Mercurial > cortex
changeset 304:2dfebf71053c
Merged Winston cover letter
| author | Dylan Holmes <ocsenave@gmail.com> |
|---|---|
| date | Sat, 18 Feb 2012 02:07:40 -0600 |
| parents | 35d9e7d04d87 (current diff) 7e3938f40c52 (diff) |
| children | 19c43ec6958d |
| files | |
| diffstat | 24 files changed, 1115 insertions(+), 462 deletions(-) [+] |
line wrap: on
line diff
1.1 Binary file assets/Models/heart/heart.blend has changed
2.1 Binary file assets/Models/subtitles/hand.blend has changed
3.1 Binary file assets/Models/test-creature/finger-tip-UV-layout.png has changed
4.1 Binary file assets/Models/test-creature/finger-tip.png has changed
5.1 Binary file assets/Models/test-creature/finger-tip.xcf has changed
6.1 Binary file assets/Models/test-creature/hand.blend has changed
7.1 Binary file assets/Models/test-creature/mid-finger.png has changed
8.1 Binary file assets/Models/test-creature/mid-finger.xcf has changed
9.1 Binary file assets/Models/test-creature/palm-retina.png has changed
10.1 Binary file assets/Models/test-touch/touch-cube.blend has changed
11.1 Binary file assets/Models/test-touch/touch-cube.blend.orig has changed
12.1 Binary file images/worm-with-muscle.png has changed
13.1 --- a/org/body.org Sat Feb 18 02:06:06 2012 -0600 13.2 +++ b/org/body.org Sat Feb 18 02:07:40 2012 -0600 13.3 @@ -80,14 +80,17 @@ 13.4 (.setTimer world (RatchetTimer. 60)) 13.5 world) 13.6 13.7 -(defn test-one [] 13.8 - (world (hand) 13.9 - standard-debug-controls 13.10 - (comp 13.11 - #(Capture/captureVideo 13.12 - % (File. "/home/r/proj/cortex/render/body/1")) 13.13 - setup) 13.14 - no-op)) 13.15 +(defn test-hand-1 13.16 + ([] (test-hand-1 false)) 13.17 + ([record?] 13.18 + (world (hand) 13.19 + standard-debug-controls 13.20 + (fn [world] 13.21 + (if record? 13.22 + (Capture/captureVideo 13.23 + world 13.24 + (File. "/home/r/proj/cortex/render/body/1"))) 13.25 + (setup world)) no-op))) 13.26 #+end_src 13.27 13.28 13.29 @@ -158,18 +161,22 @@ 13.30 (box 10 3 10 :position (Vector3f. 0 -10 0) 13.31 :color ColorRGBA/Gray :mass 0)) 13.32 13.33 -(defn test-two [] 13.34 - (world (nodify 13.35 - [(doto (hand) 13.36 - (physical!)) 13.37 - (floor)]) 13.38 - (merge standard-debug-controls gravity-control) 13.39 - (comp 13.40 - #(Capture/captureVideo 13.41 - % (File. "/home/r/proj/cortex/render/body/2")) 13.42 - #(do (set-gravity % Vector3f/ZERO) %) 13.43 - setup) 13.44 - no-op)) 13.45 +(defn test-hand-2 13.46 + ([] (test-hand-2 false)) 13.47 + ([record?] 13.48 + (world 13.49 + (nodify 13.50 + [(doto (hand) 13.51 + (physical!)) 13.52 + (floor)]) 13.53 + (merge standard-debug-controls gravity-control) 13.54 + (fn [world] 13.55 + (if record? 13.56 + (Capture/captureVideo 13.57 + world (File. "/home/r/proj/cortex/render/body/2"))) 13.58 + (set-gravity world Vector3f/ZERO) 13.59 + (setup world)) 13.60 + no-op))) 13.61 #+end_src 13.62 13.63 #+begin_html 13.64 @@ -428,20 +435,23 @@ 13.65 {"key-h" (fn [world val] 13.66 (if val (enable-debug world)))}) 13.67 13.68 -(defn test-three [] 13.69 - (world (nodify 13.70 - [(doto (hand) 13.71 - (physical!) 13.72 - (joints!)) 13.73 - (floor)]) 13.74 - (merge standard-debug-controls debug-control 13.75 - gravity-control) 13.76 - (comp 13.77 - #(Capture/captureVideo 13.78 - % (File. "/home/r/proj/cortex/render/body/3")) 13.79 - #(do (set-gravity % Vector3f/ZERO) %) 13.80 - setup) 13.81 - no-op)) 13.82 +(defn test-hand-3 13.83 + ([] (test-hand-3 false)) 13.84 + ([record?] 13.85 + (world 13.86 + (nodify 13.87 + [(doto (hand) 13.88 + (physical!) 13.89 + (joints!)) 13.90 + (floor)]) 13.91 + (merge standard-debug-controls debug-control 13.92 + gravity-control) 13.93 + (comp 13.94 + #(Capture/captureVideo 13.95 + % (File. "/home/r/proj/cortex/render/body/3")) 13.96 + #(do (set-gravity % Vector3f/ZERO) %) 13.97 + setup) 13.98 + no-op))) 13.99 #+end_src 13.100 13.101 =physical!= makes the hand solid, then =joints!= connects each 13.102 @@ -494,22 +504,25 @@ 13.103 (load-blender-model 13.104 "Models/test-creature/worm.blend")) 13.105 13.106 -(defn worm-1 [] 13.107 - (let [timer (RatchetTimer. 60)] 13.108 - (world 13.109 - (nodify 13.110 - [(doto (worm) 13.111 - (body!)) 13.112 - (floor)]) 13.113 - (merge standard-debug-controls debug-control) 13.114 - #(do 13.115 - (speed-up %) 13.116 - (light-up-everything %) 13.117 - (.setTimer % timer) 13.118 - (cortex.util/display-dialated-time % timer) 13.119 - (Capture/captureVideo 13.120 - % (File. "/home/r/proj/cortex/render/body/4"))) 13.121 - no-op))) 13.122 +(defn test-worm 13.123 + ([] (test-worm false)) 13.124 + ([record?] 13.125 + (let [timer (RatchetTimer. 60)] 13.126 + (world 13.127 + (nodify 13.128 + [(doto (worm) 13.129 + (body!)) 13.130 + (floor)]) 13.131 + (merge standard-debug-controls debug-control) 13.132 + #(do 13.133 + (speed-up %) 13.134 + (light-up-everything %) 13.135 + (.setTimer % timer) 13.136 + (cortex.util/display-dialated-time % timer) 13.137 + (if record? 13.138 + (Capture/captureVideo 13.139 + % (File. "/home/r/proj/cortex/render/body/4")))) 13.140 + no-op)))) 13.141 #+end_src 13.142 13.143 #+begin_html
14.1 --- a/org/capture-video.org Sat Feb 18 02:06:06 2012 -0600 14.2 +++ b/org/capture-video.org Sat Feb 18 02:07:40 2012 -0600 14.3 @@ -12,8 +12,7 @@ 14.4 create a demo video to show off your hard work. Screen capturing is 14.5 the most straightforward way to do this, but it can slow down your 14.6 game and produce low-quality video as a result. A better way is to 14.7 -record a video feed directly from the game while it is 14.8 -running. 14.9 +record a video feed directly from the game while it is running. 14.10 14.11 In this post, I'll explain how you can alter your JMonkeyEngine3 game 14.12 to output video while it is running. The main trick is to alter the 14.13 @@ -28,62 +27,62 @@ 14.14 ** The built-in =Timer= rushes to keep up. 14.15 #* Game-time vs. User-time vs. Video-time 14.16 14.17 -Standard JME3 applications use a =Timer= object to manage time 14.18 -in the simulated world. Because most JME3 applications (e.g. games) 14.19 -are supposed to happen \ldquo{}live\rdquo{}, the built-in =Timer= 14.20 -requires simulated time to match real time. This means that the 14.21 -application must rush to finish all of its calculations on 14.22 -schedule: the more complicated the calculations, the more the 14.23 -application is obligated to rush. And if the workload becomes too 14.24 -much to handle on schedule, =Timer= forces the application to cut 14.25 -corners: it demands fast, approximate answers instead of careful, 14.26 -accurate ones. Although this policy sometimes causes physically impossible 14.27 -glitches and choppy framerates, it ensures that the user will never be 14.28 -kept waiting while the computer stops to make a complicated 14.29 -calculation. 14.30 +Standard JME3 applications use a =Timer= object to manage time in the 14.31 +simulated world. Because most JME3 applications (e.g. games) are 14.32 +supposed to happen \ldquo{}live\rdquo{}, the built-in =Timer= requires 14.33 +simulated time to match real time. This means that the application 14.34 +must rush to finish all of its calculations on schedule: the more 14.35 +complicated the calculations, the more the application is obligated to 14.36 +rush. And if the workload becomes too much to handle on schedule, 14.37 +=Timer= forces the application to cut corners: it demands fast, 14.38 +approximate answers instead of careful, accurate ones. Although this 14.39 +policy sometimes causes physically impossible glitches and choppy 14.40 +framerates, it ensures that the user will never be kept waiting while 14.41 +the computer stops to make a complicated calculation. 14.42 14.43 Now, the built-in =Timer= values speed over accuracy because real-time 14.44 -applications require it. On the other hand, if your goal is to record a 14.45 -glitch-free video, you need a =Timer= that will take its time to 14.46 -ensure that all calculations are accurate, even if they take a long time. In the next section, we 14.47 -will create a new kind of =Timer=\mdash{}called =IsoTimer=\mdash{}which 14.48 -slows down to let the computer finish all its calculations. The result 14.49 -is a perfectly steady framerate and a flawless physical simulation. 14.50 +applications require it. On the other hand, if your goal is to record 14.51 +a glitch-free video, you need a =Timer= that will take its time to 14.52 +ensure that all calculations are accurate, even if they take a long 14.53 +time. In the next section, we will create a new kind of 14.54 +=Timer=\mdash{}called =IsoTimer=\mdash{}which slows down to let the 14.55 +computer finish all its calculations. The result is a perfectly steady 14.56 +framerate and a flawless physical simulation. 14.57 14.58 # are supposed to happen \ldquo live \rdquo, this =Timer= requires the 14.59 -# application to update in real-time. In order to keep up with the real world, JME applications cannot 14.60 -# afford to take too much time on expensive computations. Whenever the 14.61 -# workload becomes too much for the computer to handle on schedule, 14.62 -# =Timer= forces the computer to cut corners, giving fast, approximate 14.63 -# answers instead of careful, accurate ones. Although physical accuracy sometimes 14.64 -# suffers as a result, this policy ensures that the user will never be 14.65 -# kept waiting while the computer stops to make a complicated 14.66 -# calculation. 14.67 +# application to update in real-time. In order to keep up with the 14.68 +# real world, JME applications cannot afford to take too much time on 14.69 +# expensive computations. Whenever the workload becomes too much for 14.70 +# the computer to handle on schedule, =Timer= forces the computer to 14.71 +# cut corners, giving fast, approximate answers instead of careful, 14.72 +# accurate ones. Although physical accuracy sometimes suffers as a 14.73 +# result, this policy ensures that the user will never be kept waiting 14.74 +# while the computer stops to make a complicated calculation. 14.75 14.76 #fast answers are more important than accurate ones. 14.77 14.78 # A standard JME3 application that extends =SimpleApplication= or 14.79 # =Application= tries as hard as it can to keep in sync with 14.80 -# /user-time/. If a ball is rolling at 1 game-mile per game-hour in the 14.81 -# game, and you wait for one user-hour as measured by the clock on your 14.82 -# wall, then the ball should have traveled exactly one game-mile. In 14.83 -# order to keep sync with the real world, the game throttles its physics 14.84 -# engine and graphics display. If the computations involved in running 14.85 -# the game are too intense, then the game will first skip frames, then 14.86 -# sacrifice physics accuracy. If there are particuraly demanding 14.87 -# computations, then you may only get 1 fps, and the ball may tunnel 14.88 -# through the floor or obstacles due to inaccurate physics simulation, 14.89 -# but after the end of one user-hour, that ball will have traveled one 14.90 -# game-mile. 14.91 +# /user-time/. If a ball is rolling at 1 game-mile per game-hour in 14.92 +# the game, and you wait for one user-hour as measured by the clock on 14.93 +# your wall, then the ball should have traveled exactly one 14.94 +# game-mile. In order to keep sync with the real world, the game 14.95 +# throttles its physics engine and graphics display. If the 14.96 +# computations involved in running the game are too intense, then the 14.97 +# game will first skip frames, then sacrifice physics accuracy. If 14.98 +# there are particuraly demanding computations, then you may only get 14.99 +# 1 fps, and the ball may tunnel through the floor or obstacles due to 14.100 +# inaccurate physics simulation, but after the end of one user-hour, 14.101 +# that ball will have traveled one game-mile. 14.102 14.103 -# When we're recording video, we don't care if the game-time syncs with 14.104 -# user-time, but instead whether the time in the recorded video 14.105 +# When we're recording video, we don't care if the game-time syncs 14.106 +# with user-time, but instead whether the time in the recorded video 14.107 # (video-time) syncs with user-time. To continue the analogy, if we 14.108 -# recorded the ball rolling at 1 game-mile per game-hour and watched the 14.109 -# video later, we would want to see 30 fps video of the ball rolling at 14.110 -# 1 video-mile per /user-hour/. It doesn't matter how much user-time it 14.111 -# took to simulate that hour of game-time to make the high-quality 14.112 -# recording. 14.113 +# recorded the ball rolling at 1 game-mile per game-hour and watched 14.114 +# the video later, we would want to see 30 fps video of the ball 14.115 +# rolling at 1 video-mile per /user-hour/. It doesn't matter how much 14.116 +# user-time it took to simulate that hour of game-time to make the 14.117 +# high-quality recording. 14.118 ** COMMENT Two examples to clarify the point: 14.119 *** Recording from a Simple Simulation 14.120 14.121 @@ -151,10 +150,10 @@ 14.122 the screen, and an additional $\frac{1}{60}$ to encode the video and 14.123 write the frame to disk. This is a total of $\frac{1}{24}$ 14.124 user-seconds for each $\frac{1}{60}$ game-seconds. It will take 14.125 -$(\frac{60}{24} = 2.5)$ user-hours to record one game-hour and game-time 14.126 -will appear to flow two-fifths as fast as user time while the game is 14.127 -running. However, just as in example one, when all is said and done we 14.128 -will have an hour long video at 60 fps. 14.129 +$(\frac{60}{24} = 2.5)$ user-hours to record one game-hour and 14.130 +game-time will appear to flow two-fifths as fast as user time while 14.131 +the game is running. However, just as in example one, when all is said 14.132 +and done we will have an hour long video at 60 fps. 14.133 14.134 14.135 ** COMMENT proposed names for the new timer 14.136 @@ -182,8 +181,8 @@ 14.137 #+include ../../jmeCapture/src/com/aurellem/capture/IsoTimer.java src java 14.138 14.139 If an Application uses this =IsoTimer= instead of the normal one, we 14.140 -can be sure that every call to =simpleUpdate=, for example, corresponds 14.141 -to exactly $(\frac{1}{fps})$ seconds of game-time. 14.142 +can be sure that every call to =simpleUpdate=, for example, 14.143 +corresponds to exactly $(\frac{1}{fps})$ seconds of game-time. 14.144 14.145 * =VideoRecorder= manages video feeds in JMonkeyEngine. 14.146 14.147 @@ -240,8 +239,9 @@ 14.148 14.149 With this, we are able to record video! 14.150 14.151 -However, it can be hard to properly install Xuggle. If you would rather not use Xuggle, here is an alternate class that uses 14.152 -[[http://www.randelshofer.ch/blog/2008/08/writing-avi-videos-in-pure-java/][Werner Randelshofer's]] excellent pure Java AVI file writer. 14.153 +However, it can be hard to properly install Xuggle. If you would 14.154 +rather not use Xuggle, here is an alternate class that uses [[http://www.randelshofer.ch/blog/2008/08/writing-avi-videos-in-pure-java/][Werner 14.155 +Randelshofer's]] excellent pure Java AVI file writer. 14.156 14.157 =./src/com/aurellem/capture/video/AVIVideoRecorder.java= 14.158 #+include ../../jmeCapture/src/com/aurellem/capture/video/AVIVideoRecorder.java src java 14.159 @@ -265,13 +265,14 @@ 14.160 14.161 ** Include this code. 14.162 14.163 - No matter how complicated your application is, it's easy to add 14.164 - support for video output with just a few lines of code. 14.165 +No matter how complicated your application is, it's easy to add 14.166 +support for video output with just a few lines of code. 14.167 # You can also record from multiple ViewPorts as the above example shows. 14.168 14.169 -And although you can use =VideoRecorder= to record advanced split-screen videos with multiple views, in the simplest case, you want to capture a single view\mdash{} 14.170 -exactly what's on screen. In this case, the following simple =captureVideo= 14.171 -method will do the job: 14.172 +And although you can use =VideoRecorder= to record advanced 14.173 +split-screen videos with multiple views, in the simplest case, you 14.174 +want to capture a single view\mdash{} exactly what's on screen. In 14.175 +this case, the following simple =captureVideo= method will do the job: 14.176 14.177 #+begin_src java 14.178 public static void captureVideo(final Application app, 14.179 @@ -302,12 +303,9 @@ 14.180 } 14.181 #+end_src 14.182 14.183 -This method selects the appropriate =VideoRecorder= class 14.184 -for the file type you specify, and instructs your 14.185 -application to record video to the file. 14.186 - 14.187 - 14.188 - 14.189 +This method selects the appropriate =VideoRecorder= class for the file 14.190 +type you specify, and instructs your application to record video to 14.191 +the file. 14.192 14.193 Now that you have a =captureVideo= method, you use it like this: 14.194 14.195 @@ -321,7 +319,8 @@ 14.196 14.197 - Choose the output file :: If you want to record from the game's 14.198 main =ViewPort= to a file called =/home/r/record.flv=, then 14.199 - include the following line of code somewhere before you call =app.start()=; 14.200 + include the following line of code somewhere before you call 14.201 + =app.start()=; 14.202 14.203 #+begin_src java :exports code 14.204 Capture.captureVideo(app, new File("/home/r/record.flv")); 14.205 @@ -384,8 +383,9 @@ 14.206 14.207 * COMMENT More Examples 14.208 ** COMMENT Hello Physics 14.209 -=HelloVideo= is boring. Let's add some video capturing to =HelloPhysics= 14.210 -and create something fun! 14.211 + 14.212 +=HelloVideo= is boring. Let's add some video capturing to 14.213 +=HelloPhysics= and create something fun! 14.214 14.215 This example is a modified version of =HelloPhysics= that creates four 14.216 simultaneous views of the same scene of cannonballs careening into a 14.217 @@ -579,7 +579,7 @@ 14.218 four points of view are simultaneously recorded and then glued 14.219 together later. 14.220 14.221 - JME3 Xuggle Aurellem video capture 14.222 +JME3 Xuggle Aurellem video capture 14.223 14.224 14.225 * Showcase of recorded videos 14.226 @@ -757,31 +757,3 @@ 14.227 videoscale ! ffmpegcolorspace ! \ 14.228 video/x-raw-yuv, width=640, height=480, framerate=25/1 ! \ 14.229 videobox right=-640 ! mix. 14.230 - 14.231 - 14.232 - 14.233 - 14.234 - 14.235 - 14.236 - 14.237 - 14.238 - 14.239 - 14.240 - 14.241 - 14.242 - 14.243 - 14.244 - 14.245 - 14.246 - 14.247 - 14.248 - 14.249 - 14.250 - 14.251 - 14.252 - 14.253 - 14.254 - 14.255 - 14.256 - 14.257 -
15.1 --- a/org/hearing.org Sat Feb 18 02:06:06 2012 -0600 15.2 +++ b/org/hearing.org Sat Feb 18 02:07:40 2012 -0600 15.3 @@ -1018,43 +1018,43 @@ 15.4 #+begin_src clojure 15.5 (in-ns 'cortex.test.hearing) 15.6 15.7 -(cortex.import/mega-import-jme3) 15.8 -(import java.io.File) 15.9 - 15.10 -(use 'cortex.body) 15.11 - 15.12 -(defn test-worm-hearing [] 15.13 - (let [the-worm (doto (worm) (body!)) 15.14 - hearing (hearing! the-worm) 15.15 - hearing-display (view-hearing) 15.16 +(defn test-worm-hearing 15.17 + ([] (test-worm-hearing false)) 15.18 + ([record?] 15.19 + (let [the-worm (doto (worm) (body!)) 15.20 + hearing (hearing! the-worm) 15.21 + hearing-display (view-hearing) 15.22 + 15.23 + tone (AudioNode. (asset-manager) 15.24 + "Sounds/pure.wav" false) 15.25 + 15.26 + hymn (AudioNode. (asset-manager) 15.27 + "Sounds/ear-and-eye.wav" false)] 15.28 + (world 15.29 + (nodify [the-worm (floor)]) 15.30 + (merge standard-debug-controls 15.31 + {"key-return" 15.32 + (fn [_ value] 15.33 + (if value (.play tone))) 15.34 + "key-l" 15.35 + (fn [_ value] 15.36 + (if value (.play hymn)))}) 15.37 + (fn [world] 15.38 + (light-up-everything world) 15.39 + (if record? 15.40 + (do 15.41 + (com.aurellem.capture.Capture/captureVideo 15.42 + world 15.43 + (File."/home/r/proj/cortex/render/worm-audio/frames")) 15.44 + (com.aurellem.capture.Capture/captureAudio 15.45 + world 15.46 + (File."/home/r/proj/cortex/render/worm-audio/audio.wav"))))) 15.47 15.48 - tone (AudioNode. (asset-manager) 15.49 - "Sounds/pure.wav" false) 15.50 - 15.51 - hymn (AudioNode. (asset-manager) 15.52 - "Sounds/ear-and-eye.wav" false)] 15.53 - (world 15.54 - (nodify [the-worm (floor)]) 15.55 - (merge standard-debug-controls 15.56 - {"key-return" 15.57 - (fn [_ value] 15.58 - (if value (.play tone))) 15.59 - "key-l" 15.60 - (fn [_ value] 15.61 - (if value (.play hymn)))}) 15.62 - (fn [world] 15.63 - (light-up-everything world) 15.64 - (com.aurellem.capture.Capture/captureVideo 15.65 - world 15.66 - (File."/home/r/proj/cortex/render/worm-audio/frames")) 15.67 - (com.aurellem.capture.Capture/captureAudio 15.68 - world 15.69 - (File."/home/r/proj/cortex/render/worm-audio/audio.wav"))) 15.70 - 15.71 - (fn [world tpf] 15.72 - (hearing-display 15.73 - (map #(% world) hearing) 15.74 - (File. "/home/r/proj/cortex/render/worm-audio/hearing-data")))))) 15.75 + (fn [world tpf] 15.76 + (hearing-display 15.77 + (map #(% world) hearing) 15.78 + (if record? 15.79 + (File. "/home/r/proj/cortex/render/worm-audio/hearing-data")))))))) 15.80 #+end_src 15.81 15.82 In this test, I load the worm with its newly formed ear and let it 15.83 @@ -1154,11 +1154,13 @@ 15.84 #+name: test-header 15.85 #+begin_src clojure 15.86 (ns cortex.test.hearing 15.87 - (:use (cortex world util hearing)) 15.88 + (:use (cortex world util hearing body)) 15.89 (:use cortex.test.body) 15.90 (:import (com.jme3.audio AudioNode Listener)) 15.91 + (:import java.io.File) 15.92 (:import com.jme3.scene.Node 15.93 - com.jme3.system.AppSettings)) 15.94 + com.jme3.system.AppSettings 15.95 + com.jme3.math.Vector3f)) 15.96 #+end_src 15.97 15.98 * Source Listing
16.1 --- a/org/ideas.org Sat Feb 18 02:06:06 2012 -0600 16.2 +++ b/org/ideas.org Sat Feb 18 02:07:40 2012 -0600 16.3 @@ -70,10 +70,11 @@ 16.4 - [X] proprioception sensor map in the style of the other senses -- day 16.5 - [X] refactor integration code to distribute to each of the senses 16.6 -- day 16.7 - - [ ] create video showing all the senses for Winston -- 2 days 16.8 + - [X] create video showing all the senses for Winston -- 2 days 16.9 + - [ ] spellchecking !!!!! 16.10 - [ ] send package to friends for critiques -- 2 days 16.11 - - [ ] fix videos that were encoded wrong, test on InterNet Explorer. 16.12 - - [ ] redo videos vision with new collapse code 16.13 + - [X] fix videos that were encoded wrong, test on InterNet Explorer. 16.14 + - [X] redo videos vision with new collapse code 16.15 - [X] find a topology that looks good. (maybe nil topology?) 16.16 - [X] fix red part of touch cube in video and image 16.17 - [ ] write summary of project for Winston \
17.1 --- a/org/integration.org Sat Feb 18 02:06:06 2012 -0600 17.2 +++ b/org/integration.org Sat Feb 18 02:07:40 2012 -0600 17.3 @@ -1,4 +1,4 @@ 17.4 -#+title: First attempt at a creature! 17.5 +#+title: 17.6 #+author: Robert McIntyre 17.7 #+email: rlm@mit.edu 17.8 #+description: 17.9 @@ -6,72 +6,235 @@ 17.10 #+SETUPFILE: ../../aurellem/org/setup.org 17.11 #+INCLUDE: ../../aurellem/org/level-0.org 17.12 17.13 +* Integration 17.14 17.15 +This is the ultimate test which features all of the senses that I've 17.16 +made so far. The blender file for the creature serves as an example of 17.17 +a fully equipped creature in terms of senses. You can find it [[../assets/Models/test-creature/hand.blend][here]]. 17.18 17.19 17.20 -* Intro 17.21 -So far, I've made the following senses -- 17.22 - - Vision 17.23 - - Hearing 17.24 - - Touch 17.25 - - Proprioception 17.26 +#+begin_html 17.27 +<div class="figure"> 17.28 +<video controls="controls" width="755"> 17.29 + <source src="../video/hand.ogg" type="video/ogg" 17.30 + preload="none" poster="../images/aurellem-1280x480.png" /> 17.31 +</video> 17.32 +<p>Simulated Senses in a Virtual Environment</p> 17.33 +</div> 17.34 +#+end_html 17.35 17.36 -And one effector: 17.37 - - Movement 17.38 - 17.39 -However, the code so far has only enabled these senses, but has not 17.40 -actually implemented them. For example, there is still a lot of work 17.41 -to be done for vision. I need to be able to create an /eyeball/ in 17.42 -simulation that can be moved around and see the world from different 17.43 -angles. I also need to determine weather to use log-polar or cartesian 17.44 -for the visual input, and I need to determine how/wether to 17.45 -disceritise the visual input. 17.46 - 17.47 -I also want to be able to visualize both the sensors and the 17.48 -effectors in pretty pictures. This semi-retarted creature will be my 17.49 -first attempt at bringing everything together. 17.50 - 17.51 -* The creature's body 17.52 - 17.53 -Still going to do an eve-like body in blender, but due to problems 17.54 -importing the joints, etc into jMonkeyEngine3, I'm going to do all 17.55 -the connecting here in clojure code, using the names of the individual 17.56 -components and trial and error. Later, I'll maybe make some sort of 17.57 -creature-building modifications to blender that support whatever 17.58 -discritized senses I'm going to make. 17.59 +* Generating the Video 17.60 17.61 #+name: integration 17.62 #+begin_src clojure 17.63 -(ns cortex.integration 17.64 +(ns cortex.test.integration 17.65 "let's play!" 17.66 {:author "Robert McIntyre"} 17.67 - (:use (cortex world util body 17.68 - hearing touch vision sense proprioception movement)) 17.69 + (:use (cortex world util body sense 17.70 + hearing touch vision proprioception movement)) 17.71 (:import (com.jme3.math ColorRGBA Vector3f)) 17.72 + (:import java.io.File) 17.73 (:import com.jme3.audio.AudioNode) 17.74 (:import com.aurellem.capture.RatchetTimer)) 17.75 17.76 -(def hand "Models/creature1/one.blend") 17.77 +(dorun (cortex.import/mega-import-jme3)) 17.78 +(rlm.rlm-commands/help) 17.79 17.80 -(def worm "Models/creature1/try-again.blend") 17.81 +(def hand "Models/test-creature/hand.blend") 17.82 17.83 -(defn test-creature [thing] 17.84 - (let [x-axis 17.85 - (box 1 0.01 0.01 :physical? false :color ColorRGBA/Red) 17.86 - y-axis 17.87 - (box 0.01 1 0.01 :physical? false :color ColorRGBA/Green) 17.88 - z-axis 17.89 - (box 0.01 0.01 1 :physical? false :color ColorRGBA/Blue) 17.90 +(def output-base (File. "/home/r/proj/cortex/render/hand")) 17.91 +#+end_src 17.92 17.93 - me (sphere 0.5 :color ColorRGBA/Blue :physical? false) 17.94 - bell (AudioNode. (asset-manager) 17.95 - "Sounds/pure.wav" false) 17.96 +For this demonstration I have to manually drive the muscles of the 17.97 +hand. I do this by creating a little mini-language to describe 17.98 +simulated muscle contraction. 17.99 17.100 - fix-display 17.101 - (runonce (fn [world] 17.102 - (add-camera! world (.getCamera world) no-op))) 17.103 - creature (doto (load-blender-model thing) (body!)) 17.104 +#+name: integration-2 17.105 +#+begin_src clojure 17.106 +(defn motor-control-program 17.107 + "Create a function which will execute the motor script" 17.108 + [muscle-positions 17.109 + script] 17.110 + (let [current-frame (atom -1) 17.111 + keyed-script (group-by first script) 17.112 + current-forces (atom {}) ] 17.113 + (fn [effectors] 17.114 + (let [indexed-effectors (vec effectors)] 17.115 + (dorun 17.116 + (for [[_ part force] (keyed-script (swap! current-frame inc))] 17.117 + (swap! current-forces (fn [m] (assoc m part force))))) 17.118 + (doall (map (fn [effector power] 17.119 + (effector (int power))) 17.120 + effectors 17.121 + (map #(@current-forces % 0) muscle-positions))))))) 17.122 17.123 +(def muscle-positions 17.124 + [:pointer-2-e 17.125 + :pointer-2-f 17.126 + :thumb-1 17.127 + :thumb-1 17.128 + :pointer-1-e 17.129 + :pointer-1-f 17.130 + :thumb-2-e 17.131 + :thumb-2-f 17.132 + :middle-1-e 17.133 + :middle-1-f 17.134 + :pointer-3-f 17.135 + :pointer-3-e 17.136 + :middle-2-e 17.137 + :middle-2-f 17.138 + :middle-3-f 17.139 + :middle-3-e 17.140 + :pinky-2-e 17.141 + :pinky-2-f 17.142 + :pinky-3-f 17.143 + :pinky-3-e 17.144 + :ring-3-e 17.145 + :ring-3-f 17.146 + :ring-2-f 17.147 + :ring-2-e 17.148 + :ring-1-e 17.149 + :ring-1-f 17.150 + :thumb-1-e 17.151 + :thumb-1-f 17.152 + :pinky-1-f 17.153 + :pinky-1-e]) 17.154 + 17.155 +(def full 9001) 17.156 + 17.157 + 17.158 +;; Coreography: 17.159 + 17.160 +;; Let the hand fall palm-up 17.161 + 17.162 +;; it curls its phalanges, starting with the pinky. 17.163 + 17.164 +;; it lets its phalanges fall back down. 17.165 + 17.166 +;; block falls down onto the hand, accompanied by a sound. The block 17.167 +;; can be seen by the hand's eye. 17.168 + 17.169 +;; hand FORCEFULLY catapults the block so that it hits the camera. 17.170 + 17.171 + 17.172 +;; the systax here is [keyframe body-part force] 17.173 +(def move-fingers 17.174 + [[300 :pinky-3-f 50] 17.175 + [320 :pinky-2-f 80] 17.176 + [340 :pinky-1-f 100] 17.177 + 17.178 + [310 :ring-3-f 100] 17.179 + [330 :ring-2-f 120] 17.180 + [350 :ring-1-f 140] 17.181 + 17.182 + [330 :middle-3-f 120] 17.183 + [340 :middle-2-f 120] 17.184 + [360 :middle-1-f 30] 17.185 + 17.186 + [350 :pointer-3-f 120] 17.187 + [360 :pointer-2-f 120] 17.188 + [380 :pointer-1-f 30] 17.189 + 17.190 + [800 :pinky-3-f 0] 17.191 + [800 :pinky-2-f 0] 17.192 + [800 :pinky-1-f 0] 17.193 + 17.194 + [800 :ring-3-f 0] 17.195 + [800 :ring-2-f 0] 17.196 + [800 :ring-1-f 0] 17.197 + 17.198 + [800 :middle-3-f 0] 17.199 + [800 :middle-2-f 0] 17.200 + [800 :middle-1-f 0] 17.201 + 17.202 + [800 :pointer-3-f 0] 17.203 + [800 :pointer-2-f 0] 17.204 + [800 :pointer-1-f 0] 17.205 + 17.206 + 17.207 + [800 :pinky-3-e 50] 17.208 + [800 :pinky-2-e 80] 17.209 + [800 :pinky-1-e 100] 17.210 + 17.211 + [800 :ring-3-e 100] 17.212 + [800 :ring-2-e 120] 17.213 + [800 :ring-1-e 140] 17.214 + 17.215 + [800 :middle-3-e 120] 17.216 + [800 :middle-2-e 120] 17.217 + [800 :middle-1-e 30] 17.218 + 17.219 + [800 :pointer-3-e 120] 17.220 + [800 :pointer-2-e 120] 17.221 + [800 :pointer-1-e 30] 17.222 + 17.223 + [870 :pinky-3-e 0] 17.224 + [870 :pinky-2-e 0] 17.225 + [870 :pinky-1-e 0] 17.226 + 17.227 + [870 :ring-3-e 0] 17.228 + [870 :ring-2-e 0] 17.229 + [870 :ring-1-e 0] 17.230 + 17.231 + [870 :middle-3-e 0] 17.232 + [870 :middle-2-e 0] 17.233 + [870 :middle-1-e 0] 17.234 + 17.235 + [870 :pointer-3-e 0] 17.236 + [870 :pointer-2-e 0] 17.237 + [870 :pointer-1-e 0] 17.238 + 17.239 + [1500 :pointer-1-f full] 17.240 + [1500 :pointer-2-f full] 17.241 + [1500 :pointer-3-f full] 17.242 + 17.243 + [1500 :middle-1-f full] 17.244 + [1500 :middle-2-f full] 17.245 + [1500 :middle-3-f full] 17.246 + 17.247 + [1510 :pointer-1-f 0] 17.248 + [1510 :pointer-2-f 0] 17.249 + [1510 :pointer-3-f 0] 17.250 + 17.251 + [1510 :middle-1-f 0] 17.252 + [1510 :middle-2-f 0] 17.253 + [1510 :middle-3-f 0] 17.254 + ]) 17.255 + 17.256 +(defn gen-summon-ball [debug?] 17.257 + (let [wait (atom 1100)] 17.258 + (fn [world] 17.259 + (if (= 0 (swap! wait dec)) 17.260 + (let [brick 17.261 + (box 0.8 0.8 0.8 :mass 0.05 17.262 + :position (Vector3f. -0.5 0 0.5) 17.263 + :color (ColorRGBA/Red)) 17.264 + bell (AudioNode. (asset-manager) 17.265 + "Sounds/pure.wav" false)] 17.266 + (.play bell) 17.267 + (if debug? 17.268 + (.addControl 17.269 + brick 17.270 + (proxy [AbstractControl] [] 17.271 + (controlUpdate [tpf] 17.272 + (println-repl (.getWorldTranslation brick))) 17.273 + (controlRender [_ _])))) 17.274 + (add-element world brick)))))) 17.275 + 17.276 +(import com.aurellem.capture.Capture) 17.277 + 17.278 +(defn test-everything! 17.279 + ([] (test-everything! false)) 17.280 + ([record?] 17.281 + (let [me (sphere 0.5 :color ColorRGBA/Blue :physical? false) 17.282 + 17.283 + base (File. "/home/r/proj/cortex/render/hand") 17.284 + 17.285 + 17.286 + creature (doto (load-blender-model hand) 17.287 + (body!)) 17.288 + 17.289 + summon-ball (gen-summon-ball false) 17.290 ;;;;;;;;;;;; Sensors/Effectors ;;;;;;;;;;;;;;;;;;;;;;;;;;;; 17.291 touch (touch! creature) 17.292 touch-display (view-touch) 17.293 @@ -85,69 +248,466 @@ 17.294 prop (proprioception! creature) 17.295 prop-display (view-proprioception) 17.296 17.297 - muscle-exertion (atom 0) 17.298 + control-script (motor-control-program 17.299 + muscle-positions move-fingers) 17.300 muscles (movement! creature) 17.301 - muscle-display (view-movement)] 17.302 + muscle-display (view-movement) 17.303 + ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; 17.304 17.305 - (apply 17.306 - world 17.307 - (with-movement 17.308 - (.getChild creature "worm-21") 17.309 - ["key-r" "key-t" 17.310 - "key-f" "key-g" 17.311 - "key-v" "key-b"] 17.312 - [10 10 10 10 1 1] 17.313 - [(nodify [creature 17.314 - (box 10 2 10 :position (Vector3f. 0 -9 0) 17.315 - :color ColorRGBA/Gray :mass 0) 17.316 - x-axis y-axis z-axis 17.317 - me]) 17.318 - (merge standard-debug-controls 17.319 - {"key-return" 17.320 - (fn [_ value] 17.321 - (if value 17.322 - (do 17.323 - (println-repl "play-sound") 17.324 - (.play bell)))) 17.325 - "key-h" 17.326 - (fn [_ value] 17.327 - (if value 17.328 - (swap! muscle-exertion (partial + 20)))) 17.329 - "key-n" 17.330 - (fn [_ value] 17.331 - (if value 17.332 - (swap! muscle-exertion (fn [v] (- v 20)))))}) 17.333 - (fn [world] 17.334 - (light-up-everything world) 17.335 - (enable-debug world) 17.336 - (add-camera! world 17.337 - (add-eye! creature 17.338 - (.getChild 17.339 - (.getChild creature "eyes") "eye")) 17.340 - (comp (view-image) BufferedImage!)) 17.341 - (.setTimer world (RatchetTimer. 60)) 17.342 - (speed-up world) 17.343 - (set-gravity world (Vector3f. 0 0 0)) 17.344 - (comment 17.345 - (com.aurellem.capture.Capture/captureVideo 17.346 - world (file-str "/home/r/proj/ai-videos/hand")))) 17.347 - (fn [world tpf] 17.348 - (prop-display (prop)) 17.349 - (touch-display (map #(% (.getRootNode world)) touch)) 17.350 - (vision-display (map #(% world) vision)) 17.351 - (hearing-display (map #(% world) hearing)) 17.352 - (muscle-display (map #(% @muscle-exertion) muscles)) 17.353 - (.setLocalTranslation me (.getLocation (.getCamera world))) 17.354 - (fix-display world))])))) 17.355 + fix-display (gen-fix-display)] 17.356 + (world 17.357 + (nodify [creature 17.358 + (box 10 2 10 :position (Vector3f. 0 -9 0) 17.359 + :color ColorRGBA/Gray :mass 0) 17.360 + me]) 17.361 + standard-debug-controls 17.362 + 17.363 + (fn [world] 17.364 + (.setTimer world (RatchetTimer. 60)) 17.365 + (position-camera 17.366 + world (Vector3f. -0.13217318, 5.816415, -5.3089414) 17.367 + (Quaternion. 0.55685693, 0.0042774677, -0.0028673497, 0.83059245)) 17.368 + 17.369 + (light-up-everything world) 17.370 + (enable-debug world) 17.371 + (add-camera! world 17.372 + (add-eye! creature 17.373 + (.getChild 17.374 + (.getChild creature "eyes") "eye")) 17.375 + (comp (view-image) BufferedImage!)) 17.376 + 17.377 + (if record? 17.378 + (Capture/captureVideo 17.379 + world (File. base "main"))) 17.380 + (if record? 17.381 + (Capture/captureAudio 17.382 + world (File. base "main.wav")))) 17.383 + (fn [world tpf] 17.384 + (prop-display 17.385 + (prop) 17.386 + (if record? (File. base "proprio"))) 17.387 + (touch-display 17.388 + (map #(% (.getRootNode world)) touch) 17.389 + (if record? (File. base "touch"))) 17.390 + (vision-display 17.391 + (map #(% world) vision) 17.392 + (if record? (File. base "vision"))) 17.393 + (hearing-display 17.394 + (map #(% world) hearing) 17.395 + (if record? (File. base "hearing"))) 17.396 + (muscle-display 17.397 + (control-script muscles) 17.398 + (if record? (File. base "muscle"))) 17.399 + 17.400 + (summon-ball world) 17.401 + 17.402 + (.setLocalTranslation me (.getLocation (.getCamera world))) 17.403 + (fix-display world)))))) 17.404 #+end_src 17.405 17.406 -#+results: body-1 17.407 -: #'cortex.silly/follow-test 17.408 +** ImageMagick / ffmpeg 17.409 + 17.410 +Just a bunch of calls to imagemagick to arrange the data that 17.411 +=test-everything!= produces. 17.412 + 17.413 +#+name: magick-8 17.414 +#+begin_src clojure 17.415 +(ns cortex.video.magick8 17.416 + (:import java.io.File) 17.417 + (:use clojure.contrib.shell-out)) 17.418 + 17.419 +(comment 17.420 +;; list of touch targets 17.421 +0 middle-11 17.422 +1 middle-21 17.423 +2 middle-31 17.424 +3 pinky-11 17.425 +4 pinky-21 17.426 +5 pinky-31 17.427 +6 pointer-11 17.428 +7 pointer-21 17.429 +8 pointer-31 17.430 +9 ring-11 17.431 +10 ring-21 17.432 +11 ring-31 17.433 +12 thumb-11 17.434 +13 thumb-2.0011 17.435 + 17.436 + 17.437 +;; list of vision targets 17.438 +0 :all 17.439 +1 :green 17.440 +2 :blue 17.441 +3 :red 17.442 + 17.443 +;; list of proprio targets 17.444 +0 middle-11 -> middle-21 17.445 +1 middle-21 -> middle-31 17.446 +2 thumb-11 -> thumb-2.0011 17.447 +3 pointer-11 -> pointer-21 17.448 +4 pointer-21 -> pointer-31 17.449 +5 ring-21 -> ring-31 17.450 +6 ring-11 -> ring-21 17.451 +7 pinky-21 -> pinky-31 17.452 +8 pinky-11 -> pinky-21 17.453 +9 middle-11 -> palm1 17.454 +10 pinky-11 -> palm1 17.455 +11 palm1 -> pointer-11 17.456 +12 palm1 -> ring-11 17.457 +13 palm1 -> thumb-11 17.458 + 17.459 + 17.460 +;; list of muscle targets 17.461 +0 :pointer-2-e 17.462 +1 :pointer-2-f 17.463 +2 :thumb-1 17.464 +3 :thumb-1 17.465 +4 :pointer-1-e 17.466 +5 :pointer-1-f 17.467 +6 :thumb-2-e 17.468 +7 :thumb-2-f 17.469 +8 :middle-1-e 17.470 +9 :middle-1-f 17.471 +10 :pointer-3-f 17.472 +11 :pointer-3-e 17.473 +12 :middle-2-e 17.474 +13 :middle-2-f 17.475 +14 :middle-3-f 17.476 +15 :middle-3-e 17.477 +16 :pinky-2-e 17.478 +17 :pinky-2-f 17.479 +18 :pinky-3-f 17.480 +19 :pinky-3-e 17.481 +20 :ring-3-e 17.482 +21 :ring-3-f 17.483 +22 :ring-2-f 17.484 +23 :ring-2-e 17.485 +24 :ring-1-e 17.486 +25 :ring-1-f 17.487 +26 :thumb-1-e 17.488 +27 :thumb-1-f 17.489 +28 :pinky-1-f 17.490 +29 :pinky-1-e 17.491 +) 17.492 + 17.493 +(def base (File. "/home/r/proj/cortex/render/hand")) 17.494 + 17.495 +(defn prepare-muscle [muscle] 17.496 + ["(" muscle "-rotate" "90" "-scale" "15x60!" ")"]) 17.497 + 17.498 +(defn prepare-touch [touch] 17.499 + ["(" touch "-rotate" "180" ")"]) 17.500 + 17.501 +(defn generate-top-finger [tip-flexor tip-extensor tip 17.502 + joint-2-3 17.503 + mid-flexor mid-extensor mid 17.504 + joint-1-2] 17.505 + ["(" 17.506 + "-size" "113x357" "xc:transparent" 17.507 + (prepare-muscle tip-flexor) "-geometry" "+0+7" "-composite" 17.508 + (prepare-muscle tip-extensor) "-geometry" "+98+7" "-composite" 17.509 + (prepare-touch tip) "-geometry" "+18+0" "-composite" 17.510 + 17.511 + joint-2-3 "-geometry" "+32+79" "-composite" 17.512 + 17.513 + (prepare-muscle mid-flexor) "-geometry" "+19+131" "-composite" 17.514 + (prepare-muscle mid-extensor) "-geometry" "+80+131" "-composite" 17.515 + (prepare-touch mid) "-geometry" "+39+133" "-composite" 17.516 + 17.517 + joint-1-2 "-geometry" "+32+193" "-composite" 17.518 + ")"]) 17.519 + 17.520 +(defn file-names [#^File dir] 17.521 + (map #(.getCanonicalPath %) (next (sort (file-seq dir))))) 17.522 + 17.523 +(defn file-groups [& paths] 17.524 + (apply (partial map list ) 17.525 + (map (comp file-names #(File. base %)) 17.526 + paths))) 17.527 + 17.528 +(defn pinky [] 17.529 + (file-groups 17.530 + "muscle/18" 17.531 + "muscle/19" 17.532 + "touch/5" 17.533 + "proprio/7" 17.534 + 17.535 + "muscle/17" 17.536 + "muscle/16" 17.537 + "touch/4" 17.538 + "proprio/8" 17.539 + 17.540 + "muscle/28" 17.541 + "muscle/29" 17.542 + "touch/3" 17.543 + "proprio/10")) 17.544 + 17.545 +(defn ring [] 17.546 + (file-groups 17.547 + "muscle/21" 17.548 + "muscle/20" 17.549 + "touch/11" 17.550 + "proprio/5" 17.551 + 17.552 + "muscle/22" 17.553 + "muscle/23" 17.554 + "touch/10" 17.555 + "proprio/6" 17.556 + 17.557 + "muscle/25" 17.558 + "muscle/24" 17.559 + "touch/9" 17.560 + "proprio/12")) 17.561 + 17.562 +(defn middle [] 17.563 + (file-groups 17.564 + "muscle/14" 17.565 + "muscle/15" 17.566 + "touch/2" 17.567 + "proprio/1" 17.568 + 17.569 + "muscle/13" 17.570 + "muscle/12" 17.571 + "touch/1" 17.572 + "proprio/0" 17.573 + 17.574 + "muscle/9" 17.575 + "muscle/8" 17.576 + "touch/0" 17.577 + "proprio/9")) 17.578 + 17.579 +(defn pointer [] 17.580 + (file-groups 17.581 + "muscle/10" 17.582 + "muscle/11" 17.583 + "touch/8" 17.584 + "proprio/4" 17.585 + 17.586 + "muscle/1" 17.587 + "muscle/0" 17.588 + "touch/7" 17.589 + "proprio/3" 17.590 + 17.591 + "muscle/5" 17.592 + "muscle/4" 17.593 + "touch/6" 17.594 + "proprio/11")) 17.595 + 17.596 +(defn thumb [] 17.597 + (file-groups 17.598 + "muscle/7" 17.599 + "muscle/6" 17.600 + "touch/13" 17.601 + "proprio/2" 17.602 + 17.603 + "muscle/27" 17.604 + "muscle/26" 17.605 + "muscle/3" 17.606 + "muscle/2" 17.607 + "touch/12" 17.608 + "proprio/13")) 17.609 + 17.610 +(defn generate-finger 17.611 + [tip-flexor tip-extensor tip 17.612 + joint-2-3 17.613 + mid-flexor mid-extensor mid 17.614 + joint-1-2 17.615 + base-flexor base-extensor base 17.616 + joint-palm-1] 17.617 + ["(" 17.618 + "-size" "113x357" "xc:transparent" 17.619 + (generate-top-finger 17.620 + tip-flexor tip-extensor tip 17.621 + joint-2-3 17.622 + mid-flexor mid-extensor mid 17.623 + joint-1-2) "-geometry" "+0+0" "-composite" 17.624 + (prepare-muscle base-flexor) "-geometry" "+19+245" "-composite" 17.625 + (prepare-muscle base-extensor) "-geometry" "+80+245" "-composite" 17.626 + (prepare-touch base) "-geometry" "+39+247" "-composite" 17.627 + joint-palm-1 "-geometry" "+32+307" "-composite" 17.628 + ")"]) 17.629 + 17.630 +(defn generate-thumb 17.631 + [tip-flexor tip-extensor tip 17.632 + joint-1-2 17.633 + mid-flexor mid-extensor mid-flexor-2 mid-extensor-2 mid 17.634 + joint-palm-1] 17.635 + ["(" 17.636 + "-size" "113x357" "xc:transparent" 17.637 + (generate-top-finger 17.638 + tip-flexor tip-extensor tip 17.639 + joint-1-2 17.640 + mid-flexor mid-extensor mid 17.641 + joint-palm-1) "-geometry" "+0+0" "-composite" 17.642 + (prepare-muscle mid-flexor-2) "-geometry" "+2+131" "-composite" 17.643 + (prepare-muscle mid-extensor-2) "-geometry" "+100+131" "-composite" 17.644 + ")"]) 17.645 + 17.646 +(defn generate-hand 17.647 + [pinky-pieces 17.648 + ring-pieces 17.649 + middle-pieces 17.650 + pointer-pieces 17.651 + thumb-pieces] 17.652 + ["(" 17.653 + "-size" "688x769" "xc:transparent" 17.654 + (apply generate-finger pinky-pieces) 17.655 + "-geometry" "+0+195" "-composite" 17.656 + (apply generate-finger ring-pieces) 17.657 + "-geometry" "+111+100" "-composite" 17.658 + (apply generate-finger middle-pieces) 17.659 + "-geometry" "+228+0" "-composite" 17.660 + "(" (apply generate-thumb thumb-pieces) "-background" "#00000000" 17.661 + "-rotate" "45" ")" 17.662 + "-geometry" "+300+420" "-composite" 17.663 + (apply generate-finger pointer-pieces) 17.664 + "-geometry" "+350+96" "-composite" 17.665 + ")"]) 17.666 + 17.667 +(defn generate-vision 17.668 + [all green blue red] 17.669 + ["(" 17.670 + "-size" "204x192" "xc:transparent" 17.671 + all "-geometry" "+0+0" "-composite" 17.672 + green "-geometry" "+113+0" "-composite" 17.673 + blue "-geometry" "+0+105" "-composite" 17.674 + red "-geometry" "+113+105" "-composite" 17.675 + ")"]) 17.676 + 17.677 +(def test-muscle (File. base "muscle/0/0000000.png")) 17.678 +(def test-proprio (File. base "proprio/0/0000000.png")) 17.679 +(def test-tip (File. base "touch/2/0000000.png")) 17.680 +(def test-mid (File. base "touch/0/0000000.png")) 17.681 +(def test-vision (File. base "vision/0/0000000.png")) 17.682 +(def test-hearing (File. base "hearing/0/0000000.png")) 17.683 +(def test-main (File. base "main/0000000.png")) 17.684 + 17.685 +(def test-target (File. base "output.png")) 17.686 + 17.687 +(def background (File. base "background.png")) 17.688 + 17.689 +(use 'clojure.contrib.shell-out) 17.690 + 17.691 +(defn vision [] 17.692 + (file-groups 17.693 + "vision/0" 17.694 + "vision/1" 17.695 + "vision/2" 17.696 + "vision/3")) 17.697 + 17.698 +(defn hearing [] 17.699 + (file-names (File. base "hearing/0"))) 17.700 + 17.701 +(defn main [] 17.702 + (file-names (File. base "main"))) 17.703 + 17.704 +(defn targets [dest max] 17.705 + (map 17.706 + (comp #(.getCanonicalPath %) 17.707 + #(File. (str base dest (format "%07d.png" %)))) 17.708 + (range max))) 17.709 + 17.710 + 17.711 +(defn final-image [main [all red green blue] hearing 17.712 + pinky ring middle pointer thumb target] 17.713 + (println target) 17.714 + (apply 17.715 + sh 17.716 + (flatten 17.717 + ["convert" 17.718 + (.getCanonicalPath background) 17.719 + 17.720 + (generate-hand pinky ring middle pointer thumb) 17.721 + "-geometry" "+809+22" "-composite" 17.722 + 17.723 + (generate-vision all red green blue) 17.724 + "-geometry" "+974+599" "-composite" 17.725 + 17.726 + hearing 17.727 + "-geometry" "+784+819" "-composite" 17.728 + 17.729 + main 17.730 + "-geometry" "+78+202" "-composite" 17.731 + 17.732 + target]))) 17.733 + 17.734 +(defn combine-files [] 17.735 + (dorun 17.736 + (pmap final-image 17.737 + (main) 17.738 + (vision) 17.739 + (hearing) 17.740 + (pinky) 17.741 + (ring) 17.742 + (middle) 17.743 + (pointer) 17.744 + (thumb) 17.745 + (targets "/out/" (count (main)))))) 17.746 + 17.747 +(defn subtitles [] 17.748 + (file-names (File. base "subs"))) 17.749 + 17.750 +(defn outs [] 17.751 + (file-names (File. base "out"))) 17.752 + 17.753 + 17.754 +(defn mix-subtitles [] 17.755 + (let [subs (subtitles) 17.756 + targets (targets "/out-subs/" (count subs)) 17.757 + overlay (.getCanonicalPath (File. base "output.png"))] 17.758 + (dorun 17.759 + (pmap 17.760 + (fn [sub target] 17.761 + (sh 17.762 + "convert" 17.763 + overlay 17.764 + sub "-geometry" "+0+0" "-composite" 17.765 + target)) 17.766 + subs targets)))) 17.767 + 17.768 +(defn out-subtitles [] 17.769 + (file-names (File. base "out-subs"))) 17.770 + 17.771 + 17.772 +(defn insert-subtitles [] 17.773 + (let [subtitles (out-subtitles) 17.774 + outs (outs) 17.775 + targets (targets 17.776 + "/final/" 17.777 + (+ (count outs) (count subtitles)))] 17.778 + (dorun 17.779 + (pmap 17.780 + #(sh "cp" %1 %2) 17.781 + (concat subtitles outs) targets)))) 17.782 + 17.783 +(defn generate-final [] 17.784 + (combine-files) 17.785 + (mix-subtitles) 17.786 + (insert-subtitles)) 17.787 +#+end_src 17.788 + 17.789 +#+begin_src sh :results silent 17.790 +cd /home/r/proj/cortex/render/hand 17.791 + 17.792 +sox --ignore-length main.wav main-delayed.wav delay 24 17.793 + 17.794 +mogrify -resize 755x final/* 17.795 + 17.796 +ffmpeg -r 60 -i final/%07d.png -i main-delayed.wav -b:a 128k \ 17.797 + -b:v 9000k -c:a libvorbis -c:v libtheora hand.ogg 17.798 +#+end_src 17.799 + 17.800 + 17.801 +* Source Listing 17.802 + - [[../src/cortex/test/integration.clj][cortex.test.integration]] 17.803 + - [[../src/cortex/video/magick8.clj][cortex.video.magick8]] 17.804 + - [[../assets/Models/subtitles/hand.blend][subtitles/hand.blend]] 17.805 +#+html: <ul> <li> <a href="../org/integration.org">This org file</a> </li> </ul> 17.806 + - [[http://hg.bortreb.com ][source-repository]] 17.807 17.808 17.809 * COMMENT purgatory 17.810 #+begin_src clojure 17.811 - 17.812 (defn bullet-trans* [] 17.813 (let [obj-a (box 1.5 0.5 0.5 :color ColorRGBA/Red 17.814 :position (Vector3f. 5 0 0) 17.815 @@ -308,10 +868,11 @@ 17.816 17.817 17.818 * COMMENT generate source 17.819 -#+begin_src clojure :tangle ../src/cortex/integration.clj 17.820 +#+begin_src clojure :tangle ../src/cortex/test/integration.clj 17.821 <<integration>> 17.822 +<<integration-2>> 17.823 #+end_src 17.824 17.825 - 17.826 - 17.827 - 17.828 +#+begin_src clojure :tangle ../src/cortex/video/magick8.clj 17.829 +<<magick-8>> 17.830 +#+end_src
18.1 --- a/org/movement.org Sat Feb 18 02:06:06 2012 -0600 18.2 +++ b/org/movement.org Sat Feb 18 02:07:40 2012 -0600 18.3 @@ -14,31 +14,31 @@ 18.4 force in the human body at all! (A straight line of force would 18.5 correspond to some sort of jet or rocket propulsion.) 18.6 18.7 -*(next paragraph is from memory and needs to be checked!)* 18.8 - 18.9 -In humans, muscles are composed of millions of sarcomeres, which can 18.10 -contract to exert force. A single motor neuron might control 100-1,000 18.11 -sarcomeres. When the motor neuron is engaged by the brain, it 18.12 -activates all of the sarcomeres to which it is attached. Some motor 18.13 -neurons command many sarcomeres, and some command only a few. The 18.14 -spinal cord generally engages the motor neurons which control few 18.15 -sarcomeres before the motor neurons which control many sarcomeres. 18.16 -This recruitment stragety allows for percise movements at low 18.17 -strength. The collection of all motor neurons that control a muscle is 18.18 -called the motor pool. The brain essentially says "activate 30% of the 18.19 -motor pool" and the spinal cord recruits motor neurons untill 30% are 18.20 -activated. Since the distribution of power among motor neurons is 18.21 -unequal and recruitment goes from weakest to strongest, the first 30% 18.22 -of the motor pool might be 5% of the strength of the muscle. 18.23 +In humans, muscles are composed of muscle fibers which can contract to 18.24 +exert force. The muscle fibers which compose a muscle are partitioned 18.25 +into discrete groups which are each controlled by a single alpha motor 18.26 +neuton. A single alpha motor neuron might control as little as three 18.27 +or as many as one thousand muscle fibers. When the alpha motor neuron 18.28 +is engaged by the spinal cord, it activates all of the muscle fibers 18.29 +to which it is attached. The spinal cord generally engages the alpha 18.30 +motor neurons which control few muscle fibers before the motor neurons 18.31 +which control many muscle fibers. This recruitment stragety allows 18.32 +for percise movements at low strength. The collection of all motor 18.33 +neurons that control a muscle is called the motor pool. The brain 18.34 +essentially says "activate 30% of the motor pool" and the spinal cord 18.35 +recruits motor neurons untill 30% are activated. Since the 18.36 +distribution of power among motor neurons is unequal and recruitment 18.37 +goes from weakest to strongest, the first 30% of the motor pool might 18.38 +be 5% of the strength of the muscle. 18.39 18.40 My simulated muscles follow a similiar design: Each muscle is defined 18.41 by a 1-D array of numbers (the "motor pool"). Each entry in the array 18.42 -represents a motor neuron which controlls a number of sarcomeres equal 18.43 -to the value of the entry. A muscle also has a scalar :strength factor 18.44 -which determines the total force the muscle can exert when all motor 18.45 -neurons are activated. The effector function for a muscle takes a 18.46 -number to index into the motor pool, and that number "activates" all 18.47 -the motor neurons whose index is lower or equal to the number. Each 18.48 +represents a motor neuron which controlls a number of muscle fibers 18.49 +equal to the value of the entry. Each muscle has a scalar strength 18.50 +factor which determines the total force the muscle can exert when all 18.51 +motor neurons are activated. The effector function for a muscle takes 18.52 +a number to index into the motor pool, and then "activates" all the 18.53 +motor neurons whose index is lower or equal to the number. Each 18.54 motor-neuron will apply force in proportion to its value in the array. 18.55 Lower values cause less force. The lower values can be put at the 18.56 "beginning" of the 1-D array to simulate the layout of actual human 18.57 @@ -118,13 +118,14 @@ 18.58 18.59 pool (motor-pool muscle) 18.60 pool-integral (reductions + pool) 18.61 - force-index 18.62 + forces 18.63 (vec (map #(float (* strength (/ % (last pool-integral)))) 18.64 pool-integral)) 18.65 control (.getControl target RigidBodyControl)] 18.66 + (println-repl (.getName target) axis) 18.67 (fn [n] 18.68 (let [pool-index (max 0 (min n (dec (count pool)))) 18.69 - force (force-index pool-index)] 18.70 + force (forces pool-index)] 18.71 (.applyTorque control (.mult axis force)) 18.72 (float (/ force strength)))))) 18.73 18.74 @@ -175,9 +176,16 @@ 18.75 18.76 * Adding Touch to the Worm 18.77 18.78 +To the worm, I add two new nodes which describe a single muscle. 18.79 + 18.80 +#+attr_html: width=755 18.81 +#+caption: The node highlighted in orange is the parent node of all muscles in the worm. The arrow highlighted in yellow represents the creature's single muscle, which moves the top segment. The other nodes which are not highlighted are joints, eyes, and ears. 18.82 +[[../images/worm-with-muscle.png]] 18.83 + 18.84 +#+name: test-movement 18.85 #+begin_src clojure 18.86 -(defn test-movement 18.87 - ([] (test-movement false)) 18.88 +(defn test-worm-movement 18.89 + ([] (test-worm-movement false)) 18.90 ([record?] 18.91 (let [creature (doto (worm) (body!)) 18.92 18.93 @@ -211,11 +219,7 @@ 18.94 (Vector3f. -4.912815, 2.004171, 0.15710819)) 18.95 (.setRotation (.getCamera world) 18.96 (Quaternion. 0.13828252, 0.65516764, 18.97 - -0.12370994, 0.7323449)) 18.98 - 18.99 - (comment 18.100 - (com.aurellem.capture.Capture/captureVideo 18.101 - world (file-str "/home/r/proj/ai-videos/hand")))) 18.102 + -0.12370994, 0.7323449))) 18.103 (fn [world tpf] 18.104 (muscle-display 18.105 (map #(% @muscle-exertion) muscles) 18.106 @@ -240,7 +244,6 @@ 18.107 </div> 18.108 #+end_html 18.109 18.110 - 18.111 ** Making the Worm Muscles Video 18.112 #+name: magick7 18.113 #+begin_src clojure 18.114 @@ -304,11 +307,9 @@ 18.115 (:import java.io.File) 18.116 (:import java.awt.image.BufferedImage) 18.117 (:import com.jme3.scene.Node) 18.118 - (:import com.jme3.math.Vector3f) 18.119 + (:import (com.jme3.math Quaternion Vector3f)) 18.120 (:import (com.aurellem.capture Capture RatchetTimer)) 18.121 (:import com.jme3.bullet.control.RigidBodyControl)) 18.122 - 18.123 -(cortex.import/mega-import-jme3) 18.124 #+end_src 18.125 18.126 * Source Listing
19.1 --- a/org/proprioception.org Sat Feb 18 02:06:06 2012 -0600 19.2 +++ b/org/proprioception.org Sat Feb 18 02:07:40 2012 -0600 19.3 @@ -351,10 +351,12 @@ 19.4 #+name: test-proprioception-header 19.5 #+begin_src clojure 19.6 (ns cortex.test.proprioception 19.7 -(:import (com.aurellem.capture Capture RatchetTimer)) 19.8 -(:use (cortex util world proprioception body)) 19.9 -(:import java.io.File)) 19.10 -(cortex.import/mega-import-jme3) 19.11 + (:import (com.aurellem.capture Capture RatchetTimer)) 19.12 + (:use (cortex util world proprioception body)) 19.13 + (:import java.io.File) 19.14 + (:import com.jme3.bullet.control.RigidBodyControl) 19.15 + (:import com.jme3.bullet.collision.PhysicsCollisionObject) 19.16 + (:import (com.jme3.math Vector3f Quaternion ColorRGBA))) 19.17 #+end_src 19.18 19.19 * Source Listing
20.1 --- a/org/sense.org Sat Feb 18 02:06:06 2012 -0600 20.2 +++ b/org/sense.org Sat Feb 18 02:07:40 2012 -0600 20.3 @@ -448,32 +448,35 @@ 20.4 (defn test-bind-sense 20.5 "Show a camera that stays in the same relative position to a blue 20.6 cube." 20.7 - [] 20.8 - (let [eye-pos (Vector3f. 0 30 0) 20.9 - rock (box 1 1 1 :color ColorRGBA/Blue 20.10 - :position (Vector3f. 0 10 0) 20.11 - :mass 30) 20.12 - table (box 3 1 10 :color ColorRGBA/Gray :mass 0 20.13 - :position (Vector3f. 0 -3 0))] 20.14 - (world 20.15 - (nodify [rock table]) 20.16 - standard-debug-controls 20.17 - (fn init [world] 20.18 - (let [cam (doto (.clone (.getCamera world)) 20.19 - (.setLocation eye-pos) 20.20 - (.lookAt Vector3f/ZERO 20.21 - Vector3f/UNIT_X))] 20.22 - (bind-sense rock cam) 20.23 - (.setTimer world (RatchetTimer. 60)) 20.24 - (Capture/captureVideo 20.25 - world (File. "/home/r/proj/cortex/render/bind-sense0")) 20.26 - (add-camera! 20.27 - world cam 20.28 - (comp (view-image 20.29 - (File. "/home/r/proj/cortex/render/bind-sense1")) 20.30 - BufferedImage!)) 20.31 - (add-camera! world (.getCamera world) no-op))) 20.32 - no-op))) 20.33 + ([] (test-bind-sense false)) 20.34 + ([record?] 20.35 + (let [eye-pos (Vector3f. 0 30 0) 20.36 + rock (box 1 1 1 :color ColorRGBA/Blue 20.37 + :position (Vector3f. 0 10 0) 20.38 + :mass 30) 20.39 + table (box 3 1 10 :color ColorRGBA/Gray :mass 0 20.40 + :position (Vector3f. 0 -3 0))] 20.41 + (world 20.42 + (nodify [rock table]) 20.43 + standard-debug-controls 20.44 + (fn init [world] 20.45 + (let [cam (doto (.clone (.getCamera world)) 20.46 + (.setLocation eye-pos) 20.47 + (.lookAt Vector3f/ZERO 20.48 + Vector3f/UNIT_X))] 20.49 + (bind-sense rock cam) 20.50 + (.setTimer world (RatchetTimer. 60)) 20.51 + (if record? 20.52 + (Capture/captureVideo 20.53 + world (File. "/home/r/proj/cortex/render/bind-sense0"))) 20.54 + (add-camera! 20.55 + world cam 20.56 + (comp (view-image 20.57 + (if record? 20.58 + (File. "/home/r/proj/cortex/render/bind-sense1"))) 20.59 + BufferedImage!)) 20.60 + (add-camera! world (.getCamera world) no-op))) 20.61 + no-op)))) 20.62 #+end_src 20.63 20.64 #+begin_html
21.1 --- a/org/touch.org Sat Feb 18 02:06:06 2012 -0600 21.2 +++ b/org/touch.org Sat Feb 18 02:07:40 2012 -0600 21.3 @@ -435,7 +435,7 @@ 21.4 touch-objects))] 21.5 (FastMath/clamp 21.6 (float 21.7 - (if (> response limit) 0.0 21.8 + (if (> response limit) (float 0.0) 21.9 (+ response correction))) 21.10 (float 0.0) 21.11 limit))) 21.12 @@ -485,7 +485,7 @@ 21.13 (for [i (range (count coords))] 21.14 (.setRGB image ((coords i) 0) ((coords i) 1) 21.15 (apply touch->gray (sensor-data i))))) 21.16 - image)))) 21.17 + image)))) 21.18 #+end_src 21.19 21.20 #+results: visualization 21.21 @@ -623,8 +623,8 @@ 21.22 #+begin_src clojure 21.23 (in-ns 'cortex.test.touch) 21.24 21.25 -(defn test-touch 21.26 - ([] (test-touch false)) 21.27 +(defn test-worm-touch 21.28 + ([] (test-worm-touch false)) 21.29 ([record?] 21.30 (let [the-worm (doto (worm) (body!)) 21.31 touch (touch! the-worm) 21.32 @@ -730,6 +730,7 @@ 21.33 - [[../src/cortex/test/touch.clj][cortex.test.touch]] 21.34 - [[../src/cortex/video/magick4.clj][cortex.video.magick4]] 21.35 - [[../src/cortex/video/magick5.clj][cortex.video.magick5]] 21.36 + - [[../assets/Models/test-touch/touch-cube.blend][touch-cube.blend]] 21.37 #+html: <ul> <li> <a href="../org/touch.org">This org file</a> </li> </ul> 21.38 - [[http://hg.bortreb.com ][source-repository]] 21.39 21.40 @@ -781,11 +782,3 @@ 21.41 #+begin_src clojure :tangle ../src/cortex/video/magick5.clj 21.42 <<magick5>> 21.43 #+end_src 21.44 - 21.45 - 21.46 - 21.47 - 21.48 - 21.49 - 21.50 - 21.51 -
22.1 --- a/org/util.org Sat Feb 18 02:06:06 2012 -0600 22.2 +++ b/org/util.org Sat Feb 18 02:07:40 2012 -0600 22.3 @@ -113,13 +113,10 @@ 22.4 22.5 (defn position-camera 22.6 "Change the position of the in-world camera." 22.7 - ([world position direction up] 22.8 + [world #^Vector3f position #^Quaternion rotation] 22.9 (doto (.getCamera world) 22.10 - (.setLocation ) 22.11 - (.lookAt direction up))) 22.12 - ([world position direction] 22.13 - (position-camera 22.14 - world position direction Vector3f/UNIT_Y))) 22.15 + (.setLocation position) 22.16 + (.setRotation rotation))) 22.17 22.18 (defn enable-debug 22.19 "Turn on debug wireframes for every object in this simulation." 22.20 @@ -219,7 +216,7 @@ 22.21 #+end_src 22.22 22.23 #+results: util 22.24 -: #'cortex.util/apply-map 22.25 +: #'cortex.util/runonce 22.26 22.27 22.28 *** Creating Basic Shapes
23.1 --- a/org/vision.org Sat Feb 18 02:06:06 2012 -0600 23.2 +++ b/org/vision.org Sat Feb 18 02:07:40 2012 -0600 23.3 @@ -453,35 +453,38 @@ 23.4 23.5 You should see a rotating cube, and two windows, 23.6 each displaying a different view of the cube." 23.7 - [] 23.8 - (let [candy 23.9 - (box 1 1 1 :physical? false :color ColorRGBA/Blue)] 23.10 - (world 23.11 - (doto (Node.) 23.12 - (.attachChild candy)) 23.13 - {} 23.14 - (fn [world] 23.15 - (let [cam (.clone (.getCamera world)) 23.16 - width (.getWidth cam) 23.17 - height (.getHeight cam)] 23.18 - (add-camera! world cam 23.19 - (comp 23.20 - (view-image 23.21 - (File. "/home/r/proj/cortex/render/vision/1")) 23.22 - BufferedImage!)) 23.23 - (add-camera! world 23.24 - (doto (.clone cam) 23.25 - (.setLocation (Vector3f. -10 0 0)) 23.26 - (.lookAt Vector3f/ZERO Vector3f/UNIT_Y)) 23.27 - (comp 23.28 - (view-image 23.29 - (File. "/home/r/proj/cortex/render/vision/2")) 23.30 - BufferedImage!)) 23.31 - ;; This is here to restore the main view 23.32 + ([] (test-pipeline false)) 23.33 + ([record?] 23.34 + (let [candy 23.35 + (box 1 1 1 :physical? false :color ColorRGBA/Blue)] 23.36 + (world 23.37 + (doto (Node.) 23.38 + (.attachChild candy)) 23.39 + {} 23.40 + (fn [world] 23.41 + (let [cam (.clone (.getCamera world)) 23.42 + width (.getWidth cam) 23.43 + height (.getHeight cam)] 23.44 + (add-camera! world cam 23.45 + (comp 23.46 + (view-image 23.47 + (if record? 23.48 + (File. "/home/r/proj/cortex/render/vision/1"))) 23.49 + BufferedImage!)) 23.50 + (add-camera! world 23.51 + (doto (.clone cam) 23.52 + (.setLocation (Vector3f. -10 0 0)) 23.53 + (.lookAt Vector3f/ZERO Vector3f/UNIT_Y)) 23.54 + (comp 23.55 + (view-image 23.56 + (if record? 23.57 + (File. "/home/r/proj/cortex/render/vision/2"))) 23.58 + BufferedImage!)) 23.59 + ;; This is here to restore the main view 23.60 ;; after the other views have completed processing 23.61 - (add-camera! world (.getCamera world) no-op))) 23.62 - (fn [world tpf] 23.63 - (.rotate candy (* tpf 0.2) 0 0))))) 23.64 + (add-camera! world (.getCamera world) no-op))) 23.65 + (fn [world tpf] 23.66 + (.rotate candy (* tpf 0.2) 0 0)))))) 23.67 #+end_src 23.68 23.69 #+begin_html 23.70 @@ -541,60 +544,62 @@ 23.71 (comp #(change-color % color) 23.72 (fire-cannon-ball))) 23.73 23.74 -(defn test-worm-vision [record] 23.75 - (let [the-worm (doto (worm)(body!)) 23.76 - vision (vision! the-worm) 23.77 - vision-display (view-vision) 23.78 - fix-display (gen-fix-display) 23.79 - me (sphere 0.5 :color ColorRGBA/Blue :physical? false) 23.80 - x-axis 23.81 - (box 1 0.01 0.01 :physical? false :color ColorRGBA/Red 23.82 - :position (Vector3f. 0 -5 0)) 23.83 - y-axis 23.84 - (box 0.01 1 0.01 :physical? false :color ColorRGBA/Green 23.85 - :position (Vector3f. 0 -5 0)) 23.86 - z-axis 23.87 - (box 0.01 0.01 1 :physical? false :color ColorRGBA/Blue 23.88 - :position (Vector3f. 0 -5 0)) 23.89 - timer (RatchetTimer. 60)] 23.90 +(defn test-worm-vision 23.91 + ([] (test-worm-vision false)) 23.92 + ([record?] 23.93 + (let [the-worm (doto (worm)(body!)) 23.94 + vision (vision! the-worm) 23.95 + vision-display (view-vision) 23.96 + fix-display (gen-fix-display) 23.97 + me (sphere 0.5 :color ColorRGBA/Blue :physical? false) 23.98 + x-axis 23.99 + (box 1 0.01 0.01 :physical? false :color ColorRGBA/Red 23.100 + :position (Vector3f. 0 -5 0)) 23.101 + y-axis 23.102 + (box 0.01 1 0.01 :physical? false :color ColorRGBA/Green 23.103 + :position (Vector3f. 0 -5 0)) 23.104 + z-axis 23.105 + (box 0.01 0.01 1 :physical? false :color ColorRGBA/Blue 23.106 + :position (Vector3f. 0 -5 0)) 23.107 + timer (RatchetTimer. 60)] 23.108 23.109 - (world (nodify [(floor) the-worm x-axis y-axis z-axis me]) 23.110 - (assoc standard-debug-controls 23.111 - "key-r" (colored-cannon-ball ColorRGBA/Red) 23.112 - "key-b" (colored-cannon-ball ColorRGBA/Blue) 23.113 - "key-g" (colored-cannon-ball ColorRGBA/Green)) 23.114 - (fn [world] 23.115 - (light-up-everything world) 23.116 - (speed-up world) 23.117 - (.setTimer world timer) 23.118 - (display-dialated-time world timer) 23.119 - ;; add a view from the worm's perspective 23.120 - (if record 23.121 - (Capture/captureVideo 23.122 - world 23.123 - (File. 23.124 - "/home/r/proj/cortex/render/worm-vision/main-view"))) 23.125 - 23.126 - (add-camera! 23.127 - world 23.128 - (add-eye! the-worm 23.129 - (.getChild 23.130 - (.getChild the-worm "eyes") "eye")) 23.131 - (comp 23.132 - (view-image 23.133 - (if record 23.134 - (File. 23.135 - "/home/r/proj/cortex/render/worm-vision/worm-view"))) 23.136 - BufferedImage!)) 23.137 - 23.138 - (set-gravity world Vector3f/ZERO)) 23.139 - 23.140 - (fn [world _ ] 23.141 - (.setLocalTranslation me (.getLocation (.getCamera world))) 23.142 - (vision-display 23.143 - (map #(% world) vision) 23.144 - (if record (File. "/home/r/proj/cortex/render/worm-vision"))) 23.145 - (fix-display world))))) 23.146 + (world (nodify [(floor) the-worm x-axis y-axis z-axis me]) 23.147 + (assoc standard-debug-controls 23.148 + "key-r" (colored-cannon-ball ColorRGBA/Red) 23.149 + "key-b" (colored-cannon-ball ColorRGBA/Blue) 23.150 + "key-g" (colored-cannon-ball ColorRGBA/Green)) 23.151 + (fn [world] 23.152 + (light-up-everything world) 23.153 + (speed-up world) 23.154 + (.setTimer world timer) 23.155 + (display-dialated-time world timer) 23.156 + ;; add a view from the worm's perspective 23.157 + (if record? 23.158 + (Capture/captureVideo 23.159 + world 23.160 + (File. 23.161 + "/home/r/proj/cortex/render/worm-vision/main-view"))) 23.162 + 23.163 + (add-camera! 23.164 + world 23.165 + (add-eye! the-worm 23.166 + (.getChild 23.167 + (.getChild the-worm "eyes") "eye")) 23.168 + (comp 23.169 + (view-image 23.170 + (if record? 23.171 + (File. 23.172 + "/home/r/proj/cortex/render/worm-vision/worm-view"))) 23.173 + BufferedImage!)) 23.174 + 23.175 + (set-gravity world Vector3f/ZERO)) 23.176 + 23.177 + (fn [world _ ] 23.178 + (.setLocalTranslation me (.getLocation (.getCamera world))) 23.179 + (vision-display 23.180 + (map #(% world) vision) 23.181 + (if record? (File. "/home/r/proj/cortex/render/worm-vision"))) 23.182 + (fix-display world)))))) 23.183 #+end_src 23.184 23.185 The world consists of the worm and a flat gray floor. I can shoot red,
24.1 --- /dev/null Thu Jan 01 00:00:00 1970 +0000 24.2 +++ b/winston-intro.txt Sat Feb 18 02:07:40 2012 -0600 24.3 @@ -0,0 +1,103 @@ 24.4 +Dear Professor Winston, 24.5 + 24.6 +I'm ready for you to look through the work that I've done so far. It's 24.7 +a sequence of posts describing the different simulated senses I've 24.8 +implemented, with videos. 24.9 + 24.10 +It's "blocks world reloaded", because like you say, you need multiple 24.11 +senses to enable intelligence. 24.12 + 24.13 +Please look through the videos and skim the text and tell me what 24.14 +you think: 24.15 + 24.16 +Introduction: 24.17 +http://aurellem.org/cortex/html/intro.html 24.18 +http://aurellem.org/cortex/html/sense.html 24.19 + 24.20 +http://aurellem.org/cortex/html/body.html -- simulated physical bodies 24.21 +http://aurellem.org/cortex/html/vision.html -- simulated eyes 24.22 +http://aurellem.org/cortex/html/hearing.html -- simulated ears 24.23 +http://aurellem.org/cortex/html/touch.html -- simulated skin/hairs 24.24 +http://aurellem.org/cortex/html/proprioception.html -- simulated proprioception 24.25 +http://aurellem.org/cortex/html/movement.html -- simulated muscles 24.26 +http://aurellem.org/cortex/html/integration.html -- full demonstration 24.27 + 24.28 +In particular, look at the video at 24.29 +http://aurellem.org/cortex/html/integration.html. It shows a 24.30 +simulated hand equipped with all of the senses I've built so far. 24.31 + 24.32 +There's some more background information and full source code at 24.33 +http://aurellem.org 24.34 + 24.35 +If you can't see a video, let me know and I'll upload it to YouTube so 24.36 +you can see it. 24.37 + 24.38 + 24.39 + 24.40 + 24.41 +Now, I need your help moving forward. Can I use this work as a base 24.42 +for a Masters thesis with you when I come back to MIT this coming Fall? 24.43 +What critiques and project ideas do you have after looking through 24.44 +what I've done so far? 24.45 + 24.46 +I have some ideas on where I can go with this project but I think you 24.47 +will have some better ones. 24.48 + 24.49 +Here are some possible projects I might do with this as a base that I 24.50 +think would be worthy Masters projects. 24.51 + 24.52 + - HACKER for writing muscle-control programs : Presented with 24.53 + low-level muscle control/ sense API, generate higher level programs 24.54 + for accomplishing various stated goals. Example goals might be 24.55 + "extend all your fingers" or "move your hand into the area with 24.56 + blue light" or "decrease the angle of this joint". It would be 24.57 + like Sussman's HACKER, except it would operate with much more data 24.58 + in a more realistic world. Start off with "calisthenics" to 24.59 + develop subroutines over the motor control API. This would be the 24.60 + "spinal chord" of a more intelligent creature. 24.61 + 24.62 + - Create hundreds of small creatures and have them do simple 24.63 + simulated swarm tasks. 24.64 + 24.65 + - A joint that learns what sort of joint it (cone, point-to-point, 24.66 + hinge, etc.) is by correlating exploratory muscle movements with 24.67 + vision. 24.68 + 24.69 + - Something with cross-modal clustering using the rich sense 24.70 + data. This might prove difficult due to the higher dimensionality 24.71 + of my senses. 24.72 + 24.73 + - Simulated Imagination --- this would involve a creature with an 24.74 + effector which creates an /entire new sub-simulation/ where the 24.75 + creature has direct control over placement/creation of objects via 24.76 + simulated telekinesis. The creature observes this sub-world through 24.77 + it's normal senses and uses its observations to make predictions 24.78 + about it's top level world. 24.79 + 24.80 + - Hook it up with Genesis --- I could make a "semantic effector" 24.81 + which marks objects/sensory states with semantic information. In 24.82 + conjunction with Simulated Imagination, and HACKER-like motor 24.83 + control, Genesis might be able to ask simple questions like "stack 24.84 + two blocks together and hit the top one with your hand; does the 24.85 + bottom block move?" and the system could answer "yes". This would 24.86 + be rather complicated to do and involves many of the above 24.87 + projects, but there may be a way to scale it down to Master's 24.88 + thesis size. 24.89 + 24.90 + - Make a virtual computer in the virtual world which with which the 24.91 + creature interacts using its fingers to press keys on a virtual 24.92 + keyboard. The creature can access the internet, watch videos, take 24.93 + over the world, anything it wants. (This is probably not worthy of 24.94 + a Masters project, I just thought it was a neat idea. It's possible 24.95 + to use videos/etc in the simulated world at any rate.) 24.96 + 24.97 + 24.98 +I can't wait to hear your critiques and ideas. If you think I 24.99 +shouldn't use this system as a base and should instead do something 24.100 +else, that's fine too. 24.101 + 24.102 +On a related note, can I be considered for the position of TA next 24.103 +year for 6.034 or 6.xxx? 24.104 + 24.105 +sincerely, 24.106 +--Robert McIntyre