基于超短激光微加工的数控人机交互界面设计  被引量:2

Design of NC human-machine interaction interface based on ultrashort laser micromachining

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作  者:李旦 李其亮 LI Dan;LI Qiliang(School of Continuing Education,Shanghai Jiaotong University,Shanghai 200052,China)

机构地区:[1]上海交通大学继续教育学院

出  处:《激光杂志》2018年第12期93-97,共5页Laser Journal

基  金:国家自然科学基金项目(No.61375053)

摘  要:针对当前数控人机交互界面设计方法存在的操作效率低、安全性低的问题,在超短激光微加工的基础上提出一种数控人机交互界面设计方法。采用动态链接库技术对数控人机交互界面中的手动模式和自动模式执行模块,以及安全报警、I/O状态监控和参数设置管理模块进行设计。通过人机交互界面中组成元件的纹理、色彩、位置、方向和形状等视觉特征,对人机交互界面组成元件的视觉注意程度值进行计算。根据计算得到的视觉注意程度值对人机交互界面中的元件进行排序,完成数控人机交互界面的设计。实验结果表明,本文方法对故障进行检测时,所用的时间少于6s,计算得到的组成元件视觉注意程度值与元件本身的重要程度相符,验证本文方法的安全性高、操作效率高。Aiming at the problems of low efficiency and low security in the current CNC human-computer interaction interface design method,a data control human-computer interaction interface design method is proposed based on ultrashort laser micromachining. The dynamic link library technology is used to design the manual mode and automatic mode execution module in the numerical control human-computer interaction interface,as well as the security alarm,I/O status monitoring and parameter setting management module. Through visual features such as texture,color,position,direction and shape of component elements in the human-computer interaction interface,and the visual attention value of the components of the human-computer interaction interface is calculated. According to the calculated visual attention value,the components in the human-computer interaction interface are sorted,and the design of the numerical control human-computer interaction interface is completed. The experimental results show that the proposed method uses less than 6 seconds to detect the fault,the calculated value of the visual component of the component is consistent with the importance of the component itself. The proposed method has high safety and high operating efficiency.

关 键 词:超短激光 数控人机 人机交互界面 操作效率 

分 类 号:TN249[电子电信—物理电子学]

 

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