哈密瓜坚实度的高光谱无损检测技术

提出利用高光谱对哈密瓜坚实度进行检测的方法,对比分析了不同波段范围、不同预处理法、不同光程校正法和不同定量校正算法对哈密瓜坚实度预测模型准确度的影响.实验结果表明,在500～820 nm波段光谱区域,采用偏最小二乘法对经过标准正则变换校正的一阶微分处理的光谱建模效果较优,其校正集相关系数为0.873,校正均方根误差为4.18N,预测集相关系数为0.646,预测均方根误差为6.40N.研究表明,应用高光谱对哈密瓜坚实度的无损检测研究具有可行性.     

Comparision between Ga- and N-polarity InGaN solar cells with gradient-In-composition intrinsic layers

Performances of Ga-and N-polarity solar cells(SCs) adopting gradient-In-composition intrinsic layer(IL) are compared.It is found the gradient ILs can greatly weaken the negative influence from the polarization effects for the Gapolarity case,and the highest conversion efficiency(η) of 2.18%can be obtained in the structure with a linear increase of In composition in the IL from bottom to top.This is mainly attributed to the adsorptions of more photons caused by the higher In composition in the IL closer to the p-GaN window layer.In contrast,for the N-polarity case,the SC structure with an InGaN IL adopting fixed In composition prevails over the ones adopting the gradient-In-composition IL,where the highest η of 9.28%can be obtained at x of 0.62.N-polarity SC structures are proven to have greater potential preparations in high-efficient InGaN SCs.     

PHM技术国内外发展情况综述

随着现代武器装备复杂化、综合化、智能化程度的不断提高,传统的故障诊断技术难以适应新的需求。为了满足信息化战争对武器装备作战效能和快捷、精准、持续保障的要求,20世纪90年代中期,PHM(故障预测与健康管理)技术应运而生。从发展概况、应用成效、PHM验证评价、典型案例分析以及发展规划5个方面总结了国外PHM技术发展的应用成效;并对国内PHM技术的基础理论、工程技术与应用方面的发展状况进行了总结;通过对比国内外PHM技术的发展应用现状,总结分析了目前国内PHM技术发展现状与国外先进水平之间的差距以及未来发展的借鉴启示。