Feng Jia scite author profile

A high-level, flexible and hardware-independent approach to sequence programming is ideal for the rapid development of new sequences. The framework is currently not suitable for large patient studies or routine scanning although this would be possible with deeper integration into existing workflows. Magn Reson Med 77:1544-1552, 2017. © 2016 International Society for Magnetic Resonance in Medicine.

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An adaptive finite element algorithm with reliable and efficient error control for linear parabolic problems

Chen

Jia

2004

Math. Comp.

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Abstract. An efficient and reliable a posteriori error estimate is derived for linear parabolic equations which does not depend on any regularity assumption on the underlying elliptic operator. An adaptive algorithm with variable time-step sizes and space meshes is proposed and studied which, at each time step, delays the mesh coarsening until the final iteration of the adaptive procedure, allowing only mesh and time-step size refinements before. It is proved that at each time step the adaptive algorithm is able to reduce the error indicators (and thus the error) below any given tolerance within a finite number of iteration steps. The key ingredient in the analysis is a new coarsening strategy. Numerical results are presented to show the competitive behavior of the proposed adaptive algorithm.

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Development and implementation of an 84‐channel matrix gradient coil

Littin

Jia

Layton

et al. 2017

Magnetic Resonance in Med

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Feng Jia

Pulseq: A rapid and hardware-independent pulse sequence prototyping framework

An adaptive finite element algorithm with reliable and efficient error control for linear parabolic problems

Development and implementation of an 84‐channel matrix gradient coil

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