At Zhejiang University in China, Dr. Ali Imran and Prof. Xu Mingsheng have recently developed a novel Neuromorphic Vision sensor in collaboration with a group of international scientists from esteemed institutions such as the State University of New York, National Institute for Materials Science in Japan, and Sejong University in South Korea.
Thanks to their invention, vision sensors can now perform neuromorphic functions including perceiving, learning, remembering, and making decisions all inside the same sensor. This function integration does away with the necessity for various hard drives, computers, and sensors.
The recently created sensor is renowned for its intelligence, ease of mass production, simplicity, high performance, and energy efficiency.
Additionally, a straightforward method for creating the HfAlO interfacial layer with ferroelectric characteristics was presented in their paper. This was accomplished by integrating monolayer graphene with atomic layer deposition to produce a ferroelectric field-effect transistor.
The ferroelectric HfAlO layer is polarized by the device’s photovoltaic conversion of light absorption in silicon.
The Graphene channel notices the changes and sends the signal to the output after that.
This novel sensor allows for the recognition of objects, numbers, photos, and human faces by processing weak light signals continuously and producing visual patterns. It doesn’t deteriorate over long periods of time and retains dependability and performance.
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