Barrel Detection

A barrel, and its bounding box, as identified by BarrelBlobFinder

Approaches

The following approaches have been considered:

Image Acquisition & Color Identification (#1)

Strategy

• Find orange pixels (on barrel) with (Pixels) => Red - Green => High-Pass Threshold => (Orange pixels)
• Find while pixels (on barrel) with (Pixels) => Saturation => Low-Pass Threshold => (White pixels)
• (Orange pixels) => Blob seperation => Orange stripes (Bounding Boxes)
• (Orange pixels) => Blob seperation => White stripes (Bounding Boxes)
• {Orange stripes (Bounding Boxes), White stripes (Bounding Boxes)} => Blob merging => Barrels (Bounding Boxes)

Progress

• none so far

Image Acquisition & Color Identification (#2)

Strategy

• Preprocessing
  • Find orange pixels (on barrel) with (Pixels) => Red - Green => High-Pass Threshold => (Orange pixels)
  • Find white pixels (on barrel) with (Pixels) => {Saturation, Brightness} => {Low-Pass Threshold, High-Pass Threshold} => (White pixels)

• Algorithm
  • Scan horizontal lines of image, starting from the bottom, and moving up. When current scan line intersects a sufficient number of orange pixels, mark the orange segment of the line as being the bottom edge of a barrel.
  • Once the bottom edge of a barrel is identified, scan horizontal line-segments above the bottom edge, starting from the bottom and moving up. When an insufficient percentage of current scan line-segment contains orange/white pixels, mark the line-segment as being the top edge of the barrel.
  • Once the top and bottom edges of a barrel have been identified, record the bounding box of the barrel and delete the barrel from the image (clear all of the pixels within the bounding box). Continue scanning.

Progress

• I have written an experimental image filter called BarrelBlobFinder, included in ImageFilterDemo v1.2.3, that implements a more complex version of this algorithm. It works quite well, although it could benefit from some more calibration. --David 23:22, 19 Oct 2005 (EDT)
• I am investigating the usage of adaptive thresholding to dynamically determine appropriate values for the threshold-style parameters of the BarrelBlobFinder filter. --David 20:48, 20 Oct 2005 (EDT)

Distance-Map Acquistion & Shape Identification

Strategy

1. Scan distances in front of robot by some method, obtaining a distance-map.
2. Find/distinguish the "plateaus" of the graph. Mark each "plateau" as the near-edge/near-face of a barrel.

Methods to Obtain a Distance Map

1. SICK
   • Obtains a distance-map along a line projected away from the robot.
   • Pros
     • Easy to implement programmatically.
   • Cons
     • Expensive hardware. May be able to get from the CS department
2. Stereoscopic Imaging
   • Obtains a distance-map along a plane projected away from the robot.
   • Pros
     • Spencer already has a rudimentary implementation of a steroscopic imaging algorithm.
   • Cons
     • Difficult to implement programmatically.
     • Requires two camcorders. Currently, we only have one.

Progress

• none so far

A Note on Notation

In the above steps, items surrounded with parentheses are data. Other items are analyses or filters.