This Underwater Robot Hunts Down Invasive Lionfish
Rahul Kalvapalle — August 27, 2018 — Tech
A group of student innovators working out of the Worcester Polytechnic Institute over in Massachusetts developed a high-tech underwater robot that is designed to be able to counter the threat posed by the invasive Lionfish species off the southern and eastern coasts of the United States.
The Lionfish has posed a problem to ecosystems due to the fact that it has no natural predators, lays tens of thousands of fish itself and consumes a high amount of prey. It is also difficult for divers to hunt, which is where the underwater robot comes in.
This robot makes use of artificial intelligence technologies to autonomously detect, track and kill Lionfish using a spear module. Once the fish is killed, the robot can transfer it to the surface.
Efficient and easy to deploy, this underwater robot is a fine example of the utility of robotic technologies in controlling invasive wildlife species.
The Lionfish has posed a problem to ecosystems due to the fact that it has no natural predators, lays tens of thousands of fish itself and consumes a high amount of prey. It is also difficult for divers to hunt, which is where the underwater robot comes in.
This robot makes use of artificial intelligence technologies to autonomously detect, track and kill Lionfish using a spear module. Once the fish is killed, the robot can transfer it to the surface.
Efficient and easy to deploy, this underwater robot is a fine example of the utility of robotic technologies in controlling invasive wildlife species.
Trend Themes
1. AI-powered Underwater Robots - Developing AI-powered underwater robots for wildlife control and conservation purposes presents disruptive innovation opportunities.
2. Autonomous Wildlife Detection and Elimination - Implementing autonomous detection and elimination systems in underwater robots can revolutionize the eradication of invasive species.
3. Efficient Underwater Fish Harvesting - Creating efficient underwater robots for fish harvesting purposes opens up new possibilities for sustainable seafood production.
Industry Implications
1. Robotics - The robotics industry can explore disruptive innovation opportunities by developing advanced underwater robot systems for wildlife control and conservation.
2. Ecological Conservation - The ecological conservation industry can leverage AI-powered underwater robots to combat invasive species and maintain ecosystem balance.
3. Seafood Production - The seafood production industry can benefit from efficient underwater fish harvesting robots to support sustainable and responsible fishing practices.
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