Rotation-invariant image recognition using interconnected floating-gate phototransistor

光电二极管 不变(物理) 旋转(数学) 图像传感器 人工智能 光电子学 计算机视觉 计算机科学 材料科学 光学 物理 量子力学
作者
Xuan Pan,J. Shi,Wentao Yu,Yichen Zhao,Yuekun Yang,Bin Cheng,Shi‐Jun Liang,Feng Miao
出处
期刊:Applied Physics Letters [American Institute of Physics]
卷期号:125 (13) 被引量:1
标识
DOI:10.1063/5.0234566
摘要

Rotational invariance is fundamental for robust image recognition systems, ensuring accurate analysis irrespective of image orientation. However, existing systems predominantly reliant on software often encounter challenges such as increased computational demands and compromises between processing speed and accuracy. In this study, we propose leveraging the interconnected floating-gate (FG) structure as an effective hardware-level solution to achieve rotational invariance in image recognition. Our design features a reconfigurable two-dimensional material FG phototransistor array, where each processing unit integrates four sensory devices sharing a common FG. This configuration facilitates uniform distribution of stored charges across the interconnected FG layer, which is typically made of metal, enabling consistent application of a single weight matrix to images across varied rotational conditions. The photoactive material, tungsten diselenide (WSe2), possesses a distinctive bipolar property that facilitates both hole and electron tunneling into the FG layer. This property directly contributes to the efficiency of state transition within the setup and improves its overall adaptability. In this manner, our design achieves stable and predictable outputs in recognizing identical digital numbers regardless of their rotation, while also demonstrating variable performance essential for accurately distinguishing between different digital numbers. This dual capability guarantees both the adaptability and precision required for rotation-invariant image recognition, suggesting that our work may open up a promising venue for exploring advanced hardware designs, such as optimized interconnected FG architectures, tailored for enhancing recognition accuracy and efficiency in the field of intelligent visual systems.
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