Buoyancy Optimization for Computational Fabrication
This paper introduces a design and fabrication pipeline for creating floating forms. Our method optimizes for buoyant equilibrium and stability of complex 3D shapes, applying a voxel‐carving technique to control the mass distribution. The resulting objects achieve a desired floating pose defined by...
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| Vydané v: | Computer graphics forum Ročník 35; číslo 2; s. 49 - 58 |
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| Hlavní autori: | , |
| Médium: | Journal Article |
| Jazyk: | English |
| Vydavateľské údaje: |
Oxford
Blackwell Publishing Ltd
01.05.2016
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| ISSN: | 0167-7055, 1467-8659 |
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| Abstract | This paper introduces a design and fabrication pipeline for creating floating forms. Our method optimizes for buoyant equilibrium and stability of complex 3D shapes, applying a voxel‐carving technique to control the mass distribution. The resulting objects achieve a desired floating pose defined by a user‐specified waterline height and orientation. In order to enlarge the feasible design space, we explore novel ways to load the interior of a design using prefabricated components and casting techniques. 3D printing is employed for high‐precision fabrication. For larger scale designs we introduce a method for stacking lasercut planar pieces to create 3D objects in a quick and economic manner. We demonstrate fabricated designs of complex shape in a variety of floating poses. |
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| AbstractList | This paper introduces a design and fabrication pipeline for creating floating forms. Our method optimizes for buoyant equilibrium and stability of complex 3D shapes, applying a voxel‐carving technique to control the mass distribution. The resulting objects achieve a desired floating pose defined by a user‐specified waterline height and orientation. In order to enlarge the feasible design space, we explore novel ways to load the interior of a design using prefabricated components and casting techniques. 3D printing is employed for high‐precision fabrication. For larger scale designs we introduce a method for stacking lasercut planar pieces to create 3D objects in a quick and economic manner. We demonstrate fabricated designs of complex shape in a variety of floating poses. |
| Author | Whiting, E. Wang, L. |
| Author_xml | – sequence: 1 givenname: L. surname: Wang fullname: Wang, L. organization: Dartmouth College, USA – sequence: 2 givenname: E. surname: Whiting fullname: Whiting, E. organization: Dartmouth College, USA |
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| Cites_doi | 10.1145/1730804.1730807 10.1201/9781439894200 10.1145/2077341.2077351 10.1145/2601097.2601166 10.1145/2601097.2601157 10.1145/2766955 10.1016/j.cad.2014.07.009 10.1145/2461912.2461957 10.1145/2601097.2601129 10.1145/2185520.2185584 10.1145/2537852 10.1145/37401.37422 10.1016/j.cad.2009.07.006 10.1145/2366145.2366148 10.1137/0213031 |
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| References_xml | – reference: Prévost R., Whiting E., Lefebvre S., Sorkine-Hornung O.: Make it stand: balancing shapes for 3D fabrication. ACM Trans. Graph. 32, 4 (2013), 81. 1, 2, 4 – reference: ANDERSON J. D., WENDT J.: Computational fluid dynamics, vol. 206. Springer, 1995. 2 – reference: Luo L., Baran I., Rusinkiewicz S., Matusik W.: Chopper: partitioning models into 3D-printable parts. ACM Trans. Graph. 31, 6 (2012), 129. 7 – reference: Musialski P., Auzinger T., Birsak M., Wimmer M., Kobbelt L.: Reduced-order shape optimization using offset surfaces. ACM Transactions on Graphics (TOG) 34, 4 (2015), 102. 2 – reference: Biran A., Pulido R. L.: Ship hydrostatics and stability. Butterworth-Heinemann, 2013. 2 – reference: Chazelle B.: Convex partitions of polyhedra: a lower bound and worst-case optimal algorithm. SIAM Journal on Computing 13, 3 (1984), 488-507. 7 – reference: Bächer M., Whiting E., Bickel B., Sorkine-Hornung O.: Spin-it: optimizing moment of inertia for spinnable objects. ACM Trans. Graph. 33, 4 (2014), 96. 1, 2, 4, 7 – reference: Rivers A., Moyer I. E., Durand F.: Position-correcting tools for 2D digital fabrication. ACM Trans. Graph. 31, 4 (2012), 88:1-88:7. 2 – reference: Christiansen A., Schmidt R., Bãerentzen J.: Automatic balancing of 3D models. Computer-Aided Design 58, January 2015 (2014), 236-241. 2 – reference: Skouras M., Thomaszewski B., Kaufmann P., Garg A., Bickel B., Grinspun E., Gross M.: Designing inflatable structures. ACM Trans. Graph. 33, 4 (2014), 63. 2 – reference: Nowacki H.: Five decades of computer-aided ship design. Computer-Aided Design 42, 11 (2010), 956-969. 2 – reference: BERTRAM V., Schneekluth H.: Ship design for efficiency and economy. 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Graph. 31, 1 (2012), 10. 2 – volume: 58 start-page: 236 year: 2014 end-page: 241 article-title: Automatic balancing of 3D models publication-title: Computer‐Aided Design – start-page: 2 year: 2013 – start-page: 2 year: 2010 – volume: 13 start-page: 488 issue: 3 year: 1984 end-page: 507 article-title: Convex partitions of polyhedra: a lower bound and worst‐case optimal algorithm publication-title: SIAM Journal on Computing – start-page: 13 year: 2014 end-page: 22 – volume: 33 start-page: 65 issue: 4 year: 2014 article-title: Pteromys: interactive design and optimization of free‐formed free‐flight model airplanes publication-title: ACM Trans. Graph. – volume: 21 start-page: 163 year: 1987 end-page: 169 – volume: 33 start-page: 63 issue: 4 year: 2014 article-title: Designing inflatable structures publication-title: ACM Trans. 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Graph. – volume: 42 start-page: 956 issue: 11 year: 2010 end-page: 969 article-title: Five decades of computer‐aided ship design publication-title: Computer‐Aided Design – ident: e_1_2_12_11_2 doi: 10.1145/1730804.1730807 – start-page: 1 volume-title: Physics of continuous matter: exotic and everyday phenomena in the macroscopic world year: 2011 ident: e_1_2_12_14_2 doi: 10.1201/9781439894200 – ident: e_1_2_12_12_2 doi: 10.1145/2077341.2077351 – ident: e_1_2_12_26_2 doi: 10.1145/2601097.2601166 – start-page: 317 volume-title: Computer Graphics Forum year: 2013 ident: e_1_2_12_24_2 – ident: e_1_2_12_7_2 doi: 10.1145/2601097.2601157 – ident: e_1_2_12_17_2 doi: 10.1145/2766955 – volume-title: Ship design for efficiency and economy year: 1998 ident: e_1_2_12_6_2 – ident: e_1_2_12_10_2 doi: 10.1016/j.cad.2014.07.009 – ident: e_1_2_12_20_2 doi: 10.1145/2461912.2461957 – start-page: 13 volume-title: Proc. 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| SubjectTerms | 3-D graphics 3-D printers Analysis Buoyancy Categories and Subject Descriptors (according to ACM CCS) Computational Geometry and Object Modeling-Physically based modeling Economics I.3.3 [Computer Graphics] Manufacturing Mass distribution Optimization Pipelines Prefabricated Stacking Studies Three dimensional Topological manifolds |
| Title | Buoyancy Optimization for Computational Fabrication |
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