http://de.evo-art.org/index.php?action=history&feed=atom&title=Homage_to_Eva_HildHomage to Eva Hild - Versionsgeschichte2026-04-20T15:15:17ZVersionsgeschichte dieser Seite in de_evolutionary_art_orgMediaWiki 1.27.4http://de.evo-art.org/index.php?title=Homage_to_Eva_Hild&diff=33254&oldid=prevGubachelier: Die Seite wurde neu angelegt: „ == Referenz == Carlo H. Séquin: Homage to Eva Hild. In: Bridges 2017, Pages 117–124. == DOI == == Abstract == Inspired by the work of Eva Hild,…“2017-12-06T17:45:28Z<p>Die Seite wurde neu angelegt: „ == Referenz == Carlo H. Séquin: <a href="/index.php?title=Homage_to_Eva_Hild" title="Homage to Eva Hild">Homage to Eva Hild</a>. In: <a href="/index.php?title=Bridges_2017" title="Bridges 2017">Bridges 2017</a>, Pages 117–124. == DOI == == Abstract == Inspired by the work of Eva Hild,…“</p>
<p><b>Neue Seite</b></p><div><br />
== Referenz == <br />
Carlo H. Séquin: [[Homage to Eva Hild]]. In: [[Bridges 2017]], Pages 117–124. <br />
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== DOI ==<br />
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== Abstract ==<br />
Inspired by the work of Eva Hild, I have developed some auxiliary CAD programs and design processes that make it easier to model her undulating free-form sculptures on a computer, so that similar looking maquettes can be fabricated on a 3D printer. A special focus was placed on trying to make single-sided 2-manifolds in a similar style. <br />
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== Extended Abstract ==<br />
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== Bibtex == <br />
@inproceedings{bridges2017:117,<br />
author = {Carlo H. S\'{e}quin},<br />
title = {Homage to Eva Hild},<br />
pages = {117--124},<br />
booktitle = {Proceedings of Bridges 2017: Mathematics, Art, Music, Architecture, Education, Culture},<br />
year = {2017},<br />
editor = {David Swart, Carlo H. S\'equin, and Krist\'of Fenyvesi},<br />
isbn = {978-1-938664-22-9},<br />
issn = {1099-6702},<br />
publisher = {Tessellations Publishing},<br />
address = {Phoenix, Arizona},<br />
note = {Available online at \url{http://archive.bridgesmathart.org/2017/bridges2017-117.pdf}}<br />
}<br />
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== Used References == <br />
[1] D. Asimov, D. Lerner, Sudanese Möbius Band, SIGGRAPH '84 Electronic Theater, Issue 17, (1984).<br />
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[2] E. Catmull and J. Clark, Recursively generated B-spline surfaces on arbitrary topological meshes. Computer-Aided Design 10 (1978), pp 350-355.<br />
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[3] Dyck surface. – http://www.mathcurve.com/surfaces/dyck/dyck.shtml<br />
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[4] Google, Street View. – https://en.wikipedia.org/wiki/Google_Street_View<br />
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[5] E. Hild, Homepage, (2017). – http://evahild.com/<br />
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[6] E. Hild, “Hollow” (2006). – http://evahild.com/?page_id=366<br />
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[7] E. Hild, “Interruption” (2002). – https://www.bukowskis.com/en/auctions/H043/67-an-eva-hild-stoneware-sculpture-interruption-2002<br />
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[8] E. Hild, “Whole” (2007). – http://evahild.com/?page_id=365<br />
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[9] Microsoft, Kinect: Motion sensing input device. – https://en.wikipedia.org/wiki/Kinect<br />
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[10] C. H. Séquin, Shape Representation: “Gabo curve.” (slide 36). – http://slideplayer.com/slide/9035370/<br />
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[11] C. H. Séquin, 2-Manifold Sculptures, Bridges Conf. Proc., pp 17-26, Baltimore, July 29-August 2, (2015). – http://people.eecs.berkeley.edu/~sequin/PAPERS/2015_Bridges_2manifolds.pdf<br />
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[12] J. Smith, SLIDE design environment, (2003). – http://www.cs.berkeley.edu/~ug/slide/<br />
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[13] Type A machines. – https://www.typeamachines.com/<br />
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[14] Y. Wang, Robust Geometry Kernel and UI for Handling Non-orientable 2-Mainfolds (EECS-2016-65). – https://www2.eecs.berkeley.edu/Pubs/TechRpts/2016/EECS-2016-65.html<br />
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== Links == <br />
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=== Full Text === <br />
http://archive.bridgesmathart.org/2017/bridges2017-117.pdf<br />
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[[internal file]] <br />
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=== Sonstige Links ===</div>Gubachelier