Surya Prakash Mishra | Robotics | Best Researcher Award

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Mr. Surya Prakash Mishra | Robotics | Best Researcher Award

Research Fellow | National Institute of Technology | India

Mr. Surya Prakash Mishra is a Research Fellow at the National Institute of Technology, Rourkela, with a strong focus on the interdisciplinary domain of underwater robotics. Born in Bhubaneswar, Odisha, India, he has established himself as a dedicated scholar committed to advancing autonomous underwater systems and marine engineering solutions. With a background in mechanical engineering and specialized training in machine design and analysis, he has consistently pursued innovation at the intersection of robotics, control engineering, and marine technology. His research explores the development of advanced methodologies for intelligent control, navigation, and path planning of underwater robots, with a vision to enable sustainable exploration and monitoring of marine environments. He combines theoretical knowledge with experimental validation to create practical solutions that support oceanographic research, marine surveillance and environmental conservation. Through his contributions, he is recognized as a rising researcher driving innovation in intelligent underwater robotic systems.

Publication Profile

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Education

Mr. Surya Prakash Mishra has cultivated a strong educational foundation that underpins his expertise in underwater robotics. He began his academic journey with a Bachelor’s degree in Mechanical Engineering, which provided him with fundamental knowledge in engineering design, mechanics, and applied sciences. Building upon this base, he pursued a Master’s degree in Machine Design and Analysis at the National Institute of Technology, Rourkela, where he specialized in advanced engineering concepts and applied mechanical systems. His academic training enabled him to gain expertise in dynamic systems, structural analysis, and optimization techniques that form the basis of robotic design. Currently, he is furthering his academic pursuit through doctoral research at NIT Rourkela, with a specialization in underwater robotics and analysis. His Ph.D. work integrates interdisciplinary knowledge from mechanical engineering, robotics and artificial intelligence, positioning him as an emerging expert in intelligent underwater vehicle design and advanced marine system applications.

Professional Experience

As a Research Fellow at the National Institute of Technology, Rourkela, Mr. Surya Prakash Mishra has demonstrated both academic rigor and applied expertise in underwater robotics. His professional role involves the design, analysis, and development of advanced underwater vehicles with enhanced capabilities for exploration and monitoring. He has been actively engaged in research projects focused on developing self-driven underwater vehicles tailored for complex marine environments. His experience bridges theoretical modeling with hands-on experimental testing, ensuring that his research outcomes are not only conceptually strong but also practically viable. In his capacity as a researcher, he has contributed significantly to projects involving autonomous navigation, control strategies, and optimization-based path planning for remotely operated vehicles (ROVs) and autonomous underwater vehicles (AUVs). His professional engagements reflect a commitment to pushing the boundaries of marine robotics while fostering innovation that supports environmental sustainability, marine safety, and underwater surveillance applications in real-world scenarios.

Research Interest

The central focus of Mr. Surya Prakash Mishra’s research lies in the field of underwater robotics, with a strong interest in the development of intelligent autonomous systems for marine applications. His academic curiosity revolves around designing innovative methodologies that enable underwater robots to function effectively in unpredictable and dynamic oceanic environments. He is particularly interested in trajectory tracking, obstacle avoidance and adaptive control of Remotely Operated Vehicles (ROVs) and Autonomous Underwater Vehicles (AUVs). His work extends into the integration of bio-inspired optimization algorithms, hybrid control mechanisms, and multi-degree-of-freedom robotic designs for enhanced adaptability. He is also deeply engaged in developing environmentally sustainable robotic solutions that contribute to ocean exploration, resource management and climate studies. His interdisciplinary interests blend engineering mechanics, control theory, artificial intelligence and marine engineering, positioning him as a researcher dedicated to solving some of the most pressing challenges in autonomous underwater systems and advancing global marine technologies.

Research Skills

Mr. Surya Prakash Mishra possesses an extensive range of research skills that make him highly effective in the field of underwater robotics. He specializes in developing intelligent control strategies for autonomous navigation and path planning, applying both classical and advanced optimization methods. His technical expertise includes the design and analysis of underwater robots with multiple degrees of freedom, allowing for robust adaptability in dynamic ocean conditions. He has proficiency in applying bio-inspired algorithms, including White Shark Optimization, Shark Smell Optimization, and Spotted Hyena Optimization, to enhance robotic control mechanisms. In addition, he is skilled in integrating hybrid control approaches that combine artificial intelligence with classical PID control to improve stability and performance. His ability to translate theoretical concepts into experimental prototypes ensures that his research contributes practically to marine exploration, environmental monitoring, and robotic engineering. These skills collectively highlight his capability as an innovative researcher and problem solver in marine robotics.

Awards and Honors

Mr. Surya Prakash Mishra has earned recognition for his academic and research contributions in underwater robotics and engineering innovation. His achievements reflect his consistent dedication to advancing marine robotic systems through a blend of theoretical insight and experimental validation. He has been acknowledged for his pioneering work in developing intelligent control strategies, hybrid optimization techniques, and advanced underwater vehicle designs. These recognitions not only highlight his scholarly excellence but also demonstrate his ability to create impactful solutions with practical applications in underwater exploration, marine monitoring, and sustainable technologies. His distinction as a promising researcher is underscored by his role in leading innovative projects at the National Institute of Technology, Rourkela and his growing reputation in the scientific community. The awards and honors bestowed upon him serve as a testament to his research potential, innovative thinking, and dedication to contributing meaningfully to the advancement of marine robotics and engineering.

Author Metrics

  • Total Publications: 1

  • Most Recent Publication: Integration of White Shark Algorithm with PID in U-ROV Navigation for Enhanced Obstacle Avoidance (2025)

  • Research Areas Covered: Underwater Robotics, Autonomous Vehicle Navigation, Optimization Algorithms, Marine Engineering Applications

Publications Top Notes

1. Integration of white shark algorithm with PID in U-ROV navigation for enhanced obstacle avoidance
Year: 2025

Conclusion

Mr. Surya Prakash Mishra embodies the qualities of an emerging leader in the domain of underwater robotics, with his work standing at the intersection of engineering, robotics, and marine sciences. His academic training, professional experience, and innovative research contributions position him as a driving force in advancing autonomous underwater systems that are intelligent, adaptable, and sustainable. By integrating bio-inspired optimization algorithms, hybrid control techniques, and practical robotic designs, he has significantly contributed to the development of next-generation underwater vehicles capable of addressing complex marine challenges. His research not only strengthens the scientific understanding of underwater systems but also provides real-world solutions for exploration, surveillance, and environmental monitoring. With his dedication to innovation and problem-solving, he continues to make meaningful contributions that enhance the scope and effectiveness of marine robotics. His career trajectory reflects a promising path toward becoming a globally recognized expert in underwater engineering.