Difference between revisions of "Visual Systems for Robots"

From RoboWiki
Jump to: navigation, search
(Part 3: Training on 3D processing)
Line 63: Line 63:
 
* ''open'' pic3.jpg, depthX.jpg ''and'' depthY.jpg
 
* ''open'' pic3.jpg, depthX.jpg ''and'' depthY.jpg
  
There is box and figure on the image pic3.jpg you can see that these images has the same resolution.  
+
There is box and figure on the image pic3.jpg -- you can see that these images has the same resolution.<BR>
<TT>depthX</TT> represents X coordinate of surface point visibile at the particular pixel
+
<TT>depthX</TT> represents X coordinate of surface point visibile at the particular pixel<BR>
 
<TT>depthY</TT> represents Y coordinate
 
<TT>depthY</TT> represents Y coordinate
  

Revision as of 06:24, 6 July 2010

by RNDr. Andrej Lúčny, PhD. (MicroStep-MIS, Ltd., Slovakia) presented at the Robotic Summer School 2010

  • download accompanying workfiles Media:visual.zip
  • unzip (recommended to C:\Work)

Part 1: Training on input image mainpulation

  • start ImageJ
  • open pic1.jpg
  • Image / Color / RGB Split Split Channels
  • apply Image / Lookup Tables / Red to pic1.jpg (red)
  • apply Image / Lookup Tables / Green to pic1.jpg (green)
  • apply Image / Lookup Tables / Blue to pic1.jpg (blue)
  • close everything
  • open pic1.jpg
  • apply Image / Type / 8bit to get gray image
  • apply Process / Binary / Make Binary to get binary image
  • start Octave or Matlab
  • change directory to directory with this training using the cd 'C:\Work\part1'
  • launch tr1

Part 2: Training on 2D processing

  • start ImageJ
  • open pic1.jpg
  • turn it grayscale: Image / Type / 8bit
  • descrease noise by threshold: Image / Adjust / Threshold
    • select Black & White from menu
    • move with low and high end of range to emphasize the seen objects
    • Apply and close the threshold window
  • make the image binary: Process / Binary / Make binary
  • if the picture contains now black object on white background, change it to white object on black background: Image / Lookup Tables / Invert LUT
  • try to eliminate holes in object by Process / Binary / Dilate and Process / Binary / Erode
  • try Process / Binary / Skeletonize


  • restart ImageJ
  • open pic1.jpg
  • start segmentation to 2 colors by Plugins / Segmentation / k-means clustering (select two colors)
  • return to the opened pic1.jpg and three times apply Process /Smooth then again perform the same segmentation
  • compare the two segmented images and select better


  • restart ImageJ
  • open pic2.jpg
  • apply Process / Filters / Gaussian Blur / 1.0
  • apply Process / Find edges
  • apply Process / Binary / Make Binary
  • apply thinning by Process / Binary / Skeletonize


  • start Octave or Matlab
  • change directory to directory with this training by cd 'C:\Work\part2'
  • launch tr2



Part 3: Training on 3D processing

  • start ImageJ
  • open pic3.jpg, depthX.jpg and depthY.jpg

There is box and figure on the image pic3.jpg -- you can see that these images has the same resolution.
depthX represents X coordinate of surface point visibile at the particular pixel
depthY represents Y coordinate

How many times further is the box than the figure ?

(Hint: use ImageJ to display coordinates of the proper surface points and find distance from camera from depth images)

(Hint2: The correct answer is half of very known and famous number)