About This Webinar
Vision has always been humanity’s most powerful sense — our primary gateway for understanding, navigating, and surviving in the world. Today, technology demands even more: ultrafast perception, extreme accuracy, and reliable operation in any environment. The AI Vision Fabric delivers precisely that. It is a breakthrough platform that fuses advanced digital holography with Fresnel coherent diffraction imaging (FCDI), transforming how artificial systems capture and interpret visual information. Inspired by nature’s most efficient vision systems, this technology unlocks performance far beyond the limits of traditional optics. At its core is a quantum-ready multichannel electro-optic synchronization interface, enabling real-time recording of holographic data with scalable, ultrahigh precision. When paired with quantum multichannel processors, it opens the door to unprecedented speed, parallelism, and intelligence. This powerful fusion of AI, holography, and biological inspiration creates a new generation of vision technology — one that achieves human-like flexibility and scalability without precision lenses, moving parts, or heavy computational loads.
The result is the foundation for the artificial eye:
- Millisecond-level detection speeds.
- Resolution improvements by multiple orders of magnitude.
- Minimal memory usage.
- Simple, efficient recognition algorithms.
From medical and biomedical imaging to tactical drone-swarm defense, autonomous navigation, and next-generation automotive safety systems, the AI Vision Fabric is designed to elevate every application where seeing the invisible matters. AI Vision Fabric: Giving Machines the Power to See Beyond Human Limits.
Who should attend:
This webinar will serve as a valuable resource for scientists, industry managers, engineers, and technicians involved in the design and development of all kinds of vision systems, including optical, computer, microwave, and radio frequency systems, drones, medical, and other visual and imaging devices.
About the presenter:
Dr. Pavlo A. Molchanov (Senior Member, SPIE, IEEE) holds an M.S. degree from Kiev Polytechnical Institute, Ukraine, and a Ph.D. degree from Moscow Aviation Institute (MAI), Moscow, USSR. He served as a Principal Investigator in AF SBIR and ONR projects, where he designed lidar/radar systems, and contributed to the design of Sense and Avoid Antenna Arrays for U.S. Navy Ships and Naval Aviation. Molchanov's contributions to the field are evident in his impressive list of achievements, including 240 publications, four textbooks, and 20 U.S. patents.