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Institute of Science and Technology Austria, 2016, doi:10.15479/AT:ISTA:48."},"file_date_updated":"2020-07-14T12:47:02Z","title":"Tracking, Correcting and Absorbing Water Surface Waves","department":[{"_id":"ChWo"}],"article_processing_charge":"No","author":[{"last_name":"Bojsen-Hansen","orcid":"0000-0002-4417-3224","full_name":"Bojsen-Hansen, Morten","first_name":"Morten","id":"439F0C8C-F248-11E8-B48F-1D18A9856A87"}],"publist_id":"6238","oa_version":"Published Version","abstract":[{"lang":"eng","text":"PhD thesis LaTeX source code"}],"month":"09","oa":1,"publisher":"Institute of Science and Technology Austria","day":"23","file":[{"date_updated":"2020-07-14T12:47:02Z","file_size":55237885,"creator":"system","date_created":"2018-12-12T13:02:18Z","file_name":"IST-2016-48-v1+1_2016_Bojsen-Hansen_TCaAWSW.tar.bz2","content_type":"application/x-bzip2","access_level":"open_access","relation":"main_file","file_id":"5589","checksum":"5b1b256ad796fbddb4b7729f5e45e444"}],"datarep_id":"48","year":"2016","has_accepted_license":"1","license":"https://creativecommons.org/licenses/by/4.0/","date_created":"2018-12-12T12:31:31Z","date_published":"2016-09-23T00:00:00Z","doi":"10.15479/AT:ISTA:48","related_material":{"record":[{"id":"1122","status":"public","relation":"other"}]}},{"date_created":"2018-12-11T11:53:09Z","doi":"10.1145/2767003","date_published":"2015-07-27T00:00:00Z","year":"2015","has_accepted_license":"1","day":"27","oa":1,"publisher":"ACM","quality_controlled":"1","author":[{"first_name":"Fang","full_name":"Da, Fang","last_name":"Da"},{"last_name":"Batty","full_name":"Batty, Christopher","first_name":"Christopher"},{"first_name":"Christopher J","id":"3C61F1D2-F248-11E8-B48F-1D18A9856A87","last_name":"Wojtan","full_name":"Wojtan, Christopher J","orcid":"0000-0001-6646-5546"},{"last_name":"Grinspun","full_name":"Grinspun, Eitan","first_name":"Eitan"}],"publist_id":"5521","title":"Double bubbles sans toil and trouble: discrete circulation-preserving vortex sheets for soap films and foams","citation":{"mla":"Da, Fang, et al. Double Bubbles sans Toil and Trouble: Discrete Circulation-Preserving Vortex Sheets for Soap Films and Foams. Vol. 34, no. 4, 149, ACM, 2015, doi:10.1145/2767003.","apa":"Da, F., Batty, C., Wojtan, C., & Grinspun, E. (2015). Double bubbles sans toil and trouble: discrete circulation-preserving vortex sheets for soap films and foams (Vol. 34). Presented at the SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques, Los Angeles, CA, United States: ACM. https://doi.org/10.1145/2767003","ama":"Da F, Batty C, Wojtan C, Grinspun E. Double bubbles sans toil and trouble: discrete circulation-preserving vortex sheets for soap films and foams. In: Vol 34. ACM; 2015. doi:10.1145/2767003","ieee":"F. Da, C. Batty, C. Wojtan, and E. Grinspun, “Double bubbles sans toil and trouble: discrete circulation-preserving vortex sheets for soap films and foams,” presented at the SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques, Los Angeles, CA, United States, 2015, vol. 34, no. 4.","short":"F. Da, C. Batty, C. Wojtan, E. Grinspun, in:, ACM, 2015.","chicago":"Da, Fang, Christopher Batty, Chris Wojtan, and Eitan Grinspun. “Double Bubbles sans Toil and Trouble: Discrete Circulation-Preserving Vortex Sheets for Soap Films and Foams,” Vol. 34. ACM, 2015. https://doi.org/10.1145/2767003.","ista":"Da F, Batty C, Wojtan C, Grinspun E. 2015. Double bubbles sans toil and trouble: discrete circulation-preserving vortex sheets for soap films and foams. SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques vol. 34, 149."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","project":[{"grant_number":"638176","name":"Efficient Simulation of Natural Phenomena at Extremely Large Scales","call_identifier":"H2020","_id":"2533E772-B435-11E9-9278-68D0E5697425"}],"article_number":"149","ec_funded":1,"issue":"4","volume":34,"publication_status":"published","language":[{"iso":"eng"}],"file":[{"content_type":"application/pdf","relation":"main_file","access_level":"open_access","checksum":"57b07d78d2d612a8052744b37d4a71fa","file_id":"4867","file_size":8973215,"date_updated":"2020-07-14T12:45:07Z","creator":"system","file_name":"IST-2016-608-v1+1_doublebubbles.pdf","date_created":"2018-12-12T10:11:14Z"}],"scopus_import":1,"intvolume":" 34","month":"07","abstract":[{"lang":"eng","text":"Simulating the delightful dynamics of soap films, bubbles, and foams has traditionally required the use of a fully three-dimensional many-phase Navier-Stokes solver, even though their visual appearance is completely dominated by the thin liquid surface. We depart from earlier work on soap bubbles and foams by noting that their dynamics are naturally described by a Lagrangian vortex sheet model in which circulation is the primary variable. This leads us to derive a novel circulation-preserving surface-only discretization of foam dynamics driven by surface tension on a non-manifold triangle mesh. We represent the surface using a mesh-based multimaterial surface tracker which supports complex bubble topology changes, and evolve the surface according to the ambient air flow induced by a scalar circulation field stored on the mesh. Surface tension forces give rise to a simple update rule for circulation, even at non-manifold Plateau borders, based on a discrete measure of signed scalar mean curvature. We further incorporate vertex constraints to enable the interaction of soap films with wires. The result is a method that is at once simple, robust, and efficient, yet able to capture an array of soap films behaviors including foam rearrangement, catenoid collapse, blowing bubbles, and double bubbles being pulled apart."}],"oa_version":"Submitted Version","file_date_updated":"2020-07-14T12:45:07Z","department":[{"_id":"ChWo"}],"date_updated":"2023-02-23T10:07:42Z","ddc":["000"],"conference":{"name":"SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques","start_date":"2015-08-09","location":"Los Angeles, CA, United States","end_date":"2015-08-13"},"type":"conference","pubrep_id":"608","status":"public","_id":"1634"},{"citation":{"ista":"Ando R, Thuerey N, Wojtan C. 2015. A stream function solver for liquid simulations. SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques, ACM Transactions on Graphics, vol. 34, 53.","chicago":"Ando, Ryoichi, Nils Thuerey, and Chris Wojtan. “A Stream Function Solver for Liquid Simulations,” Vol. 34. ACM, 2015. https://doi.org/10.1145/2766935.","ama":"Ando R, Thuerey N, Wojtan C. A stream function solver for liquid simulations. In: Vol 34. ACM; 2015. doi:10.1145/2766935","apa":"Ando, R., Thuerey, N., & Wojtan, C. (2015). A stream function solver for liquid simulations (Vol. 34). Presented at the SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques, Los Angeles, CA, USA: ACM. https://doi.org/10.1145/2766935","ieee":"R. Ando, N. Thuerey, and C. Wojtan, “A stream function solver for liquid simulations,” presented at the SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques, Los Angeles, CA, USA, 2015, vol. 34, no. 4.","short":"R. Ando, N. Thuerey, C. Wojtan, in:, ACM, 2015.","mla":"Ando, Ryoichi, et al. A Stream Function Solver for Liquid Simulations. Vol. 34, no. 4, 53, ACM, 2015, doi:10.1145/2766935."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","publist_id":"5523","author":[{"first_name":"Ryoichi","last_name":"Ando","full_name":"Ando, Ryoichi"},{"full_name":"Thuerey, Nils","last_name":"Thuerey","first_name":"Nils"},{"full_name":"Wojtan, Christopher J","orcid":"0000-0001-6646-5546","last_name":"Wojtan","id":"3C61F1D2-F248-11E8-B48F-1D18A9856A87","first_name":"Christopher J"}],"title":"A stream function solver for liquid simulations","article_number":"53","year":"2015","has_accepted_license":"1","day":"27","date_created":"2018-12-11T11:53:09Z","date_published":"2015-07-27T00:00:00Z","doi":"10.1145/2766935","acknowledgement":"The first author was supported by a JSPS Postdoctoral Fellowship for Research Abroad. This work was also supported by the ERC projects ERC-2014-StG-637014 realFlow and ERC-2014- StG-638176 BigSplash.","oa":1,"publisher":"ACM","quality_controlled":"1","date_updated":"2023-02-23T10:07:37Z","ddc":["000"],"file_date_updated":"2020-07-14T12:45:07Z","department":[{"_id":"ChWo"}],"_id":"1632","conference":{"location":"Los Angeles, CA, USA","end_date":"2015-08-13","start_date":"2015-08-09","name":"SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques"},"type":"conference","pubrep_id":"610","status":"public","publication_status":"published","language":[{"iso":"eng"}],"file":[{"content_type":"application/pdf","relation":"main_file","access_level":"open_access","file_id":"4909","checksum":"7a9afdfaba9209157ce19376e15bc90b","file_size":21831121,"date_updated":"2020-07-14T12:45:07Z","creator":"system","file_name":"IST-2016-610-v1+1_vecpotential.pdf","date_created":"2018-12-12T10:11:52Z"}],"volume":34,"issue":"4","abstract":[{"text":"This paper presents a liquid simulation technique that enforces the incompressibility condition using a stream function solve instead of a pressure projection. Previous methods have used stream function techniques for the simulation of detailed single-phase flows, but a formulation for liquid simulation has proved elusive in part due to the free surface boundary conditions. In this paper, we introduce a stream function approach to liquid simulations with novel boundary conditions for free surfaces, solid obstacles, and solid-fluid coupling.\r\n\r\nAlthough our approach increases the dimension of the linear system necessary to enforce incompressibility, it provides interesting and surprising benefits. First, the resulting flow is guaranteed to be divergence-free regardless of the accuracy of the solve. Second, our free-surface boundary conditions guarantee divergence-free motion even in the un-simulated air phase, which enables two-phase flow simulation by only computing a single phase. We implemented this method using a variant of FLIP simulation which only samples particles within a narrow band of the liquid surface, and we illustrate the effectiveness of our method for detailed two-phase flow simulations with complex boundaries, detailed bubble interactions, and two-way solid-fluid coupling.","lang":"eng"}],"oa_version":"Submitted Version","scopus_import":1,"alternative_title":["ACM Transactions on Graphics"],"intvolume":" 34","month":"07"},{"has_accepted_license":"1","year":"2015","day":"27","doi":"10.1145/2766933","date_published":"2015-07-27T00:00:00Z","date_created":"2018-12-11T11:53:08Z","acknowledgement":"This publication is based upon work supported by the KAUST Office of Competitive Research Funds (OCRF) under Award No. 62140401, the KAUST Visual Computing Center and the Austrian Science Fund (FWF) projects DEEP PICTURES (no. P24352-N23) and Data-Driven Procedural Modeling of Interiors (no. P24600-N23).","quality_controlled":"1","publisher":"ACM","oa":1,"citation":{"ista":"Guerrero P, Jeschke S, Wimmer M, Wonka P. 2015. Learning shape placements by example. SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques vol. 34, 108.","chicago":"Guerrero, Paul, Stefan Jeschke, Michael Wimmer, and Peter Wonka. “Learning Shape Placements by Example,” Vol. 34. ACM, 2015. https://doi.org/10.1145/2766933.","short":"P. Guerrero, S. Jeschke, M. Wimmer, P. Wonka, in:, ACM, 2015.","ieee":"P. Guerrero, S. Jeschke, M. Wimmer, and P. Wonka, “Learning shape placements by example,” presented at the SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques, Los Angeles, CA, United States, 2015, vol. 34, no. 4.","apa":"Guerrero, P., Jeschke, S., Wimmer, M., & Wonka, P. (2015). Learning shape placements by example (Vol. 34). Presented at the SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques, Los Angeles, CA, United States: ACM. https://doi.org/10.1145/2766933","ama":"Guerrero P, Jeschke S, Wimmer M, Wonka P. Learning shape placements by example. In: Vol 34. ACM; 2015. doi:10.1145/2766933","mla":"Guerrero, Paul, et al. Learning Shape Placements by Example. Vol. 34, no. 4, 108, ACM, 2015, doi:10.1145/2766933."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","publist_id":"5525","author":[{"first_name":"Paul","last_name":"Guerrero","full_name":"Guerrero, Paul"},{"id":"44D6411A-F248-11E8-B48F-1D18A9856A87","first_name":"Stefan","full_name":"Jeschke, Stefan","last_name":"Jeschke"},{"first_name":"Michael","last_name":"Wimmer","full_name":"Wimmer, Michael"},{"first_name":"Peter","last_name":"Wonka","full_name":"Wonka, Peter"}],"title":"Learning shape placements by example","article_number":"108","project":[{"name":"Deep Pictures: Creating Visual and Haptic Vector Images","grant_number":"P 24352-N23","_id":"25357BD2-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"}],"publication_status":"published","file":[{"date_created":"2018-12-12T10:07:49Z","file_name":"IST-2016-576-v1+1_guerrero-2015-lsp-paper.pdf","date_updated":"2020-07-14T12:45:07Z","file_size":11902290,"creator":"system","file_id":"4647","checksum":"8b05a51e372c9b0b5af9a00098a9538b","content_type":"application/pdf","access_level":"open_access","relation":"main_file"}],"language":[{"iso":"eng"}],"issue":"4","volume":34,"abstract":[{"text":"We present a method to learn and propagate shape placements in 2D polygonal scenes from a few examples provided by a user. The placement of a shape is modeled as an oriented bounding box. Simple geometric relationships between this bounding box and nearby scene polygons define a feature set for the placement. The feature sets of all example placements are then used to learn a probabilistic model over all possible placements and scenes. With this model, we can generate a new set of placements with similar geometric relationships in any given scene. We introduce extensions that enable propagation and generation of shapes in 3D scenes, as well as the application of a learned modeling session to large scenes without additional user interaction. These concepts allow us to generate complex scenes with thousands of objects with relatively little user interaction.","lang":"eng"}],"oa_version":"Submitted Version","scopus_import":1,"month":"07","intvolume":" 34","date_updated":"2021-01-12T06:52:07Z","ddc":["000"],"file_date_updated":"2020-07-14T12:45:07Z","department":[{"_id":"ChWo"}],"_id":"1630","type":"conference","conference":{"end_date":"2015-08-13","location":"Los Angeles, CA, United States","start_date":"2015-08-09","name":"SIGGRAPH: Special Interest Group on Computer Graphics and Interactive Techniques"},"status":"public","pubrep_id":"576"},{"publication_status":"published","file":[{"date_updated":"2020-07-14T12:45:15Z","file_size":6312352,"creator":"system","date_created":"2018-12-12T10:16:30Z","file_name":"IST-2016-607-v1+1_coarsegrid.pdf","content_type":"application/pdf","access_level":"open_access","relation":"main_file","checksum":"590752bf977855b337a80f78a9bc2404","file_id":"5218"}],"language":[{"iso":"eng"}],"volume":34,"issue":"2","abstract":[{"lang":"eng","text":"This work presents a method for efficiently simplifying the pressure projection step in a liquid simulation. We first devise a straightforward dimension reduction technique that dramatically reduces the cost of solving the pressure projection. Next, we introduce a novel change of basis that satisfies free-surface boundary conditions exactly, regardless of the accuracy of the pressure solve. When combined, these ideas greatly reduce the computational complexity of the pressure solve without compromising free surface boundary conditions at the highest level of detail. Our techniques are easy to parallelize, and they effectively eliminate the computational bottleneck for large liquid simulations."}],"oa_version":"Submitted Version","scopus_import":1,"month":"05","intvolume":" 34","date_updated":"2023-02-23T10:12:11Z","ddc":["000"],"department":[{"_id":"ChWo"}],"file_date_updated":"2020-07-14T12:45:15Z","_id":"1735","type":"journal_article","status":"public","pubrep_id":"607","has_accepted_license":"1","year":"2015","day":"01","publication":"Computer Graphics Forum","page":"473 - 480","doi":"10.1111/cgf.12576","date_published":"2015-05-01T00:00:00Z","date_created":"2018-12-11T11:53:44Z","acknowledgement":"The first author was supported by a JSPS Postdoctoral Fellowship for Research Abroad","quality_controlled":"1","publisher":"Wiley","oa":1,"citation":{"short":"R. Ando, N. Thürey, C. Wojtan, Computer Graphics Forum 34 (2015) 473–480.","ieee":"R. Ando, N. Thürey, and C. Wojtan, “A dimension-reduced pressure solver for liquid simulations,” Computer Graphics Forum, vol. 34, no. 2. Wiley, pp. 473–480, 2015.","apa":"Ando, R., Thürey, N., & Wojtan, C. (2015). A dimension-reduced pressure solver for liquid simulations. Computer Graphics Forum. Wiley. https://doi.org/10.1111/cgf.12576","ama":"Ando R, Thürey N, Wojtan C. A dimension-reduced pressure solver for liquid simulations. Computer Graphics Forum. 2015;34(2):473-480. doi:10.1111/cgf.12576","mla":"Ando, Ryoichi, et al. “A Dimension-Reduced Pressure Solver for Liquid Simulations.” Computer Graphics Forum, vol. 34, no. 2, Wiley, 2015, pp. 473–80, doi:10.1111/cgf.12576.","ista":"Ando R, Thürey N, Wojtan C. 2015. A dimension-reduced pressure solver for liquid simulations. Computer Graphics Forum. 34(2), 473–480.","chicago":"Ando, Ryoichi, Nils Thürey, and Chris Wojtan. “A Dimension-Reduced Pressure Solver for Liquid Simulations.” Computer Graphics Forum. Wiley, 2015. https://doi.org/10.1111/cgf.12576."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","publist_id":"5389","author":[{"last_name":"Ando","full_name":"Ando, Ryoichi","first_name":"Ryoichi"},{"full_name":"Thürey, Nils","last_name":"Thürey","first_name":"Nils"},{"last_name":"Wojtan","full_name":"Wojtan, Christopher J","orcid":"0000-0001-6646-5546","first_name":"Christopher J","id":"3C61F1D2-F248-11E8-B48F-1D18A9856A87"}],"title":"A dimension-reduced pressure solver for liquid simulations"}]