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Stability of Partial Functional Integro-Differential Equations
Journal of Dynamical and Control Systems, 2006zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Agarwal, R. P. +2 more
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Hypergeometric Functions and Parabolic Partial Differential Equations
Journal of Dynamical and Control Systems, 2005zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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Partial averaging of functional differential equations
Proceedings of the 38th IEEE Conference on Decision and Control (Cat. No.99CH36304), 2003Develops a framework for averaging functional differential equations (FDEs) with two time scales. Averaging is performed on the fast time system, while slow time is 'frozen.' This creates an averaged equation which is slowly time-varying, hence the terminology of partial averaging.
B. Lehman, S.P. Weibel
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Functional Analysis and Partial Differential Equations
2000[no abstract available]
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Partial Hyperbolic Functional Differential Equations
2012In this chapter, we shall present existence results for some classes of IVP for partial hyperbolic differential equations with fractional order.
Saïd Abbas +2 more
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Function Spaces and Partial Differential Equations
2015AbstractThis book presents a comprehensive treatment of aspects of classical and modern analysis relating to theory of ‘partial differential equations’ and the associated ‘function spaces’. It begins with a quick review of basic properties of harmonic functions and Poisson integrals and then moves into a detailed study of Hardy spaces.
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Green’s Functions for Partial Differential Equations
1985So far, we have considered Green’s functions only for ordinary differential equations, i.e., in one-dimensional problems. However, Green’s functions are useful for multidimensional spaces and general curvilinear coordinates as well as Cartesian coordinates.
Richard Bellman, George Adomian
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Numerical solution of retarded functional differential equations as partial differential equations
IFAC Proceedings Volumes, 2000Abstract The initial value problem for Delay Differential Equations (DDEs) (1) y 1 ( t ) = f ( t , y ( t ) , y ( t − τ 1 ) , … , y ( t − τ n ) ) , t ≥ t 0 , y ( t ) = φ ( t ) , t ≤ t 0 .
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Generating Functions, Difference-Differential and Partial-Differential Equations
IEEE Transactions on Education, 1970A series solution approach to solving partial-differential equations can be based on difference-differential equations. The approach is explained and used to obtain an analytic solution in examples. Computational methods can be used to obtain a finite number of the series coefficient functions, and hence an approximate solution.
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