【摘 要】
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Optical deep learning based on diffractive optical elements offers unique advantages for parallel process-ing,computational speed,and power efficiency.One landmark method is the diffractive deep neural net-work(D2NN)based on three-dimensional printing tec
【机 构】
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Center of Ultra-precision Optoelectronic Instrument,Harbin Institute of Technology,Harbin 150001,Chi
论文部分内容阅读
Optical deep learning based on diffractive optical elements offers unique advantages for parallel process-ing,computational speed,and power efficiency.One landmark method is the diffractive deep neural net-work(D2NN)based on three-dimensional printing technology operated in the terahertz spectral range.Since the terahertz bandwidth involves limited interparticle coupling and material losses,this paper extends D2NN to visible wavelengths.A general theory including a revised formula is proposed to solve any contradictions between wavelength,neuron size,and fabrication limitations.A novel visible light D2NN classifier is used to recognize unchanged targets(handwritten digits ranging from 0 to 9)and tar-gets that have been changed(i.e.,targets that have been covered or altered)at a visible wavelength of 632.8 nm.The obtained experimental classification accuracy(84%)and numerical classification accuracy(91.57%)quantify the match between the theoretical design and fabricated system performance.The pre-sented framework can be used to apply a D2NN to various practical applications and design other new applications.
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