本文我们提出了一种基于标记的自动矢量化方法。
In this paper we present an automatic vectorization algorithm based on image marking.
实际系统应用表明,该方法在图纸自动矢量化和识别中非常有效。
According to the applications in real systems, this method is both efficient and available in automatic vectorization and recognition of engineering drawings.
它包括图像预处理、自动矢量化、图形格式转换以及人工交互方式的光栅图像和矢量图形编辑等功能。
It includes image preprocessing, graphics auto-recognition, graphics format conversion and human-computer interactive method, such as raster image edition and vector graphics edition.
矢量化是图像自动编针中很重要的步骤。
介绍了基于细化算法的位图矢量化技术,使得自动排料与线切割系统能够运用于制鞋工业。
This paper proposes a bitmap vectorization technique based on a thinning algorithm, which makes the layout automation and wire-cutting machine applicable to the shoes manufacturing.
工程图纸中电气符号的自动识别是实现电气工程图纸矢量化的基础。
The automatic recognition of electro-symbol is the base of engineering drawing vectorization.
介绍了一个工件图纸自动输入的矢量化系统。
A vectorization system for workpiece drawing images is presented in this paper.
提取的直线图可以用于遥感图像矢量化、自动目标识别等方面。
The extracted line graph can be used for SAR image vectorization and comprehension etc.
在数控线切割机床自动编程系统中引入图像矢量化技术,能提高编程系统的智能化水平。
The introduction of image vectorization can increase the intelligence level of the programming system of numerical wire - cutting machine.
本文对该算法进行了优化处理,实现了栅格矢量化半自动跟踪和面状地物中心线提取。
This paper not only improved this algorithm but also implemented semi-automatic tracking grid-vectorization and central line pick-up using this algorithm.
本文对该算法进行了优化处理,实现了栅格矢量化半自动跟踪和面状地物中心线提取。
This paper not only improved this algorithm but also implemented semi-automatic tracking grid-vectorization and central line pick-up using this algorithm.
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