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ORCIDFehmi Cirak
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2020 – today
- 2024
[j9]Eky Febrianto
, Jakub Sístek, Pavel Kus, Matija Kecman, Fehmi Cirak:
A Three-Grid High-Order Immersed Finite Element Method for the Analysis of CAD Models. Comput. Aided Des. 173: 103730 (2024)- [i27]Eky Febrianto, Jakub Sístek, Pavel Kus, Matija Kecman, Fehmi Cirak:
A three-grid high-order immersed finite element method for the analysis of CAD models. CoRR abs/2401.07823 (2024) - [i26]Dewangga Alfarisy, Lavi Rizki Zuhal, Michael Ortiz, Fehmi Cirak, Eky Febrianto:
Point collocation with mollified piecewise polynomial approximants for high-order partial differential equations. CoRR abs/2402.16548 (2024) - [i25]Thomas A. Archbold, Ieva Kazlauskaite, Fehmi Cirak:
Variational Bayesian surrogate modelling with application to robust design optimisation. CoRR abs/2404.14857 (2024) - 2023
- [j8]Arnaud Vadeboncoeur, Ömer Deniz Akyildiz, Ieva Kazlauskaite, Mark Girolami, Fehmi Cirak:
Fully probabilistic deep models for forward and inverse problems in parametric PDEs. J. Comput. Phys. 491: 112369 (2023) - [c2]Arnaud Vadeboncoeur, Ieva Kazlauskaite, Yanni Papandreou, Fehmi Cirak, Mark Girolami, Ömer Deniz Akyildiz:
Random Grid Neural Processes for Parametric Partial Differential Equations. ICML 2023: 34759-34778 - [i24]Arnaud Vadeboncoeur, Ieva Kazlauskaite, Yanni Papandreou, Fehmi Cirak, Mark Girolami, Ömer Deniz Akyildiz:
Random Grid Neural Processes for Parametric Partial Differential Equations. CoRR abs/2301.11040 (2023) - [i23]Kim Jie Koh, Fehmi Cirak:
Stochastic PDE representation of random fields for large-scale Gaussian process regression and statistical finite element analysis. CoRR abs/2305.13879 (2023) - [i22]Ismael Ben-Yelun, Ahmet Oguzhan Yuksel, Fehmi Cirak:
Robust topology optimisation of lattice structures with spatially correlated uncertainties. CoRR abs/2308.14958 (2023) - [i21]Burigede Liu, Michael Ortiz, Fehmi Cirak:
Towards Quantum Computational Mechanics. CoRR abs/2312.03791 (2023) - 2022
- [i20]Arion Pons, Fehmi Cirak:
Multiaxis nose-pointing-and-shooting in a biomimetic morphing-wing aircraft. CoRR abs/2201.03601 (2022) - [i19]Toni Karvonen, Fehmi Cirak, Mark Girolami:
Error analysis for a statistical finite element method. CoRR abs/2201.07543 (2022) - [i18]Arion Pons, Fehmi Cirak:
Pitch-axis supermanoeuvrability in a biomimetic morphing-wing aircraft. CoRR abs/2205.09431 (2022) - [i17]Arion Pons, Fehmi Cirak:
Quaternion variational integration for inertial maneuvering in a biomimetic UAV. CoRR abs/2206.09847 (2022) - [i16]Arnaud Vadeboncoeur, Ömer Deniz Akyildiz, Ieva Kazlauskaite, Mark Girolami, Fehmi Cirak:
Deep Probabilistic Models for Forward and Inverse Problems in Parametric PDEs. CoRR abs/2208.04856 (2022) - 2021
- [i15]Eky Febrianto, Liam J. Butler, Mark Girolami, Fehmi Cirak:
A Self-Sensing Digital Twin of a Railway Bridge using the Statistical Finite Element Method. CoRR abs/2103.13729 (2021) - [i14]Xiao Xiao, Fehmi Cirak:
Concurrent infill topology and shape optimisation of lattice-skin structures. CoRR abs/2105.04017 (2021) - [i13]Sumudu Herath, Xiao Xiao, Fehmi Cirak:
Computational modelling and data-driven homogenisation of knitted membranes. CoRR abs/2107.05707 (2021) - [i12]Kim Jie Koh, Deepesh Toshniwal, Fehmi Cirak:
An optimally convergent smooth blended B-spline construction for unstructured quadrilateral and hexahedral meshes. CoRR abs/2111.04401 (2021) - 2020
- [j7]Fehmi Cirak, Malcolm A. Sabin:
Adding quadric fillets to quador lattice structures. Comput. Aided Des. 118 (2020)
2010 – 2019
- 2019
- [i11]Qiaoling Zhang, Thomas Takacs, Fehmi Cirak:
Manifold-based B-splines on unstructured meshes. CoRR abs/1901.10759 (2019) - [i10]Xiao Xiao, Laurent Busé, Fehmi Cirak:
A non-iterative method for robustly computing the intersections between a line and a curve or surface. CoRR abs/1902.01814 (2019) - [i9]Qiaoling Zhang, Fehmi Cirak:
Manifold-based isogeometric analysis basis functions with prescribed sharp features. CoRR abs/1904.03258 (2019) - [i8]Ge Yin, Xiao Xiao, Fehmi Cirak:
Topologically robust CAD model generation for structural optimisation. CoRR abs/1906.07631 (2019) - [i7]Fehmi Cirak, Malcolm A. Sabin:
Filletting Quador Lattice Structures. CoRR abs/1908.06974 (2019) - [i6]Eky Febrianto, Michael Ortiz, Fehmi Cirak:
Mollified finite element approximants of arbitrary order and smoothness. CoRR abs/1910.04002 (2019) - 2018
- [j6]Kosala Bandara, Fehmi Cirak:
Isogeometric shape optimisation of shell structures using multiresolution subdivision surfaces. Comput. Aided Des. 95: 62-71 (2018) - [j5]Qiaoling Zhang, Malcolm A. Sabin, Fehmi Cirak:
Subdivision surfaces with isogeometric analysis adapted refinement weights. Comput. Aided Des. 102: 104-114 (2018) - [i5]Qiaoling Zhang, Malcolm A. Sabin, Fehmi Cirak:
Subdivision surfaces with isogeometric analysis adapted refinement weights. CoRR abs/1804.05112 (2018) - [i4]Xiao Xiao, Malcolm A. Sabin, Fehmi Cirak:
Interrogation of spline surfaces with application to isogeometric design and analysis of lattice-skin structures. CoRR abs/1810.07982 (2018) - 2016
- [j4]Thomas Rüberg, Fehmi Cirak, José Manuel García-Aznar:
An unstructured immersed finite element method for nonlinear solid mechanics. Adv. Model. Simul. Eng. Sci. 3(1): 22:1-22:28 (2016) - [i3]Musabbir Majeed, Fehmi Cirak:
Isogeometric analysis using manifold-based smooth basis functions. CoRR abs/1605.00423 (2016) - [i2]Kosala Bandara, Fehmi Cirak:
Isogeometric shape optimisation of shell structures using multiresolution subdivision surfaces. CoRR abs/1605.06288 (2016) - 2015
- [j3]Kosala Bandara, Fehmi Cirak, Günther Of, Olaf Steinbach, Jan Zapletal:
Boundary element based multiresolution shape optimisation in electrostatics. J. Comput. Phys. 297: 584-598 (2015) - [i1]Kosala Bandara, Thomas Rüberg, Fehmi Cirak:
Shape optimisation with multiresolution subdivision surfaces and immersed finite elements. CoRR abs/1510.02719 (2015)
2000 – 2009
- 2008
- [j2]Fehmi Cirak, Julian C. Cummings:
Generic programming techniques for parallelizing and extending procedural finite element programs. Eng. Comput. 24(1): 1-16 (2008) - 2006
- [c1]Ralf Deiterding, Fehmi Cirak, Sean Mauch, Daniel I. Meiron:
A Virtual Test Facility for Simulating Detonation-Induced Fracture of Thin Flexible Shells. International Conference on Computational Science (2) 2006: 122-130 - 2002
- [j1]Fehmi Cirak, Michael J. Scott, Erik K. Antonsson, Michael Ortiz, Peter Schröder:
Integrated modeling, finite-element analysis, and engineering design for thin-shell structures using subdivision. Comput. Aided Des. 34(2): 137-148 (2002)
Coauthor Index
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last updated on 2024-10-07 22:09 CEST by the dblp team
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