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NTT, a Japanese telecom and tech group, has launched a new drone system. This drone has a laser and will help keep poultry farms safe from avian influenza. NTT e-Drone Technology Co. is partnering with the Chiba Prefecture government. and NTT East Japan Co. We created the BB102 drone system. It effectively keeps wild birds, like crows and pigeons, away from farms. This helps prevent the spread of disease.
Resolving the Avian Flu Pandemic
The 2025 avian influenza outbreak led to the culling of more than 3.3 million poultry in Chiba Prefecture. This situation shows a pressing need for a new solution. Traditional methods like noise deterrents and chemical repellents can be slow. They often don’t effectively manage bird populations. Manual efforts fall short too. NTT’s drone laser system provides an more effective and humane option utilizing split red and green beams of light that flash unpredictably, making it impossible for birds to adjust to the patterns of light.
Technological Innovation and Automation
The BB102 drone system changes farming with its new autonomous navigation. This feature lets it scan poultry farms without needing people. It cuts labor costs and keeps workers safe from biohazards. The system targets unwanted wildlife precisely. This keeps poultry safe and healthy, lowering potential threats.
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Economic and Environmental Implications
Aside from its direct use in preventing diseases, laser drone deployment has wider economic and environmental advantages. Poultry farmers can save money and reduce their environmental impact by using fewer chemical repellents and less manual labor. Automated bird deterrence offers better flock protection. This means farmers can boost both productivity and profits.
Future Prospects and Industry Impact
The success of NTT’s laser-based drone system may open the door for extensions to other areas of agricultural applications and beyond. With further maturation of the technology, there are possibilities for modifications to be applied to crop protection, wildlife control, and even pest control within cities. Japan’s farming uses self-operating systems. This aligns with its strong push for digitization. This move puts the country in the lead for agri-tech innovation.
Conclusion
NTT’s new laser drones to combat avian influenza mark a major step in merging tech with farming. NTT uses advanced drone technology to meet a key biosecurity goal. This also opens doors for sustainable, automated farming in the future. The BB102 drone system uses lasers to find and remove wild birds. This helps lower the chance of avian influenza spreading to farm birds.
The poultry industry is evolving. Technologies like the BB102 will be key in securing food supplies. They also help strengthen agricultural systems against potential threats. This new approach might inspire similar changes in farming. It could help with crop monitoring and pest control. This can create a stronger and more efficient food production system.
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