All Videos Tagged human (Grasshopper) - Grasshopper

Ekilaya - Gridshell digital design process

2019-05-01T19:05:35.297Z

This video introduces Quaternion's modular timber gridshell form finding tool for Ekilaya architectures.

Smocking Pattern Generation Tool

2018-10-09T10:42:59.513Z

Done with Grasshopper, Python and Human UI

Concrete Form[ing]work: Parametric Patterning of Fabric Formwork for Cast Concrete
Annie Locke Scherer
Doctoral Researcher at Kunglinga Tekniska Högskolan, Stockholm
Research is part of Concrete Performance - Towards digitally informed cement-bound material systems funded by Formas, the Swedish Research Council
Supervisors: Oliver Tessmann, Jonas Runberger

Axial compression bending test mechanism for plywood, fiberglass composites - Tracker video analysis - grasshopper3d - human

2017-11-09T20:33:14.932Z

Axial Bending test mechanism for plywood, fiberglass composites. Video report of a test specimen plywood 3mm, with facegrain perpendicular to load axis combined with one layer of 195gr/m2 double twill fiberglass at 0 degrees.

Part of my Msc Thesis:
"Compression bending test mechanism for plywood - fiberglass composites.
Encoding complex 3d form into flat 2d strips through fiber orientation and layers count distribution."

more info:
http://dias.library.tuc.gr/view/69935
presentation pdf:
http://dias.library.tuc.gr/view/manf/69937

using:
Grasshopper for Rhino3D (David Rutten)
http://www.grasshopper3d.com/

Human grasshopper plugin (Andrew Heumann)
http://andrewheumann.com/#computation

Tracker Video analysis and modeling tool (Douglas Brown)
https://physlets.org/tracker/
https://www.compadre.org/osp/bulletinboard/home.cfm

"907" Parametric Construction V _ Space Under Workshop (grasshopper, kangaroo)

2017-01-13T18:32:48.996Z

Parametric Construction V workshop. Organized in collaboration with Space Under Architectural Office for Practice and Research. http://www.spaceunder.com/

Experimenting with physical and digital models. A square paper is folded to form a module, that is modelled using grasshopper3d and kangaroo live physics engine.
Its triangular equilateral footprint defines the connectivity among many modules, which we decided to have variable sizes. Three connection points for each, set the topology and the constraints for their supporting frame structure. Taking advantage of the properties of CP mesh, where the incircles of adjacent triangles are tangent creating three contact points for each, the basis of the frame is determined. But since these contact points do not necessarily describe an equilateral triangle, a second step is applied to finalize the frame elements. This step, after applying and selecting the scale for each equilateral triangle centered to the CP mesh incircles, minimizes the length of each connection line, as derived from the chosen topology.

Using grasshopper3d for Rhino (David Rutten, Robert McNeel & Associates)
http://www.grasshopper3d.com/
http://www.rhino3d.com/

along with the following plugins:

Kangaroo (Daniel Piker)
http://www.food4rhino.com/app/kangaroo-physics
Human (Andrew Heumann)
http://www.food4rhino.com/app/human
Clipper (Arend, studioavw)
http://www.food4rhino.com/app/clipper-grasshopper
Bowerbird (Thomas Oberbichler)
https://github.com/oberbichler/Bowerbird/releases/tag/v0.6.3
Fab Tab (David Mans, neoarchaic.net)
http://www.neoarchaic.net/resources/grasshopper/fabtab-triangular-tiles/

Fabrication Assistant Iro Skouloudi

Supported by TUC FabLab
Special thanks go to Alexandros Vazakas for his input and support.
http://www.arch.tuc.gr/fablab/

Landscape pathfinding using grasshopper3D / kangaroo.

2015-10-29T13:32:44.393Z

Finding landscape paths in a suitable slope % domain.