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rlm@401
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1 In order for this to be a reasonable thesis that I can be proud of,
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rlm@401
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2 what are the /minimum/ number of things I need to get done?
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rlm@401
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3
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rlm@401
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4
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rlm@401
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5 * worm OR hand registration
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rlm@401
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6 - training from a few examples (2 to start out)
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rlm@401
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7 - aligning the body with the scene
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rlm@401
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8 - generating sensory data
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rlm@401
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9 - matching previous labeled examples using dot-products or some
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rlm@401
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10 other basic thing
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rlm@401
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11 - showing that it works with different views
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rlm@401
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12
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rlm@401
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13 * first draft
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rlm@401
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14 - draft of thesis without bibliography or formatting
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rlm@401
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15 - should have basic experiment and have full description of
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rlm@401
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16 framework with code
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rlm@401
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17 - review with Winston
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rlm@401
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18
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rlm@401
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19 * final draft
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rlm@401
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20 - implement stretch goals from Winston if possible
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rlm@401
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21 - complete final formatting and submit
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rlm@401
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22
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rlm@401
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23 * CORTEX
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rlm@401
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24 DEADLINE: <2014-05-09 Fri>
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rlm@401
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25 SHIT THAT'S IN 67 DAYS!!!
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rlm@401
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26
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rlm@403
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27 ** program simple feature matching code for the worm's segments
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rlm@403
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28
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rlm@401
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29 Subgoals:
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rlm@401
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30 *** DONE Get cortex working again, run tests, no jmonkeyengine updates
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rlm@401
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31 CLOSED: [2014-03-03 Mon 22:07] SCHEDULED: <2014-03-03 Mon>
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rlm@401
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32 *** DONE get blender working again
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rlm@401
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33 CLOSED: [2014-03-03 Mon 22:43] SCHEDULED: <2014-03-03 Mon>
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rlm@401
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34 *** DONE make sparce touch worm segment in blender
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rlm@401
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35 CLOSED: [2014-03-03 Mon 23:16] SCHEDULED: <2014-03-03 Mon>
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rlm@401
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36 CLOCK: [2014-03-03 Mon 22:44]--[2014-03-03 Mon 23:16] => 0:32
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rlm@401
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37 *** DONE make multi-segment touch worm with touch sensors and display
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rlm@401
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38 CLOSED: [2014-03-03 Mon 23:54] SCHEDULED: <2014-03-03 Mon>
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39
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rlm@401
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40 *** DONE Make a worm wiggle and curl
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rlm@401
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41 CLOSED: [2014-03-04 Tue 23:03] SCHEDULED: <2014-03-04 Tue>
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rlm@403
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42
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rlm@401
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43
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rlm@401
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44 ** First draft
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rlm@403
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45
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rlm@401
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46 Subgoals:
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rlm@401
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47 *** Writeup new worm experiments.
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rlm@401
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48 *** Triage implementation code and get it into chapter form.
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49
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50
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51
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rlm@401
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52
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53
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rlm@401
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54 ** for today
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rlm@401
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55
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rlm@401
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56 - guided worm :: control the worm with the keyboard. Useful for
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rlm@401
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57 testing the body-centered recog scripts, and for
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rlm@401
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58 preparing a cool demo video.
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rlm@401
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59
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rlm@401
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60 - body-centered recognition :: detect actions using hard coded
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rlm@401
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61 body-centered scripts.
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62
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rlm@401
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63 - cool demo video of the worm being moved and recognizing things ::
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rlm@401
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64 will be a neat part of the thesis.
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rlm@401
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65
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rlm@401
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66 - thesis export :: refactoring and organization of code so that it
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rlm@401
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67 spits out a thesis in addition to the web page.
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rlm@401
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68
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rlm@401
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69 - video alignment :: analyze the frames of a video in order to align
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rlm@401
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70 the worm. Requires body-centered recognition. Can "cheat".
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rlm@401
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71
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rlm@401
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72 - smoother actions :: use debugging controls to directly influence the
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rlm@401
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73 demo actions, and to generate recoginition procedures.
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rlm@401
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74
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rlm@401
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75 - degenerate video demonstration :: show the system recognizing a
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rlm@401
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76 curled worm from dead on. Crowning achievement of thesis.
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rlm@401
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77
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rlm@401
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78 ** Ordered from easiest to hardest
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rlm@401
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79
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rlm@401
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80 Just report the positions of everything. I don't think that this
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rlm@401
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81 necessairly shows anything usefull.
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rlm@401
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82
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rlm@401
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83 Worm-segment vision -- you initialize a view of the worm, but instead
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rlm@401
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84 of pixels you use labels via ray tracing. Has the advantage of still
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rlm@401
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85 allowing for visual occlusion, but reliably identifies the objects,
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rlm@401
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86 even without rainbow coloring. You can code this as an image.
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rlm@401
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87
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rlm@401
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88 Same as above, except just with worm/non-worm labels.
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rlm@401
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89
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rlm@401
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90 Color code each worm segment and then recognize them using blob
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rlm@401
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91 detectors. Then you solve for the perspective and the action
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rlm@401
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92 simultaneously.
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rlm@401
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93
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rlm@401
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94 The entire worm can be colored the same, high contrast color against a
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rlm@401
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95 nearly black background.
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rlm@401
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96
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rlm@401
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97 "Rooted" vision. You give the exact coordinates of ONE piece of the
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rlm@401
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98 worm, but the algorithm figures out the rest.
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rlm@401
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99
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rlm@401
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100 More rooted vision -- start off the entire worm with one posistion.
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rlm@401
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101
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rlm@401
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102 The right way to do alignment is to use motion over multiple frames to
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rlm@401
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103 snap individual pieces of the model into place sharing and
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rlm@401
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104 propragating the individual alignments over the whole model. We also
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rlm@401
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105 want to limit the alignment search to just those actions we are
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rlm@401
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106 prepared to identify. This might mean that I need some small "micro
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rlm@401
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107 actions" such as the individual movements of the worm pieces.
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rlm@401
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108
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rlm@401
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109 Get just the centers of each segment projected onto the imaging
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rlm@401
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110 plane. (best so far).
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rlm@401
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111
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rlm@401
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112
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rlm@401
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113 Repertoire of actions + video frames -->
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rlm@401
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114 directed multi-frame-search alg
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rlm@401
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115
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rlm@401
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116
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rlm@401
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117
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rlm@401
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118
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rlm@401
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119
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rlm@401
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120
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rlm@401
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121 !! Could also have a bounding box around the worm provided by
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rlm@401
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122 filtering the worm/non-worm render, and use bbbgs. As a bonus, I get
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rlm@401
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123 to include bbbgs in my thesis! Could finally do that recursive things
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rlm@401
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124 where I make bounding boxes be those things that give results that
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rlm@401
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125 give good bounding boxes. If I did this I could use a disruptive
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rlm@401
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126 pattern on the worm.
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rlm@401
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127
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rlm@401
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128 Re imagining using default textures is very simple for this system,
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rlm@401
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129 but hard for others.
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rlm@401
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130
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rlm@401
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131
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rlm@401
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132 Want to demonstrate, at minimum, alignment of some model of the worm
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rlm@401
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133 to the video, and a lookup of the action by simulated perception.
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rlm@401
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134
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rlm@401
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135 note: the purple/white points is a very beautiful texture, because
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rlm@401
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136 when it moves slightly, the white dots look like they're
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rlm@401
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137 twinkling. Would look even better if it was a darker purple. Also
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rlm@401
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138 would look better more spread out.
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rlm@401
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139
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rlm@401
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140
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rlm@401
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141 embed assumption of one frame of view, search by moving around in
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rlm@401
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142 simulated world.
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rlm@401
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143
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rlm@401
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144 Allowed to limit search by setting limits to a hemisphere around the
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rlm@401
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145 imagined worm! This limits scale also.
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rlm@401
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146
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rlm@401
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147
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rlm@401
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148
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rlm@401
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149
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rlm@401
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150
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rlm@401
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151 !! Limited search with worm/non-worm rendering.
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rlm@401
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152 How much inverse kinematics do we have to do?
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rlm@401
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153 What about cached (allowed state-space) paths, derived from labeled
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rlm@401
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154 training. You have to lead from one to another.
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rlm@401
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155
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rlm@401
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156 What about initial state? Could start the input videos at a specific
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rlm@401
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157 state, then just match that explicitly.
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rlm@401
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158
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rlm@401
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159 !! The training doesn't have to be labeled -- you can just move around
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rlm@401
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160 for a while!!
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rlm@401
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161
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rlm@401
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162 !! Limited search with motion based alignment.
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rlm@401
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163
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rlm@401
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164
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rlm@401
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165
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rlm@401
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166
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rlm@401
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167 "play arounds" can establish a chain of linked sensoriums. Future
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rlm@401
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168 matches must fall into one of the already experienced things, and once
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rlm@401
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169 they do, it greatly limits the things that are possible in the future.
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rlm@401
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170
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rlm@401
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171
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rlm@401
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172 frame differences help to detect muscle exertion.
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173
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rlm@401
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174 Can try to match on a few "representative" frames. Can also just have
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rlm@401
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175 a few "bodies" in various states which we try to match.
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rlm@401
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176
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rlm@401
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177
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rlm@401
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178
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rlm@401
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179 Paths through state-space have the exact same signature as
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rlm@401
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180 simulation. BUT, these can be searched in parallel and don't interfere
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rlm@401
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181 with each other.
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rlm@401
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182
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rlm@401
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183
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rlm@402
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184
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rlm@402
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185
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rlm@402
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186 ** Final stretch up to First Draft
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rlm@402
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187
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rlm@404
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188 *** DONE complete debug control of worm
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rlm@404
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189 CLOSED: [2014-03-17 Mon 17:29] SCHEDULED: <2014-03-17 Mon>
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rlm@404
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190 CLOCK: [2014-03-17 Mon 14:01]--[2014-03-17 Mon 17:29] => 3:28
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rlm@405
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191 *** DONE add phi-space output to debug control
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rlm@405
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192 CLOSED: [2014-03-17 Mon 17:42] SCHEDULED: <2014-03-17 Mon>
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rlm@405
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193 CLOCK: [2014-03-17 Mon 17:31]--[2014-03-17 Mon 17:42] => 0:11
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rlm@407
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194
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rlm@409
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195 *** DONE complete automatic touch partitioning
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rlm@409
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196 CLOSED: [2014-03-18 Tue 21:43] SCHEDULED: <2014-03-18 Tue>
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rlm@415
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197 *** DONE complete cyclic predicate
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rlm@415
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198 CLOSED: [2014-03-19 Wed 16:34] SCHEDULED: <2014-03-18 Tue>
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rlm@415
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199 CLOCK: [2014-03-19 Wed 13:16]--[2014-03-19 Wed 16:34] => 3:18
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rlm@415
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200 *** DONE complete three phi-stream action predicatates; test them with debug control
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rlm@415
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201 CLOSED: [2014-03-19 Wed 16:35] SCHEDULED: <2014-03-17 Mon>
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rlm@415
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202 CLOCK: [2014-03-18 Tue 18:36]--[2014-03-18 Tue 21:43] => 3:07
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rlm@407
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203 CLOCK: [2014-03-18 Tue 18:34]--[2014-03-18 Tue 18:36] => 0:02
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rlm@407
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204 CLOCK: [2014-03-17 Mon 19:19]--[2014-03-17 Mon 21:19] => 2:00
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rlm@415
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205 *** DONE build an automatic "do all the things" sequence.
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rlm@415
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206 CLOSED: [2014-03-19 Wed 16:55] SCHEDULED: <2014-03-19 Wed>
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rlm@415
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207 CLOCK: [2014-03-19 Wed 16:53]--[2014-03-19 Wed 16:55] => 0:02
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rlm@417
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208 *** DONE implement proprioception based movement lookup in phi-space
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rlm@417
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209 CLOSED: [2014-03-19 Wed 22:04] SCHEDULED: <2014-03-19 Wed>
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rlm@417
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210 CLOCK: [2014-03-19 Wed 19:32]--[2014-03-19 Wed 22:04] => 2:32
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rlm@418
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211 *** DONE make proprioception reference phi-space indexes
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rlm@418
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212 CLOSED: [2014-03-19 Wed 22:47] SCHEDULED: <2014-03-19 Wed>
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rlm@417
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213
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rlm@415
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214
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rlm@420
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215 *** DONE create test videos, also record positions of worm segments
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rlm@420
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216 CLOSED: [2014-03-20 Thu 22:02] SCHEDULED: <2014-03-19 Wed>
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rlm@402
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217
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rlm@403
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218 *** TODO Collect intro, worm-learn and cortex creation into draft thesis.
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rlm@405
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219
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