MEETING-DATE:May 22, 2014 MEETING-LOCATION:DC 1331 MEETING-TIME:11:30 MEETING-CHAIR:Stephen Mann MEETING-CHAIRPIC:smann.jpg COFFEE-HOUR-LAST-WEEK:Grace COFFEE-HOUR-THIS-WEEK:Steve COFFEE-HOUR-NEXT-WEEK:Volunteers? FORTH-DATE1:May 29, 2014 FORTH-DATE2:June 5, 2014 FORTH-DATE3:June 12, 2014 FORTH-DATE4:June 19, 2014 FORTH-LOCATION1:DC 1331 11:30 FORTH-LOCATION2:DC 1331 11:30 FORTH-LOCATION3:DC 1331 11:30 FORTH-LOCATION4:DC 1331 11:30 FORTH-CHAIR1:Alex Pytel FORTH-CHAIR2:Dan Vogel FORTH-CHAIR3:Christopher Batty FORTH-CHAIR4:Bill Cowan FORTH-CHAIRPIC1:apytel2.jpg FORTH-CHAIRPIC2:dvogel.jpg FORTH-CHAIRPIC3:batty.jpg FORTH-CHAIRPIC4:bill.gif FORTH-TP1:Marta Kryven FORTH-TP2:Stephen Mann FORTH-TP3:Alex Pytel FORTH-TP4:Dan Vogel FORTH-TPPIC1:marta.jpg FORTH-TPPIC2:smann.jpg FORTH-TPPIC3:apytel2.jpg FORTH-TPPIC4:dvogel.jpg TPNAME:Christopher Batty TPTITLE:Detailed Water with Coarse Grids TPABSTRACT:I will present an overview of the upcoming SIGGRAPH 2014 paper "Detailed Water with Coarse Grids" by Edwards and Bridson. In brief, the premise is to capture detailed dynamics of splashing liquids using standard uniform Cartesian grids by combining a mesh-based surface tracking technique with a finite element method (p-adaptive discontinuous Galerkin FEM) that allows one to dynamically adapt the polynomial degree of the solution in regions of interest. In this way, the flow can be much more highly resolved near liquid surfaces, without resorting to more complex geometrically adaptive data structures, such as octrees, tetrahedral meshes etc. TPPIC:batty.jpg DIONE: DITWO: DITHREE: DIFOUR: AIONE: AITWO: AITHREE: AIFOUR: LEONE: LETWO: LETHREE: LEFOUR: DMONE: DMTWO: DMTHREE: DMFOUR: SEMINARS:
Monday, 26 May 2014, 10:00AM - Computer Science (Software Architecture Group), DC 1331Sarah Nadi: -- Variability Anomalies in Software Product Lines  Wednesday, 28 May 2014, 2:00PM - Computer Science (Information Retrieval Group), DC 2314 Rakesh Guttikonda: -- Design and Evaluation of Temporal Summarization Systems