핵심 개념
Stability and error bounds of a semi-explicit fourth-order vector compact scheme for the multidimensional acoustic wave equation are proven.
초록
The content discusses a three-level semi-explicit in time higher-order vector compact scheme for the multidimensional acoustic wave equation. Stability and 4th order error bound in an enlarged energy norm are derived. Results from 3D numerical experiments show high accuracy for smooth data, outperforming explicit 2nd order schemes for nonsmooth data. The scheme's implementation does not require iterations, demonstrating advantages over implicit schemes. Various stability theorems and error bounds are discussed, emphasizing conditional stability inherent to compact 4th order schemes.
- Introduction:
- Study continuation on semi-explicit fourth-order vector compact scheme.
- Use of additional sought functions approximating spatial derivatives.
- Acoustic Wave Equation and Scheme:
- Initial-boundary value problem formulation.
- Three-level semi-explicit in time vector compact scheme details.
- Stability Analysis:
- Theorem on stability in enlarged energy norm derived.
- Corresponding 4th order error bound established.
- Numerical Experiments:
- Conducted on various tests with smooth and nonsmooth data.
- Convergence rates analyzed based on mesh parameters N and M.
- Error Bounds:
- Error analysis shows excellent results with convergence rates close to theoretical values.
- Practical Implementation:
- Code written in C language for x64 architecture with detailed computational specifications provided.
통계
For a variable speed of sound, ρ(x)∂2t u(x, t) −Lu(x, t) = f(x, t), where L := a21∂21 + ... + a2n∂2n.
Stability theorem: max(ε0∥vm∥Bh, ∥Imht¯stv∥Ah) ⩽ ∥v0∥Bh + 2∥A−1/2hu(1)∥h + 2A−1/2hφ˜L1ht(Hh).
Error bound: √εε0max(ρ1/2‖¯δtrm‖h, ‖rm‖Eh, ‖ImhtEhr‖Iρh) = O(|h|4).