Reinforcement Learning in Robotics: From Simulation to Real-World Applications

Authors

  • Dr. Smaith Author

Abstract

Reinforcement Learning (RL) has gained significant attention in the field of robotics as a promising approach for enabling robots to acquire complex skills and adapt to dynamic environments. This paper provides an in-depth exploration of the transition of RL techniques from simulation environments to real-world applications, highlighting the challenges and opportunities inherent in this journey. We discuss the theoretical foundations of RL, the importance of simulated training scenarios, and the key considerations in transferring learned policies to physical robots. This paper presents a comprehensive review of recent advancements, case studies, and practical strategies for successfully implementing RL in robotics.

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References

Chaitanya Krishna Suryadevara, “TOWARDS PERSONALIZED HEALTHCARE - AN INTELLIGENT MEDICATION RECOMMENDATION SYSTEM”, IEJRD - International Multidisciplinary Journal, vol. 5, no. 9, p. 16, Dec. 2020.

Suryadevara, Chaitanya Krishna, Predictive Modeling for Student Performance: Harnessing Machine Learning to Forecast Academic Marks (December 22, 2018). International Journal of Research in Engineering and Applied Sciences (IJREAS), Vol. 8 Issue 12, December-2018, Available at SSRN: https://ssrn.com/abstract=4591990

Suryadevara, Chaitanya Krishna, Unveiling Urban Mobility Patterns: A Comprehensive Analysis of Uber (December 21, 2019). International Journal of Engineering, Science and Mathematics, Vol. 8 Issue 12, December 2019, Available at SSRN: https://ssrn.com/abstract=4591998

Chaitanya Krishna Suryadevara. (2019). A NEW WAY OF PREDICTING THE LOAN APPROVAL PROCESS USING ML TECHNIQUES. International Journal of Innovations in Engineering Research and Technology, 6(12), 38–48. Retrieved from https://repo.ijiert.org/index.php/ijiert/article/view/3654

Chaitanya Krishna Suryadevara. (2020). GENERATING FREE IMAGES WITH OPENAI’S GENERATIVE MODELS. International Journal of Innovations in Engineering Research and Technology, 7(3), 49–56. Retrieved from https://repo.ijiert.org/index.php/ijiert/article/view/3653

Chaitanya Krishna Suryadevara. (2020). REAL-TIME FACE MASK DETECTION WITH COMPUTER VISION AND DEEP LEARNING: English. International Journal of Innovations in Engineering Research and Technology, 7(12), 254–259. Retrieved from https://repo.ijiert.org/index.php/ijiert/article/view/3184

Chaitanya Krishna Suryadevara. (2021). ENHANCING SAFETY: FACE MASK DETECTION USING COMPUTER VISION AND DEEP LEARNING. International Journal of Innovations in Engineering Research and Technology, 8(08), 224–229. Retrieved from https://repo.ijiert.org/index.php/ijiert/article/view/3672

Sutton, Richard S., and Andrew G. Barto. "Reinforcement Learning: An Introduction." MIT Press, 2018.

Schulman, John, et al. "Proximal Policy Optimization Algorithms." arXiv preprint arXiv:1707.06347 (2017).

Mnih, Volodymyr, et al. "Human-level control through deep reinforcement learning." Nature 518.7540 (2015): 529-533.

Peng, Xue Bin, and Sergey Levine. "Learning complex Dexterous Manipulation with Deep Reinforcement Learning and Demonstrations." Proceedings of the IEEE International Conference on Robotics and Automation (ICRA), 2018.

Published

2022-11-05

Issue

Section

Articles

How to Cite

Reinforcement Learning in Robotics: From Simulation to Real-World Applications. (2022). International Numeric Journal of Machine Learning and Robots, 6(6). https://injmr.com/index.php/fewfewf/article/view/9