Special Topics in Differential Equations with Applications

A special issue of Axioms (ISSN 2075-1680). This special issue belongs to the section "Mathematical Analysis".

Deadline for manuscript submissions: closed (2 July 2024) | Viewed by 23756

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Department of Mathematics, Kafkas University, Kars, Turkey
Interests: applied mathematics; partial differential equations; ordinary differential equations; mathematical physics; fractional calculus

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Departamento de Matemática Aplicada y Estadística, Universidad Politécnica de Cartagena, Cartagena, Spain
Interests: fractional calculus; real analysis; complex analysis; mathematical physics; numerical analysis; computational science; mathematical modeling; theoretical physics; signal processing
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Chinese Institute of Electric Power, Samarkand International University of Technology, Samarkand 140100, Uzbekistan
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Special Issue Information

Dear Colleagues,

In science and engineering, differential equations play an important role in all models and systems. This topic is very special due to the variety of classes for differential equations, and the fact that each class is essential while studying applied sciences and engineering.

Some examples of the most interesting special topics in differential equations include fractional differential equations, nonlinear partial differential equations, fractal fractional differential equations, sequential fractional pantograph q-differential equations, and stochastic differential equations. Each of these topics arises in various subjects such as control theory, signal processing, fluid dynamics, plasma physics, quantum field theory, electric circuits, and nonlinear fiber optics. All these topics can be investigated theoretically and numerically with the help of many new or generalized mathematical tools and numerical techniques. The main aim of this Special Issue is to create a collection of the state-of-the-art research studies on special topics in differential equations with applications in science and engineering to provide researchers with the most recent advances in these topics, which are very important in modeling various scientific phenomena.

You may choose our Joint Special Issue in Symmetry [ISSN 2073-8994, SCIE Indexed, IF: 2.940].

Dr. Hatıra Günerhan
Dr. Francisco Martínez González
Dr. Mohammed K. A. Kaabar
Guest Editors

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Keywords

  • fractal fractional differential equations
  • sequential fractional pantograph q-differential equations
  • nonlinear partial differential equations
  • deterministic and stochastic differential equations
  • boundary value problems
  • mathematical fluid dynamics
  • complex dynamics of mathematical models
  • controllability of differential systems

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Published Papers (19 papers)

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22 pages, 353 KiB  
Article
Ground State Solutions for a Non-Local Type Problem in Fractional Orlicz Sobolev Spaces
by Liben Wang, Xingyong Zhang and Cuiling Liu
Axioms 2024, 13(5), 294; https://doi.org/10.3390/axioms13050294 - 27 Apr 2024
Viewed by 793
Abstract
In this paper, we study the following non-local problem in fractional Orlicz–Sobolev spaces: [...] Read more.
In this paper, we study the following non-local problem in fractional Orlicz–Sobolev spaces: (ΔΦ)su+V(x)a(|u|)u=f(x,u), xRN, where (ΔΦ)s(s(0,1)) denotes the non-local and maybe non-homogeneous operator, the so-called fractional Φ-Laplacian. Without assuming the Ambrosetti–Rabinowitz type and the Nehari type conditions on the non-linearity f, we obtain the existence of ground state solutions for the above problem with periodic potential function V(x). The proof is based on a variant version of the mountain pass theorem and a Lions’ type result in fractional Orlicz–Sobolev spaces. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
22 pages, 353 KiB  
Article
More Effective Criteria for Testing the Asymptotic and Oscillatory Behavior of Solutions of a Class of Third-Order Functional Differential Equations
by Fahd Masood, Osama Moaaz, Ghada AlNemer and Hamdy El-Metwally
Axioms 2023, 12(12), 1112; https://doi.org/10.3390/axioms12121112 - 11 Dec 2023
Cited by 2 | Viewed by 1112
Abstract
This paper delves into the investigation of quasi-linear neutral differential equations in the third-order canonical case. In this study, we refine the relationship between the solution and its corresponding function, leading to improved preliminary results. These enhanced results play a crucial role in [...] Read more.
This paper delves into the investigation of quasi-linear neutral differential equations in the third-order canonical case. In this study, we refine the relationship between the solution and its corresponding function, leading to improved preliminary results. These enhanced results play a crucial role in excluding the existence of positive solutions to the investigated equation. By building upon the improved preliminary results, we introduce novel criteria that shed light on the nature of these solutions. These criteria help to distinguish whether the solutions exhibit oscillatory behavior or tend toward zero. Moreover, we present oscillation criteria for all solutions. To demonstrate the relevance of our results, we present an illustrative example. This example validates the theoretical framework we have developed and offers practical insights into the behavior of solutions for quasi-linear third-order neutral differential equations. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
13 pages, 292 KiB  
Article
More Effective Conditions for Testing the Oscillatory Behavior of Solutions to a Class of Fourth-Order Functional Differential Equations
by Hail S. Alrashdi, Osama Moaaz, Sameh S. Askar, Ahmad M. Alshamrani and Elmetwally M. Elabbasy
Axioms 2023, 12(11), 1005; https://doi.org/10.3390/axioms12111005 - 25 Oct 2023
Cited by 1 | Viewed by 938
Abstract
This paper presents an investigation into the qualitative behavior of solutions for a specific class of fourth-order half-linear neutral differential equations. The main objective of this study is to improve the relationship between the solution and its corresponding function. By developing improved relationships, [...] Read more.
This paper presents an investigation into the qualitative behavior of solutions for a specific class of fourth-order half-linear neutral differential equations. The main objective of this study is to improve the relationship between the solution and its corresponding function. By developing improved relationships, a novel criterion is proposed to determine the oscillatory behavior of the studied equation. The exclusion of positive solutions is achieved through a comparative approach in which the examined equation is compared to second-order equations. Additionally, the significance of the obtained results is demonstrated by applying them to various illustrative examples. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
17 pages, 557 KiB  
Article
Solutions of Time Fractional (1 + 3)-Dimensional Partial Differential Equations by the Natural Transform Decomposition Method (NTDM)
by Musa Rahamh Gadallah and Hassan Eltayeb
Axioms 2023, 12(10), 958; https://doi.org/10.3390/axioms12100958 - 11 Oct 2023
Viewed by 1157
Abstract
The current study employs the natural transform decomposition method (NTDM) to test fractional-order partial differential equations (FPDEs). The present technique is a mixture of the natural transform method and the Adomian decomposition method. For the purpose of checking the precis of our technique, [...] Read more.
The current study employs the natural transform decomposition method (NTDM) to test fractional-order partial differential equations (FPDEs). The present technique is a mixture of the natural transform method and the Adomian decomposition method. For the purpose of checking the precis of our technique, some examples are offered, and the series solutions of these equations are introduced by using NTDM. The outcome shows that the suggested approach is very active and straightforward for obtaining a series solutions of FPDEs and is more accurate if we compare it with existing methods. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
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15 pages, 827 KiB  
Article
New Conditions for Testing the Asymptotic Behavior of Solutions of Odd-Order Neutral Differential Equations with Multiple Delays
by Fahd Masood, Osama Moaaz, Sameh S. Askar and Ahmad Alshamrani
Axioms 2023, 12(7), 658; https://doi.org/10.3390/axioms12070658 - 2 Jul 2023
Cited by 4 | Viewed by 1004
Abstract
The purpose of this research is to investigate the asymptotic and oscillatory characteristics of odd-order neutral differential equation solutions with multiple delays. The relationship between the solution and its derivatives of different orders, as well as their related functions, must be understood in [...] Read more.
The purpose of this research is to investigate the asymptotic and oscillatory characteristics of odd-order neutral differential equation solutions with multiple delays. The relationship between the solution and its derivatives of different orders, as well as their related functions, must be understood in order to determine the oscillation terms of the studied equation. In order to contribute to this subject, we create new and significant relationships and inequalities. We use these relationships to create conditions in which positive and N-Kneser solutions of the considered equation are excluded. To obtain these terms, we employ the comparison method and the Riccati technique. Furthermore, we use the relationships obtained to create new criteria, so expanding the existing literature on the field. Finally, we provide an example from the general case to demonstrate the results’ significance. The findings given in this work provide light on the behavior of odd-order neutral differential equation solutions with multiple delays. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
19 pages, 354 KiB  
Article
The Regional Enlarged Observability for Hilfer Fractional Differential Equations
by Abu Bakr Elbukhari, Zhenbin Fan and Gang Li
Axioms 2023, 12(7), 648; https://doi.org/10.3390/axioms12070648 - 29 Jun 2023
Cited by 1 | Viewed by 1138
Abstract
In this paper, we investigate the concept of regional enlarged observability (ReEnOb) for fractional differential equations (FDEs) with the Hilfer derivative. To proceed this, we develop an approach based on the Hilbert uniqueness method (HUM). We mainly reconstruct the initial state [...] Read more.
In this paper, we investigate the concept of regional enlarged observability (ReEnOb) for fractional differential equations (FDEs) with the Hilfer derivative. To proceed this, we develop an approach based on the Hilbert uniqueness method (HUM). We mainly reconstruct the initial state ν01 on an internal subregion ω from the whole domain Ω with knowledge of the initial information of the system and some given measurements. This approach shows that it is possible to obtain the desired state between two profiles in some selective internal subregions. Our findings develop and generalize some known results. Finally, we give two examples to support our theoretical results. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
9 pages, 929 KiB  
Article
Stability Results for the Darboux Problem of Conformable Partial Differential Equations
by Rebiai Ghania, Lassaad Mchiri, Mohamed Rhaima, Mohamed Hannabou and Abdellatif Ben Makhlouf
Axioms 2023, 12(7), 640; https://doi.org/10.3390/axioms12070640 - 28 Jun 2023
Cited by 1 | Viewed by 950
Abstract
In this paper, we investigate the Darboux problem of conformable partial differential equations (DPCDEs) using fixed point theory. We focus on the existence and Ulam–Hyers–Rassias stability (UHRS) of the solutions to the problem, which requires finding solutions to nonlinear partial differential equations that [...] Read more.
In this paper, we investigate the Darboux problem of conformable partial differential equations (DPCDEs) using fixed point theory. We focus on the existence and Ulam–Hyers–Rassias stability (UHRS) of the solutions to the problem, which requires finding solutions to nonlinear partial differential equations that satisfy certain boundary conditions. Using fixed point theory, we establish the existence and uniqueness of solutions to the DPCDEs. We then explore the UHRS of the solutions, which measures the sensitivity of the solutions to small perturbations in the equations. We provide three illustrative examples to demonstrate the effectiveness of our approach. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
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19 pages, 385 KiB  
Article
Hyers–Ulam and Hyers–Ulam–Rassias Stability for Linear Fractional Systems with Riemann–Liouville Derivatives and Distributed Delays
by Hristo Kiskinov, Ekaterina Madamlieva and Andrey Zahariev
Axioms 2023, 12(7), 637; https://doi.org/10.3390/axioms12070637 - 27 Jun 2023
Cited by 3 | Viewed by 983
Abstract
The aim of the present paper is to study the asymptotic properties of the solutions of linear fractional system with Riemann–Liouville-type derivatives and distributed delays. We prove under natural assumptions (similar to those used in the case when the derivatives are first (integer) [...] Read more.
The aim of the present paper is to study the asymptotic properties of the solutions of linear fractional system with Riemann–Liouville-type derivatives and distributed delays. We prove under natural assumptions (similar to those used in the case when the derivatives are first (integer) order) the existence and uniqueness of the solutions in the initial problem for these systems with discontinuous initial functions. As a consequence, we also prove the existence of a unique fundamental matrix for the homogeneous system, which allows us to establish an integral representation of the solutions to the initial problem for the corresponding inhomogeneous system. Then, we introduce for the studied systems a concept for Hyers–Ulam in time stability and Hyers–Ulam–Rassias in time stability. As an application of the obtained results, we propose a new approach (instead of the standard fixed point approach) based on the obtained integral representation and establish sufficient conditions, which guarantee Hyers–Ulam-type stability in time. Finally, it is proved that the Hyers–Ulam-type stability in time leads to Lyapunov stability in time for the investigated homogeneous systems. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
10 pages, 2368 KiB  
Article
New Wave Solutions for the Two-Mode Caudrey–Dodd–Gibbon Equation
by Rodica Cimpoiasu and Radu Constantinescu
Axioms 2023, 12(7), 619; https://doi.org/10.3390/axioms12070619 - 21 Jun 2023
Cited by 2 | Viewed by 1117
Abstract
In this paper, we present new dynamical properties of the two-mode Caudrey–Dodd–Gibbon (TMCDG) equation. This equation describes the propagation of dual waves in the same direction with different phase velocities, dispersion parameters, and nonlinearity. This study takes a full advantage of the Kudryashov [...] Read more.
In this paper, we present new dynamical properties of the two-mode Caudrey–Dodd–Gibbon (TMCDG) equation. This equation describes the propagation of dual waves in the same direction with different phase velocities, dispersion parameters, and nonlinearity. This study takes a full advantage of the Kudryashov method and of the exponential expansion method. For the first time, dual-wave solutions are obtained for arbitrary values of the nonlinearity and dispersive factors. Graphs of the novel solutions are included in order to show the waves’ propagation, as well as the influence of the involved parameters. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
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23 pages, 17240 KiB  
Article
The Investigation of Dynamical Behavior of Benjamin–Bona–Mahony–Burger Equation with Different Differential Operators Using Two Analytical Approaches
by Xiaoming Wang, Rimsha Ansar, Muhammad Abbas, Farah Aini Abdullah and Khadijah M. Abualnaja
Axioms 2023, 12(6), 599; https://doi.org/10.3390/axioms12060599 - 16 Jun 2023
Cited by 5 | Viewed by 1211
Abstract
The dynamic behavior variation of the Benjamin–Bona–Mahony–Burger (BBM-Burger) equation has been investigated in this paper. The modified auxiliary equation method (MAEM) and Ricatti–Bernoulli (RB) sub-ODE method, two of the most reliable and useful analytical approaches, are used to construct soliton solutions for the [...] Read more.
The dynamic behavior variation of the Benjamin–Bona–Mahony–Burger (BBM-Burger) equation has been investigated in this paper. The modified auxiliary equation method (MAEM) and Ricatti–Bernoulli (RB) sub-ODE method, two of the most reliable and useful analytical approaches, are used to construct soliton solutions for the proposed model. We demonstrate some of the extracted solutions using definitions of the β-derivative, conformable derivative (CD), and M-truncated derivatives (M-TD) to understand their dynamic behavior. The hyperbolic and trigonometric functions are used to derive the analytical solutions for the given model. As a consequence, dark, bell-shaped, anti-bell, M-shaped, W-shaped, kink soliton, and solitary wave soliton solutions are obtained. We observe the fractional parameter impact of the derivatives on physical phenomena. The BBM-Burger equation is functional in describing the propagation of long unidirectional waves in many nonlinear diffusive systems. The 2D and 3D graphs have been presented to confirm the behavior of analytical wave solutions. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
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13 pages, 5485 KiB  
Article
Study on the Nonlinear Dynamics of the (3+1)-Dimensional Jimbo-Miwa Equation in Plasma Physics
by Peng Xu, Bing-Qi Zhang, Huan Huang and Kang-Jia Wang
Axioms 2023, 12(6), 592; https://doi.org/10.3390/axioms12060592 - 15 Jun 2023
Cited by 1 | Viewed by 1260
Abstract
The Jimbo-Miwa equation (JME) that describes certain interesting (3+1)-dimensional waves in plasma physics is studied in this work. The Hirota bilinear equation is developed via the Cole-Hopf transform. Then, the symbolic computation, together with the ansatz function schemes, are utilized to seek exact [...] Read more.
The Jimbo-Miwa equation (JME) that describes certain interesting (3+1)-dimensional waves in plasma physics is studied in this work. The Hirota bilinear equation is developed via the Cole-Hopf transform. Then, the symbolic computation, together with the ansatz function schemes, are utilized to seek exact solutions. Some new solutions, such as the multi-wave complexiton solution (MWCS), multi-wave solution (MWS) and periodic lump solution (PLS), are successfully constructed. Additionally, different types of travelling wave solutions (TWS), including the dark, bright-dark and singular periodic wave solutions, are disclosed by employing the sub-equation method. Finally, the physical characteristics and interaction behaviors of the extracted solutions are depicted graphically by assigning appropriate parameters. The obtained outcomes in this paper are more general and newer. Additionally, they reveal that the used methods are concise, direct, and can be employed to study other partial differential equations (PDEs) in physics. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
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17 pages, 338 KiB  
Article
Mittag-Leffler-Type Stability of BAM Neural Networks Modeled by the Generalized Proportional Riemann–Liouville Fractional Derivative
by Ravi P. Agarwal, Snezhana Hristova and Donal O’Regan
Axioms 2023, 12(6), 588; https://doi.org/10.3390/axioms12060588 - 14 Jun 2023
Cited by 6 | Viewed by 1192
Abstract
The main goal of the paper is to use a generalized proportional Riemann–Liouville fractional derivative (GPRLFD) to model BAM neural networks and to study some stability properties of the equilibrium. Initially, several properties of the GPRLFD are proved, such as the fractional derivative [...] Read more.
The main goal of the paper is to use a generalized proportional Riemann–Liouville fractional derivative (GPRLFD) to model BAM neural networks and to study some stability properties of the equilibrium. Initially, several properties of the GPRLFD are proved, such as the fractional derivative of a squared function. Additionally, some comparison results for GPRLFD are provided. Two types of equilibrium of the BAM model with GPRLFD are defined. In connection with the applied fractional derivative and its singularity at the initial time, the Mittag-Leffler exponential stability in time of the equilibrium is introduced and studied. An example is given, illustrating the meaning of the equilibrium as well as its stability properties. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
17 pages, 357 KiB  
Article
Solvability of Iterative Classes of Nonlinear Elliptic Equations on an Exterior Domain
by Xiaoming Wang, Jehad Alzabut, Mahammad Khuddush and Michal Fečkan
Axioms 2023, 12(5), 474; https://doi.org/10.3390/axioms12050474 - 14 May 2023
Cited by 1 | Viewed by 1036
Abstract
This work explores the possibility that iterative classes of elliptic equations have both single and coupled positive radial solutions. Our approach is based on using the well-known Guo–Krasnoselskii and Avery–Henderson fixed-point theorems in a Banach space. Furthermore, we utilize Rus’ theorem in a [...] Read more.
This work explores the possibility that iterative classes of elliptic equations have both single and coupled positive radial solutions. Our approach is based on using the well-known Guo–Krasnoselskii and Avery–Henderson fixed-point theorems in a Banach space. Furthermore, we utilize Rus’ theorem in a metric space, to prove the uniqueness of solutions for the problem. Examples are constructed for the sake of verification. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
12 pages, 1480 KiB  
Article
The Influence of White Noise and the Beta Derivative on the Solutions of the BBM Equation
by Farah M. Al-Askar, Clemente Cesarano and Wael W. Mohammed
Axioms 2023, 12(5), 447; https://doi.org/10.3390/axioms12050447 - 30 Apr 2023
Cited by 13 | Viewed by 1310
Abstract
In the current study, we investigate the stochastic Benjamin–Bona–Mahony equation with beta derivative (SBBME-BD). The considered stochastic term is the multiplicative noise in the Itô sense. By combining the F-expansion approach with two separate equations, such as the Riccati and elliptic equations, [...] Read more.
In the current study, we investigate the stochastic Benjamin–Bona–Mahony equation with beta derivative (SBBME-BD). The considered stochastic term is the multiplicative noise in the Itô sense. By combining the F-expansion approach with two separate equations, such as the Riccati and elliptic equations, new hyperbolic, trigonometric, rational, and Jacobi elliptic solutions for SBBME-BD can be generated. The solutions to the Benjamin–Bona–Mahony equation are useful in understanding various scientific phenomena, including Rossby waves in spinning fluids and drift waves in plasma. Our results are presented using MATLAB, with numerous 3D and 2D figures illustrating the impacts of white noise and the beta derivative on the obtained solutions of SBBME-BD. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
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20 pages, 1521 KiB  
Article
Hierarchies of the Korteweg–de Vries Equation Related to Complex Expansion and Perturbation
by Tatyana V. Redkina, Arthur R. Zakinyan, Robert G. Zakinyan and Olesya B. Surneva
Axioms 2023, 12(4), 371; https://doi.org/10.3390/axioms12040371 - 12 Apr 2023
Cited by 1 | Viewed by 1069
Abstract
We consider the possibility of constructing a hierarchy of the complex extension of the Korteweg–de Vries equation (cKdV), which under the assumption that the function is real passes into the KdV hierarchy. A hierarchy is understood here as a family of nonlinear partial [...] Read more.
We consider the possibility of constructing a hierarchy of the complex extension of the Korteweg–de Vries equation (cKdV), which under the assumption that the function is real passes into the KdV hierarchy. A hierarchy is understood here as a family of nonlinear partial differential equations with a Lax pair with a common scattering operator. The cKdV hierarchy is obtained by examining the equation on the eigenvalues of the fourth-order Hermitian self-conjugate operator on the invariant transformations of the eigenvector-functions. It is proved that for an operator H^n to transform a solution of the equation on eigenvalues M^λEV=0 into a solution of the same equation, it is necessary and sufficient that the complex function ux,t of the operator M^ satisfies special conditions that are the complexifications of the KdV hierarchy equations. The operators H^n are constructed as differential operators of order 2n + 1. We also construct a hierarchy of perturbed KdV equations (pKdV) with a special perturbation function, the dynamics of which is described by a linear equation. It is based on the system of operator equations obtained by Bogoyavlensky. Since the elements of the hierarchies are united by a common scattering operator, it remains unchanged in the derivation of the equations. The second differential operator of the Lax pair has increasing odd derivatives while retaining a skew-symmetric form. It is shown that when perturbation tends to zero, all hierarchy equations are converted to higher KdV equations. It is proved that the pKdV hierarchy equations are a necessary and sufficient condition for the solutions of the equation on eigenvalues to have invariant transformations. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
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13 pages, 1339 KiB  
Article
A Fractional Rheological Model of Viscoanelastic Media
by Armando Ciancio, Vincenzo Ciancio and Bruno Felice Filippo Flora
Axioms 2023, 12(3), 243; https://doi.org/10.3390/axioms12030243 - 27 Feb 2023
Cited by 4 | Viewed by 1287
Abstract
The mechanical behaviour of materials can be described by a phenomenological relationship that binds strain to stress, by the complex modulus function: M(ω), which represents the frequency response of the medium in which a transverse mechanical wave is propagated. [...] Read more.
The mechanical behaviour of materials can be described by a phenomenological relationship that binds strain to stress, by the complex modulus function: M(ω), which represents the frequency response of the medium in which a transverse mechanical wave is propagated. From the experimental measurements of the internal friction obtained when varying the frequency of a transverse mechanical wave, the parameters that characterize the complex module are determined. The internal friction or loss tangent is bound to the dissipation of the specific mechanical energy. The non-equilibrium thermodynamics theory leads to a general description of irreversible phenomena such as relaxation and viscosity that can coexist in a material. Through the state variables introduced by Ciancio and Kluitenberg, and applying the fractional calculation due to a particular memory mechanism, a model of a viscoanelastic medium is obtained in good agreement with the experimental results. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
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11 pages, 279 KiB  
Article
Periodic Solutions of Quasi-Monotone Semilinear Multidimensional Hyperbolic Systems
by Corrado Mascia
Axioms 2023, 12(2), 208; https://doi.org/10.3390/axioms12020208 - 16 Feb 2023
Viewed by 1293
Abstract
This paper deals with the Cauchy problem for a class of first-order semilinear hyperbolic equations of the form tfi+j=1dλijxjfi=Qi(f). [...] Read more.
This paper deals with the Cauchy problem for a class of first-order semilinear hyperbolic equations of the form tfi+j=1dλijxjfi=Qi(f). where fi=fi(x,t) (i=1,,n) and x=(x1,,xd)IRd (n2,d1). Under assumption of the existence of a conserved quantity iαifi for some α1,,αn>0, of (strong) quasimonotonicity and an additional assumption on the speed vectors Λi=(λi1,,λid)IRd—namely, span{ΛjΛk:j=1,,n}=IRd for any k—it is proved that the set of constant steady state {f¯IRn:Q(f¯)=0} is asymptotically stable with respect to periodic perturbations, i.e., any initial data given by an periodic L1–perturbations of a constant steady state f¯ leads to a solution converging to another constant steady state g¯ (uniquely determined by the initial condition) as t+. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
15 pages, 931 KiB  
Article
Two Reliable Computational Techniques for Solving the MRLW Equation
by Kamel Al-Khaled and Haneen Jafer
Axioms 2023, 12(2), 174; https://doi.org/10.3390/axioms12020174 - 8 Feb 2023
Cited by 1 | Viewed by 1380
Abstract
In this paper, a numerical solution of the modified regularized long wave (MRLW) equation is obtained using the Sinc-collocation method. This approach approximates the space dimension of the solution with a cardinal expansion of Sinc functions. First, discretizing the time derivative of the [...] Read more.
In this paper, a numerical solution of the modified regularized long wave (MRLW) equation is obtained using the Sinc-collocation method. This approach approximates the space dimension of the solution with a cardinal expansion of Sinc functions. First, discretizing the time derivative of the MRLW equation by a classic finite difference formula, while the space derivatives are approximated by a θweighted scheme. For comparison purposes, we also find a soliton solution using the Adomian decomposition method (ADM). The Sinc-collocation method was were found to be more accurate and efficient than the ADM schemes. Furthermore, we show that the number of solitons generated can be approximated using the Maxwellian initial condition. The proposed methods’ results, analytical solutions, and numerical methods are compared. Finally, a variety of graphical representations for the obtained solutions makes the dynamics of the MRLW equation visible and provides the mathematical foundation for physical and engineering applications. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
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11 pages, 999 KiB  
Article
Study of the Hypergeometric Equation via Data Driven Koopman-EDMD Theory
by Evangelos Melas, Costas Poulios, Elias Camouzis, John Leventides and Nick Poulios
Axioms 2023, 12(2), 134; https://doi.org/10.3390/axioms12020134 - 29 Jan 2023
Cited by 1 | Viewed by 1337
Abstract
We consider a data-driven method, which combines Koopman operator theory with Extended Dynamic Mode Decomposition. We apply this method to the hypergeometric equation which is the Fuchsian equation with three regular singular points. The space of solutions at any of its singular points [...] Read more.
We consider a data-driven method, which combines Koopman operator theory with Extended Dynamic Mode Decomposition. We apply this method to the hypergeometric equation which is the Fuchsian equation with three regular singular points. The space of solutions at any of its singular points is a two-dimensional linear vector space on the field of reals when the independent variable is restricted to take values in the real axis and the unknown function is restricted to be a real-valued function of a real variable. A basis of the linear vector space of solutions is spanned by the hypergeometric function and its products with appropriate powers of the independent variable or the logarithmic function depending on the roots of the indicial equation of the hypergeometric equation. With our work, we obtain a new representation of the fundamental solutions of the hypergeometric equation and relate them to the spectral analysis of the finite approximation of the Koopman operator associated with the hypergeometric equation. We expect that the usefulness of our results will come more to the fore when we extend our study into the complex domain. Full article
(This article belongs to the Special Issue Special Topics in Differential Equations with Applications)
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