Shanghai’s Premier University Launches Biomimetic Robot, matching the prowess of a living manta ray, announces its latest innovation in the field of robotic marine life. After a decade of dedicated research, the team at Shanghai Hiyang University has developed a biomimetic robot that mirrors the biological attributes of a manta ray, including its body structure and swimming behavior.
This advanced robotic manta ray stands out, with its high durability, agility, and substantial cargo-carrying capacity, making it a promising asset for large-scale operations. Resembling the majestic sea creature, it swims smoothly with the ability to operate autonomously, navigating its way through aquatic environments.
Capable of sustained swimming at a steady pace, the robotic creature can glide through water at a speed of 0.5 meters per second and continue for up to six hours, covering a distance of 30 to 35 kilometers without the need for human intervention.
The report reveals that this biomimetic manta ray is also equipped with numerous high-precision sensors for real-time underwater fish shoal monitoring. These sensors enable the robot to intelligently recognize and interact with its surroundings, setting a new standard for underwater exploration and observation.
The unveiling of the innovative biomimetic robot by Shanghai Hiyang University represents a significant milestone in the field of robotics and marine research.
Advantages:
– The robotic manta ray’s ability to mimic the swimming behavior of its biological counterpart grants it excellent maneuverability and stealth, which can be particularly useful for underwater exploration and data collection.
– Its high durability allows it to withstand harsh marine environments, potentially reducing the need for frequent maintenance and repairs.
– The substantial cargo-carrying capacity makes it suitable for various applications, from transportation of research equipment to collection of specimens.
– The autonomous operation and long-distance coverage make it ideal for missions that might be too risky or tedious for human divers.
– The inclusion of high-precision sensors can improve the accuracy of underwater environmental monitoring, benefiting marine biology research and conservation efforts.
Challenges and Controversies:
One of the key challenges associated with underwater robots is ensuring reliable communication and navigation under the sea, where GPS and wireless signals are ineffective. Developing robust systems that can overcome these obstacles is critical for the success of such innovations.
Another challenge is the cost of development and deployment. Such advanced robotics systems can be expensive to build, and their maintenance could also incur significant costs.
There may also be environmental concerns regarding how these robots interact with marine life and whether they could disrupt local ecosystems if not managed properly.
Solving these challenges will require continuous research and development, taking into account not just the technological aspects but also the environmental and economic implications of deploying such robotic systems in marine settings.
Disadvantages:
– The operation of mechanical robots in natural habitats could potentially interfere with the behavior of real sea life if not managed responsibly.
– Dependency on electronic systems presents risks such as malfunction or failure due to water pressure, saltwater corrosion, or battery life limitations.
As the topic of advanced robotics and biomimicry continues to expand, it is critical to consider ethical implications and environmental impacts while appreciating the technological advancements.
For additional information related to robotics and biomimicry, you can visit the following link: Biomimetics.
The source of the article is from the blog papodemusica.com