共查询到5条相似文献,搜索用时 3 毫秒
1.
In this paper, a vision chip for edge detection based on the structure of biological retina is introduced. The key advantage
of retinal structure is speed of operation. However, bio-inspired vision chips have suffered from low resolution which is
caused by their complex circuit structure. To sufficiently improve the resolution for real application, the circuits for analog
processing were separated from circuits for image capturing. In addition, we compensated the low speed problem of operation
which is caused by bottleneck of data transfer between photo-sensors and analog processing circuit by adding a reset decoder.
The vision chip was fabricated using 0.35 μm 2-poly 4-metal complementary metal---oxide---semiconductor technology. Using
the vision chip, we could obtain a contrast-enhanced image without any other cost-increase for fabrication of chips. Then,
the edge image was easily achieved by thresholding the previous contrast-enhanced image. 相似文献
2.
Koji Yamamoto Yu Oya Keiichiro Kagawa Masahiro Nunoshita Jun Ohta Kunihiro Watanabe 《Optical Review》2006,13(2):64-68
A complementary metal oxide semiconductor (CMOS) image sensor for the detection of modulated light under background illumination
has been developed. When an object is illuminated by a modulated light source under background illumination the sensor enables
the object alone to be captured. This paper describes improvements in pixel architecture for reducing fixed pattern noise
(FPN) and improving the sensitivity of the image sensor. The improved 128 × 128 pixel CMOS image sensor with a column parallel
analog-to-digital converter (ADC) circuit was fabricated using 0.35-mm CMOS technology. The resulting captured images are
shown and the properties of improved pixel architecture are described. The image sensor has FPN of 1/28 that of the previous
image sensor and an improved pixel architecture comprising a common in-pixel amp and a correlated double sampling (CDS) circuit.
The use of a split photogate increases the sensitivity of the image sensor to 1.3 times that of the previous image sensor. 相似文献
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应用于空间的图像传感器在辐射影响下产生的热像素严重影响空间光电探测性能,本文通过质子辐照试验研究了热像素的产生和变化规律。首先,使用3 MeV和10 MeV两种能量的质子对图像传感器进行辐照,分析不同能量、不同注量的质子辐照产生热像素的性质;其次,再对辐照后的器件进行退火试验,分析热像素的退火规律。对于相同注量辐照,3 MeV质子辐照下热像素产生率大约是10 MeV质子辐照下的2.3倍,但是10 MeV质子辐照产生热像素的灰度值高于3 MeV质子;辐照过程中热像素的数量都是随着注量的增加线性增加。退火过程中,热像素数量都不断减少,而3 MeV质子辐照产生的热像素相比于10 MeV质子,退火更为显著。结果表明,质子辐照下每个质子与器件之间的作用过程及产生缺陷的机制是相对独立的,不同质子的作用过程之间没有相关性。不同能量的质子辐照产生缺陷的类型不同,导致热像素具有不同特性。 相似文献