跟我学机器视觉-HALCON学习例程中文详解-测量圆环脚宽间距
This example program demonstrates the basic usage of a circular measure object.
Here, the task is to determine the width of the cogs.
*首先读取图像,获取图像的宽度和高度
- First, read in the image and initialize the program.
read_image (Image, 'rings_and_nuts')
dev_close_window ()
dev_open_window_fit_image (Image, 0, 0, 640, 640, WindowHandle)
set_display_font (WindowHandle, 14, 'mono', 'true', 'false')
get_image_size (Image, Width, Height)
*读到的图像如下:
- Extract the rings.
自动阈值分割,此时为一个区域,如图*********
bin_threshold (Image, Region)
**********进行连通区域划分,不同的区域用不同的颜色表示,如图:
connection (Region, ConnectedRegions)
*填充区域内的孔洞,效果如图
fill_up (ConnectedRegions, RegionFillUp)
**计算区域的紧性,机器视觉算法与应用第168页
compactness (RegionFillUp, Compactness)
****通过紧性特征进行区域筛选,在1.5到2.5之间的为需要测量的圆环
for i := 0 to |Compactness|-1 by 1
if (Compactness[i] > 1.5 and Compactness[i] < 2.5)
select_obj (RegionFillUp, ObjectSelected, i+1)
* Determine the size and position of the rings.
计算选择区域的最小外接圆和最大内接圆,存储圆心和半径
两个半径的均值作为测量圆弧半径,AnnulusRadius 为测量圆弧宽度******************
smallest_circle (ObjectSelected, Row, Column, RadiusMax)
inner_circle (ObjectSelected, CenterRow, CenterCol, RadiusMin)
Radius := (RadiusMax+RadiusMin)/2.0
AnnulusRadius := (RadiusMax-RadiusMin)/4.0
* Determine the position between two cogs.
* This position is then used as the start angle for the circular ROI.
********多边形近似逼近区域,存储多边形角点的坐标值,机器视觉算法与应用第252页
get_region_polygon (ObjectSelected, AnnulusRadius, RowsBorder, ColumnsBorder)
计算每个角点到最大内接圆圆心的距离,然后进行排序*************
SqrDistanceBorder := (RowsBorder-CenterRow)(RowsBorder-CenterRow) + (ColumnsBorder-CenterCol)(ColumnsBorder-CenterCol)
*************从小到大排序
tuple_sort_index (SqrDistanceBorder, Indices)
********计算直线的角度,圆心和到圆心最近的多边形角点所确定的直线
***************将该角度作为测量圆弧的起始角度
line_orientation (CenterRow, CenterCol, RowsBorder[Indices[0]], ColumnsBorder[Indices[0]], AngleStart)
我认为检测圆开始角度直接设为0度也可以**************
AngleStart := rad(0) AngleExtent := rad(360) * Create the measure for a circular ROI. Interpolation := 'bilinear'
生成测量圆弧,为完整圆环(360度)***
gen_measure_arc (CenterRow, CenterCol, Radius, AngleStart, AngleExtent, AnnulusRadius, Width, Height, Interpolation, MeasureHandle)
* Determine all edge pairs that have a negative transition, i.e., edge pairs
* that enclose dark regions.
* Note that the output parameters IntraDistance and InterDistance are given as arc lengths.
Sigma := 1.0
Threshold := 30
Transition := 'negative'
Select := 'all'
***进行边缘对测量,RowEdgeFirst, ColumnEdgeFirst,RowEdgeSecond, ColumnEdgeSecond为检测圆弧检测到的边界的中心点的坐标,
IntraDistance, InterDistance分别为边缘对间的距离和边缘对的弧线距离
measure_pairs (Image, MeasureHandle, Sigma, Threshold, Transition, Select, RowEdgeFirst, ColumnEdgeFirst, AmplitudeFirst, RowEdgeSecond, ColumnEdgeSecond, AmplitudeSecond, IntraDistance, InterDistance)
* Determine the number of cogs.
NumCogs := |RowEdgeFirst|
* Determine the linear distance between the two edges of each edge pair ('Linear cog size')
* as well as the angular distance of the edge pairs ('Angular cog size').
计算边缘对的直线距离和弧度*
distance_pp (RowEdgeFirst, ColumnEdgeFirst, RowEdgeSecond, ColumnEdgeSecond, LinearDistance)
AngularDistance := deg(IntraDistance/Radius)
Visualize the determined edges.
将边缘对的起始终止点画出,并显示测量结果****
gen_empty_obj (Crosses)
for i := 0 to |RowEdgeFirst|-1 by 1
gen_cross_contour_xld (Cross, RowEdgeFirst[i], ColumnEdgeFirst[i], AnnulusRadius*2.0, atan2(RowEdgeFirst[i]-CenterRow,ColumnEdgeFirst[i]-CenterCol))
concat_obj (Crosses, Cross, Crosses)
gen_cross_contour_xld (Cross, RowEdgeSecond[i], ColumnEdgeSecond[i], AnnulusRadius*2.0, atan2(RowEdgeSecond[i]-CenterRow,ColumnEdgeSecond[i]-CenterCol))
concat_obj (Crosses, Cross, Crosses)
endfor
dev_display (Image)
dev_set_line_width (4)
dev_set_color ('black')
dev_display (Crosses)
dev_set_line_width (1)
dev_set_color ('white')
dev_display (Crosses)
* Display the measured size of the cogs.
disp_message (WindowHandle, 'Number of cogs: '+|RowEdgeFirst|+' ', 'window', 260, 10, 'black', 'true')
disp_message (WindowHandle, 'Mean cog size: ', 'window', 286, 10, 'black', 'true')
disp_message (WindowHandle, '- Arc length: '+mean(IntraDistance)$'.2f'+' +/- '+deviation(IntraDistance)$'.2f'+' pixel', 'window', 310, 10, 'black', 'true')
disp_message (WindowHandle, '- Linear: '+mean(LinearDistance)$'.2f'+' +/- '+deviation(LinearDistance)$'.2f'+' pixel', 'window', 334, 10, 'black', 'true')
disp_message (WindowHandle, '- Angular: '+mean(AngularDistance)$'.2f'+' +/- '+deviation(AngularDistance)$'.2f'+' deg ', 'window', 358, 10, 'black', 'true')
*
* Close the measure
close_measure (MeasureHandle)
disp_continue_message (WindowHandle, 'black', 'true')
stop ()
endif
for循环,测量其他圆环*****
endfor