College of Engineering News Room

Sriram Chellappan is Using AI and Drone Mapping Technology to Pinpoint Mosquito Breeding Habitats

by Ryan Wakefield

Drone Mapping

To combat the spread of malaria in developing regions such as sub-Saharan Africa, Sriram Chellappan, a 欧美三级片 professor of computer science and engineering, played an important part in developing drone mapping technology to locate habitats of malaria spreading mosquitoes.

Earlier this year, 欧美三级片 College of Public Health research assistant professor Ben Jacobs initiated a project to tackle malaria by encouraging local inhabitants in Uganda to seek and destroy breeding habitats, before the larvae become adults. To make this project a success, Chellappan鈥檚 expertise in AI and drones played an integral part.  

鈥淭he malaria mortality rate in sub-Saharan Africa is upwards of 500,000 each year with most of them being children," Chellappan said. "Many more get infected and survive, but impacts are severely debilitating. The idea we came up with was to find a way to integrate drone technologies with artificial intelligence 鈥 mainly computer vision 鈥 to enable real-time detection of habitats where Anopheles mosquitoes are likely to lay eggs. This is because Anopheles mosquitoes alone spread malaria, and they are endemic in sub-Saharan Africa and in many other countries as well."

Chellappan and his student assistant, Mona Minakshi, developed a technique to automatically detect sources of Anopheline breeding habitats from drone videos taken in sub-Saharan Africa. Their technique, based on state-of-the-art convolutional neural networks, not only detects where habitats are found in the videos but also localizes those habitats via bounding boxes in the frames. In addition, they also process the videos to extract GPS locations of habitats. All of this information is fed back in real-time to local public health officials, so that local citizens can be mobilized to destroy these habitats immediately.

鈥淔irst, we received a number of training images from Uganda, wherein we were notified exactly where the signatures of Anopheline breeding habitats within those images are," Chellappan said. "With these images, we built an AI algorithm that automatically detects the signatures of breeding habitats and separates them from the background. Once we receive videos from the field, we splice them into frames, and our algorithm then processes each frame one by one to detect if any learnt signatures are present, and if so, localizes them within the frame. These frames and the corresponding GPS locations are sent back in real-time to public health officials in Uganda, and they immediately mobilize personnel to destroy those habitats. We were notified that our algorithm was highly accurate, and in fact many Anopheline breeding habitats were indeed eliminated, hence contributing to controlling malaria.鈥

Results of this study will be published in an upcoming issue in The Journal of Public Health and Epidemiology.

 mosquito drone mapping

An instance of a predicted anopheles larval habitat created by the AI algorithm.

"I came to 欧美三级片 with a passion to do impactful research, and this project enabled me to do just that 鈥 Research on AI for health in underserved communities,鈥 Minakshi said. 鈥淚 vividly recall late night sessions where our team had to wait for drone videos from Uganda. Upon receipt, we were excited to execute our AI algorithms to detect potential Anopheline habitats."

Manatee County was eager to discover a more cost-effective solution to their flood water mosquito problem and decided that Jacobs鈥 drone mapping project was an ideal solution. During a field test in Manatee County, Jacobs and his assistants successfully verified that each habitat identified by the computer algorithms did in fact have mosquito larvae.

鈥淚t was very satisfying to learn that our algorithm was successful at pinpointing mosquito breeding grounds in Florida as well,鈥 Chellappan said. 鈥淎lso, we received a new National Science Foundation award for our work on mosquito surveillance. This new award further validates the importance of surveillance and control of mosquito-borne diseases as perceived by NSF.鈥

The next step of this project is to add an insecticide delivery system to the drone itself.

鈥淚nsecticides are commonly sprayed by helicopters and other vehicles unnecessarily blanketing large areas," he said. "This can cause issues with pollution and other problems. With the use of our algorithm, the drone will detect and then target a breeding ground, and a controlled amount of insecticide will be sprayed directly from the drone. This will reduce the potential for rain runoff and wind drifting in high altitudes.鈥

Jacobs and Chellappan planned to test insecticide delivery in Manatee County, but these plans were delayed by the COVID-19 outbreak.

鈥淲e鈥檙e all looking forward to seeing automatic habitat detection and insecticide delivery via drones become a reality,鈥 Chellappan said.