- Видео 8
- Просмотров 464 040
Bernhard Thomaszewski
Добавлен 17 окт 2011
A Harmonic Balance Approach for Designing Compliant Mechanical Systems w/ Nonlinear Periodic Motions
Presentation video for
A Harmonic Balance Approach for Designing Compliant Mechanical Systems with Nonlinear Periodic Motions
P. Tang, J. Zehnder, S. Coros, B. Thomaszewski
ACM Transactions on Graphics (Proc. ACM SIGGRAPH Asia 2020)
A Harmonic Balance Approach for Designing Compliant Mechanical Systems with Nonlinear Periodic Motions
P. Tang, J. Zehnder, S. Coros, B. Thomaszewski
ACM Transactions on Graphics (Proc. ACM SIGGRAPH Asia 2020)
Просмотров: 1 917
Видео
Extrusion-Based Ceramics Printing with Strictly-Continuous Deposition
Просмотров 1,6 тыс.4 года назад
(ACM Siggraph Asia 2019) We propose a method for integrated tool path planning and support structure generation tailored to the specific constraints of extrusion-based ceramics printing. Existing path generation methods for thermoplastic materials rely on transfer moves to navigate between different print paths in a given layer. However, when printing with clay, these transfer moves can lead to...
Interactive Design of Modular Tensegrity Characters
Просмотров 1,5 тыс.5 лет назад
D. Gauge, S. Coros, S. Mani, B. Thomaszewski ACM Symposium on Computer Animation 2014
Interactive Surface Design with Interlocking Elements
Просмотров 3616 лет назад
Interactive Surface Design with Interlocking Elements
Designing Structurally Sound Ornamental Curve Networks
Просмотров 7866 лет назад
Designing Structurally Sound Ornamental Curve Networks
A Computational Design Tool for Compliant Mechanisms
Просмотров 454 тыс.6 лет назад
A Computational Design Tool for Compliant Mechanisms
Computational Design and Automated Fabrication of Kichhoff Plateau Surfaces (SIGGRAPH '17)
Просмотров 4,1 тыс.7 лет назад
We propose a computational tool for designing Kirchhoff-Plateau Surfaces-planar rod networks embedded in pre-stretched fabric that deploy into complex, three-dimensional shapes. While Kirchhoff-Plateau Surfaces offer an intriguing and expressive design space, navigating this space is made difficult by the highly nonlinear nature of the underlying mechanical problem. In order to tackle this chal...
Replacing bearings with bendable materials isn't an improvement, its a guaranteed point of failure
@bernhardthomaszewski3910 I'd be interested to see what @missingpartsclub could do with this
How do we get this software? It's awesome!
What software is used to simulate the compliant mechanisms?
Still always love Disney research :)
Where is this tool?
It's all fun and games 'till your flexures wear out and break.
It's kinda wild how humanity went this long before exploring the engineering potential of using the tensile strength of materials in this way. I know flexures have been around a good while but it's really only since jwst was in development that it's getting real attention.
how can we try this for ourselves?
Why is there a Disney watermark on this video? We have all boycotted Disney.
That’s insane… that can be widely applied in many industries with strong advance in the future
Where can I try this tool?
I love the eyeball at 3:29.
Brilliant. This video really inspiring to creating innovative mechanisms. Given accessibility to 3d printers and other material manufacturing techniques it is much easier to explore such designs. Too bad there are not easily accessible design tools that make such explorations available to a larger audience. (maybe there is, and I'm just not aware). Pointers in the video description to additional resources, or references would have been helpful. Thanks for sharing and enlightening us.
Why Disney never share anything with us, never release any software?
Your work is really impressive. This software will be useful, especially for those who have 3D printers.
Disney watermark = evil
Гaвно какое-то, вооружения дайте.
Хер тебе, а не вооружение, бандеровец
That is very impressive, but what are the use cases for these compliant joints where they surpass rigid joints in functionality? So far it just seems like classical kinematics with extra steps and additional calculations.
This is very useful for precise positioning. It avoids almost any kind of backlash and convert motion in a huge ratio
Copyright Disney?
Absolutely useless. Belongs in trash
New son ruclips.net/video/rSPw4MoBoZY/видео.html
This is my favorite Disney Production.
I know some application for this
disney to make a new ai powered rainbow dildo line.. Now with Rapid thrusting Action! for your Compliant customer base..
1min 33s if behind it add like door stucker, then making it able to move forward by wheel maybe nice robot? As legs. Wheel leg robot. Maybe it will be silent but fast?
This was said b4 i think in the past. Someone wanted to commit suicide decide to harass area of interest(robots) maybe. Since the move is silent, maybe if 1 is wheel to move forward fast then maybe need to be slower to crawl like that.
why does it say copyright disney?
motion of the ocean
Disney buying Boston Dynamics; Thoughts?
this some science buushie mann give me cartoon or some shi
That fawn example is straight up the model for My Little Pony characters
What's the point of this !? Rigid bodies can accomplish all of these same feats, without having weakened points (of failure) present !? I don't understand... unless the argument is to utilize a marginally less amount of material to create flexible points that endure much less wear and tear; than its counterpart... what the hell's going on here !? What a waste of time and money if you ask me... Jesus... what's the "practical" application of this !? For physics and industrial products... this makes no sense... but okay... it's new, so, I guess we should chuck our brains in the gutter and stair at this like a fish would stair at the filament from an angular fish !? ... in the end... it's neat, but not practical... there are far better, and more robust solutions than this.
noice so well explained ^w^
Cycle life?
Hi Bernhard this is amazing could I beta try it for a physical project im working on?
Fuck the mouse
We can all agree that he never disappoints us with his content🤍
Oh, hey Mr. Yeast
Bruhhh
Ah yes. The hoo hah lassos the whomp womp uncle
This is awesome looking, but tbh I don't get the point. Why is this helpful? I don't get it.
2:30 - aren't those motors rotating backward?
Was this stolen from BYU?
Why disney though?
You guys are super cool!
Trying to desperately sell a/your product.
I was interested until I saw that bullsh*t logo in the bottom left.
Could you use the same concept but making the movement of the dragon wings by a sliding shaft that runs through a groove on a plate?
curious how this handles itself after a large amount of use, I feel like things that flex tend to break down and warp easier.
Better than things with say minges that slide over pins or bushings. The sliding parts wear against each other and the shape changes slightly with use.
Only if they reach plastic deformation, if they're properly designed they won't break down.
Disney's trying to create a robot that fingers children at 100% efficiency
robot leg.