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  1. We compute the numerical solution of the Bratu’s boundary value problem (BVP) on a Banach space setting. To do this, we embed a Green’s function into a new two-step iteration scheme. After this, under some ass...

    Authors: Junaid Ahmad, Muhammad Arshad, Kifayat Ullah and Zhenhua Ma
    Citation: Boundary Value Problems 2023 2023:102
  2. We study the determination of some rigid inclusions immersed in an isotropic elastic medium from overdetermined boundary data. We propose an accurate approach based on the topological sensitivity technique and...

    Authors: Mohamed Abdelwahed, Nejmeddine Chorfi and Maatoug Hassine
    Citation: Boundary Value Problems 2023 2023:101
  3. In this paper, new generalized weighted fractional derivatives with respect to another function are derived in the sense of Caputo and Riemann–Liouville involving a new modified version of a generalized Mittag...

    Authors: Sabri T. M. Thabet, Thabet Abdeljawad, Imed Kedim and M. Iadh Ayari
    Citation: Boundary Value Problems 2023 2023:100
  4. Introducing a new generalized multivariate Mittag-Leffler function which is a generalization of the multivariate Mittag-Leffler function, we derive a sufficient condition for the uniqueness of solutions to a b...

    Authors: Chenkuan Li, Reza Saadati, Joshua Beaudin and Andrii Hrytsenko
    Citation: Boundary Value Problems 2023 2023:96
  5. The asymptotic behavior of solutions for a new class of generalized Halanay inequalities is studied via the fixed point method. This research provides a new approach to the study of the stability of Halanay in...

    Authors: Chunsheng Wang, Han Chen, Runpeng Lin, Ying Sheng and Feng Jiao
    Citation: Boundary Value Problems 2023 2023:95
  6. In this paper, we study the initial boundary value problem for the following viscoelastic wave equation with Balakrishnan–Taylor damping and a delay term where the relaxation function satisfies ...

    Authors: Billel Gheraibia and Nouri Boumaza
    Citation: Boundary Value Problems 2023 2023:93
  7. This paper is devoted to the investigation of Ulam stability of first-order nonlinear impulsive dynamic equations on finite-time scale intervals. Our main objective is to formulate sufficient conditions under ...

    Authors: Pallavi Scindia, Sanket Tikare and Ahmed A. El-Deeb
    Citation: Boundary Value Problems 2023 2023:86
  8. In this paper, the existence of the multiple positive solutions for a class of higher-order fractional differential equations on infinite intervals with infinite-point boundary value conditions is mainly studi...

    Authors: Ziyue Cui and Zongfu Zhou
    Citation: Boundary Value Problems 2023 2023:85
  9. Establishing financial models or economic models to describe economic phenomena in real life has become a heated discussion in society at present. From a mathematical point of view, the exploration on dynamics...

    Authors: Zixin Liu, Wenfang Li, Changjin Xu, Chunfeng Liu, Dan Mu, Mengzhu Xu, Wei Ou and Qingyi Cui
    Citation: Boundary Value Problems 2023 2023:82
  10. In this study, we consider a prey–predator model with prey refuge and intraspecific competition between predators using the Crowley–Martin functional response and investigate the dynamic characteristics of spa...

    Authors: Maruthai Selvaraj Surendar, Muniagounder Sambath, Krishnan Balachandran and Yong-Ki Ma
    Citation: Boundary Value Problems 2023 2023:81
  11. In this paper, we consider the nonclassical diffusion equation with memory and the nonlinearity of the polynomial growth condition of arbitrary order in the time-dependent space. First, the well-posedness of t...

    Authors: Jing Wang, Qiaozhen Ma, Wenxue Zhou and Xiaobin Yao
    Citation: Boundary Value Problems 2023 2023:79
  12. The objective of this article is to investigate how the properties of a non-Newtonian Williamson nanofluid flow, which occurs due to an exponential stretching sheet placed in a porous medium, are influenced by...

    Authors: M. M. Khader, M. M. Babatin and Ahmed M. Megahed
    Citation: Boundary Value Problems 2023 2023:77
  13. In this article, we use coupled boundary conditions on a nonlinear system with ψ-Caputo fractional derivatives to derive new conclusions on the solution’s existence, uniqueness, and stability. We use the well-kno...

    Authors: Poovarasan R, Pushpendra Kumar, V. Govindaraj and Marina Murillo-Arcila
    Citation: Boundary Value Problems 2023 2023:75
  14. This ongoing work is vehemently dedicated to the investigation of a class of ordinary linear Volterra type integro-differential equations with fractional order in numerical mode. By replacing the unknown funct...

    Authors: T. Allahviranloo, A. Jafarian, R. Saneifard, N. Ghalami, S. Measoomy Nia, F. Kiani, U. Fernandez-Gamiz and S. Noeiaghdam
    Citation: Boundary Value Problems 2023 2023:74
  15. The decay rate of solutions to a Bresse system in thermoelasticity of type III with respect to the distributed delay term is the subject of this study. We demonstrate our major finding utilising the energy app...

    Authors: Abdelbaki Choucha, Salah Boulaaras, Rashid Jan and Rafik Guefaifia
    Citation: Boundary Value Problems 2023 2023:67
  16. The novelty of this paper is that, based on Mawhin’s continuation theorem, we present some sufficient conditions that ensure that there is at least one solution to a particular kind of a boundary value problem...

    Authors: Yassine Adjabi, Fahd Jarad, Mokhtar Bouloudene and Sumati Kumari Panda
    Citation: Boundary Value Problems 2023 2023:62
  17. This work is devoted to studying a viscoelastic Kirchhoff-type equation with nonlinear boundary damping-source interactions in a bounded domain. Under suitable assumptions on the kernel function g, density functi...

    Authors: Meriem Saker, Nouri Boumaza and Billel Gheraibia
    Citation: Boundary Value Problems 2023 2023:58
  18. In this paper, we present the definitions of fractional integrals and fractional derivatives of a Pettis integrable function with respect to another function. This concept follows the idea of Stieltjes-type op...

    Authors: Hussein A. H. Salem, Mieczysław Cichoń and Wafa Shammakh
    Citation: Boundary Value Problems 2023 2023:57
  19. In this paper, we introduce a new coupled system of sequential fractional differential equations with coupled boundary conditions. We establish existence and uniqueness results using the Leray–Schauder alterna...

    Authors: Manigandan Murugesan, Subramanian Muthaiah, Jehad Alzabut and Thangaraj Nandha Gopal
    Citation: Boundary Value Problems 2023 2023:56
  20. Variable order differential equations are the natural extension of the said area. In many situations, such problems have the ability to describe real-world problems more concisely. Therefore, keeping this vali...

    Authors: Kamal Shah, Gauhar Ali, Khursheed J. Ansari, Thabet Abdeljawad, M. Meganathan and Bahaaeldin Abdalla
    Citation: Boundary Value Problems 2023 2023:55

Annual Journal Metrics

  • Citation Impact 2023
    Journal Impact Factor: 1.0
    5-year Journal Impact Factor: 1.1
    Source Normalized Impact per Paper (SNIP): 0.685
    SCImago Journal Rank (SJR): 0.412

    Speed 2023
    Submission to first editorial decision (median days): 7
    Submission to acceptance (median days): 88

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    Downloads: 447,211
    Altmetric mentions: 8