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Year : 2024 | Volume :11 | Issue : 03 | Page : –

Mritunjay Kr. Ranjan,

Ashish Singh,

Pankaj Patil,

Aniket Anand,

Mansi P. Mahajan,

Shilpi Saxena,

Assistant Professor, School of Computer Sciences and Engineering, Sandip University Nashik, Nashik, Maharashtra, India
Student, School of Computer Sciences and Engineering, Sandip University Nashik, Nashik, Maharashtra, India
Assistant Professor, School of Computer Sciences and Engineering, Sandip University Nashik, Nashik, Maharashtra, India
Scholar, Department of Computer Science and Information Technology, Magadh University, Bodh Gaya, Bihar, India
Student, School of Computer Sciences and Engineering, Sandip University Nashik, Nashik, Maharashtra, India
Assistant Professor, Department of Computer Application & IT, Lords University, Alwar, Rajasthan, India

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The capabilities of autonomous robotic systems have been drastically changed by the rapid progress in artificial intelligence (AI) technologies. In this work, we investigate the integration of AI approaches to improve robot autonomy by presenting even more advanced mechanisms for decision-making. Almost all traditional robotic systems involve predefined algorithms, making them unable to cope with dynamic environments. They can also help in learning based on machine-learning & deep-learning methodologies to make use of experience and making themselves flexible and efficient over a period. In this work, a model is proposed that combined reinforcement learning with real-time sensory data processing to allow autonomous robots react in unfamiliar situations. We explain several AI models as well as how effective they are in practical use cases such as autonomous navigation, obstacle avoidance and task optimization in addition, we consider the attendant ethical consequences and practical issues that arise when AI is used for making decisions within robotics systems in terms of safety requirements. We have confirmed that the performance of AI-driven robotic systems is improved over conventional methods through simulations and experimental results. The work represents an important step for AI in enabling the future creation of smarter, more capable robots that can properly function within complex dynamic environments. The decision-making skills of autonomous robotic systems have been transformed by the incorporation of AI, allowing for increased adaptability in dynamic contexts. This study introduces a novel paradigm to enhance robot autonomy in novel scenarios by fusing real-time sensory data processing with reinforcement learning. In real-world applications like task optimization, obstacle avoidance, and autonomous navigation, we evaluate how well different AI models perform.

Keywords: Autonomous Robotics, Artificial Intelligence, Decision-Making, Machine Learning, Reinforcement Learning, Sensor Data Processing.

[This article belongs to Journal of Advancements in Robotics (joarb)]

How to cite this article:
Mritunjay Kr. Ranjan, Ashish Singh, Pankaj Patil, Aniket Anand, Mansi P. Mahajan, Shilpi Saxena. Enhancing Robot Autonomy: Integrating AI for Advanced Decision-Making in Autonomous Robotic Systems. Journal of Advancements in Robotics. 2024; 11(03):-.

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Mritunjay Kr. Ranjan, Ashish Singh, Pankaj Patil, Aniket Anand, Mansi P. Mahajan, Shilpi Saxena. Enhancing Robot Autonomy: Integrating AI for Advanced Decision-Making in Autonomous Robotic Systems. Journal of Advancements in Robotics. 2024; 11(03):-. Available from: https://journals.stmjournals.com/joarb/article=2024/view=0

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References
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Regular Issue Subscription Review Article

Journal of Advancements in Robotics

ISSN: 2455-1872

Volume	11
Issue	03
Received	22/10/2024
Accepted	22/10/2024
Published	04/11/2024

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Enhancing Robot Autonomy: Integrating AI for Advanced Decision-Making in Autonomous Robotic Systems