REVEAL THE INVISIBLE
With the world’s most advanced Event-Based Vision systems,
inspired by human vision and built on the foundation of neuromorphic engineering.
PROPHESEE is the revolutionary system that gives Metavision to machines, revealing what was previously invisible to them.
Capturing hyper fast and fleeting scene dynamics
>10 000 fps (equivalent temporal precision)
Managing extreme lighting conditions
>120 dB dynamic range
Enabling new levels of power efficiency
< 10mW
With PROPHESEE, machines react much more intelligently, autonomously, faster and safer than ever.
A new breed of Computer Vision: speed, performance, efficiency and safety for a new era in autonomy, automation and mobility.
Note: Luca Verre is a co-founder, formerly CEO of Prophesee
APPLICATIONS
EXPLORE 300+ ACADEMIC PUBLICATIONS FEATURING PROPHESEE METAVISION TECHNOLOGIES
TECHNOLOGY
Beyond vision, METAVISION.
Your machines become infinitely more intelligent and faster.
The PROPHESEE system is a combination of our patented neuromorphic vision sensor and AI algorithms.
One, two or a thousand eyes for your machines ?
Built on the most advanced neuromorphic vision research in the world.
PARTNERS
Patents
International Recognitions
Market Applications Activity
STORIES
Prophesee Brings Event-Based Vision to Raspberry Pi 5 with GenX320 Starter Kit
Prophesee announces the GenX320 Starter Kit for Raspberry Pi 5, making event-based vision accessible to the Raspberry Pi developer community for the first time. Built around Prophesee’s ultra-compact, ultra-efficient GenX320 event-based vision sensor, the kit connects directly to the Raspberry Pi 5 camera connector to allow development of real-time applications that leverage the advantages of event-based vision for drones, robotics, industrial automation, surveillance, and more.
Prophesee’s Event-Based Metavision® Sensor Earns Design Win in High-Performance Wearable Eye Tracker from the Industry Leader 7invensun
7invensun’s aSee Glasses-EVS integrate Prophesee’s GenX320 event-based sensor, enabling up to 1000Hz eye movement sampling rate in a compact, lightweight wearable form factor. Designed for neuroscience, sports science, medical diagnosis, and cognitive research, the device offers high temporal precision and extended wearability for advanced human behavior studies.
Graph Neural Network Combining Event Stream and Periodic Aggregation for Low-Latency Event-based Vision
This paper proposes a novel architecture combining an asynchronous accumulation-free event branch and a periodic aggregation branch to break the accuracy-latency trade-off. The solution enables ultra low-latency and low-power optical flow prediction from event cameras, achieving per-event prediction with a latency of tens of microseconds.
Prophesee and Tobii partner to develop next-generation event-based eye tracking solution for AR/VR and smart eyewear
This collaboration combines Tobii’s best-in-class eye tracking platform with Prophesee’s pioneering event-based sensor technology. Together, the companies aim to develop an ultra-fast and power-efficient eye-tracking solution, specifically designed to meet the stringent power and form factor requirements of compact and battery-constrained smart eyewear.
IDS launches new industrial camera series featuring Prophesee event-based Metavision® sensing and processing technologies
IDS Imaging Development Systems GmbH, market leader in industrial machine vision, and Prophesee SA, inventor of the most advanced neuromorphic vision systems, today announced that IDS’ new uEye EVS camera line incorporates the high-speed, dynamic range and data efficiency of the Prophesee-Sony IMX636HD event-based vision sensor to offer new capabilities for industrial machine vision applications.
Prophesee GenX320 Camera Module Brings Event-Based Vision Sensing to the OpenMV Cam Platform
The Prophesee GenX320 camera module brings event-based vision sensing to the OpenMV Cam platform. Inspired by the human retina, each sensor pixel responds independently and asynchronously to relative changes in illumination leading to efficient, high-speed and low power vision sensing.
RECOGNITION
