计算机科学
密码学
加密
计算机安全
认证(法律)
可视密码
秘密分享
作者
Bangjie Shao,Tianqing Wan,Fuyou Liao,Beom Jin Kim,Jiewei Chen,Jianmiao Guo,Sijie Ma,Jong‐Hyun Ahn,Yang Chai
出处
期刊:ACS Nano
[American Chemical Society]
日期:2023-05-15
卷期号:17 (11): 10291-10299
被引量:54
标识
DOI:10.1021/acsnano.3c00487
摘要
The prevailing transmission of image information over the Internet of Things demands trustworthy cryptography for high security and privacy. State-of-the-art security modules are usually physically separated from the sensory terminals that capture images, which unavoidably exposes image information to various attacks during the transmission process. Here we develop in-sensor cryptography that enables capturing images and producing security keys in the same hardware devices. The generated key inherently binds to the captured images, which gives rise to highly trustworthy cryptography. Using the intrinsic electronic and optoelectronic characteristics of the 256 molybdenum disulfide phototransistor array, we can harvest electronic and optoelectronic binary keys with a physically unclonable function and further upgrade them into multiple-state ternary and double-binary keys, exhibiting high uniformity, uniqueness, randomness, and coding capacity. This in-sensor cryptography enables highly trustworthy image encryption to avoid passive attacks and image authentication to prevent unauthorized editions.
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