Safe Pro Group has deployed upgraded artificial intelligence algorithms to its patented Safe Pro Object Threat Detection technology in response to customer requests, enhancing drone operations in GPS and GNSS denied environments. The enhanced capabilities enable rapid battlefield image analysis, including 2D and 3D modeling and explosive threat detection from virtually any drone video feed, and were developed following real world exercises in Ukraine based on end user feedback.
The upgraded technology is scheduled to be showcased at the U.S. Army 2026 Concept Focused Warfighter Experiment at Fort Hood, Texas. This deployment represents a significant advancement in AI-enabled security and defense solutions, particularly for operations where traditional positioning systems are unavailable or compromised. The technology leverages commercially available drones with proprietary machine learning and computer vision technology to enable rapid identification of explosives threats, providing a safer and more efficient alternative to traditional human-based analysis methods.
Built on a cloud-based ecosystem and powered by Amazon Web Services, Safe Pro Group's scalable platform targets multiple markets including commercial, government, law enforcement and humanitarian sectors. The company's technology integrates with its Safe Pro AI software, Safe-Pro USA protective gear and Airborne Response drone-based services to deliver safety and operational efficiency. For more information about the company's technology platform, visit https://safeprogroup.com/.
The development of these enhanced algorithms following real-world exercises in Ukraine demonstrates the practical application and battlefield relevance of the technology. This advancement matters because it addresses critical operational challenges in modern conflict zones where GPS signals can be jammed or denied, while providing faster and more accurate threat identification that could save lives and improve mission outcomes. The upcoming demonstration at U.S. Army experiments will provide important validation of the technology's capabilities in simulated combat environments.
