Vadim Shapiro - University of Wisconsin–Madisonhomepages.cae.wisc.edu/~vshapiro/VS-short.pdfVadim Shapiro, February 10, 2016 4 Research Funding External Funding (single PI unless

Vadim Shapiro

Formal Education

1991 Ph.D. Mechanical Engineering Cornell University1989 M.S. Mechanical Engineering Cornell University1983 M.S. Computer Science University of California, Los Angeles1981 B.A. Mathematics New York University1981 B.A. Computer Science New York University

Positions Held

2007 - present Bernard A. & Frances M. Weideman Professor of Mechanical EngineeringProfessor of Computer Sciences, University of Wisconsin-Madison

2003 - 2007 ProfessorMechanical Engineering & Computer Sciences, University of Wisconsin-Madison

2000 - 2003 Associate ProfessorMechanical Engineering & Computer Sciences, University of Wisconsin-Madison

1994 - 2000 Assistant ProfessorMechanical Engineering & Computer Sciences, University of Wisconsin-Madison

1992-1994 Staff Research EngineerAnalytic Process Department, General Motors R&D Center, Warren, MI

1991-1992 Research AssociateComputer Science Department, Cornell University, Ithaca, NY

1986-1990 General Motors FellowSibley School of Mechanical Engineering, Cornell University, Ithaca, NY

1983-1986 Research Scientist, Senior Research ScientistComputer Science Department, General Motors Research, Warren, MI

Visiting, Consulting, & Adjunct Positions

2015 - present Distinguished Research ScholarInternational Computer Science Institute, Berkeley, CA

2011 - present Editor in Chief (as of 1/1/2015), Co-Editor in ChiefJourmal of Computer-Aided Design, Elsevier

2004 - present FounderIntact Solutions, LLC, Madison, WI

2007, 2012 Visiting ProfessorUniversity of California, Berkeley

2000 - 2001 Visiting ProfessorDipartamento di Informatica e Automazione, Universita Roma Tre, Italy

2001 (summer) Senior VisitorApplied Mathematics and Theoretical Physics, University of Cambridge, UK

1998 (summer) EPSRC Visiting FellowApplied Mathematics and Theoretical Physics, University of Cambridge, UK

1993 (winter) Invited LecturerInstitute for Pure and Applied Mathematics (IMPA), Rio de Janeiro, Brazil

2

Vadim Shapiro, February 10, 2016 3

Recognitions and Awards

• The Bezier Award, Solid Modeling Association, 2015.

• ASME Design Automation Award, 2014.

• National Science Foundation INSPIRE Award, 2013–2016.

• Best Paper Award, Third Place, 2012 Symposium on Solid and Physical Modeling, Dijon, France.

• Bernard A. & Frances M. Wiedeman Endowed Chair, 2007 – present

• Fellow of ASME, 2007

• The Most Cited Paper Award, 2007, Computer Aided Geometric Design journal

• Best Paper Award, 32th ASME Design Automation Conference, Conference, September 2006 (out of119 accepted papers).

• Best Paper Award, 15th International Conference on Design Theory and Methodology (ASME DesignEngineering Conferences), September 2003 (out of 56 accepted papers).

• Best Paper Award, Fifth ACM Symposium on Solid Modeling and Applications, June 1999

• National Science Foundation CAREER Award 1995-99

• General Motors Fellow 1986-90

• Fellow of UCLA School of Engineering and Applied Science 1981-82

• Phi Beta Kappa 1981

• Pi Mu Epsilon 1981, Honorary Mathematical Fraternity

• New York University Founders Day Award 1981

Patents

1. G. Kumar, V. Shapiro, “Efficient 3D Analysis of Composite Laminates Using Virtual Material Mod-els,” filed 2014.

2. V. Shapiro, I. Tsukanov, “Meshfree Method and System for Modeling and Analysis,” United StatesPatent 6,718,291, April 6, 2004.

3. V. Shapiro, H. T. Ilies, “Methods and Apparata for Shaping Moving Geometric Shapes,” United StatesPatent 6,044,306, March 28, 2000.

4. D. L. Vossler, V. Shapiro, “System and methods for converting boundary representations to Con-structive Solid Geometry representations for three-dimensional solid object modeling,” United StatesPatent 5,537,519, July 16, 1996.


Research Funding

External Funding (single PI unless indicated otherwise)

• Cloud-based Simulation Service for Makers(PI: Michael Freytag, Intact Solutions.)National Science Fondation, SBIR Phase I and II (recommended for funding), 2014-2018$900,000

• Workshop: Enabling Composable & Modular Manufacturing through Abstractions: Where ComputerScience Meets ManufacturingNational Science Foundation, 2015–2016$109,175

• EAGER: Cybermanufaturing: Abstractions and Architectures for Open Composable ServicesNational Science Foundation, 2015–2017$200,000

• PLM in Model-Based Systems EngineeringNational Institute of Standards & Technology, 2014–2017$401,098

• Geometric Characterization and Interoperability in Additive ManufacturingNational Institute of Standards & Technology, 2014–2017$483,678

• Collaborative Research: Foundations and Systems for Facilitating Geometric InteroperabilityNational Science Foundation, 2014-2017.$314,000.

• INSPIRE Track 1: The Informatics of Making. Co-PI: W. Regli (Drexel)National Science Foundation, 2013–2016.$800,000.

• Query-based Interoperability for Simulation of Composite Structures.(PI: Michael Freytag, Intact Solutions.) National Institute of Standards & Technology, SBIR Phase Iand II, 2012– 2016.$390,000

• Configuration Modeling, Design, and Analysis.National Science Foundation, 2010–2013.$380,000.

• Shape Representation Ontologies: Formats, Semantics, & Rapid Access.National Institute of Standards & Technology and DARPA, 2010–2011$75,000

• EAGER: Virtual Engineering for Conservation and Sustainability of Cultural Heritage.(Co-PI with J. Podany, J. Paul Getty Museum.)National Science Foundation, 2010–2011.$70,000


• Engineering Analysis of Imprecise Models.National Science Foundation, 2009–2012.$261,000.

• Weld Process Planning and Design using Workspace and Accessibility Analysis.General Motors Corporation, 2008.$90,000.

• CI-TEAM Implementation Project: Cyber-Infrastructure for Engineering Informatics Education. (CO-PI with N. Ferrier, K. Suresh, W. Regli, M. Piasecki, S.K. Gupta, M. Lin.)National Science Foundation, 2007–2008.$900,000.

• Process Planning and Design using Workspace Accessibility Analysis.General Motors Corporation, 2007.$75,000.

• Research Experience for Undergraduates (REU) Supplements.National Science Foundation, 2007.$24,000.

• Body Shop Workspace Characterization, Modeling and Analysis.General Motors Corporation, 2006.$100,000.

• Scan-and-Solve: Direct Analysis of Acquired Models. (Co-PI: Igor Tsukanov)National Science Foundation, 2006–2009.$360,000.


• CI-TEAM: Exploiting Cyber-Infrastructure for Creation and Use of Multi-Disciplinary EngineeringModels. (CO-PI with W. Regli, M. Piasecki, S.K. Gupta, M. Lin.)National Science Foundation, 2005–2006.$250,000.

• Tolerancing and Metrology of Virtually Engineered Components.National Science Foundation, 2005–2008.$300,000.


• Integrated Rapid Part-Tooling Analysis and Redesign.General Motors Corporation, 2005.$50,000.


• Towards Meshfree Computer Aided Engineering.National Science Foundation, SBIR Phase I grant to Intact Solutions, 2005.$100,000.

• Interactive Design with Engineering Analysis. (Co-PI: Dr. I. Tsukanov)National Science Foundation, 2003–2006.$367,900.

• Meshless Thermal Analysis of Vehicles using Distance Fields.US Army TACOM, SBIR Phase I grant to Intact Solutions, 2004.$70,000.

• Research Experience for Undergraduates (REU) Supplement.National Science Foundation, 2003.$12,000.

• Heterogeneous Solid Modeling for Specification, Design, and Manufacturing.National Institute of Standards and Technology, 2002 – 2005.$195,000


• Interactive Spatial Physics: Computational Foundations and Systems.Information Technology Research, National Science Foundation, 2001 – 2004.$300,000.

• Integrated Material-Shape Modeling Using Approximate Distance Fields.National Science Foundation, 2001 – 2004.$270,000.

• Unrestricted grant to Spatial Automation Laboratory.General Motors Corporation, 2000 – 2005.$150,000.

• Supplements for international collaboration with in Italy and Ukraine.National Science Foundation, 2000 – 2002.$46,500.

• Meshfree Integration of Geometric Design and Engineering Analysis.National Science Foundation, 1999 – 2002.$304,380.

• Meshfree R-function Method in analysis of fluid flow for automotive applications.General Motors Corporation, 1999 – 2001.$115,000

• Meshfree methods with R-functions for boundary value problems.North Atlantic Treaty Organization (NATO), 2000-2001.$8,500.


• Design Spaces for Form SynthesisGeneral Motors Corporation, 1999–2000.$80,000.

• Explorations in Constructive Analytic GeometryNational Science Foundation, 1998–1999.$76,690.

• Multi-discipline multi-level simulators of electro-mechanical partsBEAM Technologies (DARPA), 1997 - 1999.$120,000.

• Chain Models for Life Cycle Engineering.Sandia National Laboratories, 1997.$35,000.

• Supplement under U.S. - Ukraine Cooperative Science Program.National Science Foundation, 1996-1999.$46,500.

• Research in Maintenance of Solid Models, Representations and Systems.National Science Foundation, 1995–1999.$265,300.

• Research in Combinatorial Structure of Mechanical Parts.National Science Foundation CAREER Award, 1995-2000.$310,000.

• Theory and Computer Applications of the R-functions Methods in Mechanical CAD/CAM.North Atlantic Treaty Organization (NATO), 1994–1997.$31,000.

• Mechanical Design Research.General Motors Corporation, 1994.$50,000.

Internal and In-kind Funding

• Web Computational Geometry,Educational Innovation Fund, 2013–2014.$40,000

• Direct Analysis of Digitized Structures and InstallationsWisconsin Industrial and Economic Development (I&EDR) Program, 2010– 2011.$50,000

• Engineering Analysis with Scan-and-Solve ApproachWisconsin Industrial and Economic Development (I&EDR) Program, 2006– 2007.$35,000


• Field Modeling and Analysis for Biomedical ApplicationsWisconsin Industrial and Economic Development (I&EDR) Program, 2005– 2006.$36,000

• Software Tools for Engineering Analysis with Distances.Wisconsin Industrial and Economic Development (I&EDR) Program, 2004– 2005.$25,500

• Heterogeneous Computer-Aided Design and Simulations.Robert Draper technology Innovation Fund, 2003–2004$30,000

• Interactive exploration of multi-dimensional data.Wisconsin Industrial and Economic Development (I&EDR) Program, 2002– 2003.$36,780

• Meshfree Integration of Geometric Design and Engineering AnalysisUniversity of Wisconsin, Graduate School, 1999-2000.$25,000

• Parametric Solid Modeling: Representation and Systems.University of Wisconsin, Graduate School, 1995–1996.$15,800.

• Startup package.College of Engineering, 1994$50,000

• Complete Unigraphics/Parasolid software licenses for research and teaching.Electronic Data Systems, 1994 – 1999, 50 seats, full maintenance and upgrades. (Gift in kind.)

• Solid Edge modeling software license for research and teaching.Unigraphics Solutions Corporation, 1999, 50 seats. (Gift in kind)

• Microstation modeling software license for research and teaching.Bentley Systems, 1995, 70 seats. (Gift in kind)


Research Publications

Archival Journal Publications

1. M. Lysenko, V. Shapiro, “Effective Contact Measures,” Computer-Aided Design, Vol. 70 (2016):134–143.

2. G. Kumar, V. Shapiro, “Efficient 3D analysis of laminate structures using ABD-equivalent materialmodels,” Finite Elements in Design and Analysis, 106 (2015): 41–55.

3. S. Nelaturi, V. Shapiro, “Representation and Analysis of Additively Manufactured Parts,” ComputerAided Design, special issue on Geometric and Physical Modeling for Additive Manufacturing, vol 67,2015.

4. X. Liu, V. Shapiro, “Random Heterogeneous Materials via Texture Synthesis,” Computational Mate-rial Science, 99 (2015): 177–189.

5. V. Thiagarajan, V. Shapiro, “Adaptively weighted numerical integration over arbitrary domains,” Com-puter & Mathematics with Applications, 67 (2014): 1682-1702.

6. C. Hoffmann, V. Shapiro, V. Srinivasan, “Geometric Interoperability via Queries,” Computer AidedDesign, 46 (2014): 148-159.

7. A. DiCarlo, A. Paoluzzi, V. Shapiro, “Linear Algebraic Representation for Topological Structures,”Computer Aided Design, 46 (2014): 148-159.

8. S. Nelaturi, V. Shapiro, “Solving Inverse Configuration Space Problems By Adaptive Sampling,”Computer-Aided Design, Volume 45, Issue 2, February 2013, Pages 373-382.

9. S. Nelaturi, M. Lysenko, V. Shapiro. V., “Rapid mapping and exploration of configuration space, ”Transactions of ASME, Journal of Computing and Information Science in Engineering, vol. 12, no 2,2012.

10. V. Shapiro, I. Tsukanov, A. Grishin A, “Geometric Issues in Computer Aided Design/Computer AidedEngineering Integration,” Transactions of ASME, Journal of Computing and Information Science inEngineering, 11(2), 2011.

11. S. Nelaturi, V. Shapiro, “Configuration Products and Quotients in Geometric Modeling,” Computer-Aided Design, 43(7):781-794, 2011.

12. M. Freytag, V. Shapiro, I. Tsukanov I, “Finite element analysis in situ,” Finite Elements in Analysisand Design, 47(9):957-972, 2011.

13. M. Lysenko, V. Shapiro, S. Nelaturi, “Non-commutative morphology: Shapes, filters, and convolu-tions,” Computer-Aided Geometric Design, Volume 28, Issue 8, November 2011, Pages 497522.

14. A. DiCarlo, F. Milicchio, A. Paoluzzi, and V. Shapiro “Chain-Based Representations for Solid andPhysical Modeling,” IEEE Transactions on Automation Science and Engineering, Vol 6 (2009), Issue3, pages 454–467.

15. J. Chen, M. Freytag, V. Shapiro, “Shape Sensitivity of Constructive Representations”, ComputerAided Geometric Design, Vol 25, Issue 7, pages 470–488, October 2008.


16. F. Milicchio, A. DiCarlo, A. Paoluzzi, V. Shapiro, “A Codimension-Zero Approach to Discretizingand Solving Field Problems,” Advanced Engineering Informatics, Vol 22 (2008), pages 172–185.

17. A. Biswas, J. Fenves, V. Shapiro and R. Sriram, “Representation of Heterogeneous Material Propertiesin Core Product Model,” Engineering with Computers, Vol. 24 (2008), pages 43–58.

18. V. Shapiro, “Semi-Analytic Geometry with R-functions,” ACTA Numerica, Volume 16, May 2007,pages 239 – 303 (invited paper).

19. I. Tsukanov, V. Shapiro, “Adaptive multiresolution refinement with distance fields,” InternationalJournal of Numerical Methods in Engineering, Vol. 72 (2007), No. 11, pages 1355–1386.

20. J. Chen, V. Shapiro, K. Suresh, and I. Tsukanov, “Shape Optimization with Topological Changes andParametric Control,” International Journal of Numerical Methods in Engineering, Volume 71 (2007),No. 3, pages 313-346.

21. J. Qi, V. Shapiro and N. F. Stewart, “Single-set and class-of-sets semantics for geometric models,”Computer Aided Design, Volume 38 (2006), pages 1088-1098.

22. J.Qi, V. Shapiro, “Topological Model of Tolerant Solid Modeling,” Computer Aided Design, Vol.38,No. 4, April 2006.

23. J.Qi, V. Shapiro, “Geometric Interoperability with ε-solidity,” Transactions of ASME, Journal of Com-puting and Information Science in Engineering, Vol. 6, No. 3, September 2006.

24. M. Freytag, V. Shapiro, and I. Tsukanov, “Field Modeling with Sampled Distances,” Computer AidedDesign, Volume 38, Issue 2, February 2006, Pages 87-100.

25. I. Tsukanov, V. Shapiro, “Meshfree Modeling and Analysis of Physical Fields in Heterogeneous Me-dia,” Journal of Advances in Computational Mathematics, Volume 23 (2005), Number 1-2, pp. 95-124, 2005.

26. H. Ilies, V. Shapiro, “Equivalence Classes for Shape Synthesis of Moving Mechanical Parts,” Trans-actions of ASME, Journal of Computing and Information Science in Engineering, Vol. 4, No. 3,March 2004, pp 20-27.

27. A. Biswas, V. Shapiro and I. Tsukanov, “Heterogeneous Material Modeling with Distance Fields,”Computer-Aided Geometric Design, Volume 21 (2004), Number 3, pp. 215–242.

28. V. Ramaswamy, V. Shapiro, “Combinatorial Laws for Physically Meaningful Design,” Transactionsof ASME, Journal of Computing and Information Science in Engineering, Vol. 4, No. 3, March 2004,pp 3-10. (Preliminary version won the best paper award at the ASME 15th International Conferenceon Design Theory and Methodology, September 2-6, 2003 Chicago, Illinois.)

29. A. Biswas, V. Shapiro, “Approximate Distance Fields with Non-Vanishing Gradients,” GraphicalModels, Vol. 66, Issue 3, May 2004, pp 133-159.

30. I. Tsukanov, V. Shapiro, S. Zhang, “A Meshfree Method for Incompressible Fluid Dynamics Prob-lems,” International Journal of Numerical Methods in Engineering, Vol. 58, No. 1, 2003, pp. 127-158.

31. S. Raghothama, V. Shapiro, “Topological Framework for Part Families,” Transactions of ASME, Jour-nal of Computing and Information Science in Engineering, Volume 2 (2002), No. 4, pp. 246–255.


32. I. Tsukanov and V. Shapiro, “The Architecture of SAGE – A Meshfree System Based on RFM,”Engineering with Computers, Volume 18 (2002), No. 4, pp. 295–311.

33. H. Ilies and V. Shapiro, “A Class of Forms From Function: The Case of Parts Moving in Contact,”Research in Engineering Design, Volume 13 (2002), No. 3, pp. 157–166.

34. E. O. Mihal, V.L. Rvachev, T.I. Sheyko, I.G. Tsukanov, V. Shapiro, “Physical Fields with geometricsingularities,” Radioelectronics and informatics, No. 3, 2002, pp. 19–25 (in Russian).

35. V. Shapiro, “A Convex Deficiency Tree Algorithm for Curved Polygons,” Internal Journal of Compu-tational Geometry and Applications, Vol. 11, No. 2, 2001, pp. 215–238.

36. V. Rvachev, T. Sheiko, V. Shapiro, I. Tsukanov, “Transfinite Interpolation over Implicitly DefinedSets” Computer-Aided Geometric Design, Vol. 18, No. 4, 2001, pp. 195–220.

37. H. Ilies and V. Shapiro, “On Shaping with Motion,” ASME Transactions, Journal of MechanicalDesign, vol. 122, no. 4, December 2000, pp. 567–574.

38. J. A. Chard and V. Shapiro, “A Multivector Data Structure for Differential Forms and Equations,”IMACS Transactions, Mathematics and Computers in Simulation, 54 (2000), pp. 33–64.

39. S. Raghothama, V. Shapiro, “Consistent Updates in Dual Representation Systems,” Computer-AidedDesign, Vol. 32, 2000, pages 463–477. (This paper was also presented and won the Best Paper Awardat the Fifth ACM Symposium on Solid Modeling and Applications, Ann Arbor, MI, June 1999.)

40. V. Shapiro, I. Tsukanov, “Meshfree Simulation of Deforming Domains,” Computer Aided Design,Vol. 31, No. 7, 1999, pages 459–471.

41. V. Rvachev, T. Sheiko, V. Shapiro, I. Tsukanov, “On Completeness of RFM Solution Structures,”Computational Mechanics Vol. 25, 2000, pages 305–316. (Special issue on Meshfree Methods).

42. H. Ilies, V. Shapiro, “The Dual of Sweep,” Computer Aided Design, Vol. 31, No. 3, March 1999,pages 185–201.

43. V. Rvachev, T. Sheiko, V. Shapiro, “Application of the Method of R-functions to Integration of DIf-ferential Equations with Partial Derivatives,” Cybernetics and Systems Analysis, Vol. 25, No. 1, 1999.

44. S. Raghothama, V. Shapiro, “Boundary Representation Deformation in Parametric Solid Modeling,”ACM Transactions on Computer Graphics, Vol. 17, No. 4 (Oct. 1998), Pages 259–286.

45. V. L. Rvachev, T. I. Sheiko, V. Shapiro, “Generalized Interpolation Formulae of Lagarange-Hermiteon arbitrary loci,” Journal of Mechanical Engineering, National Academy of Science of Ukraine, Vol.1, No. 3-4, 1998, page 150–166. In Russian.

46. V. L. Rvachev, T. I. Sheiko, V. Shapiro, “R-functions Method in Boundary Value Problems withGeometrical and Physical Symmetry,” Mathematical Methods and Physicomechanical Fields, Vol.41, No. 1, 1998. In Russian.

47. V. Shapiro, “Well-formed set representations of solids,” International Journal on Computational Ge-ometry and Applications, Vol. 9, No. 2 (1999), pages 125 – 150.

48. V. Rvachev, T. Sheiko, V. Shapiro, J. Uicker, “Implicit Function Modeling of Solidification in MetalCasting,” ASME Transactions, Journal of Mechanical Design, Volume 119, Number 4, December1997, pp. 466–473.


49. V. Shapiro, “Maintenance of geometric representations through space decompositions,” InternationalJournal on Computational Geometry and Applications, Vol. 7, No. 4(1997), pp. 383–418.

50. V. V. Veretelnik, V. L. Rvachev, A. N. Shevchenko, T. I. Sheiko, J. J. Uicker, V. Shapiro, “Modelingof metal solidification in complex geometric shapes,” Electro-Magnetic Waves, No. 8, August 1996.In Russian.

51. V. Shapiro, “Real functions for representation of rigid solids,” Computer-Aided Geometric Design,Vol. 11, No. 2, 1994.

52. R. S. Palmer, V, Shapiro, “Chain models of physical behavior for engineering analysis and design,”Research in Engineering Design, Vol.5, No. 3, 1994, invited paper for the special issue Advances inRepresentations and Reasoning for Mechanical CAD.

53. T. Peters, D. Rosen, V. Shapiro, “A topological model of limitations in design for manufacturing,”Research in Engineering Design, Vol. 6, No. 4, 1994.

54. V. Shapiro, D. L. Vossler, “Separation for boundary to CSG conversion,” ACM Transactions on Graph-ics, January 1993.

55. V. Shapiro, D. L. Vossler, “Efficient CSG representations of two-dimensional solids,” Transactions ofASME, Journal of Mechanical Design, Vol. 113, No. 3, September 1991, pp. 292–305.

56. V. Shapiro, D. L. Vossler, “Construction and optimization of CSG representations,” special issue ofComputer-Aided Design “Beyond Solid Modelling”, Vol. 23, No. 1, pp. 4–20, January/February1991.

57. V. Shapiro, H. Voelcker, “On the role of geometry in mechanical design,” Research in EngineeringDesign, Vol.1, No. 1, pp. 69–73, 1989.

58. A. Morgan, V. Shapiro, “Box-bisection for solving second-degree systems and the problem of clus-tering,” ACM Transactions on Mathematical Software, Vol.13 (1987), No.2, pp. 152–167.

Chapters and volumes

59. Jiaqin Chen, Vadim Shapiro, “Optimization of Continuous Heterogeneous Models,” HeterogeneousObject Modelling and Applications, Lecture Notes in Computer Science, Volume 4889, pages 193–213, Springer Berlin, 2008.

60. L. Kobbelt, V. Shapiro, editors, Proceedings of 2005 ACM Symposium on Solid and Physical Model-ing, MIT, Cambridge, MA, June 2005.

61. G. Elber, V. Shapiro, guest editors, Solid Modeling and Applications, special issue of Computer-AidedDesign, Volume 36, Issue 11, September 2004.

62. G. Elber, V. Shapiro, guest editors, Solid Modeling and Applications, special issue of Journal ofComputing and Information Science in Engineering, Vol. 3, No. 4, December 2003.

63. G. Elber, V. Shapiro, editors, Proceedings of Eighth ACM Symposium on Solid Modeling and Appli-cations, Seattle, WA, June, 2003.

64. A. Pasko, V. Shapiro, guest editors Heterogeneous object models and their applications, special issueof Computer-Aided Design, 2004.


65. V. Shapiro, “Solid Modeling,” Handbook of Computer Aided Geometric Design, (G. Farin, J. Hoschek,M.-S. Kim, eds.), pp. 473 – 518, Elsevier Science Publishers, 2002.

66. G. Jared, V. Shapiro, Geometric Languages and Interfaces, special issue of Computer Aided Design,Volume 31, 1999.

67. Jonas Gomes, Christopher Hoffmann, Vadim Shapiro, and Luiz Velho, Modeling in Computer Graph-ics, SIGGRAPH’93 Course Notes #40, SIGGRAPH-ACM publication, 1993.

68. R.B. Tilove, M.S. Pickett, V. Shapiro, “RoboTeach: an off-line robot programming system based onGMSolid,” Solid Modeling by Computers: From Theory to Applications, (Mary S. Pickett and JohnW. Boyse Editors), pp. 159-180, Plenum Press, 1984.

Refereed conference proceedings and books

69. M. Lysenko, V. Shapiro, “Effective Contact Measures,” Proceedings of 2015 ACM Symposium onSolid and Physical Modeling, Salt Lake City, UT, October 2015 (published in Computer-Aided De-sign).

70. G. Kumar, V. Shapiro, “Reduced Material Model of Composite Laminates For 3D Finite ElementAnalysis,” Proceedings of ASME Computers and Information in Engineering Conference, IDETC/CIE2014, Buffalo, NY.

71. C. Hoffmann, V. Shapiro, V. Srinivasan, “Geometric Interoperability via Queries,” Proceedings of2013 ACM Symposium on Solid and Physical Modeling, Denver, CO, November 2013 (published inComputer-Aided Design).

72. A. DiCarlo, A. Paoluzzi, V. Shapiro, “Linear Algebraic Representation for Topological Structures,”Proceedings of 2013 ACM Symposium on Solid and Physical Modeling, Denver, CO, November 2013(published in Computer-Aided Design).

73. B. McCarthy, M. Lysenko, V. Shapiro, “Configuration Workspaces of Series-Parallel Asemblies,”accepted for publication in ASME Mechanisms and Robotics Conference, IDETC/CIE 2012, Chicago,IL.

74. G. Kumar, V. Shapiro, “Analysis of Multi-Material Bonded Assemblies on a Non-conforming mesh,”Proceedings of ASME Computers and Information in Engineering Conference, IDETC/CIE 2012,Chicago, IL.

75. M. Lysenko, S. Nelaturi, V. Shapiro, “Group Morphology with Convolution Algebras,” ACM Sympo-sium on Solid and Physical Modeling, Haifa, Israel, September 1–3, 2010.

76. S. Nelaturi, V. Shapiro, “Configuration Products in Geometric Modeling,” ACM Symposium on Solidand Physical Modeling, San Francisco, CA, October 2009.

77. A.DiCarlo, F. Milicchio, A. Paoluzzi, V. Shapiro, “Discrete Physics using Metrized Chains,” ACMSymposium on Solid and Physical Modeling, San Francisco, CA, October 2009.

78. B. Luft, V. Shapiro, I. Tsukanov, “Geometrically Adaptive Numerical Integration,” ACM Symposiumon Solid and Physical Modeling, Stony Brook, NY, June 2008.


79. S. Nelaturi, A. Abhyankar, V. Shapiro, and R. Tilove, “Feasible Spaces in Weld Gun Selection,” IEEEConference on Automation Science and Engineering, Washington, DC, 2008.

80. M. Freytag, V. Shapiro, I. Tsukanov, “Acquiring the physics of artifacts,” paper DETC2007-35701, inProceedings of the ASME 2007 Computers and Information in Engineering Conference IDETC/CIE2007, September 4-7, 2007, Las Vegas, USA.

81. J. Chen, M. Freytag, V. Shapiro, “Shape Sensitivity of Constructive Representations”, Proceedings of2007 ACM Symposium on Solid and Physical Modeling, June 4–6, 2007, Beijing, China.

82. A. Di Carlo, F. Milicchio, A. Paoluzzi and V. Shapiro, “Solid and Physical Modeling with ChainComplexes,” Proceedings of 2007 ACM Symposium on Solid and Physical Modeling, June 4–6, 2007,Beijing, China.

83. V. Shapiro, “Homotopy conditions for tolerant geometric queries,” Reliable Implementation of RealNumber Algorithms: Theory and Practice, Dagstuhl Seminar, January 2006, Lecture Notes in Com-puter Science, Volume 5045, pages 162–180, Springer Berlin, 2008.

84. J. Chen, V. Shapiro, K. Suresh, and I. Tsukanov, “Shape Optimization with Topological Changes andParametric Control,” ASME paper DETC2006-99612, Proceedings of the ASME 2006 InternationalDesign Engineering Technical Conferences, September 10-13, 2006, Philadelphia, PA. Best PaperAward.

85. J. Qi and V. Shapiro, “Epsilon-Regular Sets and Intervals,” Proceedings of IEEE International Con-ference on Shape Modeling and Applications, 15-17 June 2005, MIT, Cambridge, MA.

86. M. Freytag and V. Shapiro, “B-rep SE: Simplicially Enhanced Boundary Representation,” Proceed-ings of the Ninth ACM Symposium on Solid Modeling and Applications, Genova, Italy, June 2004, pp157-168.

87. V. Ramaswamy, V. Shapiro, “Combinatorial Laws for Physically Meaningful Design,” ASME pa-per DETC2003/DTM-48654, Proceedings of 15th International Conference on Design Theory andMethodology, September 2-6, 2003 Chicago, Illinois. Best Paper Award.

88. H. Ilies, V. Shapiro, “On the Synthesis of Functionally Equivalent Mechanical Designs” Workshop onComputational Synthesis, 2003 AAAI Spring Symposium series, March 24-26, 2003, Stanford Univer-sity, Palo Alto, California.

89. S. Raghothama, V. Shapiro, “Topological Framework for Part Families,” Proceedings of the 7th ACMSymposium on Solid Modeling and Applications, Saarbrucken, Germany, June 17–21, 2002.

90. A. Biswas, V. Shapiro and I. Tsukanov, Heterogeneous Material Modeling with Distance Fields, 13thSolid Freeform Fabrication Symposium, Austin, TX, August 5-7, 2002.

91. H. Ilies and V. Shapiro, “A Class of Forms From Function: The Case of Parts Moving in Contact,” Re-search in Engineering Design, Vol. 13, No. 3, 2002, pp. 157-166 (a preliminary version appeared asTechnical Paper DETC2001/DTM-21704, Proceedings of 2001 ASME Conference on Design Theoryand Methodology, Pittsburgh, PA, USA, September 9–12, 2001.

92. I. Tsukanov, V. Shapiro, C. Rutland, S. Zhang, “Solution of the incompressible fluid dynamics prob-lem via the R-function meshfree method,” First M.I.T. Conference on Computational Fluid and SolidMechanics, June 12 - 15, 2001 Cambridge, MA.


93. S. Raghothama, V. Shapiro, “Models and Representations for Part Families,” From Geometric Mod-eling to Shape Modeling (U. Cugini and M. Wozny, Editors), Kluwer Academic, 2002; proceedingsof the IFIP WG5.2 Workshop on Geometric Modeling, Parma, Italy, October 2000.

94. V. Shapiro, I. Tsukanov, “Meshfree Automation of Engineering Analysis,” From Geometric Modelingto Shape Modeling (U. Cugini and M. Wozny, Editors), Kluwer Academic, 2002; proceedings of theIFIP WG5.2 Workshop on Geometric Modeling, Parma, Italy, October 2000.

95. S. Raghothama, V. Shapiro, “Consistent Updates in Dual Representation Systems,” Proceedings ofthe Fifth ACM Symposium on Solid Modeling and Applications, Ann Arbor, MI, June 1999. The BestPaper Award. Also invited paper for the special issue of Computer-Aided Design.

96. V. Shapiro, I. Tsukanov “Implicit Functions with Guaranteed Differential Properties,” Proceedings ofthe Fifth ACM Symposium on Solid Modeling and Applications, Ann Arbor, MI, June 1999.

97. S. Raghothama, V. Shapiro, “Necessary Conditions for Boundary Representation Variance,” Proceed-ings of the Thirteenth ACM Symposium on Computational Geometry, June 4–6, 1997, Nice, France.

98. H. Ilies, V. Shapiro, “UNSWEEP: Formulation and Computational Properties,” Proceedings of theFourth ACM Symposium on Solid Modeling and Applications, Atlanta, GA, May 1997.

99. H. Ilies, V. Shapiro, “An Approach to Systematic Part Design,” Product Modeling for Computer In-tegrated Design and Manufacture, , edited by M. J. Pratt, R. D. Sriram, M.J. Wozny, Chapman andHall, 1997. (Proceedings of the Fifth IFIP WG 5.2 Workshop on Geometric Modeling in ComputerAided Design, Airlie, Virginia, May 19–23, 1996.)

100. V. Shapiro, D. L. Vossler, “What is a parametric family of solids?” Proceedings of the Third ACM/IEEESymposium on Solid Modeling and Applications, Salt Lake City, Utah, May 17-19, 1995.

101. R. B. Tilove, V. Shapiro, M. S. Pickett, “Modeling and analysis of robot work cells in RoboTeach,”Proceedings of Symposium on Computer-Aided Manufacturing and Robotics, ASME Winter AnnualMeeting, pp. 33-52, New Orleans, Louisiana, December 9-14, 1984.

Miscelleneous

102. “Report from a 2013 ASME panel on geometric interoperability for advanced manufacturing”, Computer-Aided Design, Volume 47, February 2014, Pages A1A2.

103. C. Hoffmann, V. Shapiro, V. Srinivasan, “Geometric interoperability for resilient manufacturing,”Spatial Automation Laboratory, University of Wisconsin-Madison, 2012.

104. V. Shapiro, M. Sabin, “Modification in Cellular Models,” Technical Report NA09, Department ofApplied Mathematics and Theoretical Physics, University of Cambridge, October 1998.

105. J. Jill Rivera, Vadim Shapiro, “Chain Modeling for Life Cycle Systems Engineering,” Sandia NationalLaboratories Report SAND97-3001, December 1997.

106. V. Shapiro, “Representations of Semi-Algebraic Sets in Finite Algebras Generated by Space Decom-positions,” Ph.D. Thesis, Sibley School of Mechanical Engineering, Cornell University, 1991.


107. V. Shapiro, “Theory of R-functions and applications: A primer,” CPA Technical Report CPA88-3,Cornell Programmable Automation, Cornell University, Ithaca, NY, 1988.

108. V. Shapiro, “Parametric modeling and analysis of tolerances,” Technical Report CS-460, ComputerScience Department, General Motors Research, December 1985.

109. A. Morgan, V. Shapiro, “Solving bilinear systems using BIQUAD,” Technical Report CS-444, Com-puter Science Department, General Motors Research, March 1985.

110. V. Shapiro, “Generalized robot kinematics for RoboTeach,” Technical Report CS-410, Computer Sci-ence Department, General Motors Research, January 1984.

111. V. Shapiro, “On Formal Verification of Systems Described by a Graph Model of Behavior,” M.S.Thesis, Report No. CSD-830601, Computer Science Department, UCLA, June 1983.


Invited lectures and short courses

• 2015 SIAM Conference on Geometric and Physical Modeling, October 14, 2015 (Bezier award lec-ture).

• University of California, Davis, Mechanical Engineering Department, Januar 15, 2015.

• Defense Science Office, DARPA, Arlington, VA, November 9, 2014.

• University of Hong Kong, Department of Computer Science, October 25, 2014.

• Geometric Design facing Manufacturing (GDM 2014), Eilat, Israel, September 9-11, 2014.

• ISAT/DARPA Workshop on Naturally Expressed Rapid Design, Warrenton, VA, August 14-15, 2014.

• Dagstuhl Seminar on Geometric Modeling, Institute for Theoretical Computer Science at SchlossDagstuhl, Germany, May 2014.

• University of Connecticut, Department of Mechanical Engineering, April 22, 2014.

• National Institute of Standards and Technology, Systems Integration Division, Gaithersburg, VA,February 11, 2014.

• ISAT/DARPA Workshop “Rethinking CAD,” Arlington, VA, October 23-24, 2013.

• National Science Foundation, Division of Civil, Mechanical and Manufacturing Innovation (CMMI),September 23, 2013.

• University of Southern California, Daniel Eppstein Department of Industrial and Systems Engineer-ing, August 28, 2012.

• National Institute of Standards and Technology, Systems Integration Division, June 6, 2012.

• PARC, Intelligent Systems Laboratory Palo Alto, CA, September 16, 2011.

• Purdue University, School of Mechanical Engineering Graduate Seminar, September 22, 2011.

• DARPA Workshop on Geometric Representation Integrated Dataspace (GRID), July 8-9, 2010 inMonterey, CA.

• COFES 2010, Congress on Future of Engineering Software, Scottsdale, AZ, April 15-18, 2010.

• Lindbergh Lecture, Mechanical Engineering, University of Wisconsin, September 9, 2009.

• CAD’09, International CAD Conference and Exhibition, Reno, Nevada, June 8-12, 2009 (Plenarykeynote).

• Lawrence Berkeley National Laboratories, Computing Sciences Seminar, March 20, 2009.

• Arizona State University, Department of Mechanical Engineering, October 17, 2008.

• 3rd International Conference on Advanced Research in Virtual and Rapid Prototyping (Plenary keynote),Leiria, Portugal, September 24-29, 2007.


• Workshop on Shape and Topology Optimization: From Theory to Practice, 2006 ASME Design Tech-nical Conferences, Philadelphia, PA, September 10, 2006.

• 7th Conference on Real Numbers and Computers (RNC 7), LORIA, Nancy, France, July 10-12, 2006.(Plenary keynote)

• University of Genova, Department of Information and Computer Science, July 5, 2006.

• Technical University of Vienna, Institute of Discrete Mathematics and Geometry, May 23, 2006

• University of California, Berkeley, Mechanical Engineering Department, March 10, 2006.

• Dagstuhl Seminar on Reliable Implementation of Real Number Algorithms: Theory and Practice,Schloss Dagstuhl, Germany, January 8-13, 2006.

• Illinois Institute of Technology, Chicago, IL, April 13, 2005.

• University of Cambridge, UK, The Computer Laboratory, May 28, 2004.

• NSF Workshop on CyberEngineering and CyberInfrastructure, Drexel University, Philadelphia, PA,April 21, 2004.

• Rutgers University, New Brunswick, NJ, Department of Mechanical Engineering, December 3, 2003.

• Short course “Meshfree modeling with Distances and Splines,” SIAM Conference on Geometric Com-puting & Design, November 9, 2003, Seattle, WA.

• Queens University of Belfast, School of Mechanical and Manufacturing Engineering, Belfast, U.K.,July 29, 2003.

• Workshop on Mimetic Discretizations in Continuum Mechanics, July 9-11, 2003, San Diego, CA.

• Tutorial on “Meshfree Modeling with Distance Fields,” ACM Symposium on Solid Modeling andApplications, Seattle, WA, June 17, 2003.

• Workshop on Group Theory and Numerical Analysis, Centre de recherches mathematiques, Universitede Montreal, May 26, 2003

• General Motors Research and Development Center, Warren, MI, December 2, 2002.

• Columbia University, New York, NY, Department of Mechanical, Engineering October 11, 2002

• Workshop on Geometric Modelling and Animation (semi-plenary), August 13, 2002, Conference onFoundations of Computational Mathematics (FoCM), Minneapolis, MN, August 5-14, 2002.

• University of Bologna, Italy, June 16, 2002

• Consiglio Nazionale delle Ricerche (CNR), Pisa, Italy, July 7-8, 2002.

• National Institute of Standards, Gaithersburg, MD, April 29, 2002.

• University of Illinois, Urbana-Champaign, February 5, 2002.

• University of Rome 3, Short course on Solid Modeling, May-June 2001.


• Escuela Politecnica Superior, Jaen, Spain; April 24, 2001.

• University of Granada, Spain, April 23, 2001.

• Universitat Politecnica de Catalunya, Barcelona, Spain; April 17, 2001.

• University of the Aegean, Syros, Greece, March 5, 2001.

• University of Trieste, Italy, February 22, 2001.

• General Motors Research and Development Center, Warren, MI, January 10, 2001.

• Swiss Federal Institute of Technology, Lausanne, Switzerland, August 16, 2000.

• Gordon Research Conference on Theoretical Foundations of Product Design and Manufacturing, Ply-mouth, New Hampshire, June 15, 2000.

• Workshop on Meshfree Methods, Chicago, IL, June 12, 2000.

• University of Puerto Rico, Mayaguez, Dec. 17, 1999.

• General Motors Research and Development Center, Warren, MI, June 8, 1999.

• Dagstuhl Seminar on CAD-Tools and Methods for Systems Development, Schloss Dagstuhl, Ger-many, November 15-20, 1998.

• University of Cambridge, Cambridge, UK, August 13, 1998.

• University of Bath, UK, July 24, 1998.

• Heriot-Watt University, Edinburgh, Scotland, UK, July 9, 1998.

• Purdue University, October 20, 1997.

• Universitat Politecnica de Catalunya, Barcelona, Spain; May 30, 1997.

• Delft University of Technology, Holland, May 27, 1997.

• Ford Research Laboratory, Dearborn, MI, March 1997

• Sandia National Laboratories, Albuquerque, NM, August 1996

• General Motors Research and Development Center, Warren, MI, February 1996

• Massachusetts Institute of Technology, May 1994

• University of Massachusetts, Amherst, April 1994

• University of Illinois, Urbana-Champaign, March 1994

• Siggraph ’93, Anaheim, CA, August 1993 Tutorial: Modeling in Computer Graphics

• Institute for Pure and Applied Mathematics (IMPA), Rio de Janeiro, Brazil, January 1993Short course: Multiple representations in solid modeling


Teaching activities

Courses Taught at UW-Madison

• ME 232, Geometric Modeling for Engineering Applications (sophomore)

• ME 240, Dynamics (sophomore)

• ME 331, Geometric Modeling for Engineering Applications (redesigned for juniors)

• ME/CS/IE 558, Introduction to Computational Geometry (senior, first year graduate)

• ME 758, Solid Modeling (graduate)

• ME 964, Computational Design (special topics, advanced graduate)

• ME 964, Computational Geometry of Materials (special topics, advanced graduate)

• ME 964, Theory of R-functions and applications (special topics, advanced graduate)

• ME 964, Model-based Engineering (advanced graduate, Spring 2015)

Graduated students

• Saigopal Nelaturi, Ph.D. 2012, Mechanical Engineering;dissertation: Configuration ModelingCurrently: PARC

• Michael Freytag, Ph.D. 2009, Mechanical Engineering;dissertation: Automated Analysis of Acquired Artifacts by Sampling DistanceCurrently: Intact Solutions, LLC

• Arpan Biswas, Ph.D. 2008, Mechanical Engineering;dissertation: Construction of Distance Field Based Representations of Material PropertiesCurrently: Autodesk

• Jiaqin Chen, Ph.D. 2007, Computer Science;dissertation: Shape Optimization Using Constructive RepresentationsCurrently: Bank of America

• Jianchang Qi, Ph.D. 2007, Mechanical Engineering;dissertation: Validation and Translation of Epsilon-SolidsCurrently: Southeast University, China.

• Rajarathinam Arangarasan, Ph.D. 2007, Mechanical Engineering;dissertation: Guided Trace and Stitch Modeling Using Multimodal InteractionCurrently: Purdue University.

• Jeffrey A. Chard, Ph.D. 2002, Mathematics & Computation in Engineering;dissertation: The ABCs of an Interactive Physics SystemCurrently: Timbre Corporation, Freeport, CA.


• Horea T. Ilies, Ph.D. 2000, Mechanical Engineering;dissertation: On Shaping Moving Mechanical PartsCurrently: University of Connecticut.

• Srinivas Raghothama, Ph.D. 2000, Mechanical Engineering;dissertation: Models and Representations for Parametric Family of PartsCurrently: General Motors Research.

Also supervised 13 MS thesis students, including the winner of 1998 Distinguished MS Thesis in PhysicalSciences award at UW-Madison, and 16 undergraduate research projects.

Current students

• Mikola Lysenko, Ph.D., Computer Science (expected 2016)Topic: group morphology in configuration modelling

• Vaidyanathan Thiagarajan, Ph.D., Mechanical Engineering (expected 2016)Topic: meshfree modeling and analysis

• Chaman Singh Verma, Ph.D., Computer Science (expected 2016)Topic: algorithms for meshing

• Goldy Kumar, Ph.D., Mechanical Engineering (expected 2017)Topic: modeling and simulation of composite structures

• Xingchen Liu, Ph.D., Mechanical Engineering (expected 2017)Topic: geometric characterization of random heterogeneous materials

• Randi Wang, Ph.D, Mechanical Engineering (expected 2019)Topic: TBD

• Yaqi Zhang, Ph.D., Mechanical Engineering (expected 2019)Topic: TBD


Service

Editorial Responsibilities

• Computer-Aided Design,Editor in Chief, 2015 –; Co-Editor in Chief, 2011-2014; 2015 Editor, 2004-2011; Guest editor, 1999,2003, 2004.

• Graphical Models, Associate Editor, 2010 – present.

• International Journal of Computational Geometry and Applications (IJCGA),Associate Editor, 2004 – present.

• ASME/ACM Journal Of Computing and Information Science in Engineering (JCISE),Associate Editor, 2003 – 2009.

• International Journal of Shape Modeling, Member of Editorial Board, 2001 – 2010.

Other Professional Activities

• Co-Organizer, Minisymposium on Topological Methods in Geometric and Physical Modeling, SIAMConference on Geometric and Physical Modeling, Salt Lake City, October 2015.

• Organizer, Panel on Geometric Interoperability for Advanced Manufacturing ASME MSEC 2013 /SPM NAMRC 41 conferences, Madison, WI, June 13, 2013.

• Chair, The ACM Solid Modeling Association Bezier Award Committee, 2012.

• Organizer, Minisymposium on Configuration Modeling, 2011 SIAM Conference on Geometric andPhysical Modeling, Orlando Fl, 2011.

• Organizer, Minisymposium on Topologically Robust Computations, 2009 SIAM/ACM Joint Confer-ence on Geometric and Physical Modeling, San Francisco, CA, October 2009.

• ACM/SIAM Symposium on Solid & Physical Modeling; program committee 1997 – 2015; GeneralCo-Chair in 2002 (Saarbrucken, Germany), Program Co-Chair in 2003 (Seattle, WA) and 2005 (MIT,Cambridge, MA).

• Invited member of EPSRC Peer Review College, UK, 2006 – present.

• Organizer, Workshop on Shape and Topology Optimization: From Theory to Practice, 2006 ASMEDesign Technical Conferences, Philadelphia, PA, September 10, 2006.

• Invited reviewer for Italian Ministry for Education University and Research (MIUR), 2003 – present.

• Invited reviewer for Natural Sciences and Engineering Research Council of Canada (NSERC), 2014– present.

• Invited reviewer for Research Grants Council, Hong Kong, 2009 – present.

• Solid Modeling Association, (founding) member of the Executive Committee, 2001–2005; also re-sponsible for maintaining community website www.solidmodeling.org


• ECCOMAS Thematic Conference on Meshless Methods, Lisbon, July 11-14, 2005; scientific com-mittee.

• SIAM Conference on Geometric Design, Seattle, WA, November 2003. Organizer of Minisymposiumon Engineering Challenges in Geometric Modeling.

• Shape Modeling International; program committee 1997, 1999, 2001, 2002, 2004, 2011, 2013, 2014,2015.

• Geometric Modeling and Processing; program committee 2000, 2002, 2004.

• Tools and Methods of Competitive Engineering; program committee 1998, 2000, 2002, 2004

• IFIP WG5.2 Workshop on Geometric Modeling: Fundamentals and Applications; program committee2000, 2002.

• 12th Conference on Design Tools and Methods in Industrial Engineering, Rimini, Italy, September5-7,2001; program committee.

• SIAM conference on Geometric Design, Nov. 2-5 1999, Albuquerque, NMOrganizer of Minisymposium “Advances in solid modeling.”

• Constructive Solid Geometry; program committee 1996, 1998, Winchester, U.K.

• Thirteenth Annual ACM Symposium on Computational Geometry, June 4–6, 1997, Nice, France;program committee

• Second SIAM Conference on Geometric Design, Tempe, AZ (November 1991)Organized Minisymposium “Advances in Constructive Representations.”

• Member of ACM, SIAM; Fellow of ASME

External examiner for international candidates:

• Bharath Ram Sundar, Ph.D. 2015, Indian Institute of Technology, Madras

• Franco Millichio, PhD 2007, University of Rome, 2007

• Tang Shaohui, Ph.D. 2007, Nanyang Technological University, Singapore

• Juan Ruiz de Miras, Ph.D. 2001, University of Granada, Spain

• Richard Egli, Ph.D. 2000, University of Montreal, Canada

• Antonio Aguilera, Ph.D. 1998, Universitat Politecnica de Catalunya, Barcelona, Spain

UW-Madison Service

• Faculty Search & Hiring, 1998 – present (Chair, 2003-2005)

• Curriculum Committee, 2005 – present

• Assistant Professor Mentoring Committee, 2001 – present (Chair)


• ME Department Steering Committee, 2008 – 2013

• Campus Conflict of Interests Committee, 2002 – 2005

• Hilldale Research Fellowship Committee, 2002–2004

• Mathematics and Computation in Engineering Executive Committee 1995–2000

• Wendt Library Committee, 1995 – 1999

• Merit Review Committee, 2001 – 2003

Documents

Vadim Shapiro - University of Wisconsin–Madisonhomepages.cae.wisc.edu/~vshapiro/VS-short.pdfVadim Shapiro, February 10, 2016 4 Research Funding External Funding (single PI unless