T
Tadayoshi Matsumori
Researcher at Toyota
Publications - 26
Citations - 587
Tadayoshi Matsumori is an academic researcher from Toyota. The author has contributed to research in topics: Topology optimization & Computer science. The author has an hindex of 7, co-authored 20 publications receiving 425 citations. Previous affiliations of Tadayoshi Matsumori include Kanazawa University.
Papers
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Heaviside projection based topology optimization by a PDE-filtered scalar function
Atsushi Kawamoto,Tadayoshi Matsumori,Shintaro Yamasaki,Tsuyoshi Nomura,Tsuguo Kondoh,Shinji Nishiwaki +5 more
TL;DR: In this paper, a Heaviside projection based topology optimization method with a scalar function that is filtered by a Helmholtz type partial differential equation is proposed, where the optimality can be strictly discussed in terms of the KKT condition.
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Topology optimization for fluid---thermal interaction problems under constant input power
TL;DR: A way to control the input power by introducing an extra integral equation in the fluid analysis is proposed, which can keep the inlet power constant even when the flow channels are changed in the optimization process.
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General topology optimization method with continuous and discrete orientation design using isoparametric projection
Tsuyoshi Nomura,Ercan M. Dede,Jaewook Lee,Shintaro Yamasaki,Tadayoshi Matsumori,Atsushi Kawamoto,Noboru Kikuchi +6 more
TL;DR: In this article, a general topology optimization method for simultaneous design of density and orientation of anisotropic material is proposed by introducing orientation design variables in addition to the density design variable.
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Drag minimization and lift maximization in laminar flows via topology optimization employing simple objective function expressions based on body force integration
TL;DR: In this paper, the objective function is expressed as a body force integration in the flow domain, and a similar expression of objective function was given for lift maximization problems, and the optimum shapes of bodies in incompressible axisymmetric and two-dimensional flows were numerically investigated.
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Traffic Signal Optimization on a Square Lattice with Quantum Annealing
TL;DR: In this article, the authors developed a method for globally controlling traffic signals arranged on a square lattice by means of a quantum annealing machine, namely the D-Wave Quantum Annealer.