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.
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.
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.
The paper evaluates Prophesee’s 3rd-generation event-based cameras for space domain awareness, showing potential for efficient, low-power temporal sensing despite sensitivity limits.
In this paper, the traditional techniques of conventional astronomy are reconsidered to properly utilise the event-based camera for space imaging and space situational awareness.
