Also, see our publications at Google Scholar and Researchgate of Prof. Filipov
Journal Papers; Ref. Conference Papers; Conference Abstracts and Presentations; Book Chapters; Technical Reports.
Journal Papers
- Tu, G. W., and Filipov, E. T. (2024) “Origami of multi-layered spaced sheets,” Journal of the Mechanics and Physics of Solids, Vol. 190, 105730.
- Zhu, Y., and Filipov, E. T. (2024) “Large-scale modular and uniformly thick origami-inspired adaptable and load-carrying structures,” Nature Communications, Vol. 15 No. 1, 2353.
- Zhu, Y., Ghrayeb, A., Yu, J., Yang, Y., Filipov, E. T., and Oldham, K. R. (2024) “Mixed‐Transducer Micro‐Origami for Efficient Motion and Decoupled Sensing,” Small, 2400059.
- Redoutey, M., and Filipov E.T., (2023) “Designing Continuous Equilibrium Structures that Counteract Gravity in Any Orientation,” Scientific Reports, Vol. 13, pp. 8007
- Wo, Z., and Filipov, E.T. (2023) “Stiffening multi-stable origami tubes by outward popping of creases,” Extreme Mechanics Letters, Vol. 58, pp. 101941
- Zhu, Y. and Filipov, E.T. (2022) “Harnessing Interpretable Machine Learning for Origami Feature Design and Pattern Selection,” Scientific Reports, Vol. 12, pp. 19277
- Zhu, Y., Schenk, M., Filipov E.T., (2022) “A Review on Origami Simulations: From Kinematics, To Mechanics, Towards Multi-Physics” Applied Mechanics Reviews, (Accepted)
- Wo, Z., and Filipov, E.T. (2022) “Locking Zipper-coupled Origami Tubes for Deployable Energy Absorption,” Journal of Mechanisms and Robotics, Vol. 14 No. 4, pp. 041007. Link
- Woodruff S.R., and Filipov E.T. (2022) “Bending and twisting with a pinch: Shape morphing of creased sheets,” Extreme Mechanics Letters, Vol 52, pp.101656. Link
- Xia, Y., Kidambi, N., Filipov, E.T., Wang, K.W. (2022) “Deployment Dynamics of Miura Origami Sheets” Journal of Computational and Nonlinear Dynamics, Vol. 17 No. 7, pp. 071005. Link
- Wo, Z., and Filipov, E.T. (2022) “Bending Stability of Corrugated Tubes with Anisotropic Frustum Shells.” Journal of Applied Mechanics, Vol. 89, No. 4, pp. 041005. Link
- Redoutey, M., Roy, A., Filipov E.T., (2021) “Pop-up kirigami for stiff, dome-like structures” International Journal of Solids and Structures, Vol. 229, pp. 111140. Link
- Zhu, Y. and Filipov, E.T. (2021) “Rapid Multi-Physics Simulation for Electro-Thermal Origami Systems,” International Journal of Mechanical Sciences, Vol. 202-203, pp. 106537. Link
- Woodruff S.R., Filipov ET (2021) “Curved creases redistribute global bending stiffness in corrugations: theory and experimentation,” Meccanica, Vol. 56, No. 6, pp. 1613-1634. Link & PDF
- Woodruff, S., R., and Filipov, E.T. (2020) “A bar and hinge model formulation for structural analysis of curved-crease origami,” International Journal of Solids and Structures, Vol.204-205, pp. 114-127. Link & PDF
- Zhu, Y., Birla, M., Oldham, K., Filipov, E.T., (2020) “Elastically and Plastically Foldable Electro-Thermal Micro-Origami for Controllable and Rapid Shape Morphing,” Advanced Functional Materials 2003741. Link & See papers, details, and media coverage.
- Zhu, Y. and Filipov, E.T. (2020) “A Bar and Hinge Model for Simulating Bistability in Origami Structures with Compliant Creases,” Journal of Mechanisms and Robotics, Vol. 12, No. 2, 021110. Link
- Zhu, Y. and Filipov, E.T. (2019) “An Efficient Numerical Approach for Simulating Contact in Origami Assemblages,” Proceedings of the Royal Society – A, Vol. 475. 20190366. Link & See papers, details.
- Filipov, E.T., Tachi T., and Paulino G.H. (2019) “Deployable Sandwich Surfaces with High Out-of-Plane Stiffness,” ASCE Journal of Structural Engineering, Vol. 145, No.2, 04018244. Link & ASCE Best Paper
- Filipov, E. T., and Redoutey, M. (2018) “Mechanical characteristics of the bistable origami hypar.” Extreme Mechanics Letters, 25, 16-26. Link
- Filipov, E.T., Liu, K., Tachi, T., Schenk, M., and Paulino, G.H. (2017) “Bar and Hinge models for Scalable Analysis of Origami,” International Journal of Solids and Structures, Vol. 124, No. 1, pp. 26-45. Link
- Filipov, E.T., Paulino G.H., and Tachi T. (2016) “Origami Tubes with Reconfigurable Polygonal Cross-Sections,” Proceedings of the Royal Society – A, Vol. 472, No. 2185, 20150607. Link. See papers, details, and media coverage.
- Filipov, E.T.*, Chun J.*, Paulino G.H., and Song J. (2016) “Polygonal Multiresolution Topology Optimization (PolyMTOP) for Structural Dynamics,” Structural and Multidisciplinary Optimization. Volume 53, Issue 4, pp 673–694. Link
- Filipov, E.T., Tachi T., and Paulino G.H. (2015) “Origami Tubes Assembled Into Stiff, yet Reconfigurable Structures and Metamaterials,” Proceedings of the National Academy of Sciences USA, Vol. 112, No. 40, pp. 12321-12326. Link See papers, details, and media coverage.
- O’Rourke, M., Filipov, E.T., and Uçkan, E. (2015) “Towards Robust Fragility Relations for Buried Segmented Pipe in Ground Strain Areas,” Earthquake Spectra, Vol. 31, No. 3, pp. 1839-1858. Link
- Steelman, J.S., Filipov, E.T., Fahnestock, L.A., Revell, J.R., LaFave, J.M., Hajjar, J.F., and Foutch, D.A. (2014) “Experimental Behavior of Steel Fixed Bearings and Implications for Seismic Bridge Response,” Journal of Bridge Engineering, Vol. 19, No. 8, SPECIAL ISSUE: Recent Advances in Seismic Design, Analysis, and Protection of Highway Bridges, A4014007. Link
- Filipov, E.T., Revell J.R., Fahnestock L.A., LaFave J.M., Hajjar, J.F., Foutch D.A., and Steelman J.S. (2013) “Seismic Performance of Highway Bridges with Fusing Bearing Components for Quasi-Isolation,” Earthquake Engineering and Structural Dynamics. Vol. 42, No. 9, pp. 1375-1394. Link
- Filipov, E.T., Fahnestock L.A., Steelman J.S., Hajjar, J.F., LaFave J.M., and Foutch D.A. (2013) “Evaluation of Quasi-Isolated Seismic Bridge Behavior Using Nonlinear Bearing Models,” Engineering Structures, Vol. 49, No. 14, pp. 168-181. Link
- Steelman, J.S., Fahnestock L.A., Filipov E.T., LaFave J.M., Hajjar, J.F., and Foutch D.A. (2013) “Shear and Friction Response of Non-Seismic Laminated Elastomeric Bridge Bearings Subject to Seismic Demands,” Journal of Bridge Engineering, Vol. 18, No. 7, pp. 612-623. Link
Refereed Conference Papers
- Xia, Y., Filipov, E.T., Wang, K.W., (2021) “The deployment dynamics and multistability of tubular fluidic origami” SPIE Smart Structures and Nondestructive Evaluation, March 22-26, 2021. http://dx.doi.org/10.1117/12.2583500 3rd place in 2021 SPIE Best Student Paper Award.
- Zhu, Y., Filipov, E.T. (2021) “Sequentially Working Origami Multi-Physics Simulator (SWOMPS): A Versatile Implementation” ASME IDETC & CIE Conference
- Wo, Z., Filipov, E.T. (2021) “A numerical and experimental study on the energy absorption characteristics of deployable origami tubes” ASME IDETC & CIE Conference
- Ng, T., Ahlquist, S., Filipov, E.T., Weisman, T. (2020) “Active-Casting: Functionally Graded Knits for Volumetric Concrete Casting” ACADIA 2020, Distributed Proximity, 2020.
- Redoutey, M., Ahlquist, S., Shaw, J., Filipov, E.T., (2019) “Bending active structures with a variable cross-section boundary,” IASS Annual Symposium 2019, Barcelona, Spain.
- Zhu, Y., and Filipov, E.T., (2019) “Simulating Compliant Crease Origami with a Bar and Hinge Model,” ASME IDET Conference, V05BT07A025, Anaheim CA.
- Filipov, E.T., Tachi, T., Paulino, G.H., (2019) “Coupled Origami Tubes For Stiff Deployable Cantilevers,” ASME IDET Conference, V05BT07A023, Anaheim CA.
- Woodruff S. R., and Filipov, E.T. (2018) “Structural Analysis of Curved Folded Deployables,” ASCE Earth and Space Conference, April 9-12, 2018, Cleveland, OH. Paper selected as one of four finalists for student paper competition. Link
- Tachi T., Filipov, E.T., and Paulino, G.H. (2015). “Deployable Folded-core Sandwich Panels Guided by a Generating Surface,” Proceedings of the International Association for Shell and Spatial Structures (IASS), August 17-20, 2015, Amsterdam, Netherlands.
- Filipov, E.T., Tachi, T., and Paulino, G.H. (2014). “Toward Optimization of Stiffness and Flexibility of Rigid, Flat-Foldable Origami Structures,” The 6th International Meeting on Origami in Science, Mathematics, and Education (6OSME), August 10-13, 2014, Tokyo, Japan.
- Filipov, E.T., Revell, J.R., Steelman, J.S., Fahnestock, L.A., LaFave, J.M., Foutch, D.A., and Hajjar, J.F. (2012). “Sensitivity of Quasi-Isolated Bridge Seismic Response to Variations in Bearing and Backwall Elements,” Paper No. 2978, Proceedings of the 15th World Conference on Earthquake Engineering, September 24-28, 2012, Lisbon, Portugal.
- Filipov, E.T., Hajjar, J.F., Steelman J.S., Fahnestock L.A., LaFave J.M., and Foutch D.A. (2011). “Computational Analyses of Quasi-Isolated Bridges with Fusing Bearing Components,” Paper No. 768, 2011 Structures Congress, Las Vegas, NV, April 14 – 16, 2011, Structural Engineering Institute.
- Steelman J.S., Fahnestock L.A., LaFave J.M., Hajjar, J.F., Filipov, E.T., and Foutch D.A. (2011). “Seismic Response of Bearings for Quasi-Isolated Bridges – Testing and Component Modeling,” Paper No. 855, 2011 Structures Congress, Las Vegas, NV, April 14 – 16, 2011, Structural Engineering Institute.
- Filipov, E.T., Steelman J.S., Hajjar, J.F., LaFave J.M., and Fahnestock L.A. (2010). “Bridge Bearing Fuse Systems for Regions with High-Magnitude Earthquakes at Long Recurrence Intervals,” Paper No. 1834, Proceedings of the 9th US National and 10th Canadian Conference on Earthquake Engineering, Toronto, Canada, July 25 – 29, 2010, Earthquake Engineering Research Institute, Oakland, California.
Conference Proceedings and Abstracts
- Zhu, Y., Filipov, E.T. (2023) “Modular Thick Origami for Large Deployable Infrastructure” ASME IDETC & CIE Conference, Boston, MA,08/2023.
- Tu, G., Filipov, E.T. (2023) “Kinematics of Spaced Origami Sheets” ASME IDETC & CIE Conference, Boston, MA, 08/2023
- Zhu, Y., and Filipov, E.T., (2023) “Design of Thick Origami for Reusable and Deployable Load Carrying Structures and Infrastructure.” ASCE Engineering Mechanics Institute Annual Conference, Atlanta, GA, 06, 2023.
- Filipov, E.T., and Zhu, Y., (2023) “Holistic inverse design of origami using interpretable machine learning.” ASCE Engineering Mechanics Institute Annual Conference, Atlanta, GA, 06, 2023.
- Redoutey, M., Filipov E.T., (2022) “Continuous Equilibrium Structures Under Gravity in Any Orientation,” ASME International Mechanical Engineering Congress and Exposition (IMECE), Columbus OH, 11/2022.
- Wo, Z., and Filipov E.T., (2022) “Multi-Stable Origami Corrugated Tubes With Self-Stiffening,” ASME International Mechanical Engineering Congress and Exposition (IMECE), Columbus OH, 11/2022.
- Zhu, Y., and Filipov E.T., (2022) “Origami Inverse Design with Machine Learning,” ASME International Mechanical Engineering Congress and Exposition (IMECE), Columbus OH, 11/2022.
- Filipov E.T., Woodruff S.W., and Patil, H., (2022) “Curved Crease Origami for Functional Shape-Morphing Structures,” ASME International Mechanical Engineering Congress and Exposition (IMECE), Columbus OH, 11/2022.
- Zhu, Y., Yu, J., Oldham K., and Filipov E.T., (2022) “Folding 3D Thin-Film PZT MEMS With Electro- Thermal Micro-Origami,” ASME International Mechanical Engineering Congress and Exposition (IMECE), Columbus OH, 11/2022.
- Wo, Z., and Filipov E.T., (2022) “Buckling-Induced Functionalities of Origami Tubes,” ASME International Mechanical Engineering Congress and Exposition (IMECE), Columbus OH, 11/2022. Awarded 1st place in NSF Student Poster Competition, also Awarded Honorable Mention in the CONCAM Student Poster Competition.
- Patil, H., and Filipov E.T., (2022) “Adaptable Hull Hydrodynamics Using Shape Morphing Curved-Crease Origami,” ASME International Mechanical Engineering Congress and Exposition (IMECE), Columbus OH, 11/2022.
- Redoutey, M., and Filipov E.T., (2022) “The Effect of Kinematics on the Design of Continuous Equilibrium Structures,” ASME International Mechanical Engineering Congress and Exposition (IMECE), Columbus OH, 11/2022.
- Zhu, Y., and Filipov, E.T., (2022) “Harnessing interpretable machine learning for origami inverse design,” Society of Engineering Science 2022 Annual Conference, College Station, TX, 10/2022, Accepted.
- Redoutey, M., and Filipov E.T., (2022) “Continuous Equilibrium Structures that Counteract Gravity in any Orientation,” Society of Engineering Science 2022 Annual Conference, College Station, TX, 10/2022, Accepted.
- Filipov, E.T. (2022) “Functional Shape Morphing Origami, “16th International Symposium on Functionally Graded Materials, Hartford, CT, August 7-10, 2022.
- Wo, Z., and Filipov E.T., (2022) “Geometric Influence on the Bending Stability of Thin-walled Corrugated Tubes,” ASCE Engineering Mechanics Institute Annual Conference, Baltimore, MD, May 31–June 3, 2022.
- Filipov E.T., and Redoutey, M.(2022) “Harnessing Pre-stress for Continuous Equilibrium Under Gravity,” ASCE Engineering Mechanics Institute Annual Conference, Baltimore, MD, May 31–June 3, 2022.
- Woodruff, S.R., and Filipov E.T. (2022) “Shape-Fitting Origami with Curved Creases and Pinches,” ASCE Engineering Mechanics Institute Annual Conference, Baltimore, MD, May 31–June 3, 2022.
- Patil, H., and Filipov E.T. (2022) “Hydrodynamic Characteristics of Shape Morphing Curved-Crease Origami Surfaces,” ASCE Engineering Mechanics Institute Annual Conference, Baltimore, MD, May 31–June 3, 2022.
- Zhu, Y., and Filipov E.T., (2022) “Simulation of Thermo-Mechanical Coupling in Origami Assemblages” ASCE Engineering Mechanics Institute Annual Conference, Baltimore, MD, May 31–June 3, 2022.
- Zhu, Y., Birla, M., Oldham, K.R., Filipov, E.T., (2022) “Fabrication and Simulation of Functional Electro-Thermal Micro-Origami,” Bulletin of the American Physical Society, American Physical Society March Meeting, Chicago, IL, March 14-18, 2022.
- Woodruff S.R., and Filipov E.T. (2021) “Twisting flat surfaces using curved creases and local pinching,” Society of Engineering Science, October 19, 2021. (Virtual Conference)
- Filipov E.T., and Zhu Y. (2021) “Simulating compliant creases, contact, and thickness in origami,” International Congress on Theoretical and Applied Mechanics 2020+1, August 22-27, 2021. (Virtual Conference)
- Zhu, Y., Filipov, E.T. (2021) “Sequentially Working Origami Multi-Physics Simulator (SWOMPS): A Versatile Implementation” ASME IDETC & CIE Conference, August 17 – 19, 2021. (Virtual Conference)
- Wo, Z., Filipov, E.T. (2021) “A numerical and experimental study on the energy absorption characteristics of deployable origami tubes” ASME IDETC & CIE Conference, August 17 – 19, 2021. (Virtual Conference)
- Filipov E.T., and Woodruff S.R. (2021) “Curved-crease origami with multi-directional stiffness,” ASCE Engineering Mechanics Institute, May 25-27, 2021 (Virtual Conference)
- Redoutey, M., Roy, A., and Filipov, E.T. (2021) “Stiff Pop-Up Domes from Flat Kirigami Sheets” ASCE Engineering Mechanics Institute, May 25-27, 2021 (Virtual Conference)
- Zhu, Y., Filipov, E.T. (2021) “Modeling Origami Self-Contact” ASCE Engineering Mechanics Institute, May 25-27, 2021 (Virtual Conference)
- Woodruff S.R., and Filipov E.T. (2021) “Torsion and bending of curved-crease origami: Linking crease pattern geometry to behavior” ASCE Engineering Mechanics Institute – International Conference, March 23, 2021. (Virtual Conference)
- Zhou, M., Kang, D.H., Zhu, Y., Filipov, E.T., Kim, J., and Weiland, J. (2020), Shape Morphable Hydrogel/Elastomer Bilayer for Implanted Retinal Electronics, 2020 Nov 27 – Dec 4, 2020 Virtual MRS Spring/Fall Meeting & Exhibit
- Zhu, Y., Birla, M., Oldham, K., and Filipov, E.T., (2020) Design and Fabrication of Functional Electro-Thermal Micro-Origami, 2020 Nov 16-19, International Mechanical Engineering Congress and Exposition
- Filipov, E.T., Zhu, Y., Birla, M., and Oldham, K. (2020) A simulation framework for the design and fabrication of functional micro-origami, 2020 Nov 16-19, International Mechanical Engineering Congress and Exposition
- Filipov E.T., Woodruff, S, (2020) Curved Creases Enhance the Bending Rigidity of Folded Sheets, 2020 Sept 29- Oct 1, Society of Engineering Science 2020 Virtural Technical Meeting.
- Zhu, Y., and Filipov, E.T. (2020) Modelling Origami Self-Contact for Functional Micro-Origami, 2020 Sept 29- Oct 1, Society of Engineering Science 2020 Virtural Technical Meeting.
- Woodruff S.R. and Filipov E.T., (2020) Curved-crease origami with multi-directional stiffness, 2020 April 8, Online Presentation in Substitution for ASCE Engineering Mechanics Institute – International Conference.
- Zhu, Y., and Filipov, E.T., (2019) “Simulating Contact in Deformable Origami Structures,”- KEYNOTE LECTURE – Society of Engineering Science 2019 Technical Meeting, October 13-15, 2019, Washington University in St. Louis, St. Louis, MO.
- Wang, B., Redoutey, M., Chen, C.Q., and Filipov, E.T. (2019) “A tubular origami design for programmable, functional and
packable robotic structures,” Society of Engineering Science 2019 Technical Meeting, October 13-15, 2019, Washington University in St. Louis, St. Louis, MO. - Sychterz, A., and Filipov, E.,T., (2019) “Actuator optimization for adaptive origami structures,” Society of Engineering Science 2019 Technical Meeting, October 13-15, 2019, Washington University in St. Louis, St. Louis, MO.
- Filipov E.T., and Wo Z. (2019) “Crushing of origami tubes for tunable energy absorption,” ASCE Engineering Mechanics Institute Conference, June 18-21, 2019 Pasadena, CA.
- Woodruff S.R. and Filipov E.T. “Functional anisotropy: exploiting the mechanics of curved-creased origami systems,” ASCE Engineering Mechanics Institute Conference, June 18-21, 2019 Pasadena, CA.
- Filipov, E.T., Woodruff, S., (2019) “Mechanics and Dynamics of Reconfigurable Curved Creased Origami Arrays,” Acoustical Society of America Annual Meeting, Louisville, KY May 13, 2019.
- Wo, Z., Raneses, J., and Filipov, E.T., (2019) “Using tunable origami for active energy absorption,” Bulletin of the American Physical Society, March 4-8, Boston, MA.
- Filipov E.T., Woodruff, S., (2019) “Exploring the mechanics of curved creased origami with a discrete bar and hinge,” Bulletin of the American Physical Society, March 4-8, Boston, MA.
- Filipov, E.T., Liu, K., Tachi, T., Schenk, M., and Paulino, G.H. (2018) “Simulating Origami Facet Bending with a N5B8 Bar and Hinge Model,” 7OSME – 7th Conference on Origami Science, Mathematics, and Engineering, September 5-7, 2018, Oxford, UK.
- Paulino, G.H., Filipov, E.T., and Tachi, T. (2018) “Coupled Origami Tubes for Stiff Deployable Structures,” 7OSME – 7th Conference on Origami Science, Mathematics, and Engineering, September 5-7, 2018, Oxford, UK.
- Wo Z., and Filipov, E.T. (2018) “Geometric Implications for Stress Concentration in Miura Origami,” 13th World Congress on Computational Mechanics / 2nd Pan American Congress on Computational Mechanics (WCCM 2018), July 22-27, 2018, New York, NY. Selected for student paper competition.
- Redoutey, M., and Filipov, E.T. (2018) “Mechanical Characteristics of Origami Hypars,” ASCE Engineering Mechanics Institute Conference, May 29-June 1, 2018, Cambridge, MA.
- Filipov, E.T., and Woodruff S.R. (2018) “The Mechanics of Folding Curved Crease Origami,” ASCE Engineering Mechanics Institute Conference, May 29-June 1, 2018, Cambridge, MA.
- Filipov, E.T., and Redoutey, M. (2018) “Mechanical Instabilities in the Origami Hypar,” Bulletin of the American Physical Society, March 5-9, 2018, Los Angeles CA.
- Filipov, E.T., Paulino, G.H., and Tachi, T. (2017) “A Bar and Hinge Model for Scalable Analysis of Origami Structures and Metamaterials,” Society of Engineering Science 2017 Technical Meeting, July 25-28, 2017, Norhteastern University, Boston, MA.
- Paulino, G.H., Filipov, E.T., and Tachi, T. (2017) “Tubular Origami Assemblages with Tunable Properties,” Society of Engineering Science 2017 Technical Meeting, July 25-28, 2017, Northeastern University, Boston, MA.
- Filipov, E.T., Paulino, G.H., and Tachi, T. (2017) “Origami Tubes Coupled into Reconfigurable Structures and Metamaterials,” ASCE Engineering Mechanics Institute Conference, June 5-7, 2017, San Diego, CA.
- Paulino, G.H., Filipov, E.T., and Tachi, T.(2017) “Tubular Origami Assemblages with Tunable Properties,” ASCE Engineering Mechanics Institute – International Conference, March 19-22, 2017, Rio de Janeiro, Brazil.
- Filipov, E.T., Liu, K., Tachi, T., Schenk, M., and Paulino, G.H. (2017) “A Bar and Hinge Model for Scalable Analysis of Thin Origami,” ASCE Engineering Mechanics Institute – International Conference, March 19-22, 2017, Rio de Janeiro, Brazil.
- Filipov, E.T., Paulino, G.H., and Tachi T. (2015). “Flexible Origami Sheets Assembled into Stiff Reconfigurable Structures,” Society of Engineering Sciences 2015 Technical Meeting, October 26-28, 2015, College Station, TX.
- Filipov, E.T., Paulino, G.H., and Tachi T. (2015). “Reconfiguring Origami Tubes with Polygonal Cross-Sections,” Society of Engineering Sciences 2015 Technical Meeting, October 26-28, 2015, College Station, TX.
- Filipov, E.T., Paulino, G.H., and Tachi T. (2015). “Miura Tubes and Assemblages: Theory and Applications,” American Physical Society March Meeting, March 2-6, 2015, San Antonio, TX.
- Filipov, E.T., Chun, J., Paulino, G.H., and Song, J. (2013). “Topology Optimization for Structural Dynamics: A Polygonal Multiresolution Approach,” ASCE Engineering Mechanics Institute (EMI) Conference, August 4-7, 2013, Evanston, IL.
- Filipov, E.T., Chun, J., Paulino, G.H., and Song, J. (2013). “Polygonal Multiresolution Topology Optimization for Structural Dynamics,” World Congress on Structural and Multidisciplinary Optimization (WCSMO), May 20-24, 2013, Orlando, FL.
- Steelman, J.S., Filipov, E.T., Revell, J.R., LaFave, J.M., Fahnestock, L.A., Hajjar, J.F., and Foutch, D.A. (2013). “Achieving Bridge Resilience through Economical Seismic ‘Quasi-Isolation’ Design using Common Bearing Components,”, Proceedings of 7th National Seismic Conference on Bridges & Highways, May 20-22, 2013, Oakland, CA.
Book Chapters
- Filipov, E.T., Tachi, T., and Paulino, G.H. (2015). “Toward Optimization of Stiffness and Flexibility of Rigid, Flat-Foldable Origami Structures,” In Origami 6, Proc. of the 6th International Meeting on Origami Science, Mathematics, and Education (eds K Miura, T Kawasaki, T Tachi, R Uehara, RJ Lang, P Wang-Iverson), pp. 409–419. Providence, RI: American Mathematical Society.
Technical Reports
- LaFave, J.M., Fahnestock, L.A., Foutch, D.A., Steelman, J.S., Revell, J.R., Filipov, E.T., and Hajjar, J.F. (2013). Experimental Investigation of the Seismic Response of Bridge Bearings, Report No. FHWA-ICT-13-002. Illinois Center for Transportation, Springfield, IL.
- LaFave, J.M., Fahnestock, L.A., Foutch, D.A., Steelman, J.S., Revell, J.R., Filipov, E.T., and Hajjar, J.F. (2013). Seismic Performance of Quasi-Isolated Highway Bridges in Illinois, Report No. FHWA-ICT-13-015. Illinois Center for Transportation, Springfield, IL.