- Видео 3
- Просмотров 379 618
Christian Schüller
Добавлен 21 май 2012
Shape Representation by Zippables (SIGGRAPH 2018)
Accompanying video to the technical paper
"Shape Representation by Zippables"
by Christian Schüller, Roi Poranne, Olga Sorkine-Hornung
SIGGRAPH 2018
Keep me up to date about zippables:
igl.ethz.ch/projects/zippables/signup
Project page:
igl.ethz.ch/projects/zippables
Abstract:
Fabrication from developable parts is the basis for arts such as papercraft and needlework, as well as modern architecture and CAD in general, and it has inspired much research. We observe that the assembly of complex 3D shapes created by existing methods often requires first fabricating many small parts and then carefully following instructions to assemble them together. Despite its significance, this error prone and tediou...
"Shape Representation by Zippables"
by Christian Schüller, Roi Poranne, Olga Sorkine-Hornung
SIGGRAPH 2018
Keep me up to date about zippables:
igl.ethz.ch/projects/zippables/signup
Project page:
igl.ethz.ch/projects/zippables
Abstract:
Fabrication from developable parts is the basis for arts such as papercraft and needlework, as well as modern architecture and CAD in general, and it has inspired much research. We observe that the assembly of complex 3D shapes created by existing methods often requires first fabricating many small parts and then carefully following instructions to assemble them together. Despite its significance, this error prone and tediou...
Просмотров: 29 802
Видео
Computational Thermoforming
Просмотров 347 тыс.8 лет назад
Contact: thermoforming3D[at]gmail.com Accompanying video to the technical paper "Computational Thermoforming" by Christian Schüller, Daniele Panozzo, Anselm Grundhöfer, Henning Zimmer, Evgeni Sorkine, Olga Sorkine-Hornung SIGGRAPH 2016 Abstract: We propose a method to fabricate textured 3D models using thermoforming. Differently from industrial techniques, which target mass production of a spec...
Appearance-Mimicking Surfaces
Просмотров 2,6 тыс.10 лет назад
Accompanying video to the technical paper "Appearance-Mimicking Surfaces" by Christian Schüller, Daniele Panozzo, Olga Sorkine-Hornung ACM SIGGRAPH Asia 2014
finally, irl normal maps
Interesting idea! Do you have any intended user?
I wanna buy the Stanford Bunny now-
I love stuff like this that has literally no practical purpose but it's "we did a cool thing and want to show it off" Never know what your going to get and this has to be one of my favorites
i am university student in turkey. i watched your video by Computational thermoforming on link: "ruclips.net/video/VFkVxurKeAs/видео.html&ab_channel=ChristianSch%C3%BCller" So, i send email christian on email that share on RUclips termoforming3D@gmail.com But email address doesnt usable. So how i contact you. thanks for all regards :)
This reminds me of the Euler Spiral
The future looks bright for BDSM.
a what
3d printing with extra step
Uzumaki intensifies...
I need one
Absolutely fabulous.
STICKY....FINGAHS!!!
"we fabricate the zippable from fabric" fabric-ate ya sneaky little shit
Wait.. is it jojo reference to Sticky Fingers?
Im bored Yeah Wana make a paper you can zip into any shape
TAKE MY MONEY ALREADY!
Junji ito: **heavy breathing**
Not a real presentation if they didn't zip up an armadillo. Smh
YOU ARE AMASING...GREAT STUFF
For people who ask 'Why'?: One reason is you have to come up with something original that has not been done before when you want to prove your skill and education. Also, this may have many different applications, NASA, for example, loves designing complex fabrics.
Very Interesting !!
Zippable surfing wetsuit! That would awesome
Hah! I envision a new Etsy shop opening up in the near future.
SIGGRAPH 2020 Software to a realistic automatic animation of a character ZIPPING up the ZIPPABLE
One question. How many zippers are needed to create torus-like shapes? :)
Genus of the shape + 1 = number of zippers. So for a torus you need 2 zippers.
So a double-torus needs three zippers at least. Nice work:)
If the parts were connected by sewing instead of with a zipper, a) would it still work? b) could that possibly be done automatically c) could doing that with a substantially higher turn count (so as to have thinner strips) be effective for making fabric goods with specific curvatures in specific regions? d) could doing so become cost effective and improve clothing? I don't know stuff about how clothes are made, but I've heard that the armpit region of shirts is difficult due to the negative curvature, and because this seems to handle regionals of negative curvature quite well, I was wondering if it might help for that. Oh, also, can this work for things with holes or branching tubes? In any case, this is cool
a) Yes, the compuation is actually even simpler, but it could no longer be assembled in the flat. b) Unfortunately we are not aware of a stitching/sewing machine that is capable of doing this, but that would be certainly interesting to develop. c) In theory yes. But I expect that there will be many practical problems to solve first. d) No idea, but that would be great!
For people who ask 'Why?': One application could be "to easily customise and install the cladding that wraps around oil and gas pipes" (fastcodesign.com)
A future application would be to create flat molecules of specific shapes which would then automatically zip up into desired 3d shapes.
It is possible to create of tanks and airplanes for backward countries! And sell it to them. Or a house for Mask...
I like finding Siggraph videos that aren't the typical siggraph videos... there's always something unexpected
Wow. Brilliant. And with a little more automation of the production process this can make a lot of money.
This is why I look forward to the SIGGRAPH videos each year.
ZIP *ZIP* <ZIP>
Very cool!
The next logical step is making the strips using wooden living hinges.
More like research into underwater basket weaving! /sarcasm
It's quite wholesome but why....
for its own sake?
a special offset..
What is the application of this?
fun zippable shapes!
Mars colony tents need to be particularly shaped and built on site.
I imagine the technique can be applied to make sheets of graphene that self assembles to complex (and cheap) microscopic 3d objects for medical or industrial purposes. Maybe instead of zippers they can use the mechanism that stitches DNA strands. This is pure speculation w/o technical background btw.
Apart from making couple expensive novelty plushies, nothing really obvious. But that's basic research for you, it often seems useless, but a decade down the line someone has a difficult problem to solve and goes, aha, this fits perfectly. Although I doubt if such a comparison would be useful in any way, but I can see how someone could compare this to protein folding for example. Basic research is often done for its own sake, you don't know what it might amount to, if anything, but practice shows that past basic research can become incredibly useful when you least expect it.