Accelerating Biodiversity Surveys with AI
Biodiversity is declining across the globe at a catastrophic rate, as threats from human settlement expansion, illegal wildlife killing, and climate change place enormous pressure on wildlife populations. Conservation biologists are faced with the daunting – but urgent – task of surveying wildlife populations and making policy recommendations to governments and industry. What species need legal protection from hunting? A road needs to connect two cities; which route will have the least detrimental impact on wildlife habitat? Where will it be most effective to build underpasses as wildlife migration corridors? Where should we deploy anti-poaching resources? Informed policy decisions on questions like these start with data: just as your doctor can only prescribe treatment after running trusted diagnostic tests, policymakers and protected area managers can only act to protect biodiversity if robust, up-to-date data is available when they need it.
Data, in this case, is wildlife population estimates, for which remote sensing has become the most powerful tool in the conservation toolbox. But currently, collecting data about how animals use their habitats – or even how many animals live in a given area – is dependent on tremendous amounts of manual data annotation: it often takes years for a small NGO to annotate millions of images or audio recordings for a single project. This bottleneck precludes real-time applications, and often delays critical answers to conservation questions so long that by the time they’re available, they’re no longer relevant. Machine learning is poised to break this annotation logjam, and to greatly accelerate conservation decision-making.
We apply machine learning tools to a variety of image sources – including motion-triggered camera traps, aerial cameras, and microphones – to accelerate ecologists’ workflows. Our team spans Microsoft Research, Microsoft AI for Earth (opens in new tab), and the AI for Good Research Lab (opens in new tab). We also collaborate with organizations such as NOAA Fisheries (opens in new tab), Sieve Analytics (opens in new tab), and LILA BC (opens in new tab).
Data
In collaboration with many partners, we maintain a repository of labeled conservation images, the Labeled Information Library of Alexandria: Biology and Conservation (opens in new tab) (LILA).
Other work at Microsoft
Work is being done in in the biodiversity space across Microsoft. Check out these other great projects that our Microsoft colleagues have worked on:
- Counting Puffins with AI (opens in new tab) (with SSE Renewables)
- Accelerating camera trap workflows (opens in new tab) (with the Snow Leopard Trust (opens in new tab))
- Accelerating seabird surveys with active learning (opens in new tab) (with Conservation Metrics (opens in new tab))
- Accelerating seabird surveys with Azure ML Workbench (opens in new tab) (with Conservation Metrics (opens in new tab))
- Accelerating poacher detection (opens in new tab) (with Peace Parks (opens in new tab))
- Accelerating marine video surveys (opens in new tab) (with the Northern Territory)
- Accelerating giraffe surveys (opens in new tab) (with the Wild Nature Institute (opens in new tab)) (paper (opens in new tab))
- Accelerating drone-based wildlife surveys and land cover mapping (opens in new tab) (with Kakadu National Park)
- WWF/Microsoft Hackathon to user computer vision to identify illegal pangolin products in online marketplaces (opens in new tab) (with WWF)
- WWF/Microsoft Hackathon to use computer vision to identify illegal pangolin products in online marketplaces (opens in new tab) (with WWF)
- Microsoft/Heathrow collaboration that uses computer vision to screen for illegal wildlife products at Heathrow airport (opens in new tab) (with Heathrow) (video (opens in new tab))