All Videos Tagged Solver (Grasshopper) - Grasshopper2024-03-29T06:35:16Zhttps://www.grasshopper3d.com/video/video/listTagged?tag=Solver&rss=yes&xn_auth=noMulti and Single-objective optimization by Igor Mitrić Lavovskitag:www.grasshopper3d.com,2015-07-15:2985220:Video:13261532015-07-15T10:34:09.884ZIgor Mitrić Lavovskihttps://www.grasshopper3d.com/profile/Igor425
<a href="https://www.grasshopper3d.com/video/multi-and-single-objective-optimization-by-igor-mitri-lavovski"><br />
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</a> <br></br>This video is showing main principles for multi and single-objective optimization on one cubic meter.<br></br>
1. Part :<br></br>
Multi-objective optimization for winter and summer period.<br></br>
-Maximize solar radiation in winter<br></br>
-Minimize solar radiation in summer<br></br>
2.Part<br></br>
Single-objective optimization for annual solar radiation.…
<a href="https://www.grasshopper3d.com/video/multi-and-single-objective-optimization-by-igor-mitri-lavovski"><br />
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</a><br />This video is showing main principles for multi and single-objective optimization on one cubic meter.<br />
1. Part :<br />
Multi-objective optimization for winter and summer period.<br />
-Maximize solar radiation in winter<br />
-Minimize solar radiation in summer<br />
2.Part<br />
Single-objective optimization for annual solar radiation.<br />
- Maximize solar radiation on 1m3 during a year<br />
3. Multi-objective optimization for wind.<br />
- Measuring and optimizing a flow lines around 1m3 in order to "calm" curvature graph<br />
- maximizing surface area of 1m3<br />
<br />
For Evolutionary Solver used Galapagos<br />
For Solar simulation used LadyBug<br />
For Curvature Graphs and flow lines used Grasshopper3D Simulated Annealing 02tag:www.grasshopper3d.com,2011-08-20:2985220:Video:3842442011-08-20T16:05:22.028ZDavid Ruttenhttps://www.grasshopper3d.com/profile/DavidRutten
<a href="https://www.grasshopper3d.com/video/simulated-annealing-02"><br />
<img alt="Thumbnail" height="180" src="https://storage.ning.com/topology/rest/1.0/file/get/2778161797?profile=original&width=240&height=180" width="240"></img><br />
</a> <br></br>Another test run with the SA solver in Galapagos. UI has been beefed up and several bug in the solver have been fixed. In this problem the solver must try and maximize the elevation of all points. Eight points with two coordinates each equals a 16-dimensional search space. As it turns out, the Simulated Annealing solver is pretty good at finding maxima while the Evolutionary solver is…
<a href="https://www.grasshopper3d.com/video/simulated-annealing-02"><br />
<img src="https://storage.ning.com/topology/rest/1.0/file/get/2778161797?profile=original&width=240&height=180" width="240" height="180" alt="Thumbnail" /><br />
</a><br />Another test run with the SA solver in Galapagos. UI has been beefed up and several bug in the solver have been fixed. In this problem the solver must try and maximize the elevation of all points. Eight points with two coordinates each equals a 16-dimensional search space. As it turns out, the Simulated Annealing solver is pretty good at finding maxima while the Evolutionary solver is pretty good at refining maxima. Together they seem to make a cracking team. 2 Simulated Annealing Runstag:www.grasshopper3d.com,2011-08-14:2985220:Video:3727112011-08-14T23:06:45.898ZDavid Ruttenhttps://www.grasshopper3d.com/profile/DavidRutten
<a href="https://www.grasshopper3d.com/video/2-simulated-annealing-runs"><br />
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</a> <br></br>Testing the new Simulated Annealing algorithm in Galapagos. This video contains two subsequent runs, the first one colonizes the highest point, the second run homes in on the second highest point. Every point that is sampled by the solver is recorded and displayed as…
<a href="https://www.grasshopper3d.com/video/2-simulated-annealing-runs"><br />
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</a><br />Testing the new Simulated Annealing algorithm in Galapagos. This video contains two subsequent runs, the first one colonizes the highest point, the second run homes in on the second highest point. Every point that is sampled by the solver is recorded and displayed as well. Galapagos Try Outtag:www.grasshopper3d.com,2010-10-14:2985220:Video:1056272010-10-14T19:00:39.933ZJinge Chaihttps://www.grasshopper3d.com/profile/JingeChai
<a href="https://www.grasshopper3d.com/video/galapagos-try-out"><br />
<img src="https://storage.ning.com/topology/rest/1.0/file/get/2778204529?profile=original&width=240&height=180" width="240" height="180" alt="Thumbnail" /><br />
</a><br />Mass addition of all the angles between each angle and Z axis and searching for the maximam
<a href="https://www.grasshopper3d.com/video/galapagos-try-out"><br />
<img src="https://storage.ning.com/topology/rest/1.0/file/get/2778204529?profile=original&width=240&height=180" width="240" height="180" alt="Thumbnail" /><br />
</a><br />Mass addition of all the angles between each angle and Z axis and searching for the maximam Galapagos Day 02tag:www.grasshopper3d.com,2010-01-18:2985220:Video:449492010-01-18T08:18:53.210ZDavid Ruttenhttps://www.grasshopper3d.com/profile/DavidRutten
<a href="https://www.grasshopper3d.com/video/galapagos-day-02"><br />
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</a> <br></br>Another test run with the Galapagos Evolutionary Solver in Grasshopper (something I'm writing in my free time). This time I've picked an obvious problem (Volume of Box 1 minus Volume of Box 2). Thus, we expect the first box to become as large as possible and the second box to become as small as possible.<br></br>
<br></br>
With a population of 30 Genomes, a solution very close to the ideal…
<a href="https://www.grasshopper3d.com/video/galapagos-day-02"><br />
<img src="https://storage.ning.com/topology/rest/1.0/file/get/2778154965?profile=original&width=240&height=180" width="240" height="180" alt="Thumbnail" /><br />
</a><br />Another test run with the Galapagos Evolutionary Solver in Grasshopper (something I'm writing in my free time). This time I've picked an obvious problem (Volume of Box 1 minus Volume of Box 2). Thus, we expect the first box to become as large as possible and the second box to become as small as possible.<br />
<br />
With a population of 30 Genomes, a solution very close to the ideal solution is found within 10 generations.