Editing TSP art
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− | + | http://mtbaldy.us/~dnewman/tspart/mona-lisa-tsp.png | |
+ | Monochrome likenesses of images can be made by processes of dithering, halftoning, or stippling as well as other techniques. The images below depict an original color image followed from left to right by a dithered image, a halftone screened imag, and a stippled image [1, 2, 3]. | ||
− | http:// | + | http://mtbaldy.us/~dnewman/tspart/mona-quartet.jpg |
− | + | However, to produce an image on the Eggbot, we want a process that not only generates a pleasing likeness of the image, but also recognizes the Eggbot's mechanical nature. Pen plotters such as the Eggbot excel at drawing long, continuous paths but are mediocre at drawing thousands of small, shaded fills (dithers, halftones screens). Pen plotters are somewhat better suited to drawing thousands of small circles and points (stipples). With stippling, an image's grayscale tonal quality is reproduced by drawing more stipples in darker regions of the image and fewer where the image is lighter. That is, the density of stipples in a given region of the canvas increases with increasing darkness in the same region of the original image. Unfortunately, even stippling can be challenging to the pen tip of a pen plotter -- the tip can mushroom out after many pen down operations [4]. And, the many pen up and down operations are slow relative to drawing connected segments of lines. | |
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− | However, to produce an image on the Eggbot, we want a process that not only generates a pleasing likeness of the image, but also recognizes the Eggbot's mechanical nature. Pen plotters such as the Eggbot excel at drawing long, continuous paths but are mediocre at drawing thousands of small, shaded fills (dithers, | ||
Sounds like we want a means of reproducing an image by drawing continuous paths, and preferrably as few distinct paths as possible.... | Sounds like we want a means of reproducing an image by drawing continuous paths, and preferrably as few distinct paths as possible.... | ||
− | Welcome to "TSP art" in which an image's tonal quality is reproduced with a '''single''', continuous path. This single path meanders over the entire canvas. Like stippling, segments of this path appear more frequently in regions of the canvas which correspond to darker regions in the original image. And, fewer segments of the path in lighter regions. But how and where do we choose to draw this path? By treating this question as a | + | Welcome to "TSP art" in which an image's tonal quality is reproduced with a '''single''', continuous path. This single path meanders over the entire canvas. Like stippling, segments of this path appear more frequently in regions of the canvas which correspond to darker regions in the original image. And, fewer segments of the path in lighter regions. But how and where do we choose to draw this path? By treating this question as a Travelling Salesman Problem (TSP), a suitable path may be determined. To do so, we first produce a stippled representation of the image. We then ask, "What is the shortest possible path that visits each and every stipple exactly once and then returning to the starting point?" That is precisely the Travelling Salesman problem with cities in the salesperson's journey replaced by stipples on our canvas. Determining an answer to the TSP is actually very hard (NP-hard). But, even fast approximate answers work well with the Eggbot. See the image at the top of this page for an example. |
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* [[Obtaining a TSP solver]] | * [[Obtaining a TSP solver]] | ||
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* [[Generating TSP art from a stippled image]] | * [[Generating TSP art from a stippled image]] | ||
* [[Advanced stippling]] | * [[Advanced stippling]] | ||
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== Notes == | == Notes == | ||
− | + | [1] See the "Digital photography and image processing" section of the Wikipedia article [http://en.wikipedia.org/wiki/Dither Dither].<br/> | |
− | [1] See the | ||
[2] For an explanation of halftoning, please see the Wikipedia article [http://en.wikipedia.org/wiki/Halftone Halftone]. Often, digital halftoning is an application of an ordered error diffusion dither.<br/> | [2] For an explanation of halftoning, please see the Wikipedia article [http://en.wikipedia.org/wiki/Halftone Halftone]. Often, digital halftoning is an application of an ordered error diffusion dither.<br/> | ||
[3] A brief introduction to stippling can be found in the Wikipedia article [http://en.wikipedia.org/wiki/Stipple Stipple].<br/> | [3] A brief introduction to stippling can be found in the Wikipedia article [http://en.wikipedia.org/wiki/Stipple Stipple].<br/> | ||
− | [4] To prevent mushrooming of your pen tips, select a reasonable value for your Eggbot's "pen lowering speed" in the "Timing" tab of the "Eggbot Control" extension | + | [4] To prevent mushrooming of your pen tips, select a reasonable value for your Eggbot's "pen lowering speed" in the "Timing" tab of the "Eggbot Control" extension. |
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