Sensor systems developer FLIR Systems Inc. has announced an open-source machine learning thermal dataset designed for advanced driver assistance systems (ADAS) and self-driving vehicle researchers, developers, and auto manufacturers, featuring a compilation of more than 10,000 annotated thermal images of day- and nighttime scenarios. The first of its kind to include annotations for cars, other vehicles, people, bicycles, and dogs, the starter thermal dataset enables developers to begin testing and evolving convolutional neural networks with the FLIR Automotive Development Kit (ADKTM). The dataset empowers the automotive community to quickly evaluate thermal sensors on next-generation algorithms. When combined with visible-light cameras, lidar, and radar, thermal sensor data paired with machine learning helps create a more comprehensive and redundant system for identifying and classifying roadway objects, especially pedestrians and other living things. FLIR has more than 500,000 automotive-qualified FLIR thermal sensors in driver warning systems from automakers such as General Motors, Volkswagen, Audi, BMW, and Mercedes-Benz. The thermal cameras are helpful in the classification of pedestrians, bicycles, and vehicles in challenging lighting conditions, including total darkness, fog, smoke, shadows, inclement weather, and sun glare, at nearly 4× the distance of typical headlights. “This free, open-source dataset is a subset of what FLIR has to offer, and it provides a critical opportunity for the automotive community to expand the dataset to make ADAS and self-driving cars more capable in various conditions,” said Frank Pennisi, president of industrial business at FLIR. “Furthermore, recent high-profile autonomous driving-related accidents show a clear need for affordable, intelligent thermal sensors. With the potential for millions of autonomous-enabled vehicles, FLIR thermal sensor costs will decrease significantly, which will encourage wide-scale adoption and ultimately enable safer autonomous vehicles.” FLIR is a sensor developer for security and surveillance, environmental and condition monitoring, outdoor recreation, machine vision, navigation, and advanced threat detection.