arithmetic operators meaning in Chinese
算术运算符
算数运算符
算子
Examples
- So the conception of los ( light of sign ) is introduced into the equivalent treatment of treat avoidance in order to take account of terrain - shiled affection . finally , a new genetic algorithm is developed in this paper . three new arithmetic operators which are introduced into the algorithm are recording better , restoration and reconstruction . what ' s more , the known arithmetic operators are also improved in order to expand searching scope
因此在对威胁回避的等效处理上,本文引进了los (视线)概念进行地形可视概率计算,把威胁回避等效为地形回避,然后把等效地形数据离散化叠加到原先的地形高程数据中,这样就充分地考虑了地形的屏蔽作用。 - Based on summarizing the present technology on xlpe faults detection and reference the pd detection method on power transformer , this paper introduces a method on recognition pd mode of xlpe . this paper uses discharging quantum and stat . arithmetic operators of chart as inputs to artificial neural network
本文在总结前有的xlpe电力电缆绝缘故障检测方法和借鉴变压器绝缘局部放电的基础上,以理论与实验相结合,研究了基于人工神经网络的以xlpe电力电缆局部放电信号的模式识别方法。 - The results of study are briefly summarized as follows : 1 . based on analysis of current differential edge detection arithmetic operators and the requirement to detect only outer edge of objects in fruit detection , two new methods - gray adjacent area and template analysis were introduced for the solution
主要研究内容如下: ( 1 )在分析现有微分边缘检测算子的基础上,根据水果图象在检测时只需要检测目标外边缘的特点,提出了两种新的边缘检测算法:灰度邻域法和模板分析法。 - Detaching the wear region and background , caculating the threshold value is 151 , 147 , 118 taking overlap method and maximum dispersion method of high - load small particle abrasive wears low - load big particle abrasive wear and adhesive wear , then processing edge detection and skeleton map with classical sobel and gauss - laplace and kirsch arithmetic operators of template matching method , making the shape skeleton produced by different wear mechanism embodied cleared . and analysing the trait of shape skeleton
然后应用边缘检测的经典边缘检测算子sobel算子、 gauss - laplace算子和模板匹配法中的kirsch方法对图像进行边缘检测以及轮廓提取,使这三种磨损形式的不同磨损机制所产生的形状轮廓得到清晰地体现,并结合磨损机制分析形状轮廓的特点。