Results 241 to 250 of about 36,810,401 (291)
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Remarks on a new particle method
Journal of Computational PhysicszbMATH Open Web Interface contents unavailable due to conflicting licenses.
Bruno Després, Ronald A. Remmerswaal
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ON PARTICLE WEIGHTED METHODS AND SMOOTH PARTICLE HYDRODYNAMICS
Mathematical Models and Methods in Applied Sciences, 1999This paper deal with designing of weighted particle approximation of conservation laws. New ideas concerning the use of variable smoothing length, renormalization and the use of Godunov type finite difference fluxes in particle methods are introduced and discussed in connection with standard implementation of the SPH method.
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The choice of the number of particles for the “particles in cells” method
USSR Computational Mathematics and Mathematical Physics, 1987The step operator error for a finite number of particles in a cell N is estimated for the ``particles in cells'' method in steady flows. Conclusions on the convergence of the method are drawn from this. The value of the necessity to obtain a required accuracy in the solution is indicated.
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Production methods for viral particles
Biotechnology Letters, 2014Viral particles and virus-like particles (VLPs) or capsids are becoming important vehicles and templates in bio-imaging, drug delivery and materials sciences. Viral particles are prepared by infecting the host organism but VLPs are obtained from cells that express a capsid protein.
Kodai, Machida, Hiroaki, Imataka
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SIAM Journal on Scientific and Statistical Computing, 1982
The theme of this paper is that particle methods are closely related to both finite difference and spectral methods because the three methods can be considered special cases of interpolation by kernel estimation. The kernels for a number of special cases are given in detail, and the accuracy of the resulting interpolation is analyzed.
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The theme of this paper is that particle methods are closely related to both finite difference and spectral methods because the three methods can be considered special cases of interpolation by kernel estimation. The kernels for a number of special cases are given in detail, and the accuracy of the resulting interpolation is analyzed.
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The Impulse Particle‐In‐Cell Method
Computer Graphics ForumAbstractAn ongoing challenge in fluid animation is the faithful preservation of vortical details, which impacts the visual depiction of flows. We propose the Impulse Particle‐In‐Cell (IPIC) method, a novel extension of the popular Affine Particle‐In‐Cell (APIC) method that makes use of the impulse gauge formulation of the fluid equations.
Sergio Sancho +3 more
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Methods for Cell and Particle Tracking
2012Achieving complete understanding of any living thing inevitably requires thorough analysis of both its anatomic and dynamic properties. Live-cell imaging experiments carried out to this end often produce massive amounts of time-lapse image data containing far more information than can be digested by a human observer.
Meijering, Erik +2 more
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