Diving into the Future: Marty, the Cutting-Edge Hybrid AUV-ROV Expanding the Horizons of Underwater Discovery

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Marty, the hybrid autonomous underwater vehicle (AUV) and remote-operated vehicle (ROV), is a groundbreaking innovation designed to unlock the mysteries of the deep sea and revolutionize underwater exploration. At its core, Marty serves as a beacon of possibility, venturing into uncharted territories of the sea that are beyond the reach of human divers. Its state-of-the-art technology and advanced features make it an indispensable tool for marine exploration and research.

Marty's role in the naval domain is equally indispensable. With exceptional scouting capabilities, Marty aids the Navy in efficient mapping of underwater terrain, detection of potential hazards, and assessment of maritime threats. By providing real-time information and intelligence, Marty enhances maritime security and safeguards naval interests. Marty can be deployed for Aquaculture Monitoring and Management.

The true innovation lies in its unique hybrid nature, seamlessly transitioning between autonomous and remote-operated functionalities. Its modular design enables effortless adaptability, catering to diverse mission requirements. When autonomy is needed, Marty operates independently with sophisticated onboard systems, while remote control allows human operators to steer it with precision. This versatility empowers users with unmatched flexibility, making Marty an invaluable asset in a wide range of underwater scenarios.

Equipped with advanced sensors and a high-resolution visual camera system, the Hybrid ROV offers real-time monitoring of water quality, fish health, feeding patterns, and biomass distribution. It facilitates comprehensive data collection, enabling operators to optimize aquaculture operations, ensure sustainable practices, and make informed decisions for increased productivity. The integration of hydrophones, pressure sensors, and other relevant sensors provides a comprehensive understanding of the aquaculture environment.

The Hybrid ROV incorporates a dedicated container for safe and controlled fish transportation. It collects, contains, and transports fish species to designated zones within the aquaculture environment, ensuring their well-being and survival. The container's controlled release mechanisms minimize stress during transportation, allowing seamless fish relocation.

Looking ahead, the future holds boundless opportunities for Marty's evolution and application. The vehicle's adaptable gripper system enables the integration of customized utility tools tailored to specific user requirements. Moreover, Marty's potential to enhance and nurture aquatic health is demonstrated by its planned utilization for swimming pool and larger water body cleaning systems.

In addition to its groundbreaking capabilities, Marty stands out as a cost-effective solution. With an initial cost of INR 3,00,000 (approximately $3,500), the vehicle offers an accessible and affordable option without compromising on performance or quality. This affordability enables a broader user base to harness the power of underwater exploration, empowering researchers, conservationists, and commercial entities alike.

In summary, Marty represents a significant leap forward in underwater technology, combining the benefits of autonomy and remote operation to redefine the boundaries of exploration. Its capacity to explore inaccessible depths, assist naval operations, and cater to a multitude of underwater applications, including aquaculture monitoring, management, and fish transport, makes it an invaluable tool in the pursuit of knowledge and the preservation of our marine ecosystems. The possibilities are endless with Marty, the hybrid AUV-ROV, paving the way for a new era of underwater innovation.



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  • Name:
    Vijay Krishna Rv
  • Type of entry:
    Team members:
    • Srikrishnan S
    • Raghav B
    • Vishal A S
    • Vaishnavi Mandhani R
    • Raahul K S
    • Nithin M
    • Venkata Madhav
    • Vibhav Gopal
    • Roshan V S
    • Soorya Narayanan
  • Software used for this entry:
    Solidworks , Ansys , Comsol , Matlab , Fusion 360
  • Patent status: