基本信息
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职业迁徙
个人简介
Prior to Cambridge Dr Cirak was a Senior/Associate Scientist at the Center for Advanced Computing Research (CACR) at the California Institute of Technology. He has a PhD in Computational Structural Mechanics from the University of Stuttgart and was a Postdoctoral Fellow in Aeronautics and Computer Science at the California Institute of Technology.
Research interests
Dr Cirak's research is focused on computational modelling and analysis of light-weight structures originating from a wide range of applications, including structural engineering, aerospace and marine engineering. Specific areas of research emphasis include:
advanced discretization methods for integrated design, optimisation and analysis of solids and structural components such as beams, membranes and shells,
computational fluid-structure interaction with application to micro-air-vehicle design and insect flight, and
mechanical modelling and computational analysis of large-scale structural membranes, such as parachutes and inflatable decelerators for outer-space applications.
In terms of computational methods development two overriding themes throughout his research are:
the integration of, traditionally disparate, computational analysis and geometry using immersed and b-spline based finite element discretization techniques,
the development of scalable computational methods for simulating challenging engineering problems on high-end parallel computers.
Research interests
Dr Cirak's research is focused on computational modelling and analysis of light-weight structures originating from a wide range of applications, including structural engineering, aerospace and marine engineering. Specific areas of research emphasis include:
advanced discretization methods for integrated design, optimisation and analysis of solids and structural components such as beams, membranes and shells,
computational fluid-structure interaction with application to micro-air-vehicle design and insect flight, and
mechanical modelling and computational analysis of large-scale structural membranes, such as parachutes and inflatable decelerators for outer-space applications.
In terms of computational methods development two overriding themes throughout his research are:
the integration of, traditionally disparate, computational analysis and geometry using immersed and b-spline based finite element discretization techniques,
the development of scalable computational methods for simulating challenging engineering problems on high-end parallel computers.
研究兴趣
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CoRR (2024)
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Computer-Aided Design (2024): 103730
Structural and Multidisciplinary Optimizationno. 2 (2024): 1-19
CoRR (2024)
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Journal of Computational Physics (2023): 112369-112369
COMPUTERS & STRUCTURES (2023): 107163-107163
arXiv (Cornell University)pp.34759-34778, (2023)
Journal of Guidance, Control, and Dynamicsno. 3 (2023): 499-517
ASME letters in dynamic systems and controlno. 1 (2023)
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