From darkest shadow to brightest highlights
From darkest shadow to brightest highlights
FlyEye® Vision Sensor Prototype
From darkest shadow to brightest highlights
FlyEye® Vision Sensor Prototype
September 12, 2023 – AI4IV is happy to announce the successful completion of the test and qualification phase of our innovative FlyEye® Prototype, an important milestone in our journey towards the future of intelligent vision.
September 12, 2023 – AI4IV is happy to announce the successful completion of the test and qualification phase of our innovative FlyEye® Prototype, an important milestone in our journey towards the future of intelligent vision.
September 12, 2023 – AI4IV is happy to announce the successful completion of the test and qualification phase of our innovative FlyEye® Prototype, an important milestone in our journey towards the future of intelligent vision.
The prototype is designed to test the pioneering AI4IV sensing technology, demonstrating the high performance and efficiency of our bio-inspired approach to intelligent vision. Every AI4IV FlyEye® photoreceptor is indeed able to double the dynamic range1 of the photodiodes used to build it.
The FlyEye® Prototype confirms that the AI4IV vision sensor technology can capture in real-time and in single shots extremely high dynamic range and artefact-free images. Its innate ability to adapt to any and every lighting scenario makes it ready for all types of Intelligent Vision applications.
This achievement marks a significant step forward in revolutionizing how AI perceives the world around us and represents a further validation of our approach to intelligent vision. Our team has been hard at work, crafting and designing a vision sensor that promises to reshape industries and redefine possibilities. From improved object recognition to intelligent environmental monitoring, our vision sensors aim to create a paradigm shift in how we engage with our surroundings.
1 in logarithmic scale.
The FlyEye® Prototype. The prototype is a 1mm² silicon die built using the LFoundry 110nm CIS technology. It implements an array of 50×50 BW photoreceptors based on basic 8um-pitch photodiodes complete with simple analog memories.The prototype is designed to test the pioneering AI4IV sensing technology, demonstrating the high performance and efficiency of our bio-inspired approach to intelligent vision. Every AI4IV FlyEye® photoreceptor is indeed able to double the dynamic range1 of the photodiodes used to build it.
The FlyEye® Prototype confirms that the AI4IV vision sensor technology can capture in real-time and in single shots extremely high dynamic range and artefact-free images. Its innate ability to adapt to any and every lighting scenario makes it ready for all types of Intelligent Vision applications.
1 In logarithmic scale.
The FlyEye® Prototype. The prototype is a 1mm² silicon die built using the LFoundry 110nm CIS technology. It implements an array of 50×50 BW photoreceptors based on basic 8um-pitch photodiodes complete with simple analog memories.This achievement marks a significant step forward in revolutionizing how AI perceives the world around us and represents a further validation of our approach to intelligent vision. Our team has been hard at work, crafting and designing a vision sensor that promises to reshape industries and redefine possibilities. From improved object recognition to intelligent environmental monitoring, our vision sensors aim to create a paradigm shift in how we engage with our surroundings.
The prototype is designed to test the pioneering AI4IV sensing technology, demonstrating the high performance and efficiency of our bio-inspired approach to intelligent vision. Every AI4IV FlyEye® photoreceptor is indeed able to double the dynamic range1 of the photodiodes used to build it.
The FlyEye® Prototype confirms that the AI4IV vision sensor technology can capture in real-time and in single shots extremely high dynamic range and artefact-free images. Its innate ability to adapt to any and every lighting scenario makes it ready for all types of Intelligent Vision applications.
1 In logarithmic scale.
The FlyEye® Prototype. The prototype is a 1mm² silicon die built using the LFoundry 110nm CIS technology. It implements an array of 50×50 BW photoreceptors based on basic 8um-pitch photodiodes complete with simple analog memories.This achievement marks a significant step forward in revolutionizing how AI perceives the world around us and represents a further validation of our approach to intelligent vision. Our team has been hard at work, crafting and designing a vision sensor that promises to reshape industries and redefine possibilities. From improved object recognition to intelligent environmental monitoring, our vision sensors aim to create a paradigm shift in how we engage with our surroundings.
Beyond Boundaries
The Potential Applications
The potential applications of our FlyEye® Vision Sensor are as vast and diverse as your imagination, as it enables low-power and “beyond-HDR” sensing for AI. Imagine machines that can see, learn, and dynamically adapt to any lighting environment.
Most autonomous mobile robots (AMRs) may operate at different times of the day, under a very wide variety of possible lighting conditions, underlying the need for a robust dynamic range camera. In a possible agricultural use case, AMRs can be equipped with our technology to capture and analyze intricate elements such as crop details, and pest or weed presence. And this at any time of the day, including in intense backlight conditions.
Varying lighting conditions are also an open challenge in the domain of traffic management and intelligent video surveillance. Frequently cameras struggle producing a clear image against direct sunlight. This is precisely where AI4IV’s technology plays a crucial role, in enabling intelligent video systems to improve the security of our cities and houses, capture vehicle license plates, identify individuals, and so on.
Beyond Boundaries
The Potential Applications
The potential applications of our FlyEye® Vision Sensor are as vast and diverse as your imagination, as it enables low-power and “beyond-HDR” sensing for AI. Imagine machines that can see, learn, and dynamically adapt to any lighting environment.
Most autonomous mobile robots (AMRs) may operate at different times of the day, under a very wide variety of possible lighting conditions, underlying the need for a robust dynamic range camera. In a possible agricultural use case, AMRs can be equipped with our technology to capture and analyze intricate elements such as crop details, and pest or weed presence. And this at any time of the day, including in intense backlight conditions.
Varying lighting conditions are also an open challenge in the domain of traffic management and intelligent video surveillance. Frequently cameras struggle producing a clear image against direct sunlight. This is precisely where AI4IV’s technology plays a crucial role, in enabling intelligent video systems to improve the security of our cities and houses, capture vehicle license plates, identify individuals, and so on.
Beyond Boundaries
The Potential Applications
The potential applications of our FlyEye® Vision Sensor are as vast and diverse as your imagination, as it enables low-power and “beyond-HDR” sensing for AI. Imagine machines that can see, learn, and dynamically adapt to any lighting environment.
Most autonomous mobile robots (AMRs) may operate at different times of the day, under a very wide variety of possible lighting conditions, underlying the need for a robust dynamic range camera. In a possible agricultural use case, AMRs can be equipped with our technology to capture and analyze intricate elements such as crop details, and pest or weed presence. And this at any time of the day, including in intense backlight conditions.
Varying lighting conditions are also an open challenge in the domain of traffic management and intelligent video surveillance. Frequently cameras struggle producing a clear image against direct sunlight. This is precisely where AI4IV’s technology plays a crucial role, in enabling intelligent video systems to improve the security of our cities and houses, capture vehicle license plates, identify individuals, and so on.
AI4IV Vision for the Future
As we celebrate this achievement, we are also setting our sights on what lies ahead. Our vision sensor prototype is just the beginning, a glimpse into the boundless opportunities that await. We’re committed to pushing the boundaries of innovation, exploring new horizons, and collaborating with visionary partners who share our passion for progress.
The AI4IV Team.
AI4IV Vision for the Future
As we celebrate this achievement, we are also setting our sights on what lies ahead. Our vision sensor prototype is just the beginning, a glimpse into the boundless opportunities that await. We’re committed to pushing the boundaries of innovation, exploring new horizons, and collaborating with visionary partners who share our passion for progress.
The AI4IV Team.
AI4IV Vision for the Future
As we celebrate this achievement, we are also setting our sights on what lies ahead. Our vision sensor prototype is just the beginning, a glimpse into the boundless opportunities that await. We’re committed to pushing the boundaries of innovation, exploring new horizons, and collaborating with visionary partners who share our passion for progress.
The AI4IV Team.