To efficiently deal with the ever-increasing pixel data rates, work has been performed on the development, evaluation, and standardisation of a new (semi-) lossless image compression method: Tico-RAW. New high speed serial interfaces (up to 7.2Gbps the fastest in the world today) have been integrated to deal with the very high data rate of the image sensors while limiting the number of I/O pins and power dissipation.įurthermore, research has been performed on new ADC concepts, a pixel test container to allow for easier testing of new pixel concepts, and a new method of Region of Interest management for significantly faster sensor readout. The project worked on next generation CMOS image sensors, including a 4K UHDTV sensor with 2.5µm Global Shutter pixels for broadcast applications, a new image sensor platform with sub-3 µm Global Shutter pixels for machine vision applications, and new High Dynamic Range pixel architectures for e.g. The figure below shows a diagram of the technological building blocks of the project and developments. That means that the only factor left is brightness, and HDR represents an evolution over the existing technology. For a long time, colour gamut has been at a standstill, but a few years ago the Rec. Of these, the first three are all related to pixel density, and they have all gradually evolved over time. Broadly speaking, increased image quality involves five factors: resolution, bit depth, frame rate, colour gamut, and brightness. The five elements of increased image quality. This allows all partners to stay in the forefront of their markets and further improve their market position. Through cooperation in this project, technologies and building blocks have been developed that would not be possible without cooperation. The SENSATION project was formed around partners that are leaders in the world-wide markets in which they operate, without being competitors. Neither of the partners is large enough and has the skills available to develop these technologies alone. ![]() To develop and optimize this next generation of technologies for professional products, a consortium with a critical mass of world class engineering and research skills is required. ![]() These technologies and building blocks are required to address the needs of the next generation imaging systems for the Television Broadcast, Machine Vision and Automotive markets. The overall goal of the SENSATION project was to develop technologies and improved building blocks necessary for CMOS image sensors, image sensor interface standards, video processing, and video compression and transmission. In all vision based professional applications the trend in image capture is towards higher spatial and temporal resolutions, wider colour gamut including the use of non-visible spectral domains, higher dynamic range and improved image quality. Image capture and transmission are generic technologies used in a multitude of business applications, including Production Technologies, Healthcare, Security, Automotive and Digital Entertainment (TV Broadcast, Digital Cinema, Gaming). In SENSATION, 6 world-class partners cooperated to develop and optimize the next generation of technologies for professional products for use in Television Broadcast, Machine Vision and Automotive markets. In all vision based professional applications the trend in image capture is towards higher spatial and temporal resolutions, wider colour gamut, higher dynamic range and improved image quality. The SENSATION project developed and demonstrated technologies and building blocks for CMOS image sensors, image sensor interface standards, video processing, video compression and transmission.
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