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  • 1990-1994  (14)
  • 11
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    On the removal of boundary errors caused by Runge-Kutta integration of non-linear partial differential equations (1994)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: It has been previously shown that the temporal integration of hyperbolic partial differential equations (PDE's) may, because of boundary conditions, lead to deterioration of accuracy of the solution. A procedure for removal of this error in the linear case has been established previously. In the present paper we consider hyperbolic (PDE's) (linear and non-linear) whose boundary treatment is done via the SAT-procedure. A methodology is present for recovery of the full order of accuracy, and has been applied to the case of a 4th order explicit finite difference scheme.
    Keywords: NUMERICAL ANALYSIS
    Type: AD-A288759 , ICASE-94-79 , NAS 1.26:194989 , NASA-CR-194989
    Format: application/pdf
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  • 12
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    The theoretical accuracy of Runge-Kutta time discretizations for the initial boundary value problem: A careful study of the boundary error (1993)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: The conventional method of imposing time dependent boundary conditions for Runge-Kutta (RK) time advancement reduces the formal accuracy of the space-time method to first order locally, and second order globally, independently of the spatial operator. This counter intuitive result is analyzed in this paper. Two methods of eliminating this problem are proposed for the linear constant coefficient case: (1) impose the exact boundary condition only at the end of the complete RK cycle, (2) impose consistent intermediate boundary conditions derived from the physical boundary condition and its derivatives. The first method, while retaining the RK accuracy in all cases, results in a scheme with much reduced CFL condition, rendering the RK scheme less attractive. The second method retains the same allowable time step as the periodic problem. However it is a general remedy only for the linear case. For non-linear hyperbolic equations the second method is effective only for for RK schemes of third order accuracy or less. Numerical studies are presented to verify the efficacy of each approach.
    Keywords: NUMERICAL ANALYSIS
    Type: NASA-CR-191561 , NAS 1.26:191561 , ICASE-93-83 , AD-A274824
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  • 13
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    The stability of numerical boundary treatments for compact high-order finite-difference schemes (1991)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: The stability characteristics of various compact fourth and sixth order spatial operators are assessed using the theory of Gustafsson, Kreiss and Sundstrom (G-K-S) for the semi-discrete Initial Boundary Value Problem (IBVP). These results are then generalized to the fully discrete case using a recently developed theory of Kreiss. In all cases, favorable comparisons are obtained between the G-K-S theory, eigenvalue determination, and numerical simulation. The conventional definition of stability is then sharpened to include only those spatial discretizations that are asymptotically stable. It is shown that many of the higher order schemes which are G-K-S stable are not asymptotically stable. A series of compact fourth and sixth order schemes, which are both asymptotically and G-K-S stable for the scalar case, are then developed.
    Keywords: NUMERICAL ANALYSIS
    Type: NASA-CR-187628 , NAS 1.26:187628 , ICASE-91-71 , AD-A241939
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  • 14
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    Time-stable boundary conditions for finite-difference schemes solving hyperbolic systems: Methodology and application to high-order compact schemes (1994)
    In:  Other Sources
    Details
    Publication Date: 2019-07-13
    Description: We present a systematic method for constructing boundary conditions (numerical and physical) of the required accuracy, for compact (Pade-like) high-order finite-difference schemes for hyperbolic systems. First a proper summation-by-parts formula is found for the approximate derivative. A 'simultaneous approximation term' is then introduced to treat the boundary conditions. This procedure leads to time-stable schemes even in the system case. An explicit construction of the fourth-order compact case is given. Numerical studies are presented to verify the efficacy of the approach.
    Keywords: FLUID MECHANICS AND HEAT TRANSFER
    Type: Journal of Computational Physics (ISSN 0021-9991); 111; 2; p. 220-236
    Format: text
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