International Journal of Advanced Engineering Application

Underwater Soft Robotics for Coral Reef Rehabilitation and Marine Habitat Engineering

Author(s):Ankit R. Thakur1, Nikhil S. Verma2, Priya M. Chauhan3, Rohit D. Mishra4

Affiliation: 1,2,3,4Department of Mechanical Engineering, Skyline Institute of Engineering and Technology, Greater Noida, Uttar Pradesh, India

Page No: 17-22

Volume issue & Publishing Year: Volume 2 Issue 2,Feb-2025

Journal: International Journal of Advanced Engineering Application (IJAEA)

ISSN NO: 3048-6807

DOI: https://doi.org/10.5281/zenodo.17672108

Download PDF

Article Indexing:

Abstract:
Coral reefs, often referred to as the "rainforests of the sea," play a critical role in maintaining marine biodiversity, coastal protection, and global ecological balance. However, climate change, ocean acidification, and anthropogenic activities have accelerated reef degradation at an alarming rate. Traditional methods of reef restoration, such as manual transplantation and artificial reef deployment, are labor-intensive, expensive, and often limited in scale. Recent advances in soft robotics present a promising solution for underwater ecological engineering. Soft robots, designed with flexible and adaptive materials, can mimic marine organisms, navigate fragile ecosystems with minimal disturbance, and perform precise tasks such as coral transplantation, debris removal, and microalgae seeding. This paper explores the potential of underwater soft robotics in coral reef rehabilitation and marine habitat engineering. It highlights the design principles of soft robotic systems for underwater applications, including bioinspired locomotion, compliant actuation, and material resilience under high-pressure aquatic environments. Furthermore, the study emphasizes the integration of soft robots with environmental sensors and autonomous navigation systems, enabling large-scale and sustainable reef restoration efforts. By bridging the fields of marine biology, material science, and robotics, underwater soft robotics has the potential to revolutionize marine ecosystem conservation and ensure the long-term survival of coral reefs in the face of global challenges

Keywords: Soft robotics, coral reef rehabilitation, underwater habitat engineering, bioinspired design, autonomous marine systems, marine ecosystem restoration

Reference:

• [1] J. O. Park, K. Kim, and S. Lee, “Bioinspired soft robotics for underwater exploration,” IEEE Robotics and Automation Letters, vol. 7, no. 2, pp. 1561–1568, 2022.
• [2] R. Trivedi, L. Marino, and C. Li, “Soft robotics approaches for coral reef monitoring and restoration,” Frontiers in Marine Science, vol. 9, pp. 115–128, 2022.
• [3] F. Zhang, P. Wang, and H. Liu, “Materials and actuation technologies for soft underwater robots,” Advanced Intelligent Systems, vol. 3, no. 4, pp. 1–15, 2021.
• [4] A. Mahdavi, D. Rus, and M. Tolley, “Design considerations for compliant underwater robotic manipulators,” International Journal of Robotics Research, vol. 40, no. 8–9, pp. 1127–1143, 2021.
• [5] N. S. Williams and J. T. Klein, “Innovative methods for coral reef restoration using robotic technologies,” Marine Technology Society Journal, vol. 55, no. 3, pp. 25–36, 2021.
• [6] P. F. Widdicombe, R. K. Singh, and T. Yamamoto, “Autonomous underwater robots for marine ecosystem rehabilitation,” Ocean Engineering, vol. 250, pp. 111–124, 2022.
• [7] S. Mondal and K. Chatterjee, “Soft polymer composites for long-term marine applications,” Journal of Applied Polymer Science, vol. 138, no. 45, pp. 512–525, 2021.
• [8] H. R. Dey, L. Zhao, and M. Kovač, “Energy harvesting solutions for autonomous underwater soft robots,” Renewable and Sustainable Energy Reviews, vol. 168, pp. 112–128, 2023.
• [9] A. J. Purcell and D. M. Brown, “Artificial reef engineering and ecological considerations,” Ecological Engineering, vol. 176, pp. 106–119, 2022.