Showing total 102 results

1. Mathematical modeling of the spread of the coronavirus under strict social restrictions

Author

Khalid Dib, Kalyanasundaram Madhu, Mo'tassem Al-arydah, and Hailay Weldegiorgis Berhe

Subjects

Download, General Mathematics, media_common.quotation_subject, coronavirus, 92Bxx, Permission, Unit (housing), COVID‐19, 37Nxx, Special Issue Paper, Econometrics, Quality (business), Mathematics, media_common, Notice, Special Issue Papers, Social distance, Warranty, General Engineering, social distancing, 92b05, 37n25, parameter estimations, Order (business), variable transmission rate, mathematical model

Abstract

We formulate a simple susceptible‐infectious‐recovery (SIR) model to describe the spread of the coronavirus under strict social restrictions. The transmission rate in this model is exponentially decreasing with time. We find a formula for basic reproduction function and estimate the maximum number of daily infected individuals. We fit the model to induced death data in Italy, United States, Germany, France, India, Spain, and China over the period from the first reported death to August 7, 2020. We notice that the model has excellent fit to the disease death data in these countries. We estimate the model's parameters in each of these countries with 95% confidence intervals. We order the strength of social restrictions in these countries using the exponential rate. We estimate the time needed to reduce the basic reproduction function to one unit and use it to order the quality of social restrictions in these countries. The social restriction in China was the strictest and the most effective and in India was the weakest and the least effective. Policy‐makers may apply the Chinese successful social restriction experiment and avoid the Indian unsuccessful one. [ FROM AUTHOR] Copyright of Mathematical Methods in the Applied Sciences is the property of John Wiley & Sons, Inc. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full . (Copyright applies to all s.)

Published

2021

2. Analytical and qualitative investigation of COVID‐19 mathematical model under fractional differential operator

Author

Ali Ahmadian, Muhammad Sher, Kamal Shah, Soheil Salahshour, Bruno Antonio Pansera, and Hussam Rabai'ah

Subjects

Coronavirus disease 2019 (COVID-19), Special Issue Papers, novel coronavirus mathematical models, General Mathematics, General Engineering, 65l05, Fractional differential operator, 34a12, analytical results, graphical interpretation, Special Issue Paper, Applied mathematics, fractional‐order derivative, Adomian decomposition method, 26a33, Mathematics

Abstract

In the current article, we aim to study in detail a novel coronavirus (2019-nCoV or COVID-19) mathematical model for different aspects under Caputo fractional derivative. First, from analysis point of view, existence is necessary to be investigated for any applied problem. Therefore, we used fixed point theorem's due to Banach's and Schaefer's to establish some sufficient results regarding existence and uniqueness of the solution to the proposed model. On the other hand, stability is important in respect of approximate solution, so we have developed condition sufficient for the stability of Ulam-Hyers and their different types for the considered system. In addition, the model has also been considered for semianalytical solution via Laplace Adomian decomposition method (LADM). On Matlab, by taking some real data about Pakistan, we graph the obtained results. In the last of the manuscript, a detail discussion and brief conclusion are provided.

Published

2021

3. Improving the performance of deep learning models using statistical features: The case study of COVID‐19 forecasting

Author

Hossein Abbasimehr, Reza Paki, and Aram Bahrini

Subjects

2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), 62‐07, General Mathematics, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Context (language use), 97r40, Machine learning, computer.software_genre, 01 natural sciences, Convolutional neural network, Special Issue Paper, 0101 mathematics, Combined method, Mathematics, Special Issue Papers, business.industry, Deep learning, 010102 general mathematics, General Engineering, deep learning, COVID‐19 pandemic, 010101 applied mathematics, hybrid methods, Memory model, Artificial intelligence, business, computer, statistical features

Abstract

COVID-19 pandemic has affected all aspects of people's lives and disrupted the economy. Forecasting the number of cases infected with this virus can help authorities make accurate decisions on the interventions that must be implemented to control the pandemic. Investigation of the studies on COVID-19 forecasting indicates that various techniques such as statistical, mathematical, and machine and deep learning have been utilized. Although deep learning models have shown promising results in this context, their performance can be improved using auxiliary features. Therefore, in this study, we propose two hybrid deep learning methods that utilize the statistical features as auxiliary inputs and associate them with their main input. Specifically, we design a hybrid method of the multihead attention mechanism and the statistical features (ATT_FE) and a combined method of convolutional neural network and the statistical features (CNN_FE) and apply them to COVID-19 data of 10 countries with the highest number of confirmed cases. The results of experiments indicate that the hybrid models outperform their conventional counterparts in terms of performance measures. The experiments also demonstrate the superiority of the hybrid ATT_FE method over the long short-term memory model.

Published

2021

4. On stable solutions of a weighted elliptic equation involving the fractional Laplacian.

Author

Quynh Nguyen, Thi and Tuan Duong, Anh

Subjects

*ELLIPTIC equations, *LAPLACIAN operator, *LIOUVILLE'S theorem, *MATHEMATICS

Abstract

In this paper, we study the following fractional Choquard equation with weight (−Δ)su=1|x|N−α∗h(x)|u|ph(x)|u|p−2uinℝN,$$ {\left(-\Delta \right)}&#x0005E;su&#x0003D;\left(\frac{1}{{\left&#x0007C;x\right&#x0007C;}&#x0005E;{N-\alpha }}\ast h(x){\left&#x0007C;u\right&#x0007C;}&#x0005E;p\right)h(x){\left&#x0007C;u\right&#x0007C;}&#x0005E;{p-2}u\kern0.5em \mathrm{in}\kern0.5em {\mathrm{\mathbb{R}}}&#x0005E;N, $$where 02s,p>2,α>0$$ 02s,p>2,\alpha >0 $$ and h$$ h $$ is a positive weight function satisfying h(x)≥C|x|a$$ h(x)\ge C{\left&#x0007C;x\right&#x0007C;}&#x0005E;a $$ at infinity, for some a≥0$$ a\ge 0 $$. We establish, in this paper, a Liouville type theorem saying that if maxN−4s−2a,0<α

Published

2024

5. Survey of new applications of geometric algebra.

Author

Hitzer, Eckhard, Kamarianakis, Manos, Papagiannakis, George, and Vašík, Petr

Subjects

*ELECTRICAL engineering, *MEDICAL sciences, *QUANTUM computing, *ROBOTICS software, *CLIFFORD algebras

Abstract

This survey introduces 101 new publications on applications of Clifford's geometric algebras (GAs) newly published during 2022 (until mid‐January 2023). The selection of papers is based on a comprehensive search with Dimensions.ai, followed by detailed screening and clustering. Readers will learn about the use of GA for mathematics, computation, surface representations, geometry, image, and signal processing, computing and software, quantum computing, data processing, neural networks, medical science, physics, electric engineering, control and robotics. [ABSTRACT FROM AUTHOR]

Published

2024

6. Existence results for the generalized Riemann–Liouville type fractional Fisher‐like equation on the half‐line.

Author

Nyamoradi, Nemat and Ahmad, Bashir

Subjects

*FRACTIONAL calculus, *BOUNDARY value problems, *MATHEMATICS, *EQUATIONS, *MULTIPLICITY (Mathematics)

Abstract

In this paper, we discuss the existence of multiplicity of positive solutions to a new generalized Riemann–Liouville type fractional Fisher‐like equation on a semi‐infinite interval equipped with nonlocal multipoint boundary conditions involving Riemann–Liouville fractional derivative and integral operators. The existence of at least two positive solutions for the given problem is established by using the concept of complete continuity and iterative positive solutions. We show the existence of at least three positive solutions to the problem at hand by applying the generalized Leggett–Williams fixed‐point theorem due to Bai and Ge [Z. Bai, B. Ge, Existence of three positive solutions for some second‐order boundary value problems, Comput. Math. Appl. 48 (2014) 699‐70]. Illustrative examples are constructed to demonstrate the effectiveness of the main results. It has also been indicated in Section 5 that some new results appear as special cases by choosing the parameters involved in the given problem appropriately. [ABSTRACT FROM AUTHOR]

Published

2024

7. Uniqueness of nodal radial solutions to nonlinear elliptic equations in the unit ball.

Author

Li, Fuyi, Li, Xiaoting, and Liang, Zhanping

Subjects

*NONLINEAR equations, *UNIT ball (Mathematics), *ELLIPTIC equations, *DIOPHANTINE equations, *MATHEMATICS

Abstract

In this paper, we study the uniqueness of nodal radial solutions to nonlinear elliptic equations in the unit ball in ℝ3$$ {\mathrm{\mathbb{R}}}&#x0005E;3 $$. Under suitable conditions, we prove that, for any given positive integer k$$ k $$, the problem we considered has at most one solution possessing exactly k−1$$ k-1 $$ nodes. Together with the results presented by Nagasaki [J. Fac. Sci. Univ. Tokyo Sect. IA Math. 36 (2): 211–232, 1989] and Tanaka [Proc. Roy. Soc. Edinburgh Sect. A. 138 (6): 1331–1343, 2008], we can prove that more types of nonlinear elliptic equations have the uniqueness of nodal radial solutions. [ABSTRACT FROM AUTHOR]

Published

2024

8. The simplest approach to solving the cubic nonlinear jerk oscillator with the non‐perturbative method.

Subjects

NONLINEAR oscillators, NONLINEAR differential equations, NONLINEAR equations, DIFFERENTIAL equations, MATHEMATICS, DUFFING oscillators

Abstract

Mathematics and its applications try to make available a simple and accurate approach to handle nonlinear equations. The present paper investigates for the first time the application of the linearizing method to determine both the approximate frequency and displacement amplitude for the third‐order differential equations. The main merit of the linearized method is a collection of simplicity and accuracy for the solution of high‐order nonlinear conservative or non‐conservative oscillators. The current work sheds light on the approximate proposition to the damped third‐order nonlinear differential equations. The fast estimated solution is simulated to the accurate solution gained through the numerical methods. It is significant to conclude that the non‐perturbative method considered here is simpler and easier to apply than the other perturbation methods. This paper enriches some existing literature. [ABSTRACT FROM AUTHOR]

Published

2022

9. Comments to “Quantification of network structural dissimilarities” published by Schieber et al.

Author

Dehmer, Matthias and Emmert‐Streib, Frank

Subjects

PREDICATE calculus, SIMILARITY (Geometry), GEOMETRY, MATHEMATICS, GRAPH theory

Abstract

Recently, we came across the paper entitled “Quantification of network structural dissimilarities” published by Nature Communications. In this paper, Schieber et al claimed to propose a novel technique for measuring the structural similarity of networks. The authors of this commentary are familiar with this special area of network analysis. After reading the paper, we doubt that the graph similarity (distance) measure due to Schieber et al is entirely novel. Instead, parts thereof are very similar to contributions we have authored. Unfortunately, they have not been cited nor acknowledged in Schieber et al. [ABSTRACT FROM AUTHOR]

Published

2018

10. Corrigendum: On the spaces of Cesàro absolutely p‐summable, null and convergent sequences, Math. Methods Appl. Sci. 44(5)(2021), 3670–3685.

Author

Savaşci, Medine Yeşilkayagil and Başar, Feyzi

Subjects

SEQUENCE spaces, MATHEMATICS

Abstract

The sequence spaces ℓp(Cn)$$ {\ell}_p\left({C}&amp;#x0005E;n\right) $$, c0(Cn)$$ {c}_0\left({C}&amp;#x0005E;n\right) $$ and c(Cn)$$ c\left({C}&amp;#x0005E;n\right) $$ are introduced by Roopaei and Başar [8] as the domain of the Cesàro matrix Cn$$ {C}&amp;#x0005E;n $$ of order n$$ n $$ in the spaces ℓp$$ {\ell}_p $$, c0$$ {c}_0 $$ and c$$ c $$ of absolutely p$$ p $$‐summable, null and convergent sequences, respectively, where 0

Published

2023

11. The Cauchy problem for the nonisentropic compressible MHD fluids: Optimal time‐decay rates.

Author

Huang, Wenting and Fu, Shengbin

Subjects

CAUCHY problem, FLUIDS, IDEA (Philosophy), MATHEMATICS

Abstract

This paper is concerned with the time‐decay rates of the strong solutions of the three‐dimensional nonisentropic compressible magnetohydrodynamic (MHD) system. First, motivated by Pu and Guo's result [Z. Angew. Math. Phys. 64 (2013) 519–538], we establish the existence result of a unique local‐in‐time strong solution for the MHD system. Then, we derive a priori estimates and use the continuity argument to obtain the global‐in‐time solution, where the initial perturbation is small in H2$$ {H}^2 $$‐norm. Finally, based on Fourier theory and the idea of cancelation of a low‐medium frequent part as in [Sci. China Math. 65 (2022) 1199–1228], we get the optimal time‐decay rates (including highest‐order derivatives) of strong solutions for nonisentropic MHD fluids when the boundedness of L1$$ {L}^1 $$‐norm of the initial perturbation is required. Our result is the first one concerning with the optimal decay estimates of the highest‐order derivatives of the nonisentropic MHD system. [ABSTRACT FROM AUTHOR]

Published

2023

12. A blow‐up result for the travelling waves of the pseudo‐relativistic Hartree equation with small velocity.

Author

Wang, Qingxuan

Subjects

VELOCITY, EQUATIONS, MATHEMATICS, LIPSCHITZ continuity, BLOWING up (Algebraic geometry)

Abstract

In this paper, we consider the pseudo‐relativistic Hartree equation i∂tψ=−△+m2ψ−1|x|∗|ψ|2ψonℝ3and study travelling solitary waves of the form ψ(t, x) = eitμφ(x − v t) , where v∈ℝ3 denotes travelling velocity. Fröhlich, Jonsson and Lenzmann in [Comm. Math. Phys. 2007, 274:1‐30] proved that for |v|<1 there exists a critical constant Nc(v), such that the travelling waves exist if and only if 0 < N < Nc(v), where N denotes particle number. In this paper, we consider v=(β,0,0) with 0 < β < 1, and let Nc(β)=Nc(v)|v=(β,0,0). We find that Nc(β) is Lipschitz continuity with respect to β. Based on this fact, we then prove that the boosted ground states φβ with ‖φβ‖L22=(1−β)Nc(β) satisfy limβ→0+‖φβ‖H1/2→+∞. The explicit blow‐up profile and rate will be computed. [ABSTRACT FROM AUTHOR]

Published

2021

13. Maximum principles involving the uniformly elliptic nonlocal operator.

Author

Jiayan, Wu, Qu, Meng, Zhang, Jingjing, and Zhang, Ting

Subjects

ELLIPTIC operators, SINGULAR integrals, MAXIMUM principles (Mathematics), LIOUVILLE'S theorem, SCHRODINGER equation, MATHEMATICS, EQUATIONS

Abstract

In this paper, we consider equations involving a uniformly elliptic nonlocal operator Aβu(x)=CN,βP.V.∫ℝNa(x−y)(u(x)−u(y))|x−y|N+βdy,$$ {A}_{\beta }u(x)={C}_{N,\beta}\mathrm{P}.\mathrm{V}.\underset{{\mathbb{R}}^N}{\int}\frac{a\left(x-y\right)\left(u(x)-u(y)\right)}{{\left|x-y\right|}^{N+\beta }} dy, $$where the function a:ℝN↦ℝ$$ a:{\mathbb{R}}^N\mapsto \mathbb{R} $$ is uniformly bounded and radial decreasing. We establish some maximum principles for Aβ$$ {A}_{\beta } $$ in bounded and unbounded domains. Since there is no decay condition in the unbounded domain, we make use of an approximate method to estimate the singular integral to get the maximum principle. As applications of these principles, by carrying out the method of moving planes, we give the monotonicity of solutions to the semilinear equation in the coercive epigraph, which extends the result of Dipierro‐Soave‐Valdinoci [Math. Ann.2017, 369(3‐4): 1283–1326]. Moreover, we obtain the radial symmetry and monotonicity of solutions to the generalized Schrödinger equation in a weaker condition, which is the improvement of the result of Tang [Math. Methods Appl. Sci. 2017, 40(7): 2596–2609]. In addition, the maximum principle also plays an important role in acquiring monotonicity of solutions and a Liouville theorem. [ABSTRACT FROM AUTHOR]

Published

2023

14. Editorial of the special issue on modelling, analysis, and applications.

Author

Pinto, Carla M. A., Zeidan, Dia, Cortés‐Lopéz, Juan Carlos, and Tenreiro Machado, J. A.

Subjects

*APPLIED sciences, *MATHEMATICAL analysis, *MATHEMATICAL models, *SCIENTIFIC models, *CONFERENCES & conventions

Abstract

This special issue of the Journal Mathematical Methods in the Applied Sciences on the topic of Modelling, Analysis, and Applications is devoted to the development of mathematical modelling, analysis, and applications, from theoretical and numerical perspectives, involving different applied sciences and engineering. It collects invited contributions, from selected quality full papers submitted to the International Conference on Mathematical Analysis and Applications in Science and Engineering (ICMA2SC2022). The conference took place in Porto, Portugal in 27–29 June 2022 (https://www.isep.ipp.pt/Page/ViewPage/ICMASC). [ABSTRACT FROM AUTHOR]

Published

2024

15. Improvements and generalizations of results concerning attraction‐repulsion chemotaxis models.

Author

Frassu, Silvia, Li, Tongxing, and Viglialoro, Giuseppe

Subjects

GENERALIZATION, CHEMOTAXIS, MATHEMATICS

Abstract

We enter the details of two recent articles concerning as many chemotaxis models, one nonlinear and the other linear, and both with produced chemoattractant and saturated chemorepellent. More precisely, we are referring respectively to the papers "Boundedness in a nonlinear attraction‐repulsion Keller–Segel system with production and consumption," by S. Frassu, C. van der Mee and G. Viglialoro [J. Math. Anal. Appl.504(2):125428, 2021] and "Boundedness in a chemotaxis system with consumed chemoattractant and produced chemorepellent," by S. Frassu and G. Viglialoro [Nonlinear Anal.213:112505, 2021]. These works, when properly analyzed, leave open room for some improvement of their results. We generalize the outcomes of the mentioned articles, establish other statements, and put all the claims together; in particular, we select the sharpest ones and schematize them. Moreover, we complement our research also when logistic sources are considered in the overall study. [ABSTRACT FROM AUTHOR]

Published

2022

16. Flip bifurcations of two systems of difference equations.

Author

Cheng, Qi and Deng, Shengfu

Subjects

DIFFERENCE equations, EIGENVALUES, ABSOLUTE value, MATHEMATICS

Abstract

This paper investigates the bifurcations of the following difference equations xn+1=axn+byne−xn,yn+1=cyn+dxne−yn,xn+1=ayn+bxne−yn,yn+1=cxn+dyne−xn,where a,b,c, and d are positive constants and the initial conditions x0 and y0 are positive numbers. Psarros, Papaschinopoulos, and Schinas (Math. Methods Appl. Sci., 2016, 39: 5216–5222) presented the semistability of the fixed point (0,0) when one eigenvalue is equal to 1 and the other eigenvalue has absolute value less than 1. In this paper, we consider another case: one eigenvalue is equal to −1. With the aid of the center manifold reduction theorem, we rigorously show that these two systems undergo flip bifurcations or generalized flip bifurcations. Moreover, the stability of the fixed point (0,0) and the existence of period‐two cycles are also given. [ABSTRACT FROM AUTHOR]

Published

2020

17. On the minimality of quasi‐sum production models in microeconomics.

Author

Du, Yawei, Fu, Yu, and Wang, Xiaoshu

Subjects

MINIMAL surfaces, MICROECONOMICS, MATHEMATICIANS, CONTENT analysis, MATHEMATICS, HYPERSURFACES

Abstract

Historically, the minimality of surfaces is extremely important in mathematics, and the study of minimal surfaces is a central problem, which has been widely concerned by mathematicians. Meanwhile, the study of the shape and the properties of the production models is a great interest subject in economic analysis. The aim of this paper is to study the minimality of quasi‐sum production functions as graphs in a Euclidean space. We obtain minimal characterizations of quasi‐sum production functions with two or three factors as hypersurfaces in Euclidean spaces. As a result, our results also give a classification of minimal quasi‐sum hypersurfaces in dimensions two and three. [ABSTRACT FROM AUTHOR]

Published

2022

18. Fujita exponents for an inhomogeneous parabolic equation with variable coefficients.

Author

Sun, Xizheng, Liu, Bingchen, and Li, Fengjie

Subjects

CAUCHY problem, EXPONENTS, EQUATIONS, CONTINUOUS functions, MATHEMATICS

Abstract

This paper deals with a Cauchy problem of the inhomogeneous parabolic equation ut=Δu+〈x〉γup+tσw(x) in ℝN×(0,T), where constants γ>0,p>1, and σ>−1. The Japanese brackets 〈x〉γ:=1+|x|2γ; w(≥,≢0) and the initial data are continuous functions in ℝN. We determine the Fujita exponent for global and non‐global solutions of the problem, depending strictly on N,γ and σ, which complete the ones for the nonnegative solutions in J. Math. Anal. Appl. 251 (2000) 624–648 for N=1,2. It is so interesting that the inhomogeneous term leads to the discontinuity of this critical exponent with respect to σ at zero. [ABSTRACT FROM AUTHOR]

Published

2022

19. Blow‐up in a parabolic–elliptic Keller–Segel system with density‐dependent sublinear sensitivity and logistic source.

Author

Tanaka, Yuya and Yokota, Tomomi

Subjects

CHEMOTAXIS, MATHEMATICS

Abstract

This paper deals with the parabolic–elliptic Keller–Segel system with density‐dependent sublinear sensitivity and logistic source, ut=Δu−χ∇·(u(u+1)α−1∇v)+λu−μuκ,x∈Ω,t>0,0=Δv−v+u,x∈Ω,t>0,where Ω:=BR(0)⊂Rn(n≥3) is a ball with some R>0 and χ>0, 0<α<1, λ∈R, μ>0, and κ>1. In the case α=1, Winkler (Z. Angew. Math. Phys.; 2018; 69: 40) discovered the condition for κ such that solutions blow up in finite time. The purpose of the present paper is to find conditions for α and κ such that there exist solutions that blow up in finite time in the case of weak‐chemotactic sensitivity, that is, in the case 0<α<1. [ABSTRACT FROM AUTHOR]

Published

2020

20. Distance distribution between two random points in arbitrary polygons.

Author

Pure, Ross, Durrani, Salman, Tong, Fei, and Pan, Jianping

Subjects

PROBABILITY density function, MEASURE theory, STOCHASTIC geometry, LITERARY form, MATHEMATICS

Abstract

Distance distributions are a key building block in many subfields in mathematics, science and engineering. In this paper, we propose a novel framework for analytically computing the closed form probability density function (PDF) of the distance between two random points each uniformly randomly distributed in respective arbitrary polygon regions. The proposed framework is based on measure theory and uses polar decomposition for simplifying and calculating the integrals to obtain closed form results. We validate our proposed framework by comparison with simulations and published closed form results in the literature for simple cases. We illustrate the versatility and advantage of the proposed framework by deriving closed form results for a case not yet reported in the literature. Finally, we also develop a Mathematica implementation of the proposed framework which allows a user to define any two arbitrary (concave or convex) polygons, with or without holes, which may be disjoint or overlap or coincide and determine the distance distribution numerically. [ABSTRACT FROM AUTHOR]

Published

2022

21. Addendum to "On the Riesz potential operator of variable order from variable exponent Morrey space to variable exponent Campanato space", Math Meth Appl Sci. 2020; 1–8.

Author

Rafeiro, Humberto and Samko, Stefan

Subjects

*EXPONENTS, *METHAMPHETAMINE, *MATHEMATICS, *FRACTIONAL integrals

Abstract

In the paper mentioned in the title, it is proved the boundedness of the Riesz potential operator of variable order α(x) from variable exponent Morrey space to variable exponent Campanato space, under certain assumptions on the variable exponents p(x) and λ(x) of the Morrey space. Assumptions on the exponents were different depending on whether α(x)p(x)−n+λ(x)p(x) takes or not the critical values 0 or 1. In this note, we improve those results by unifying all the cases and covering the whole range 0⩽α(x)p(x)−n+λ(x)p(x)⩽1. We also provide a correction to some minor technicality in the proof of Theorem 2 in the aforementioned paper. [ABSTRACT FROM AUTHOR]

Published

2022

22. Normalized solutions for the fractional Schrödinger equation with a focusing nonlocal perturbation.

Author

Li, Gongbao, Luo, Xiao, and Yang, Tao

Subjects

LAGRANGE multiplier, SCHRODINGER equation, MATHEMATICS

Abstract

In this paper, we study the existence and asymptotic properties of solutions to the following fractional Schrödinger equation: (−Δ)σu=λu+|u|q−2u+μIα∗|u|p|u|p−2uinℝNunder the normalized constraint ∫ℝNu2=a2,where N ≥ 2, σ ∈ (0, 1), α ∈ (0, N), q ∈ (2 + 4σ/N, 2N/N − 2σ], p ∈ [2, 1 + 2σ + α/N), a > 0, μ > 0, Iα(x)=|x|α−N and λ∈ℝ appears as a Lagrange multiplier. In the Sobolev subcritical case q ∈ (2 + 4σ/N, 2N/N − 2σ), we show that the problem admits at least two solutions under suitable assumptions on α, a, and μ. In the Sobolev critical case q=2N/N−2σ, we prove that the problem possesses at least one ground state solution. Furthermore, we give some stability and asymptotic properties of the solutions. We mainly extend the results of S. Bhattarai published in 2017 on J. Differ. Equ. and B. H. Feng et al published in 2019 on J. Math. Phys. concerning the above problem from L2‐subcritical and L2‐critical setting to L2‐supercritical setting with respect to q, involving Sobolev critical case especially. [ABSTRACT FROM AUTHOR]

Published

2021

23. Preface to a thematic special issue of methods of mathematics and fractional calculus.

Author

Zeidan, Dia, Herbst, R Sheldon, and Lu, Tzon‐Tzer

Subjects

FRACTIONAL calculus, INTEGRO-differential equations, NONLINEAR boundary value problems, MATHEMATICS, BOUNDARY value problems, FRACTIONAL differential equations

Abstract

Mathematics is a common and widespread language that is not spoken very well in different parts of the world. Math Methods Appl Sci. 2020. https://doi.org/10.1002/mma.5967 30 Li C, Li M-M, Sun X. Finite difference/Galerkin finite element methods for a fractional heat conduction-transfer equation. Math Methods Appl Sci. 2020. https://doi.org/10.1002/mma.6011 33 Seba D, Habani S, Benaissa A, Rebai H. The Henstock-Kurzweil-Pettis integral and multiorders fractional differential equations with impulses and multipoint fractional integral boundary conditions in Banach spaces. However, it is possible to proffer a thematic special issue to bring together diverse fields of mathematics as well as a range of researchers from different parts of the world to represent a valued panel that addresses the different aspects and methods of mathematics, from pure, applied mathematics to fractional calculus. [Extracted from the article]

Published

2021

24. On q‐analogue of a parametric generalization of Baskakov operators.

Author

Narain Agrawal, Purshottam, Baxhaku, Behar, and Shukla, Rahul

Subjects

GENERALIZATION, DIFFERENTIABLE functions, SMOOTHNESS of functions, MATHEMATICS, CONTINUITY

Abstract

The purpose of this paper is to define a q‐analogue of a parametric generalization of Baskakov operators introduced by Aral and Erbay (Math. Commun. 24(1) (2019), 119‐131). We establish some local direct results for these operators by means of the modulus of continuity and the Peetre's K‐functional. Weighted approximation properties are also established. Next, we construct a bivariate case of the above q‐operators and determine the rate of convergence in terms of the moduli of continuity. A Voronovskaja‐type theorem is derived too. Further, we study the rate of approximation of Bögel continuous and Bögel differentiable functions by the associated generalized Boolean sum (GBS) operators with the aid of mixed modulus of smoothness. We illustrate the rate of approximation of the q‐operators, their bivariate, and the GBS cases by means of graphics and tables and show that the GBS operators provide better rate of convergence than the bivariate operators. [ABSTRACT FROM AUTHOR]

Published

2021

25. Classification results for a sub‐elliptic system involving the Δλ ‐Laplacian.

Author

Duong, Anh Tuan, Giang, Trung Hieu, Le, Phuong, and Vu, Thi Hien Anh

Subjects

LIOUVILLE'S theorem, CLASSIFICATION, MATHEMATICS, ELLIPTIC operators

Abstract

In this paper, we study a system of the form −Δλu=v−Δλv=upinℝN,where p∈ℝ, and Δλ is a sub‐elliptic operator defined by Δλ=∑i=1N∂xiλi2∂xi.Under some general hypotheses of the functions λi, i=1,2,...,N, we first prove that the system has no positive super‐solution when p ≤ 1. In the case p > 1, we establish a Liouville type theorem for the class of stable positive solutions. This result is an extension of some result in Hajlaoui et al. (Pacific J Math. 2014;270(1):79–93) for the case of Laplace operator. [ABSTRACT FROM AUTHOR]

Published

2021

26. Almost global existence of nonlinear wave equations without compact support in two dimensions.

Author

Yuan, Meng and Xu, Wendi

Subjects

NONLINEAR wave equations, WAVE equation, BLOWING up (Algebraic geometry), LINEAR equations, MATHEMATICS

Abstract

In this paper, we consider 2‐D nonlinear wave equations with small initial data of noncompact support when the quadratic terms of the nonlinearity satisfy the null conditions but the cubic ones do not. Due to the blow‐up result for the corresponding problem with the initial data of compact support, which was first obtained by S. Alinhac (The null condition for quasilinear wave equations in two space dimensions II. Amer. J. Math, 123 [2001], no. 6, 1071‐1101), this means that it is impossible to prove the global solvability in time in general. Therefore, in this case, what we can expect is to obtain the same lower bound of the lifespan as in Alinhac's work. That is, we also show the almost global existence, and the lower bound of the lifespan is ec/ε2 for sufficiently small ε>0 and some constant c>0. To achieve this goal, the methods we adopt are the "ghost weight" technique and the modified weighted L∞‐ L∞ estimates of the solutions to the linear wave equations. In addition, an alternative proof of the global existence is given for a similar case in three dimensions, using only the L∞‐ L2 estimates of the "good derivatives." [ABSTRACT FROM AUTHOR]

Published

2020

27. Lower bound for the ratios of eigenvalues of Schrödinger with nonpositive single‐barrier potentials.

Author

Ben Amara, Jamel and Jihed, Hedhly

Subjects

SCHRODINGER operator, SCHRODINGER equation, MATHEMATICS

Abstract

Horváth and Kiss (Proc. Amer. Math. Soc., 2005) proved the upper bound estimate λnλm≤n2m2(n>m≥1) for Dirichlet eigenvalue ratios of the Schrödinger problem −y′′ + q(x)y  =  λy with nonnegative and single‐well potential q. In this paper, we prove that if q(x) is a nonpositive, continuous, and single‐barrier potential, then λnλm≥n2m2 for λn  >  λm≥ − 2q∗, where q∗=min{q(0),q(1)}. In particular, if q(x) satisfies the additional condition |q∗|≤π23, then λ1  >  0 and λnλm≥n2m2 for n  >  m  ≥  1. For this result, we develop a new approach to study the monotonicity of the modified Prüfer angle function. [ABSTRACT FROM AUTHOR]

Published

2019

28. Some existence results for an elliptic equation of Kirchhoff‐type with changing sign data and a logarithmic nonlinearity.

Author

Bouizem, Youcef, Boulaaras, Salah, and Djebbar, Bachir

Subjects

ELLIPTIC equations, GALERKIN methods, MATHEMATICS

Abstract

The paper deals with some existence results for an elliptic equation of Kirchhoff‐type with changing sign data and a logarithmic nonlinearity by direct variational method, Galerkin approach, and sub‐super solutions method. Our results are natural extension of Boulaaras' work in (Math Methods Appl Sci; 41(13):5203‐5210). [ABSTRACT FROM AUTHOR]

Published

2019

29. Approximation by truncated max‐product operators of Kantorovich‐type based on generalized (ϕ,ψ)‐kernels.

Author

Coroianu, Lucian and Gal, Sorin G.

Subjects

APPROXIMATION theory, OPERATOR theory, GENERALIZATION, KERNEL functions, MATHEMATICS

Abstract

Suggested by the max‐product sampling operators based on sinc‐Fejér kernels, in this paper, we introduce truncated max‐product Kantorovich operators based on generalized type kernels depending on two functions ϕ and ψ satisfying a set of suitable conditions. Pointwise convergence, quantitative uniform convergence in terms of the moduli of continuity, and quantitative Lp‐approximation results in terms of a K‐functional are obtained. Previous results in sampling and neural network approximation are recaptured, and new results for many concrete examples are obtained. [ABSTRACT FROM AUTHOR]

Published

2018

30. A refined regularity criterion for the strong solution to the Leray‐alpha‐MHD equation.

Author

Chen, Xiaoli and Chen, Dongxiang

Subjects

MAGNETOHYDRODYNAMICS, MAGNETIC fields, MATHEMATICAL proofs, MATHEMATICS, GEOMETRIC analysis

Abstract

This paper establishes a regularity criterion for the strong solution to the Leray‐α‐MHD in Campanato‐Morrey space. We show that if the magnetic field b satisfies the following condition: ∫0T‖∇b(τ,·)‖M˙qp2p2p−3+‖D2b(τ,·)‖M˙qp2p2p−3dτ<∞, the strong solution (v,b) to the 3‐D Leray‐α MHD equation can be extended beyond T > 0. We also prove that if the magnetic field b satisfies ∫0T‖∇b(τ,·)‖M˙qppp−1dτ<∞, the strong solution (v,b) to the 2‐D Leray‐α MHD equation can be extended beyond T > 0, which extends the results in previous studies. [ABSTRACT FROM AUTHOR]

Published

2018

31. A quasi-boundary value regularization method for determining the heat source.

Author

Yang, Fan, Fu, Chu‐Li, and Li, Xiao‐Xiao

Subjects

BOUNDARY value problems, HEAT equation, MATHEMATICAL regularization, MATHEMATICAL models of thermodynamics, HEAT transfer, MATHEMATICS

Abstract

In this paper, we consider the inverse problem of determining the heat source, which depends only on spatial variable in one-dimensional heat equation in a bounded domain where data is given at some fixed time. A conditional stability result is given, and a quasi-boundary value regularization method is also provided. For this regularization solution, the Hölder type stability estimate between the regularization solution and the exact solution is obtained. Numerical examples show that the regularization method is effective and stable. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

32. An analytical and numerical study of liquid dynamics in a one-dimensional capillary under entrapped gas action.

Author

Fazio, Riccardo and Iacono, Salvatore

Subjects

CAPILLARY flow, ORDINARY differential equations, OSCILLATING chemical reactions, COMPUTER simulation, MATHEMATICS

Abstract

Capillary dynamics has been and is yet an important field of research, because of its very relevant role played as the core mechanism at the base of many applications. In this context, we are particularly interested in the liquid penetration inspection technique. Because of the obviously needed level of reliability involved with such a non-destructive test, this paper is devoted to study how the presence of an entrapped gas in a close-end capillary may affect the inspection outcome. This study is carried out through a one-dimensional ordinary differential model that despite its simplicity is able to point out quite well the capillary dynamics under the effect of an entrapped gas. The paper is divided into two main parts; the first starts from an introductory historical review of capillary flows modelling, goes on presenting the one-dimensional second order ordinary differential model, taking into account the presence of an entrapped gas and therefore ends by showing some numerical simulation results. The second part is devoted to the analytical study of the model by separating the initial transitory behaviour from the stationary one. Besides, these solutions are compared with the numerical ones, and finally, an expression is deduced for the threshold radius switching from a fully damped transitory to an oscillatory one. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

33. Solutions for subquadratic fractional Hamiltonian systems without coercive conditions.

Author

Zhang, Ziheng and Yuan, Rong

Subjects

QUADRATIC equations, FRACTIONAL differential equations, HAMILTONIAN systems, DIFFERENTIABLE dynamical systems, MATHEMATICS

Abstract

In this paper, we are concerned with the existence of infinitely many solutions for the following fractional Hamiltonian systems [ABSTRACT FROM AUTHOR]

Published

2014

34. A proximal point method for the sum of maximal monotone operators.

Author

Xiao, Hongying and Zeng, Xueying

Subjects

MONOTONE operators, OPERATOR theory, IMAGE processing, MATHEMATICS, ALGORITHMS

Abstract

In this paper, we concentrate on the maximal inclusion problem of locating the zeros of the sum of maximal monotone operators in the framework of proximal point method. Such problems arise widely in several applied mathematical fields such as signal and image processing. We define two new maximal monotone operators and characterize the solutions of the considered problem via the zeros of the new operators. The maximal monotonicity and resolvent of both of the defined operators are proved and calculated, respectively. The traditional proximal point algorithm can be therefore applied to the considered maximal inclusion problem, and the convergence is ensured. Furthermore, by exploring the relationship between the proposed method and the generalized forward-backward splitting algorithm, we point out that this algorithm is essentially the proximal point algorithm when the operator corresponding to the forward step is the zero operator. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

35. Multiplicity of positive almost periodic solutions in a delayed Hassell-Varley-type predator-prey model with harvesting on prey.

Author

Tian‐Wei‐Tian, Zhang

Subjects

MULTIPLICITY (Mathematics), PERIODIC law, SUFFICIENT statistics, MATHEMATICS, TOPOLOGICAL degree

Abstract

In this paper, we consider a delayed Hassell-Varley-type predator-prey model with harvesting on prey. By means of Mawhin's continuation theorem of coincidence degree theory, some new sufficient conditions are obtained for the existence of at least two positive almost periodic solutions for the aforementioned model. To the best of the author's knowledge, so far, the result of this paper is completely new. An example is employed to illustrate the result of this paper. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

36. A note on the existence and uniqueness solutions of the modified error function.

Author

Bougoffa, Lazhar

Subjects

ERROR functions, UNIQUENESS (Mathematics), MATHEMATICS, DIFFERENTIAL equations, MATHEMATICAL functions

Abstract

This paper shows that the following nonlinear boundary value problem: ( 1 + δ y ) y ′ ′ + 2 x y ′ = 0 , 0 < x < ∞ , y ( 0 ) = 0 , y ( ∞ ) = 1 , where δ≥ − 1 and y is defined as a modified error function, can be reduced to the boundary value problems for the generalized Emden‐Fowler equation and Abel differential equation of the second kind in the canonical form, which do not usually have closed‐form solutions. The existence and uniqueness of the solution are established by considering another contraction mapping. Highly accurate approximate solutions of this problem are also provided. [ABSTRACT FROM AUTHOR]

Published

2018

37. Global existence and boundedness of classical solutions for a chemotaxis model with consumption of chemoattractant and logistic source.

Author

Baghaei, Khadijeh and Khelghati, Ali

Subjects

EXISTENCE theorems, CLASSICAL solutions (Mathematics), MATHEMATICAL analysis, MATHEMATICS, CHEMOTACTIC factors

Abstract

This paper deals with the following chemotaxis system: [ABSTRACT FROM AUTHOR]

Published

2017

38. Upper semicontinuity of strong attractors for the Kirchhoff wave model with structural nonlinear damping.

Author

Qu, Yanxia and Yang, Zhijian

Subjects

*TOPOLOGY, *MATHEMATICS, *CONTINUATION methods

Abstract

In this paper, we prove the upper semicontinuity of the strong global attractors 𝒜θ on the dissipative index θ in the topology of the stronger space for the Kirchhoff wave model with structural nonlinear damping: utt−ϕ(‖∇u‖2)△u+σ(‖∇u‖2)(−Δ)θut+f(u)=g(x), with θ ∈ [1/2, 1). It is continuation of the research in recent literatures1,2 where the upper semicontinuity of the strong attractor 𝒜θ on θ in the topology of natural energy space is obtained. This result improves and deepens those in recent literatures (Li and Yang in J Differ Equat. 2020; 268: 7741‐7743; Li, Yang and Ding in Appl. Math. Lett. 2020; 104:106258). [ABSTRACT FROM AUTHOR]

Published

2021

39. Positive solutions for p-Kirchhoff type problems on.

Author

Cheng, Xiyou and Dai, Guowei

Subjects

LAPLACIAN matrices, KIRCHHOFF'S theory of diffraction, APPLIED mathematics, MATHEMATICS, DYNAMICAL systems

Abstract

In this paper, we establish the existence and non-existence of positive solutions for p-Kirchhoff type problems with a parameter on [ABSTRACT FROM AUTHOR]

Published

2015

40. On a bi-nonlocal p( x)-Kirchhoff equation via Krasnoselskii's genus.

Author

Corrêa, Francisco Julio S.A. and Reis Costa, Augusto César

Subjects

EQUATIONS, EXPONENTS, SOBOLEV spaces, ALGEBRA, MATHEMATICS

Abstract

We study existence and multiplicity of solutions to the following bi-nonlocal p( x)-Kirchhoff equation via Krasnoselskii's genus, on the Sobolev space with variable exponent [ABSTRACT FROM AUTHOR]

Published

2015

41. Linearized viscoelastic Oldroyd fluid motion in an almost periodic environment.

Author

Woukeng, Jean Louis

Subjects

VISCOELASTIC materials, ASYMPTOTIC homogenization, LAPLACE transformation, MATHEMATICAL convolutions, STOCHASTIC convergence, MATHEMATICS

Abstract

In most of the linear homogenization problems involving convolution terms so far studied, the main tool used to derive the homogenized problem is the Laplace transform. Here we propose a direct approach enabling one to tackle both linear and nonlinear homogenization problems that involve convolution sequences without using Laplace transform. To illustrate this, we investigate in this paper the asymptotic behavior of the solutions of a Stokes-Volterra problem with rapidly oscillating coefficients describing the viscoelastic fluid flow in a fixed domain. Under the almost periodicity assumption on the coefficients of the problem, we prove that the sequence of solutions of our ϵ-problem converges in L2 to a solution of a rather classical Stokes system. One important fact is that the memory disappears in the limit. To achieve our goal, we use some very recent results about the sigma-convergence of convolution sequences. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

42. Global existence of classical solutions to two-dimensional Navier-Stokes equations with Cauchy data containing vacuum.

Author

Luo, Zhen

Subjects

NAVIER-Stokes equations, CAUCHY problem, DATA, OSCILLATIONS, MATHEMATICS

Abstract

In this paper, the Cauchy problem to the two-dimensional isentropic compressible Navier-Stokes equations with smooth initial data containing vacuum is investigated. If the initial data are of small energy but possibly large oscillations, we obtain the global well-posedness of classical solutions in the case of initially nonvacuum far fields. In particular, the smallness of the energy only depends on the [ABSTRACT FROM AUTHOR]

Published

2014

43. Decoupled modified characteristics finite element method for the time dependent Navier-Stokes/Darcy problem.

Author

Si, Zhiyong, Wang, Yunxia, and Li, Shishun

Subjects

FINITE element method, NAVIER-Stokes equations, DARCY-Weisbach equation, NUMERICAL analysis, MATHEMATICS

Abstract

In this paper, a modified characteristics finite element method for the time dependent Navier-Stokes/Darcy problem with the Beavers-Joseph-Saffman interface condition is presented. In this method, the Navier-Stokes/Darcy equation is decoupled into two equations, one is the Navier-Stokes equation, the other is the Darcy equation, and the Navier-Stokes equation is solved by the modified characteristics finite element method. The theory analysis shows that this method has a good convergence property. In order to show the effect of our method, some numerical results was presented. The numerical results show that this method is highly efficient. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

44. Characterization of deferred type statistical convergence and P‐summability method for operators: Applications to q‐Lagrange–Hermite operator.

Author

Agrawal, Purshottam Narain, Shukla, Rahul, and Baxhaku, Behar

Subjects

SUMMABILITY theory, POSITIVE operators, LINEAR operators, POLYNOMIALS, MATHEMATICS

Abstract

The present work considers two important convergence techniques, namely, deferred type statistical convergence and P$$ P $$‐summability method in respect of linear positive operators. With regard to these techniques, following closely the ideas developed in the articles (Appl. Math. Lett. 18, 2005, 1339‐1344, and Sau Paulo J. Math. Sci. 13, 2019, 696‐707), we state and prove two general non‐trivial Korovkin‐type approximation results for positive linear operators. Further, we define an operator based on multivariate q$$ q $$‐Lagrange–Hermite polynomials and exhibit the applicability of the above theorems to these operators. [ABSTRACT FROM AUTHOR]

Published

2023

45. Some new results of nonlinear model arising in incompressible visco‐elastic Kelvin–Voigt fluid.

Author

Alam, Md. Nur, Islam, Shariful, İlhan, Onur Alp, and Bulut, Hasan

Subjects

FLUIDS, HONESTY, MATHEMATICS, EQUATIONS, PHYSICS, CUSP forms (Mathematics), CONVECTIVE flow

Abstract

The Oskolkov equation, which is a nonlinear model that describes the dynamics of an incompressible visco‐elastic Kelvin–Voigt fluid, is examined in the present study. It has been obtained by applying the modified G′/G$$ \left({G}^{\prime }/G\right) $$‐expansion method, especially using calculation results such as kink wave, cusp wave, periodic respiratory waves, and periodic wave solutions. This research has employed this process to seek novel computational results of the Oskolkov equation. The dynamics of obtained wave solutions are analyzed and illustrated in figures by selecting appropriate parameters. With three dimensional, two dimensional, and contour graphical illustration, mathematical results explicitly exhibit the proposed algorithm's complete honesty and high performance in physics, mathematics, and engineering. [ABSTRACT FROM AUTHOR]

Published

2022

46. An accurate numerical method for solving the linear fractional Klein-Gordon equation.

Author

Khader, M.M. and Kumar, Sunil

Subjects

COMPUTER simulation, KLEIN-Gordon equation, FINITE difference method, STOCHASTIC convergence, MATHEMATICS

Abstract

In this article, an implementation of an efficient numerical method for solving the linear fractional Klein-Gordon equation (LFKGE) is introduced. The fractional derivative is described in the Caputo sense. The method is based upon a combination between the properties of the Chebyshev approximations and finite difference method (FDM). The proposed method reduces LFKGE to a system of ODEs, which is solved using FDM. Special attention is given to study the convergence analysis and deduce an error upper bound of the proposed method. Numerical example is given to show the validity and the accuracy of the proposed algorithm. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

47. A continuous dependence result for a nonstandard system of phase field equations.

Author

Colli, Pierluigi, Gilardi, Gianni, Krejčí, Pavel, and Sprekels, Jürgen

Subjects

EINSTEIN field equations, DIFFERENTIAL equations, COEFFICIENTS (Statistics), CHEMICAL potential, MATHEMATICS

Abstract

The present note deals with a nonstandard system of differential equations describing a two-species phase segregation. This system naturally arises in the asymptotic analysis carried out recently by the same authors, as the diffusion coefficient in the equation governing the evolution of the order parameter tends to zero. In particular, an existence result has been proved for the limit system in a very general framework. On the contrary, uniqueness was shown by assuming a constant mobility coefficient. Here, we generalize this result and prove a continuous dependence property in the case that the mobility coefficient suitably depends on the chemical potential. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

48. Qualitative theory for Volterra difference equations.

Author

Bernardo, Felix, Cuevas, Claudio, and Soto, Herme

Subjects

DIFFERENCE equations, VOLTERRA equations, QUALITATIVE theory of differential equations, TOPOLOGY, MATHEMATICS

Abstract

We investigate lp boundedness, the topological structure of solutions set and the asymptotic periodicity of Volterra functional difference equations. The theoretical results are complemented with a set of applications. [ABSTRACT FROM AUTHOR]

Published

2018

49. Sturm-Picone comparison theorems for nonlinear impulsive differential equations with discontinuous solutions.

Author

Kayar, Z. and Masiha, S. K.

Subjects

IMPULSIVE differential equations, NONLINEAR analysis, INTEGRALS, DISCONTINUOUS functions, MATHEMATICS

Abstract

The nonlinear versions of Sturm-Picone comparison theorem as well as Leighton's variational lemma and Leighton's theorem for regular and singular nonlinear impulsive differential equations with discontinuous solutions having fixed moments of impulse actions are established. Although discontinuity of the solutions causes some difficulties, these new comparison theorems cover the old ones where impulse effects are dropped. [ABSTRACT FROM AUTHOR]

Published

2017

50. Solution form of a higher-order system of difference equations and dynamical behavior of its special case.

Author

Haddad, Nabila, Touafek, Nouressadat, and Rabago, Julius Fergy T.

Subjects

MATHEMATICAL analysis, MATHEMATICS, NUMERICAL solutions to nonlinear difference equations, BOUNDED arithmetics, SYSTEMS theory

Abstract

The solution form of the system of nonlinear difference equations [ABSTRACT FROM AUTHOR]

Published

2017