Light field control and automatic identification experimental system for physical impairment of glass samples

Chongqi Wei, Baiqiang Zhao, Hongjun Zheng, Xin Li, Chenglin Bai, Weisheng Hu
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Abstract

In this paper, we firstly propose a novel identification method for physical impairment of glass spheres samples based on the light field control. An identification simulation subsystem based on the finite difference time domain (FDTD) method to numerically study the light field control is proposed. The numerical results are consistent with the experimental data. On the basis of above numerical investigation, an automaticidentification experimental system for physical impairment of glass samples based on the Cortex-M3 is proposed. The relevanthardware circuitdesign,main program design, subprogram design of circuit modules, system specific framework structure and corresponding component design,andmaininterface between the master computer and slave microcontroller are accomplished. An automaticidentification experimental system for physical impairment of glass samples with automatic feeding subsystem and automatic sorting subsystem is achieved.
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玻璃样品物理损伤的光场控制和自动识别实验系统
本文首先提出了一种基于光场控制的新型玻璃球样品物理损伤识别方法。提出了一个基于有限差分时域(FDTD)方法的识别模拟子系统,对光场控制进行数值研究。数值结果与实验数据一致。在上述数值研究的基础上,提出了基于 Cortex-M3 的玻璃样品物理损伤自动识别实验系统。完成了相关硬件电路设计、主程序设计、电路模块子程序设计、系统具体框架结构和相应组件设计以及主控计算机与从属单片机之间的主要接口。实现了具有自动进样子系统和自动分拣子系统的玻璃样品物理损伤自动识别实验系统。
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