Taking a walk in the Garden of Knowledge
Speaker: Ambjörn Naeve
Affiliation: Centre for user-oriented IT-Design (CID) Dept. of Numerical Analysis and Computing ScienceRoyal Institute of Technology (KTH) Stockholm, Sweden
email: [email protected]
web-sites: cid.nada.kth.se kmr.nada.kth.se
What follows are some snapshots from a walk in the third prototype of the Garden of Knowledge.
The prototype is available on CD-rom and part of it is accessible on the web at the address:
http://cid.nada.kth.se/il/kt/ktproto
This prototype was developed at CID during 1996/97 in collaboration with the Royal College of Music and the Shift New Media Group.
The entrance to the Garden of Knowledge
The overall subject patchClicking ”geometri” opens the geometry patch.
Overall view of the geometry patch
Browsing the geometry patchClicking the left margin returns to the overall subject patch.
Pointing to ”symmetri” produces a definitionSymmetry = invariance under motion.
Clicking ”symmetri” opens a new sublevelPointing to ”rosetter” shows preview of content.
Pointing to ”band” shows preview of content
Clicking ”band” opens a new sublevel
Clicking ”make your own bands” brings up a toolwhich lets you create bands according to the 7 different symmetry types.
Clicking on ”exercises” lets you practice and guess which symmetry elements that are present in a chosen band.
Is there a horizontal reflection?
Is there a vertical reflection?
Is there a half turn?
Is there a glide reflection?
choose a band Exercises
Clicking ”länkar” leads to musical symmetries(länkar = links)
Clicking the notes plays the pitch symmetry(without rhythm symmetry elements)pitch symmetry
Clicking ”rytmsymmetri” adds symmetries of rythm(with the possible choices of translation or reflection)
Clicking ”fördjupning” gives deeper explanation of why there are 7 different types of band symmetries. Clicking “band” prompts you to try to generate the two missing symmetries by choosing different combinations of L, V, G, H.
Activearea Click the band to activate / clean it.
Here we have found the 7:th symmetry type
In ”regler” we check all combinations of L,V,G,H showing which combinations that give valid symmetry types.
rules:
rules
And which combinations that break the rules
rules:
In “bevis” we prove that L,V,G,H generate the symmetries Step1: Showing that a plane isometry is determined by how it maps 3 points.
Step2: Showing that such a mapping can be achieved by ≤ 3 reflections in lines.
proof
Step 3: proving a lemmaLemma: Reflections in two lines L1 and L2 is invariant under
rotation of the lines around their point of intersection.
Step 4: applying the lemma to reflection in 3 linesFirst: Rotate the two first lines so that the second is perpendicular to the third. Second: Rotate the two last lines so that the second is parallel to the first.Conclusion: Reflection in three arbitrary positioned lines is a glide reflection.
Clicking “glidspegling” shows a glide reflection
Clicking “tapeter” opens a new sublevel(tapeter = wallpapers)
Clicking “make your own wallpapers” brings up a toolwhich lets you experiment with the 17 different wallpaper symmetries.
Clicking “Alhambra” takes you to a web-sitewhich contains examples of all the 17 symmetry types in islamic art.
One of the patterns displayed at Alhambra
Another one of the patterns at Alhambra