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Gpixel  press release  on August 17, 2022: Gpixel expands high-speed GSPRINT image sensor series with a 2/3” 2.5 MP 3460 fps global shutter GSPRINT4502 Gpixel announces a high-speed global shutter image sensor, GSPRINT4502, a new member of the GSPRINT series taking high speed imaging to another level. GSPRINT4502 is a 2.5 Megapixel (2048 x 1216), 2/3” (φ10.7 mm), high speed image sensor designed with the latest 4.5 µm charge domain global shutter pixel. It achieves more than 30 ke- charge capacity and less than 4 e- rms read noise, with dynamic range of 68 dB which can be expanded using a multi-slope HDR feature. Utilizing an advanced 65 nm CIS process with light pipe and micro lens technology, the sensor achieves >65% quantum efficiency and < -92 dB parasitic light sensitivity. GSPRINT4502 can achieve extremely high frame rates up to 3460 fps in 8-bit mode, 1780 fps in 10-bit mode or 850 fps in 12-bit mode, all at full resolution. With 2×2 on-chip charge binning, full well capac

The 2023 International Image Sensors Workshop (IISW) will be held in Scotland from 22-25 May 2023. The first call for papers is now available at this link: 2023 IISW CFP . FIRST CALL FOR PAPERS ABSTRACTS DUE DEC 9, 2022   Submission link: https://cmt3.research.microsoft.com/IISW2023 2023 International Image Sensor Workshop Crieff Hydro Hotel, Scotland, UK 22-25 May, 2023 The 2023 International Image Sensor Workshop (IISW) provides a biennial opportunity to present innovative work in the area of solid-state image sensors and share new results with the image sensor community. Now in its 35th year, the workshop will return to an in-person format. The event is intended for image sensor technologists; in order to encourage attendee interaction and a shared experience, attendance is limited, with strong acceptance preference given to workshop presenters. As is the tradition, the 2023 workshop will emphasize an open exchange of information among participants in an informal, secluded setting

[This is an invited blog post by Prof. Andreas Velten from University of Wisconsin-Madison.] When we started working on single photon imaging we were anticipating having to do away with many established concepts in computational imaging and photography. Concepts like exposure time, well depth, motion blur, and many others don’t make sense for single photon sensors. Despite this expectation we still encountered several unexpected surprises. Our first surprise was that SPAD cameras, which typically are touted for low light applications, have an exceptionally large dynamic range and therefore outperform conventional sensors not only in dark, but also in very bright scenes . Due to their hold off time, SPADs reject a growing number of photons at higher flux levels resulting in a nonlinear response curve. The classical light flux is usually estimated by counting photons over a certain time interval. One can instead measure the time between photons or the time a sensor pixel waits for a phot

New Mira220 image sensor’s high quantum efficiency enables operation with low-power emitter and in dim lighting conditions Stacked chip design uses ams OSRAM back side illumination technology to shrink package footprint to just 5.3mm x 5.3mm, giving greater design flexibility to manufacturers of smart glasses and other space-constrained products Low-power operation and ultra-small size make the Mira220 ideal for active stereo vision or structured lighting 3D systems in drones, robots and smart door locks, as well as mobile and wearable devices Press Release:  https://ams-osram.com/news/press-releases/mira220 Premstaetten, Austria (14th July 2022) -- ams OSRAM (SIX: AMS), a global leader in optical solutions, has launched a 2.2Mpixel global shutter visible and near infrared (NIR) image sensor which offers the low-power characteristics and small size required in the latest 2D and 3D sensing systems for virtual reality (VR) headsets, smart glasses, drones and other consumer and industrial

Jiaju Ma et al. of Gigajot Technology, Inc. have published a new article titled "Ultra‑high‑resolution quanta image sensor with reliable photon‑number‑resolving and high dynamic range capabilities" in Nature Scientific Reports. Abstract: Superior low‑light and high dynamic range (HDR) imaging performance with ultra‑high pixel resolution are widely sought after in the imaging world. The quanta image sensor (QIS) concept was proposed in 2005 as the next paradigm in solid‑state image sensors after charge coupled devices (CCD)and complementary metal oxide semiconductor (CMOS) active pixel sensors. This next‑generation image sensor would contain hundreds of millions to billions of small pixels with photon‑number‑resolving and HDR capabilities, providing superior imaging performance over CCD and conventional CMOS sensors. In this article, we present a 163 megapixel QIS that enables both reliable photon‑number‑resolving and high dynamic range imaging in a single device. Th

Baraja is an automotive LiDAR company headquartered in Australia which specializes in pseudo-random modulation continuous wave LiDAR technology which they call "RMCW". A blog post by Cibby Pulikkaseril (Founder & CTO of Baraja) compares and contrasts RMCW with the more-commonly-known FMCW and ToF LiDAR technologies. tldr; There's good reason to believe that pseudo-random modulation can provide robustness in multi-camera environments where multiple LiDARs are trying to transmit/receive over a common shared channel (free space). Full blog article here: https://www.baraja.com/en/blog/rmcw-lidar Some excerpts: Definition of RMCW Random modulated continuous wave (RMCW) LiDAR is a technique published in Applied Optics by Takeuchi et al. in 1983. The idea was to take a continuous wave laser, and modulate it with a pseudo-random binary sequence before shooting it out into the environment; the returned signal would be correlated against the known sequence and the delay would