Numerical solution of ideal MHD equilibrium via radial basis functions collocation and moving least squares approximation methods

Ghasemi, M.; Amrollahi, R.

doi:10.1016/j.enganabound.2016.02.008

Cited by 6 publications

(4 citation statements)

References 46 publications

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“…In order to deal with the semi-linearity of the problem we will resort to an iterative strategy. Due to their simplicity and effectiveness, straightforward fixed-point iterations (also known as a Picard iterations) of the style −∆ * ψ n = F(r, z, ψ n−1 ) have been preferred in many applications [11,12,17,18,19,20,22]. We choose to follow a similar strategy, but enhance it with two simple yet effective acceleration methods.…”

Section: Accelerated Fixed-point Iterationsmentioning

confidence: 99%

“…have been preferred in many applications [11,12,17,18,19,20,22]. We choose to follow a similar strategy, but enhance it with two simple yet effective acceleration methods.…”

Section: Accelerated Fixed-point Iterationsmentioning

confidence: 99%

“…Some other recent alternatives that have attracted attention include the hybrid approach EEC-ESC that couples Hermite elements near the plasma edge with Fourier decomposition methods in the plasma core [20], the use of meshless methods [21,22], the use of approximate particular solutions [23], and the method of fundamental solutions [24].…”

Section: Introductionmentioning

confidence: 99%

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A Hybridizable Discontinuous Galerkin solver for the Grad–Shafranov equation

Sánchez-Vizuet

Solano

2019

Computer Physics Communications

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Section: Accelerated Fixed-point Iterationsmentioning

confidence: 99%

“…have been preferred in many applications [11,12,17,18,19,20,22]. We choose to follow a similar strategy, but enhance it with two simple yet effective acceleration methods.…”

Section: Accelerated Fixed-point Iterationsmentioning

confidence: 99%

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A Hybridizable Discontinuous Galerkin solver for the Grad–Shafranov equation

Sánchez-Vizuet

Solano

2019

Computer Physics Communications

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“…5a and b show fitted curves of the maximum rotation angles of adduction and abduction, which changed with the rotation angles of the dorsal flexure or plantar flexion. We used MATLAB to obtain the fitted equations and curves using the least square method to fit the final data, represented by dots [18][19][20][21][22]. From the graphs, we can see that when the rotation angles of the plantar flexion and dorsal flexure decrease, the maximum rotation angles of adduction and abduction increase.…”

Section: The Simulationmentioning

confidence: 99%

Measuring the 3D motion space of the human ankle

Xiao¹,

Zhang²,

Zhao³

et al. 2017

THC

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Abstract. BACKGROUND:The 3D motion space of the human ankle is an important area of study in medicine. The 3D motion space can provide significant information for establishing more reasonable rehabilitation procedures and standards of ankle injury care. OBJECTIVE: This study aims to measure the 3D motion space of the human ankle and to use mathematical methods to quantify it. METHODS: A motion capturing system was used to simultaneously capture the 3D coordinates of points marked on the foot, and convert these coordinate values into rotation angles through trigonometric functions and vectors. The mathematical expression of the ankle's motion space was obtained by screening, arranging, and fitting the converted data. RESULTS: The mathematical expression of the 3D motion space of the participants was obtained. We statistically analyzed the data and learned that, in terms of 3D motion space, the right foot is more flexible than the left foot and the female foot is more flexible than the male foot. CONCLUSIONS: The adduction and abduction rotation ranges are affected by the plantar flexion or dorsal flexure rotation angles. This relationship can be expressed mathematically, which is significant in the study of the ankle joint.

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