Biomod/2011/Caltech/DeoxyriboNucleicAwesome/Origami Layouts: Difference between revisions
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== Origami Layout For Various Experiments == | == Origami Layout For Various Experiments == | ||
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Light-blue dots: marker to distingusich the orientation of the origami for AFM images | Light-blue dots: marker to distingusich the orientation of the origami for AFM images | ||
[[Image: ssslide1.jpg | 700px]] | [[Image: ssslide1.jpg | 700px|thumb|center|Regular rectangle origami diagram]] | ||
=== Discussion about Arrangements of Tracks === | |||
=====Diagonal arrangement of tracks VS. Vertical arrangement of tracks===== | |||
[[Image: diagonal.jpg | 300px|thumb|center | Diagonal arrangement of tracks VS. Vertical arrangement of tracks]] | |||
An important to consider is the particular arrangement of substrate strands for the walker. The particular random walker that we are using moves via strand displacement between two types of substrate (substrates A and B), with each walker-substrate pair having an equal number of conjugated bases. This walker performs a random walk via random, energetically neutral strand displacement4. We prefer this model of walker because it allows track substrate to be reused, unlike many burnt-bridges models of walkers that sacrifice track that has already been walked on in order to achieve directional motion5, and is easier to both design and work with. Because this walker can only move from one type of substrate to the other, it needs a path that alternates between substrate types for it to move between any two points. There are two ways of laying out substrate that we have considered: alternating diagonal bands , and alternating vertical bands . Vertical bands allow near-straight-line movement in the horizontal direction, whereas alternating bands allow straight-line movement in the vertical direction, along the short axis of the origami. As movement along the short axis is toward one of the goals, the diagonal arrangement in Figure 1 is thus preferable, as it minimizes the number of steps a walker has to take to get cargo from its planted location to its associated goal. | |||
===Playground design for overall cargo reorganizing behavior=== | ===Playground design for overall cargo reorganizing behavior=== | ||
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Green dots: cargo goal 1 | Green dots: cargo goal 1 | ||
[[Image: ssslide2.jpg | 700px]] | [[Image: ssslide2.jpg | 700px|thumb|center| Origami layout for overall cargo reorganizing behavior]] | ||
=== Playground design for linear random walking=== | === Playground design for linear random walking=== | ||
Since random walking behavior is well understood in 1D track, we built the linear track to test our random walking robot. | |||
White dots: regular rectangle | White dots: regular rectangle | ||
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Green star: walker goal | Green star: walker goal | ||
[[Image: sslide6.jpg | 700px | [[Image: sslide6.jpg | 700px|thumb|center| Origami layout for random walking behavior ]] | ||
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Latest revision as of 04:42, 3 November 2011
Thursday, March 28, 2024
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Origami Layout For Various ExperimentsRegular Rectangular OrigamiWhite dots: where we can extend the probes to attach other strands Light-blue dots: marker to distingusich the orientation of the origami for AFM images
Discussion about Arrangements of TracksDiagonal arrangement of tracks VS. Vertical arrangement of tracks
Playground design for overall cargo reorganizing behaviorWhite dots: regular rectangle Light-blue dots: marker to distingusich the orientation of the origami for AFM images Blue dots: track 1 Red dots: track 2 Organge dots: cargo 1 Green dots: cargo goal 1 Playground design for linear random walkingSince random walking behavior is well understood in 1D track, we built the linear track to test our random walking robot. White dots: regular rectangle Light-blue dots: marker to distingusich the orientation of the origami for AFM images Blue dots: track 1 Red dots: track 2 Green star: walker goal
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