Person Following in Mobile Robots: Online Trajectory Prediction