Large‐Time Asymptotics for Periodic Solutions of the Modified Burgers Equation

Sachdev, P. L.; Rao, Ch. Srinivasa; Enflo, B. O.

doi:10.1111/j.0022-2526.2005.01551.x

Cited by 30 publications

(24 citation statements)

References 5 publications

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“…(i) for t ≥ 100 a convergence of the numerical solution to the analytical one appears, (ii) for t ≥ 250 the MPC method has given results more accurate than the corresponding ones in [45], (iii) from t = 300 instead of t = 450 in [35] no visible differences in the curves of u and U (see Fig. 2) appear.…”

Section: Mbe3 Equationmentioning

confidence: 92%

“…The MBE equation, which has the strong nonlinear aspects of the governing equation ( is used in many practical transport problems such as those of nonlinear waves in a medium with low-frequency pumping or absorption, ion reflection at quasi-perpendicular shocks, turbulence transport, wave processes in thermoelastic media, transport and dispersion of pollutants in rivers and sediment transport, etc. Theoretical solutions of the MBE equation are found in, among other references, Harris [33], Sachdev and Rao [34], Sachdev et al [35], Inan and Ugurlu [36], while numerical solutions are found in Ramadan and El-Danaf [37] using the collocation method with quintic splines, Ramadan et al [38] with finite elements with a method based on the collocation of septic B-splines, Dağ et al [39] with finite elements with a method based on the collocation of cubic B-splines, Dağ et al [40] using both quadratic and cubic B-spline Galerkin finite-element methods, Saka and Dağ [41] with the use of a quartic B-spline collocation method, Saka and Dağ [42] with the use of a quintic B-spline collocation method, Irk [43] with the sextic B-spline collocation method, Temsah [44] using the El-Gendi method, Duan et al [45] using a lattice Boltzmann model, etc. The initial condition associated with Eq.…”

Section: Introductionmentioning

confidence: 95%

“…The MBE3 equation [35] using as initial condition Table 3 MBE2 equation. Comparisons for the proposed method (h = 0.001 and = 10 −5 ).…”

Section: Mbe3 Equationmentioning

confidence: 99%

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A fourth-order numerical scheme for solving the modified Burgers equation

Bratsos

2010

Computers & Mathematics with Applications

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a b s t r a c tA finite-difference scheme based on fourth-order rational approximants to the matrixexponential term in a two-time level recurrence relation is proposed for the numerical solution of the modified Burgers equation. The resulting nonlinear system, which is analyzed for stability, is solved using an already known modified predictor-corrector scheme. The results arising from the experiments are compared with the corresponding ones known from the available literature.

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Section: Mbe3 Equationmentioning

confidence: 92%

Section: Introductionmentioning

confidence: 95%

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A fourth-order numerical scheme for solving the modified Burgers equation

Bratsos

2010

Computers & Mathematics with Applications

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“…Example Consider MBE‐III equation (Equation with η = 3) with initial condition

u (x, 0) = A \sin (\frac{π italicx}{d}), 0 < x < 1,

using d = π and A = 1 subject to boundary conditions:

u (0, t) = 0, 0 \leq t \leq T,

u (1, t) = 0, 0 \leq t \leq T .

Sachdev et al constructed a solution to the above problem by means of asymptotic expansion and it can be represented as:

u (x, t) = e^{- kt} f_{0} (x, t) + e^{- 4 kt} f_{1} (x, t) + e^{- 7 kt} f_{2} (x, t) + \dots

where

\begin{array}{l} f_{0} ((),, x, t) & = A_{1} \sin ((), \frac{π x}{d}), \\ f_{1} ((),, x, t) & = B_{1} t \sin ((), \frac{2 π italicx}{d}) + B_{2} \sin ((), \frac{4 π italicx}{d}), \\ f_{2} ((),, x, t) & = g_{3} ((), t) \sin ((), \frac{2 π italicx}{d}) + g_{4} ((), t) \sin ((), 3 π<...>) \end{array}

…”

Section: Numerical Experiments and Discussionmentioning

confidence: 99%

Quintic trigonometric spline based numerical scheme for nonlinear modified Burgers' equation

Nair

Awasthi

2019

Numerical Methods Partial

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This paper presents a numerical method based on quintic trigonometric B‐splines for solving modified Burgers' equation (MBE). Here, the MBE is first discretized in time by Crank–Nicolson scheme and the resulting scheme is solved by quintic trigonometric B‐splines. The proposed method tackles nonlinearity by using a linearization process known as quasilinearization. A rigorous analysis of the stability and convergence of the proposed method are carried out, which proves that the method is unconditionally stable and has order of convergence O(h4 + k2). Numerical results presented are very much in accordance with the exact solution, which is established by the negligible values of L2 and L∞ errors. Computational efficiency of the scheme is proved by small values of CPU time. The method furnishes results better than those obtained by using most of the existing methods for solving MBE.

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“…Periodic problem for the Hopf equation was studied in paper [15]. The asymptotic behavior for large time of solutions to the periodic problem for the generalized Burgers equations was studied in papers [18,23]. The existence of unique global solutions for the periodic problem to Korteweg-de Vries-Burgers equation was proved, and estimates of the large time decay rates of solutions were found in papers [2,16,22].…”

Section: Introductionmentioning

confidence: 99%

Asymptotics of solutions to the periodic problem for a Burgers type equation

Naumkin

Rojas-Milla

2010

J. Evol. Equ.

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We study large time asymptotic behavior of solutions to the periodic problem for the nonlinear Burgers type equationwhere = [−π, π], λ < 1. We prove that if the initial data ψ ∈ L 2 ( ), then there exists a unique solution ψ(t, x) ∈ C [0, ∞); L 2 ( ) ∩ C ∞ ((0, ∞) × R) of the periodic problem. Moreover, under some additional conditions we find the asymptotic expansion for the solutions.

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Large‐Time Asymptotics for Periodic Solutions of the Modified Burgers Equation

Abstract: In this paper, we construct large-time asymptotic solution of the modified Burgers equation with sinusoidal initial conditions by using a balancing argument. These asymptotics are validated by a careful numerical study.

Cited by 30 publications

References 5 publications

A fourth-order numerical scheme for solving the modified Burgers equation

A fourth-order numerical scheme for solving the modified Burgers equation

Quintic trigonometric spline based numerical scheme for nonlinear modified Burgers' equation

Asymptotics of solutions to the periodic problem for a Burgers type equation

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