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This research aims to improve the efficiency and accuracy of transient electromagnetic simulations using a novel local time-stepping technique.

February 25, 2026Open Access

A Novel Higher Order Local Time‐Stepping Technique for the DGTD–FDTD Method

Puntos clave

This research aims to improve the efficiency and accuracy of transient electromagnetic simulations using a novel local time-stepping technique.
Developed a higher order local time-stepping technique for the DGTD-FDTD method
Applied higher order equations to grid elements in the simulation
Evaluated method performance through numerical examples
Demonstrated reduced approximation error in simulations
Showed enhanced simulation efficiency without decreasing time step
Successfully modeled practical multiscale targets

Resumen

ABSTRACT A novel higher order local time‐stepping (LTS) technique for the discontinuous Galerkin time‐domain–finite difference time‐domain (DGTD–FDTD) method is proposed to accelerate transient electromagnetic simulations. The higher order equation is applied to the boundary elements or grids between LTS classes to reduce approximation error caused by the LTS. The proposed higher order LTS is incorporated in DGTD–FDTD to avoid the global decrease of the minimum time step and thus boost simulation efficiency, which has not been studied before. Through one numerical example, the accuracy and efficiency of the presented method are demonstrated, showing its ability to model practical multiscale targets.

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Wu et al. (Thu,) studied this question.

synapsesocial.com/papers/699e91d7f5123be5ed04fa3a https://doi.org/https://doi.org/10.1049/ell2.70542

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