Hgon hyper-structures:
Field adaptive/optimizing meta-structures, computed as a hypervector* object.
- Generalizing, combining both implicit and explicit (multi-density) meta-structure network descriptions.
- Isotropic, automatic precision conforming via tetrahedra, hexahedra, and guided anisotropic networks with field controllable density (patented)
- Built For AI: Hgons are uniquely guaranteed manifold, enabling generation of large parametric training data sets for AI-GNN guided hyper-components.
* For more background information and other projects using hyper-dimensional computing, visit this very informative Github link.
Latest videos - live demos:
Field adaptive/optimizing meta-structures, computed as a hypervector* object.
- Generalizing, combining both implicit and explicit (multi-density) meta-structure network descriptions.
- Isotropic, automatic precision conforming via tetrahedra, hexahedra, and guided anisotropic networks with field controllable density (patented)
- Built For AI: Hgons are uniquely guaranteed manifold, enabling generation of large parametric training data sets for AI-GNN guided hyper-components.
* For more background information and other projects using hyper-dimensional computing, visit this very informative Github link.
Latest videos - live demos:
1 min, optimizing a beam, adding a hole.
|
10 min, walkthrough for a more complex component.
|
Contact us for a 2-page more detailed description, Live 3D demo, or consultation on your component.
For investors or partnership: Contact for a comprehensive pitch deck and portfolio - info@abemis.com
We can now convert and hyper-optimize any part/component shape.
AI-GNN assist/training processes achieved, and in continuing development (with our new Partner, NAVASTO Gmbh ).
Plugins and addons for popular CAD and design software are in pre-beta stage, development ongoing.
- Hgons are much different than periodic 'lattices'. Hyper-structures are essentially a dimensional expansion of the lattice concept.
- Read our publication on vibration damping and hyper-structure generation: NATURE Sci-rep.
- Watch the NATURE Sci-rep publication's summary video (youtube).
- Applications: Ultra-lightweighting, programmable meta structure components for Additive and CNC manufacturing:
Strength-flexibility, vibration-impact control, heat transfer, nano, micro and macro electromechanical systems, more.
- Automated-manifold, fast FEA component analysis, optimization, and further field based calculations.
More short videos and examples:
Short 1-min, Basic Concept
|
"Tune-able" vibration isolation
|
(New) Wishbone suspension component
|
Stress meta-optimization overview
|
Ultra-light, ultra-strong components from any CAD (US Patent 11327465B2)
Our new hyper-structures are most easily understood in 3D
Visit our SketchFab page for a 3D, VR enabled gallery of HGons.
Hgons encompass, and extend the concept of simple periodic lattices.
HGons are 'true' meta-structures, in that we can iterate to enable unprecedented multi-scale density and structural optimization*.
Work is ongoing improving FEA calibration, AI, and new GPU and Machine Learning algorithms.
HGons are 'true' meta-structures, in that we can iterate to enable unprecedented multi-scale density and structural optimization*.
Work is ongoing improving FEA calibration, AI, and new GPU and Machine Learning algorithms.
- EXPERIMENTAL: 3D PORTALS -
The best way to view and understand our structures is in 3D+.
Please visit below our new Experimental 3D+ web-portals.
For MANY HGons viewable in 3D/VR, Visit our updated SketchFab page.
The best way to view and understand our structures is in 3D+.
Please visit below our new Experimental 3D+ web-portals.
For MANY HGons viewable in 3D/VR, Visit our updated SketchFab page.
Important note: our new 3D+ portals (below, left) can take more time to load than a typical webpage
and might appear 'stuck' at 100%, but it's not. Please wait 20-30 sec to load.
and might appear 'stuck' at 100%, but it's not. Please wait 20-30 sec to load.
|
Experimental - 3D Web:
click below 
3D PORTAL:
The "Starfish" Example Mgon 
3D+ PORTAL:
Many Examples/Applications |
We can now generate and 3D print unique custom Mgon structures from most any CAD-STL component.
Fully AM hybrid multi-materials; controlled density-porosity-fibers; complex EM passive-active vibration control
(e.g. copper-piezo) -- programmable transition control, much more!
Fully AM hybrid multi-materials; controlled density-porosity-fibers; complex EM passive-active vibration control
(e.g. copper-piezo) -- programmable transition control, much more!
- - -
Advanced Joint Structures, Practical/Sculptural Objects
Advanced Joint Structures, Practical/Sculptural Objects
CONTACT US FOR A live TECHNICAL DEMONSTRATION
and/or a Free consultation for your challenging structure/project.
Email: info@abemis.com - for IP/Investor/Licensing and any questions.
Note, this is not a 'dummy' email. We respond.