Ole Ohlbrock's Videos (Grasshopper) - Grasshopper2024-03-29T05:51:51Zhttps://www.grasshopper3d.com/video/video/listForContributor?screenName=391qkreevphc5&rss=yes&xn_auth=noStrut-and-Tie Models for Architecture with CEMtag:www.grasshopper3d.com,2019-04-02:2985220:Video:19755202019-04-02T08:33:11.714ZOle Ohlbrockhttps://www.grasshopper3d.com/profile/PatrickOleOhlbrock
<a href="https://www.grasshopper3d.com/video/strut-and-tie-models-for-architecture-with-cem"><br />
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</a><br />A simple parametric CEM definition that illustrates the versatility of strut-and-tie models for the negotiation between structure and architecture.
<a href="https://www.grasshopper3d.com/video/strut-and-tie-models-for-architecture-with-cem"><br />
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</a><br />A simple parametric CEM definition that illustrates the versatility of strut-and-tie models for the negotiation between structure and architecture. Form and Force Diagram of arch-bridgetag:www.grasshopper3d.com,2019-04-02:2985220:Video:19752092019-04-02T08:32:31.882ZOle Ohlbrockhttps://www.grasshopper3d.com/profile/PatrickOleOhlbrock
<a href="https://www.grasshopper3d.com/video/form-and-force-diagram-of-arch-bridge"><br />
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</a> <br></br>Details can be found in:<br></br>
Patrick Ole Ohlbrock, Pierluigi D′Acunto, Jean-Philippe Jasienski, Corentin Fivet: Constraint-Driven Design with Combinatorial Equilibrium Modelling, Proceedings of the IASS Annual Symposium 2017 - Interfaces: architecture engineering science, Hamburg 2017<br></br>
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Pierluigi D′Acunto, Jean-Philippe Jasienski, Patrick Ole Ohlbrock,…
<a href="https://www.grasshopper3d.com/video/form-and-force-diagram-of-arch-bridge"><br />
<img src="https://storage.ning.com/topology/rest/1.0/file/get/1746305787?profile=original&width=240&height=135" width="240" height="135" alt="Thumbnail" /><br />
</a><br />Details can be found in:<br />
Patrick Ole Ohlbrock, Pierluigi D′Acunto, Jean-Philippe Jasienski, Corentin Fivet: Constraint-Driven Design with Combinatorial Equilibrium Modelling, Proceedings of the IASS Annual Symposium 2017 - Interfaces: architecture engineering science, Hamburg 2017<br />
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Pierluigi D′Acunto, Jean-Philippe Jasienski, Patrick Ole Ohlbrock, Corentin Fivet: Vector-Based 3D Graphic Statics: Transformations of Force Diagrams, Proceedings of the IASS Annual Symposium 2017 - Interfaces: architecture engineering science, Hamburg 2017. Form-Finding of a Stadium Roof with Combinatorial Equilibrium Modellingtag:www.grasshopper3d.com,2019-04-02:2985220:Video:19755172019-04-02T08:31:55.052ZOle Ohlbrockhttps://www.grasshopper3d.com/profile/PatrickOleOhlbrock
<a href="https://www.grasshopper3d.com/video/form-and-force-diagram-of-arch-bridge"><br />
<img alt="Thumbnail" height="135" src="https://storage.ning.com/topology/rest/1.0/file/get/1746305787?profile=original&width=240&height=135" width="240"></img><br />
</a> <br></br>Details can be found in:<br></br>
Patrick Ole Ohlbrock, Pierluigi D′Acunto, Jean-Philippe Jasienski: Hierarchical form-finding with Combinatorial Equilibrium Modelling, Proceedings of the IASS Symposium 2018 - Creativity in Structural Design, Boston,…
<a href="https://www.grasshopper3d.com/video/form-and-force-diagram-of-arch-bridge"><br />
<img src="https://storage.ning.com/topology/rest/1.0/file/get/1746305787?profile=original&width=240&height=135" width="240" height="135" alt="Thumbnail" /><br />
</a><br />Details can be found in:<br />
Patrick Ole Ohlbrock, Pierluigi D′Acunto, Jean-Philippe Jasienski: Hierarchical form-finding with Combinatorial Equilibrium Modelling, Proceedings of the IASS Symposium 2018 - Creativity in Structural Design, Boston, 2018. Combinatorial Equilibrbium Modelling (CEM)tag:www.grasshopper3d.com,2016-10-29:2985220:Video:16286342016-10-29T12:26:22.396ZOle Ohlbrockhttps://www.grasshopper3d.com/profile/PatrickOleOhlbrock
<a href="https://www.grasshopper3d.com/video/combinatorial-equilibrbium-modelling-cem"><br />
<img alt="Thumbnail" height="112" src="https://storage.ning.com/topology/rest/1.0/file/get/2778198480?profile=original&width=240&height=112" width="240"></img><br />
</a> <br></br>CEM allows for the generation of topologically and combinatorially different spatial equilibrium solutions in the early explorative design phase. In addition to the form and the force diagrams, CEM introduces a topological diagram, which enables the possibility to easily adjust the connectivity of the structure, the combinatorial state (tension-compression) as well as…
<a href="https://www.grasshopper3d.com/video/combinatorial-equilibrbium-modelling-cem"><br />
<img src="https://storage.ning.com/topology/rest/1.0/file/get/2778198480?profile=original&width=240&height=112" width="240" height="112" alt="Thumbnail" /><br />
</a><br />CEM allows for the generation of topologically and combinatorially different spatial equilibrium solutions in the early explorative design phase. In addition to the form and the force diagrams, CEM introduces a topological diagram, which enables the possibility to easily adjust the connectivity of the structure, the combinatorial state (tension-compression) as well as the static action (product of each element’s length and its corresponding force magnitude) of its inner forces. Thanks to its planarity, the topological diagram is always visually readable, comprehensible and easy to control, even in case of complex spatial structures. This innovative approach has the potential to find novel spatial networks in which the intrinsic structural properties can be controlled by the designer with simple visual operations. Combinatorial Equilibrium Modelling - Designing with Force Patternstag:www.grasshopper3d.com,2016-06-29:2985220:Video:15576102016-06-29T12:03:19.442ZOle Ohlbrockhttps://www.grasshopper3d.com/profile/PatrickOleOhlbrock
<a href="https://www.grasshopper3d.com/video/combinatorial-equilibrium-modelling-designing-with-force-patterns"><br />
<img alt="Thumbnail" height="141" src="https://storage.ning.com/topology/rest/1.0/file/get/2778197493?profile=original&width=240&height=141" width="240"></img><br />
</a> <br></br>The research follows the overall objective to free designers from early determinations and typologies and provide new perspectives to the discussion on the interaction between structural behaviour, architectural design and the use of computational models in the conceptual design phase. A novel material and scale-independent structural design…
<a href="https://www.grasshopper3d.com/video/combinatorial-equilibrium-modelling-designing-with-force-patterns"><br />
<img src="https://storage.ning.com/topology/rest/1.0/file/get/2778197493?profile=original&width=240&height=141" width="240" height="141" alt="Thumbnail" /><br />
</a><br />The research follows the overall objective to free designers from early determinations and typologies and provide new perspectives to the discussion on the interaction between structural behaviour, architectural design and the use of computational models in the conceptual design phase. A novel material and scale-independent structural design approach will be developed that allows to intuitively negotiate different spatial and structural configurations in the conceptual design phase. For achieving this, a theoretical framework will be worked out that is based on a particular design theory, graphic statics and the graph theory. The framework is going to deal with the spatial potential of a multiplicity of radically different structural behaviours within the same design space that is enabled by the Lower Bound Theorem of the Theory of Plasticity.<br />
The potential of this research is to open up, replicable and synthetic ways to manipulate the formal and the structural behaviour in the early conceptual design phase in an interactive way. For the illustration of this potential, a digital tool will be originated that is based on the developed theoretical framework and tested in different design scenarios and contexts. Additionally the results of it, will inform materialization processes in which different aspects of structural design are confronted with each other and then contextualized in the structural design discourse.