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Abuasbeh, K., & Bashirov, A. E. (2022). Derivation of a Kalman-type filter for linear systems with pointwise delay in signal noise. Boundary Value Problems, 2022(1), Article 64. https://doi.org/10.1186/s13661-022-01646-6

Abuasbeh, K., Mahmudov, N. I., & Awadalla, M. (2022). Existence of Solutions and Relative Controllability of a Stochastic System with Nonpermutable Matrix Coefficients. Fractal and Fractional, 6(6), Article 307. https://doi.org/10.3390/fractalfract6060307

Ahmadova, A., Huseynov, I., & Mahmudov, N. I. (2022a). Perturbation theory for fractional evolution equations in a Banach space. Semigroup Forum, 105(3), 583-618. https://doi.org/10.1007/s00233-022-10322-1

Ahmadova, A., Huseynov, I. T., & Mahmudov, N. I. (2022b). EXISTENCE AND STABILITY RESULTS ON MULTIDIMENSIONAL FRACTIONAL-ORDER SYSTEMS. Rocky Mountain Journal of Mathematics, 52(1), 1-14. https://doi.org/10.1216/rmj.2022.52.1

Ahmadova, A., Mahmudov, N. I., & Nieto, J. J. EXPONENTIAL STABILITY AND STABILIZATION OF FRACTIONAL STOCHASTIC DEGENERATE EVOLUTION EQUATIONS IN A HILBERT SPACE: SUBORDINATION PRINCIPLE. Evolution Equations and Control Theoryhttps://doi.org/10.3934/eect.2022008

Aktuglu, H., Gezer, H., Baytunc, E., & Atamert, M. S. (2022). APPROXIMATION PROPERTIES OF GENERALIZED BLENDING TYPE LOTOTSKY-BERNSTEIN OPERATORS. Journal of Mathematical Inequalities, 16(2), 707-728. https://doi.org/10.7153/jmi-2022-16-50

Alzboon, L., & Nagy, B. (2022a). A Comparison of Various Extensions of Strong Truthteller and Strong Liar Puzzles (Mutes and Crazies). Axioms, 11(7), Article 322. https://doi.org/10.3390/axioms11070322

Alzboon, L., & Nagy, B. (2022b). Crazy Truth-Teller-Liar Puzzles. Axiomathes, 32(4), 639-657. https://doi.org/10.1007/s10516-021-09546-7

Atsa'am, D. D., & Bodur, E. K. (2022). Mining the moderating role of organizational tenure in the association betweenPsyCapand educational qualifications among tourism and hospitality workers. Journal of Public Affairs, 22(1), Article e2272. https://doi.org/10.1002/pa.2272

Avkan, A., Nagy, B., & Saadetoglu, M. (2022). A comparison of digitized rotations of neighborhood motion maps of closest neighbors on 2D regular grids. Signal Image and Video Processing, 16(2), 505-513. https://doi.org/10.1007/s11760-021-01993-4

Awadalla, M., & Mahmudov, N. I. (2022). On System of Mixed Fractional Hybrid Differential Equations. Journal of Function Spaces, 2022, Article 1258823. https://doi.org/10.1155/2022/1258823

Awadalla, M., Noupoue, Y. Y. Y., Tandogdu, Y., & Abuasbeh, K. (2022). Regression Coefficient Derivation via Fractional Calculus Framework. Journal of Mathematics, 2022, Article 1144296. https://doi.org/10.1155/2022/1144296

Awuya, M. A., Ojo, G. O., & Mahmudov, N. I. (2022). Solution of Space-Time Fractional Differential Equations Using Aboodh Transform Iterative Method. Journal of Mathematics, 2022, Article 4861588. https://doi.org/10.1155/2022/4861588

Aydin, M., & Mahmudov, N. I. (2022a). Iterative learning control for impulsive fractional order time-delay systems with nonpermutable constant coefficient matrices. International Journal of Adaptive Control and Signal Processing, 36(6), 1419-1438. https://doi.org/10.1002/acs.3401

Aydin, M., & Mahmudov, N. I. (2022b). On a study for the neutral Caputo fractional multi-delayed differential equations with noncommutative coefficient matrices. Chaos Solitons & Fractals, 161, Article 112372. https://doi.org/10.1016/j.chaos.2022.112372

Aydin, M., & Mahmudov, N. I. (2022c). Study of the phi-generalized type k-fractional integrals or derivatives and some of their properties. Turkish Journal of Mathematics, 46(4), 1384-1396. https://doi.org/10.3906/mat-2110-51

Aydin, M., Mahmudov, N. I.Aktuglu, H., Baytunc, E., & Atamert, M. S. (2022). On a study of the representation of solutions of a psi-Caputo fractional differential equations with a single delay. Electronic Research Archive, 30(3), 1016-1034. https://doi.org/10.3934/era.2022053

Bashirov, A. E., & Ahmadova, A. (2022). Partial observability of stochastic semilinear systems. Systems & Control Letters, 168, Article 105348. https://doi.org/10.1016/j.sysconle.2022.105348

Fernandez, A., & Fahad, H. M. (2022a). On the importance of conjugation relations in fractional calculus. Computational & Applied Mathematics, 41(6), Article 246. https://doi.org/10.1007/s40314-022-01925-z

Fernandez, A., & Fahad, H. M. (2022b). Weighted Fractional Calculus: A General Class of Operators. Fractal and Fractional, 6(4), Article 208. https://doi.org/10.3390/fractalfract6040208

Fernandez, A.Ozarslan, M. A., & Kurt, C. (2022). A catalogue of semigroup properties for integral operators with Fox-Wright kernel functions. Studies in Applied Mathematics, 148(4), 1477-1518. https://doi.org/10.1111/sapm.12481

Fernandez, A., Restrepo, J. E., & Suragan, D. (2022a). Linear differential equations with variable coefficients and Mittag-Leffler kernels. Alexandria Engineering Journal, 61(6), 4757-4763. https://doi.org/10.1016/j.aej.2021.10.028

Fernandez, A., Restrepo, J. E., & Suragan, D. (2022b). Lipschitz and Fourier type conditions with moduli of continuity in rank 1 symmetric spaces. Monatshefte Fur Mathematik, 197(2), 353-364. https://doi.org/10.1007/s00605-021-01621-w

Fernandez, A., Restrepo, J. E., & Suragan, D. (2022c). On linear fractional differential equations with variable coefficients. Applied Mathematics and Computation, 432, Article 127370. https://doi.org/10.1016/j.amc.2022.127370

Fernandez, A., Restrepo, J. E., & Suragan, D. (2022d). PRABHAKAR-TYPE LINEAR DIFFERENTIAL EQUATIONS WITH VARIABLE COEFFICIENTS. Differential and Integral Equations, 35(9-10), 581-610.

Gezer, H., Aktuglu, H., Baytunc, E., & Atamert, M. S. (2022). Generalized blending type Bernstein operators based on the shape parameter lambda. Journal of Inequalities and Applications, 2022(1), Article 96. https://doi.org/10.1186/s13660-022-02832-x

Hamal, H., & Sabancigil, P. (2022). Kantorovich Type Generalization of Bernstein Type Rational Functions Based on (p,q)-Integers. Symmetry-Basel, 14(5), Article 1054. https://doi.org/10.3390/sym14051054

Huseynov, I. T., Ahmadova, A., & Mahmudov, N. I. (2022a). On a study of Sobolev-type fractional functional evolution equations. Mathematical Methods in the Applied Sciences, 45(9), 5002-5042. https://doi.org/10.1002/mma.8090

Huseynov, I. T., Ahmadova, A., & Mahmudov, N. I. (2022b). Perturbation properties of fractional strongly continuous cosine and sine family operators. Electronic Research Archive, 30(8), 2911-2940. https://doi.org/10.3934/era.2022148

Huseynov, I. T., & Mahmudov, N. I. (2022). Analysis of positive fractional-order neutral time-delay systems. Journal of the Franklin Institute-Engineering and Applied Mathematics, 359(1), 294-330. https://doi.org/10.1016/j.jfranklin.2021.07.001

Iyikal, O. C. (2022a). Numerical Investigation of the Two-Dimensional Fredholm Integral Equations of the Second Kind by Bernstein Operators. Symmetry-Basel, 14(3), Article 625. https://doi.org/10.3390/sym14030625

Iyikal, O. C. (2022b). Numerical Solution of Sylvester Equation Based on Iterative Predictor-Corrector Method. Journal of Mathematics, 2022, Article 6571126. https://doi.org/10.1155/2022/6571126

Kara, M. (2022). Approximation properties of the new type generalized Bernstein-Kantorovich operators. Aims Mathematics, 7(3), 3826-3844. https://doi.org/10.3934/math.2022212

Khassawneh, B., & Nagy, B. (2022). POLYNOMIAL AND MULTINOMIAL COEFFICIENTS IN TERMS OF NUMBER OF SHORTEST PATHS. Comptes Rendus De L Academie Bulgare Des Sciences, 75(4), 495-503. https://doi.org/10.7546/crabs.2022.04.03

Kocman, R., Krivka, Z., Meduna, A., & Nagy, B. (2022). A jumping 5 ' -> 3 ' Watson-Crick finite automata model. Acta Informatica, 59(5), 557-584. https://doi.org/10.1007/s00236-021-00413-x

Kucche, K. D., Mali, A. D., Fernandez, A., & Fahad, H. M. (2022). On tempered Hilfer fractional derivatives with respect to functions and the associated fractional differential equations. Chaos Solitons & Fractals, 163, Article 112547. https://doi.org/10.1016/j.chaos.2022.112547

Mahmudov, N. I. (2022). Multi-delayed perturbation of Mittag-Leftier type matrix functions. Journal of Mathematical Analysis and Applications, 505(1), Article 125589. https://doi.org/10.1016/j.jmaa.2021.125589

Mahmudov, N. I., & Ahmadova, A. (2022). Some Results on Backward Stochastic Differential Equations of Fractional Order. Qualitative Theory of Dynamical Systems, 21(4), Article 129. https://doi.org/10.1007/s12346-022-00657-z

Mahmudov, N. I., Ahmadova, A., & Huseynov, I. T. (2022). A novel technique for solving Sobolev-type fractional multi-order evolution equations. Computational & Applied Mathematics, 41(2), Article 71. https://doi.org/10.1007/s40314-022-01781-x

Mali, A. D., Kucche, K. D., Fernandez, A., & Fahad, H. M. (2022). On tempered fractional calculus with respect to functions and the associated fractional differential equations. Mathematical Methods in the Applied Sciences, 45(17), 11134-11157. https://doi.org/10.1002/mma.8441

Nagy, B. (2022a, Aug 31-Sep 02). From Finite Automata to Fractal Automata - The Power of Recursion.Lecture Notes in Computer Science [Machines, computations, and universality (mcu 2022)]. 9th Conference on Machines, Computations and Universality (MCU), Univ Debrecen, Fac Informat, Debrecen, HUNGARY.

Nagy, B. (2022b). Operational union-complexity. Information and Computation, 284, Article 104692. https://doi.org/10.1016/j.ic.2021.104692

Nagy, B. (2022c, Aug 29-31). Union-Complexities of Kleene Plus Operation.Lecture Notes in Computer Science [Descriptional complexity of formal systems, dcfs 2022]. 24th IFIP WG 1.02 International Conference on Descriptional Complexity of Formal Systems (DCFS), Univ Debrecen, Debrecen, HUNGARY.

Nidheesh, P. V., Oladipo, A. A., Yasri, N. G., Laiju, A. R., Cheela, V. R. S., Thiam, A., . . . Roberts, E. P. L. (2022). Emerging applications, reactor design and recent advances of electrocoagulation process. Process Safety and Environmental Protection, 166, 600-616. https://doi.org/10.1016/j.psep.2022.08.051

Obuz, T., & Topcu, Z. G. (2022). The effects of exercises with a Pilates ball on balance, reaction time and dual-task performance of kindergarten children. Journal of Comparative Effectiveness Research, 11(8), 583-593. https://doi.org/10.2217/cer-2021-0293

Oladipo, A. A., & Gazi, M. (2022). Ternary Ni0.5Zn0.5Fe2O4/carbon nanocomposite as counter electrode for natural dye-sensitized solar cells: Electro-photovoltaic characterizations. Journal of Photochemistry and Photobiology a-Chemistry, 425, Article 113665. https://doi.org/10.1016/j.jphotochem.2021.113665

Oladipo, A. A., Mustafa, F. S., Ezugwu, O. N., & Gazi, M. (2022). Efficient removal of antibiotic in single and binary mixture of nickel by electrocoagulation process: Hydrogen generation and cost analysis. Chemosphere, 300, Article 134532. https://doi.org/10.1016/j.chemosphere.2022.134532

Ozad, B. E., Jamo, M. S., & Uygarer, G. (2022). COVID-19 Restrictions, Lifestyles, and Marital Conflicts: An Empirical Analysis of Marital Sustainability. Sustainability, 14(18), Article 11249. https://doi.org/10.3390/su141811249

Ozarslan, M. A., & Fernandez, A. (2022). On the fractional calculus of multivariate Mittag-Leffler functions. International Journal of Computer Mathematics, 99(2), 247-273. https://doi.org/10.1080/00207160.2021.1906869

Ozarslan, M. A., & Ustaoglu, C. (2022). Extended incomplete Riemann-Liouville fractional integral operators and related special functions. Electronic Research Archive, 30(5), 1723-1747. https://doi.org/10.3934/era.2022087

Ozbeser, H., Tuzun, E. H., Dericioglu, B., & Ovgun, C. D. Effects of Cognitive Orientation to Daily Occupational Performance and Conductive Education Treatment Approaches on Fine Motor Skills, Activity and Participation Limitations in Children with Down Syndrome: A Randomised Controlled Trial. Journal of Autism and Developmental Disordershttps://doi.org/10.1007/s10803-022-05781-y

Rani, N., & Fernandez, A. (2022a). An operational calculus formulation of fractional calculus with general analytic kernels. Electronic Research Archive, 30(12), 4238-4255. https://doi.org/10.3934/era.2022216

Rani, N., & Fernandez, A. (2022b). Mikusinski's operational calculus for Prabhakar fractional calculus. Integral Transforms and Special Functions, 33(12), 945-965. https://doi.org/10.1080/10652469.2022.2057970

Rani, N., & Fernandez, A. (2022c). Solving Prabhakar differential equations using Mikusinski's operational calculus. Computational & Applied Mathematics, 41(3), Article 107. https://doi.org/10.1007/s40314-022-01794-6

Saadetoglu, M. (2022). A Topological Proof for a Version of Artin's Induction Theorem. Symmetry-Basel, 14(10), Article 2121. https://doi.org/10.3390/sym14102121

Sabancigil, P.Kara, M., & Mahmudov, N. I. (2022). Higher order Kantorovich-type Szasz-Mirakjan operators. Journal of Inequalities and Applications, 2022(1), Article 91. https://doi.org/10.1186/s13660-022-02827-8

2021 yılında AHCI/SSCI/SCI/SCI endeksleri tarafından taranan dergilerde yayımlanmış olan makaleler

Abuhmaidan, K., Aldwairi, M., & Nagy, B. (2021). Vector Arithmetic in the Triangular Grid. Entropy, 23(3), Article 373. https://doi.org/10.3390/e23030373

Ahmadova, A., Huseynov, I. T., Fernandez, A., & Mahmudov, N. I. (2021). Trivariate Mittag-Leffler functions used to solve multi-order systems of fractional differential equations. Communications in Nonlinear Science and Numerical Simulation, 97, Article 105735. https://doi.org/10.1016/j.cnsns.2021.105735

Ahmadova, A., & Mahmudov, N. I. (2021a). Asymptotic Separation of Solutions to Fractional Stochastic Multi-Term Differential Equations. Fractal and Fractional, 5(4), Article 256. https://doi.org/10.3390/fractalfract5040256

Ahmadova, A., & Mahmudov, N. I. (2021b). ASYMPTOTIC STABILITY ANALYSIS OF RIEMANN-LIOUVILLE FRACTIONAL STOCHASTIC NEUTRAL DIFFERENTIAL EQUATIONS. Miskolc Mathematical Notes, 22(2), 503-520. https://doi.org/10.18514/mmn.2021.3600

Ahmadova, A., & Mahmudov, N. I. (2021c). Langevin differential equations with general fractional orders and their applications to electric circuit theory. Journal of Computational and Applied Mathematics, 388, Article 113299. https://doi.org/10.1016/j.cam.2020.113299

Ahmadova, A., & Mahmudov, N. I. (2021d). Strong convergence of a Euler-Maruyama method for fractional stochastic Langevin equations. Mathematics and Computers in Simulation, 190, 429-448. https://doi.org/10.1016/j.matcom.2021.05.037

Ahmadova, A., & Mahmudov, N. I. (2021e). Ulam-Hyers stability of Caputo type fractional stochastic neutral differential equations. Statistics & Probability Letters, 168, Article 108949. https://doi.org/10.1016/j.spl.2020.108949

Akcay, N. I., & Bashirov, R. (2021). Comparison of modelling approaches demonstrated for p16-mediated signalling pathway in higher eukaryotes. Biosystems, 210, Article 104562. https://doi.org/10.1016/j.biosystems.2021.104562

Akcay, N. I., Nagy, B., & Tuzmen, S. (2021). Reaction Systems for Modeling and Validation of Biological Signaling Pathways: G1/S Checkpoint of the Cell Cycle. Acta Polytechnica Hungarica, 18(6), 7-23. https://doi.org/10.12700/aph.18.6.2021.6.1

Alawneh, T. N., & Tut, M. A. (2021). Using Rough Set Theory to Find Minimal Log with Rule Generation. Symmetry-Basel, 13(10), Article 1906. https://doi.org/10.3390/sym13101906

Aliev, F. A., Aliyev, N. A., Hajiyeva, N. S., & Mahmudov, N. I. (2021). SOME MATHEMATICAL PROBLEMS AND THEIR SOLUTIONS FOR THE OSCILLATING SYSTEMS WITH LIQUID DAMPERS: A REVIEW. Applied and Computational Mathematics, 20(3), 339-365.

Alzboon, L., & Nagy, B. (2022). Crazy Truth-Teller-Liar Puzzles. Axiomathes, 32(4), 639-657. https://doi.org/10.1007/s10516-021-09546-7

Avkan, A., Nagy, B., & Saadetoglu, M. (2022). A comparison of digitized rotations of neighborhood motion maps of closest neighbors on 2D regular grids. Signal Image and Video Processing, 16(2), 505-513. https://doi.org/10.1007/s11760-021-01993-4

Awuya, M. A., & Subasi, D. (2021). Aboodh Transform Iterative Method for Solving Fractional Partial Differential Equation with Mittag-Leffler Kernel. Symmetry-Basel, 13(11), Article 2055. https://doi.org/10.3390/sym13112055

Bashirov, A. E. (2021). On exact controllability of semilinear systems. Mathematical Methods in the Applied Sciences, 44(9), 7455-7462. https://doi.org/10.1002/mma.6265

Boruah, K., Hazarika, B., & Bashirov, A. E. (2021). Solvability of Bigeometric Differential Equations by Numerical Methods. Boletim Sociedade Paranaense De Matematica, 39(2), 203-222. https://doi.org/10.5269/bspm.39444

Buranay, S. C., & Arshad, N. (2020, Jun 17-21). Implicit Method of High Accuracy on Hexagonal Grids for Approximating the Solution to Heat Equation on Rectangle.AIP Conference Proceedings [Fourth international conference of mathematical sciences (icms 2020)]. 4th International Conference of Mathematical Sciences (ICMS), Maltepe Univ, ELECTR NETWORK.

Buranay, S. C., Arshad, N., & Matan, A. H. (2021). Hexagonal Grid Computation of the Derivatives of the Solution to the Heat Equation by Using Fourth-Order Accurate Two-Stage Implicit Methods. Fractal and Fractional, 5(4), Article 203. https://doi.org/10.3390/fractalfract5040203

Buranay, S. C., & Iyikal, O. C. (2021). Incomplete block-matrix factorization ofM-matrices using two-step iterative method for matrix inversion and preconditioning. Mathematical Methods in the Applied Sciences, 44(9), 7634-7650. https://doi.org/10.1002/mma.6502

Buranay, S. C., Matan, A. H., & Arshad, N. (2021). Two Stage Implicit Method on Hexagonal Grids for Approximating the First Derivatives of the Solution to the Heat Equation. Fractal and Fractional, 5(1), Article 19. https://doi.org/10.3390/fractalfract5010019

Buranay, S. C.Ozarslan, M. A., & Falahhesar, S. S. (2021). Numerical Solution of the Fredholm and Volterra Integral Equations by Using Modified Bernstein-Kantorovich Operators. Mathematics, 9(11), Article 1193. https://doi.org/10.3390/math9111193

Daher, R., Fernandez, A., & Restrepo, J. E. (2021). Characterising Extended Lipschitz Type Conditions with Moduli of Continuity. Results in Mathematics, 76(3), Article 125. https://doi.org/10.1007/s00025-021-01433-2

Fahad, H. M., & Fernandez, A. (2021a). Operational calculus for Caputo fractional calculus with respect to functions and the associated fractional differential equations. Applied Mathematics and Computation, 409, Article 126400. https://doi.org/10.1016/j.amc.2021.126400

Fahad, H. M., & Fernandez, A. (2021b). OPERATIONAL CALCULUS FOR THE RIEMANN-LIOUVILLE FRACTIONAL DERIVATIVE WITH RESPECT TO A FUNCTION AND ITS APPLICATIONS. Fractional Calculus and Applied Analysis, 24(2), 518-540. https://doi.org/10.1515/fca-2021-0023

Fahad, H. M., Fernandez, A., Rehman, M. U., & Siddiqi, M. (2021). Tempered and Hadamard-Type Fractional Calculus with Respect to Functions. Mediterranean Journal of Mathematics, 18(4), Article 143. https://doi.org/10.1007/s00009-021-01783-9

Fahad, H. M., & Rehman, M. U. (2021). Generalized Substantial Fractional Operators and Well-Posedness of Cauchy Problem. Bulletin of the Malaysian Mathematical Sciences Society, 44(3), 1501-1524. https://doi.org/10.1007/s40840-020-01008-4

Fahad, H. M., Rehman, M. U., & Fernandez, A. On Laplace transforms with respect to functions and their applications to fractional differential equations. Mathematical Methods in the Applied Scienceshttps://doi.org/10.1002/mma.7772

Fernandez, A. (2021). A complex analysis approach to Atangana-Baleanu fractional calculus. Mathematical Methods in the Applied Sciences, 44(10), 8070-8087. https://doi.org/10.1002/mma.5754

Fernandez, A., Ali, S., & Zada, A. (2021). On non-instantaneous impulsive fractional differential equations and their equivalent integral equations. Mathematical Methods in the Applied Sciences, 44(18), 13979-13988. https://doi.org/10.1002/mma.7669

Fernandez, A., & Baleanu, D. (2021). Classes of operators in fractional calculus: A case study. Mathematical Methods in the Applied Sciences, 44(11), 9143-9162. https://doi.org/10.1002/mma.7341

Fernandez, A., & Bouzouina, C. (2021). Fractionalisation of complex d-bar derivatives. Complex Variables and Elliptic Equations, 66(3), 437-475. https://doi.org/10.1080/17476933.2020.1722114

Fernandez, A., & Djida, J. D. (2021). Fractional differential relations for the Lerch zeta function. Archiv Der Mathematik, 117(5), 515-527. https://doi.org/10.1007/s00013-021-01654-5

Fernandez, A., & Mohammed, P. (2021). Hermite-Hadamard inequalities in fractional calculus defined using Mittag-Leffler kernels. Mathematical Methods in the Applied Sciences, 44(10), 8414-8431. https://doi.org/10.1002/mma.6188

Fernandez, A., Restrepo, J. E., & Suragan, D. (2022a). Linear differential equations with variable coefficients and Mittag-Leffler kernels. Alexandria Engineering Journal, 61(6), 4757-4763. https://doi.org/10.1016/j.aej.2021.10.028

Fernandez, A., Restrepo, J. E., & Suragan, D. (2022b). Lipschitz and Fourier type conditions with moduli of continuity in rank 1 symmetric spaces. Monatshefte Fur Mathematik, 197(2), 353-364. https://doi.org/10.1007/s00605-021-01621-w

Fernandez, A., Ustaoglu, C., & Ozarslan, M. A. (2021). On the analytical development of incomplete Riemann-Liouville fractional calculus. Turkish Journal of Mathematics, 45(3), 1418-1443. https://doi.org/10.3906/mat-2101-64

Fogarasi, K., & Nagy, B. (2021). NOTES ON THE NP-COMPLETENESS OF THE MEMBERSHIP PROBLEM OF ET0L LANGUAGES. Comptes Rendus De L Academie Bulgare Des Sciences, 74(7), 964-971. https://doi.org/10.7546/crabs.2021.07.02

Guclu Altun, I., Koc, G., Ozen Barut, B., & Gokcil, Z. (2021). Evaluation of the Seizure Frequency and Severity in Patients with Epilepsy Who Had COVID-19. Epilepsi, 27(3), 163-170. https://doi.org/10.14744/epilepsi.2021.48030

Hamal, H., & Sabancigil, P. (2021). Some approximation properties of new (p, q)-analogue of Balazs-Szabados operators. Journal of Inequalities and Applications, 2021(1), Article 162. https://doi.org/10.1186/s13660-021-02694-9

Hezarkhani, M., Usturk, S., Ozbilenler, C., & Yilmaz, E. (2021). Pullulan/poly(N-vinylimidazole) cryogel: An efficient adsorbent for methyl orange. Journal of Applied Polymer Science, 138(37), Article e50958. https://doi.org/10.1002/app.50958

Huseynov, I. T., Ahmadova, A., Fernandez, A., & Mahmudov, N. I. (2021). Explicit analytical solutions of incommensurate fractional differential equation systems. Applied Mathematics and Computation, 390, Article 125590. https://doi.org/10.1016/j.amc.2020.125590

Huseynov, T. I., & Mahmudov, I. N. (2021). A class of Langevin time-delay differential equations with general fractional orders and their applications to vibration theory. Journal of King Saud University Science, 33(8), Article 101596. https://doi.org/10.1016/j.jksus.2021.101596

Kovacs, G., Nagy, B., Stomfai, G., Turgay, N. D., & Vizvari, B. (2021a). Discrete Optimization: The Case of Generalized BCC Lattice. Mathematics, 9(3), Article 208. https://doi.org/10.3390/math9030208

Kovacs, G., Nagy, B., Stomfai, G., Turgay, N. D., & Vizvari, B. (2021b). On Chamfer Distances on the Square and Body-Centered Cubic Grids: An Operational Research Approach. Mathematical Problems in Engineering, 2021, Article 5582034. https://doi.org/10.1155/2021/5582034

Kovacs, G., Nagy, B., & Turgay, N. D. (2021). Distance on the Cairo pattern. Pattern Recognition Letters, 145, 141-146. https://doi.org/10.1016/j.patrec.2021.02.002

Kovacs, G., Nagy, B., & Vizvari, B. (2021). Weighted distances on the truncated hexagonal grid. Pattern Recognition Letters, 152, 26-33. https://doi.org/10.1016/j.patrec.2021.09.015

Kurt, C., Ozarslan, M. A., & Fernandez, A. (2021). On a certain bivariate Mittag-Leffler function analysed from a fractional-calculus point of view. Mathematical Methods in the Applied Sciences, 44(3), 2600-2620. https://doi.org/10.1002/mma.6324

Kusper, G., Biro, C., & Nagy, B. (2021). Resolvable Networks-A Graphical Tool for Representing and Solving SAT. Mathematics, 9(20), Article 2597. https://doi.org/10.3390/math9202597

Mahmudov, N. I. (2021). Finite-Approximate Controllability of Riemann-Liouville Fractional Evolution Systems via Resolvent-Like Operators. Fractal and Fractional, 5(4), Article 199. https://doi.org/10.3390/fractalfract5040199

Mahmudov, N. I. (2022). Multi-delayed perturbation of Mittag-Leftier type matrix functions. Journal of Mathematical Analysis and Applications, 505(1), Article 125589. https://doi.org/10.1016/j.jmaa.2021.125589

Mahmudov, N. I., & Aydin, M. (2021). Representation of solutions of nonhomogeneous conformable fractional delay differential equations. Chaos Solitons & Fractals, 150, Article 111190. https://doi.org/10.1016/j.chaos.2021.111190

Nagy, B. (2021a). State-deterministic 5 ' -> 3 ' Watson-Crick automata. Natural Computing, 20(4), 725-737. https://doi.org/10.1007/s11047-021-09865-z

Nagy, B. (2021b). Union-Freeness Revisited - Between Deterministic and Nondeterministic Union-Free Languages. International Journal of Foundations of Computer Science, 32(05), 551-573. https://doi.org/10.1142/s0129054121410070

Nagy, B., & Kovacs, Z. (2021). ON DETERMINISTIC 1-LIMITED 5 ' -> 3 ' SENSING WATSON-CRICK FINITE-STATE TRANSDUCERS. Rairo-Theoretical Informatics and Applications, 55, Article 5. https://doi.org/10.1051/ita/2021007

Nagy, B., & Mujahed, H. (2021). DETOUR INDEX FOR BODY-CENTRED CUBIC GRID WITH UNIT CELLS CONNECTED IN A ROW. Comptes Rendus De L Academie Bulgare Des Sciences, 74(11), 1581-1589. https://doi.org/10.7546/crabs.2021.11.01

Nagy, B., & Parchami, S. 5 ' -> 3 ' Watson-Crick automata languages-without sensing parameter. Natural Computinghttps://doi.org/10.1007/s11047-021-09869-9

Nagy, B., & Parchami, S. (2021). On deterministic sensing 5 ' -> 3 ' Watson-Crick finite automata: a full hierarchy in 2detLIN. Acta Informatica, 58(3), 153-175. https://doi.org/10.1007/s00236-019-00362-6

Nagy, B., & Szokol, P. (2021). A Genetic Algorithm for the Minimum Vertex Cover Problem with Interval-Valued Fitness. Acta Polytechnica Hungarica, 18(4), 105-123.

Nagy, B., & Valyi, S. (2021). Circular Interval-valued Computers and Simulation of (Red-green) Turing Machines. Fundamenta Informaticae, 181(2-3), 213-238. https://doi.org/10.3233/fi-2021-2057

Nigmatullin, R., Baleanu, D., & Fernandez, A. (2021). Balance equations with generalised memory and the emerging fractional kernels. Nonlinear Dynamics, 104(4), 4149-4161. https://doi.org/10.1007/s11071-021-06562-5

Ogurlu, S. Z., & Elidemir, I. (2021). On the omega-multiple Meixner polynomials of the second kind. Journal of Difference Equations and Applications, 27(7), 966-985. https://doi.org/10.1080/10236198.2021.1954174

Ojo, G. O., & Mahmudov, N. I. (2021). Aboodh Transform Iterative Method for Spatial Diffusion of a Biological Population with Fractional-Order. Mathematics, 9(2), Article 155. https://doi.org/10.3390/math9020155

Oumarou, C. M. S., Fahad, H. M., Djida, J. D., & Fernandez, A. (2021). On fractional calculus with analytic kernels with respect to functions. Computational & Applied Mathematics, 40(7), Article 244. https://doi.org/10.1007/s40314-021-01622-3

Ozarslan, M. A., & Baran, G. (2021). On the omega-multiple Charlier polynomials. Advances in Difference Equations, 2021(1), Article 119. https://doi.org/10.1186/s13662-021-03278-z

Ozarslan, M. A., & Fernandez, A. (2021). On a Five-Parameter Mittag-Leffler Function and the Corresponding Bivariate Fractional Operators. Fractal and Fractional, 5(2), Article 45. https://doi.org/10.3390/fractalfract5020045

Ozarslan, M. A., & Fernandez, A. (2022). On the fractional calculus of multivariate Mittag-Leffler functions. International Journal of Computer Mathematics, 99(2), 247-273. https://doi.org/10.1080/00207160.2021.1906869

Ozarslan, M. A.Fernandez, A., & Area, I. (2021). Editorial for Special Issue "Fractional Calculus and Special Functions with Applications". Fractal and Fractional, 5(4), Article 224. https://doi.org/10.3390/fractalfract5040224

Ozarslan, M. A., & Yasar, B. Y. (2021). Delta(h)-GOULD-HOPPER APPELL POLYNOMIALS. Acta Mathematica Scientia, 41(4), 1196-1222. https://doi.org/10.1007/s10473-021-0411-y

Yagli, C., Ozen, E., & Akkeles, A. (2021). Fast hardware-oriented algorithm for 3D positioning in line-of-sight and single bounced non-line-of-sight environments. Turkish Journal of Electrical Engineering and Computer Sciences, 29(4), 2140-+. https://doi.org/10.3906/elk-2008-98

2020 yılında AHCI/SSCI/SCI/SCI endeksleri tarafından taranan dergilerde yayımlanmış olan makaleler

Abdalla, M., & Nagy, B. (2020). Mathematical Morphology on the Triangular Grid: The Strict Approach. Siam Journal on Imaging Sciences, 13(3), 1367-1385. https://doi.org/10.1137/19m128017x

Abuhmaidan, K., & Nagy, B. (2020). Bijective, Non-Bijective and Semi-Bijective Translations on the Triangular Plane. Mathematics, 8(1), Article 29. https://doi.org/10.3390/math8010029

Ahmadova, A., Huseynov, I. T., & Mahmudov, N. I. (2020). CONTROLLABILITY OF FRACTIONAL STOCHASTIC DELAY DYNAMICAL SYSTEMS. Proceedings of the Institute of Mathematics and Mechanics, 46(2), 294-320. https://doi.org/10.29228/proc.34

Ahmadova, A., & Mahmudov, N. I. (2020a, Aug 26-28). A VARIATION OF CONSTANT FORMULA FOR FRACTIONAL STOCHASTIC NEUTRAL DIFFERENTIAL EQUATIONS. [Proceedings of the7th international conference on control and optimization with industrial applications, vol ii]. 7th International Conference on Control and Optimization with Industrial Applications (COIA), Electr Network.

Ahmadova, A., & Mahmudov, N. I. (2020b). Existence and uniqueness results for a class of fractional stochastic neutral differential equations. Chaos Solitons & Fractals, 139, Article 110253. https://doi.org/10.1016/j.chaos.2020.110253

 Aktuglu, H., & Zaheriani, S. Y. (2020). Approximation of Functions by Generalized Parametric Blending-Type Bernstein Operators. Iranian Journal of Science and Technology Transaction a-Science, 44(5), 1495-1504. https://doi.org/10.1007/s40995-020-00957-6

Al Hwaeer, H. J., Albkwre, G., & Turgay, N. D.  (2020). On prime near-rings with generalized (sigma, tau)-derivations (vol 45, pg 249, 2005). Kyungpook Mathematical Journal, 60(2), 415-421. https://doi.org/10.5666/kmj.2020.60.2.415

Al-Badawi, A., Kanzi, S., & Sakalli, I. (2020). Effect of quintessence on geodesics and Hawking radiation of Schwarzschild black hole. European Physical Journal Plus, 135(2). https://doi.org/10.1140/epjp/s13360-020-00245-7

Al-Badawi, A., Sakalli, I., & Kanzi, S. (2020). Solution of Dirac equation and greybody radiation around a regular Bardeen black hole surrounded by quintessence. Annals of Physics, 412, Article 168026. https://doi.org/10.1016/j.aop.2019.168026

Aliyev, R., & Temizkan, H. (2020). Fuzzy Analytic Hierarchy Process-Based Multi-Criteria Decision Making for Universities Ranking. Symmetry-Basel, 12(8), Article 1351. https://doi.org/10.3390/sym12081351

Aliyev, R. R., & Adilova, N. E. (2019, Aug 27-28). Solution of Zadeh's "Fast Way" Problem Under Z-Information.Advances in Intelligent Systems and Computing [10th international conference on theory and application of soft computing, computing with words and perceptions - icsccw-2019]. 10th International Conference on Theory and Application of Soft Computing, Computing with Words and Perceptions (ICSCCW), Prague, CZECH REPUBLIC.

Aliyev, R. R., & Temizkan, H. (2019, Aug 27-28). Application of Analytic Hierarchy Process Method for Ranking of Universities.Advances in Intelligent Systems and Computing [10th international conference on theory and application of soft computing, computing with words and perceptions - icsccw-2019]. 10th International Conference on Theory and Application of Soft Computing, Computing with Words and Perceptions (ICSCCW), Prague, CZECH REPUBLIC.

Alzboon, L., Khassawneh, B., & Nagy, B. (2020). Counting the Number of Shortest Chamfer Paths in the Square Grid. Acta Polytechnica Hungarica, 17(4), 67-87.

Alzboon, L., & Nagy, B. (2020). Truth-Teller-Liar Puzzles with Self-Reference. Mathematics, 8(2), Article 190. https://doi.org/10.3390/math8020190

Atsa'am, D. D., & Bodur, E. K. (2020). Knowledge mining on the association between psychological capital and educational qualifications among hospitality employees. Current Issues in Tourism, 23(9), 1073-1077. https://doi.org/10.1080/13683500.2019.1597026

Atsa'am, D. D., & Bodur, E. K. (2022). Mining the moderating role of organizational tenure in the association betweenPsyCapand educational qualifications among tourism and hospitality workers. Journal of Public Affairs, 22(1), Article e2272. https://doi.org/10.1002/pa.2272

Avci, I., & Mahmudov, N. I. (2020). Numerical Solutions for Multi-Term Fractional Order Differential Equations with Fractional Taylor Operational Matrix of Fractional Integration. Mathematics, 8(1), Article 96. https://doi.org/10.3390/math8010096

Avkan, A., Nagy, B., & Saadetoglu, M. (2020). Digitized rotations of 12 neighbors on the triangular grid. Annals of Mathematics and Artificial Intelligence, 88(8), 833-857. https://doi.org/10.1007/s10472-019-09688-w

Baleanu, D., Fernandez, A., & Akgul, A. (2020). On a Fractional Operator Combining Proportional and Classical Differintegrals. Mathematics, 8(3), Article 360. https://doi.org/10.3390/math8030360

Bashirov, A. E. (2021). On exact controllability of semilinear systems. Mathematical Methods in the Applied Sciences, 44(9), 7455-7462. https://doi.org/10.1002/mma.6265

Bashirov, A. E., & Abuassba, K. (2020). Invariant Kalman Filter for Correlated Wide Band Noises. Asian Journal of Control, 22(2), 648-656. https://doi.org/10.1002/asjc.1949

Djida, J. D., Fernandez, A., & Area, I. (2020). WELL-POSEDNESS RESULTS FOR FRACTIONAL SEMI-LINEAR WAVE EQUATIONS. Discrete and Continuous Dynamical Systems-Series B, 25(2), 569-597. https://doi.org/10.3934/dcdsb.2019255

Fatima, M., & Nagy, B. (2020). TRANSDUCED-INPUT AUTOMATA WITH TRANSLUCENT LETTERS. Comptes Rendus De L Academie Bulgare Des Sciences, 73(1), 33-39. https://doi.org/10.7546/crabs.2020.01.04

Fernandez, A., Abdeljawad, T., & Baleanu, D. (2020). Relations between fractional models with three-parameter Mittag-Leffler kernels. Advances in Difference Equations, 2020(1), Article 186. https://doi.org/10.1186/s13662-020-02638-5

Fernandez, A., Baleanu, D., & Srivastava, H. M. (2020). Series representations for fractional-calculus operators involving generalised Mittag-Leffler functions (vol 67, pg 517, 2019). Communications in Nonlinear Science and Numerical Simulation, 82, Article 104963. https://doi.org/10.1016/j.cnsns.2019.104963

Fernandez, A., & Bouzouina, C. (2021). Fractionalisation of complex d-bar derivatives. Complex Variables and Elliptic Equations, 66(3), 437-475. https://doi.org/10.1080/17476933.2020.1722114

Fernandez, A., & Husain, I. (2020). Modified Mittag-Leffler Functions with Applications in Complex Formulae for Fractional Calculus. Fractal and Fractional, 4(3), Article 45. https://doi.org/10.3390/fractalfract4030045

Fernandez, A., Kurt, C., & Ozarslan, M. A. (2020). A naturally emerging bivariate Mittag-Leffler function and associated fractional-calculus operators. Computational & Applied Mathematics, 39(3), Article 200. https://doi.org/10.1007/s40314-020-01224-5

Fernandez, A., & Mohammed, P. (2021). Hermite-Hadamard inequalities in fractional calculus defined using Mittag-Leffler kernels. Mathematical Methods in the Applied Sciences, 44(10), 8414-8431. https://doi.org/10.1002/mma.6188

Fernandez, A., & Ustaoglu, C. (2020). On some analytic properties of tempered fractional calculus. Journal of Computational and Applied Mathematics, 366, Article 112400. https://doi.org/10.1016/j.cam.2019.112400

Golmankhaneh, A. K., Ashrafi, S., Baleanu, D., & Fernandez, A. (2020). Brownian Motion on Cantor Sets. International Journal of Nonlinear Sciences and Numerical Simulation, 21(3-4), 275-281. https://doi.org/10.1515/ijnsns-2018-0384

Hamal, H., & Sabancigil, P. (2020). Some approximation properties of new Kantorovich typeq-analogue of Balazs-Szabados operators. Journal of Inequalities and Applications, 2020(1), Article 159. https://doi.org/10.1186/s13660-020-02422-9

Huseynov, I. T., & Mahmudov, N. I. Delayed analogue of three-parameter Mittag-Leffler functions and their applications to Caputo-type fractional time delay differential equations. Mathematical Methods in the Applied Scienceshttps://doi.org/10.1002/mma.6761

Huseynov, I. T., & Mahmudov, N. I. (2020, Aug 26-28). REPRESENTATION OF SOLUTIONS OF CAPUTO TYPE FRACTIONAL ORDER TIME-DELAY SYSTEMS VIA DELAYED THREE-PARAMETER MITTAG-LEFFLER FUNCTIONS. [Proceedings of the7th international conference on control and optimization with industrial applications, vol. 1]. 7th International Conference on Control and Optimization with Industrial Applications (COIA), Electr Network.

Kara, M., & Mahmudov, N. I. (2020). (p, q)-Generalization of Szasz-Mirakjan operators and their approximation properties. Journal of Inequalities and Applications, 2020(1), Article 116. https://doi.org/10.1186/s13660-020-02390-0

Kovacs, G., Nagy, B., & Vizvari, B. (2020). On disks of the triangular grid: An application of optimization theory in discrete geometry. Discrete Applied Mathematics, 282, 136-151. https://doi.org/10.1016/j.dam.2019.11.018

Kurt, C., Ozarslan, M. A., & Fernandez, A. (2021). On a certain bivariate Mittag-Leffler function analysed from a fractional-calculus point of view. Mathematical Methods in the Applied Sciences, 44(3), 2600-2620. https://doi.org/10.1002/mma.6324

Mahmudov, N., & Al-Khateeb, A. (2020). Existence and Stability Results on Hadamard Type Fractional Time-Delay Semilinear Differential Equations. Mathematics, 8(8), Article 1242. https://doi.org/10.3390/math8081242

Mahmudov, N. I. (2020a). Delayed linear difference equations: the method of Z-transform. Electronic Journal of Qualitative Theory of Differential Equations(53). https://doi.org/10.14232/ejqtde.2020.1.53

Mahmudov, N. I. (2020b). Finite-approximate controllability of semilinear fractional stochastic integro-differential equations. Chaos Solitons & Fractals, 139, Article 110277. https://doi.org/10.1016/j.chaos.2020.110277

Mahmudov, N. I. (2020c). Fractional Langevin type delay equations with two fractional derivatives. Applied Mathematics Letters, 103, Article 106215. https://doi.org/10.1016/j.aml.2020.106215

Mahmudov, N. I. (2020d, Aug 26-28). REPRESENTATION OF SOLUTIONS OF DELAYED DIFFERENCE EQUATIONS VIA Z-TRANSFORM. [Proceedings of the7th international conference on control and optimization with industrial applications, vol. 1]. 7th International Conference on Control and Optimization with Industrial Applications (COIA), Electr Network.

Mahmudov, N. I. (2020e). Variational Approach to Finite-Approximate Controllability of Sobolev-Type Fractional Systems. Journal of Optimization Theory and Applications, 184(2), 671-686. https://doi.org/10.1007/s10957-018-1255-z

Mahmudov, N. I., & Almatarneh, A. M. (2020). Stability of Ulam-Hyers and Existence of Solutions for Impulsive Time-Delay Semi-Linear Systems with Non-Permutable Matrices. Mathematics, 8(9), Article 1493. https://doi.org/10.3390/math8091493

Mahmudov, N. I., Huseynov, I. T., Aliev, N. A., & Aliev, F. A. (2020). ANALYTICAL APPROACH TO A CLASS OF BAGLEY-TORVIK EQUATIONS. Twms Journal of Pure and Applied Mathematics, 11(2), 238-258.

Mahmudov, N. I., Udhayakumar, R., & Vijayakumar, V. (2020). On the Approximate Controllability of Second-Order Evolution Hemivariational Inequalities. Results in Mathematics, 75(4), Article 160. https://doi.org/10.1007/s00025-020-01293-2

Nagy, B. (2020a). 5 ' -> 3 ' Watson-Crick pushdown automata. Information Sciences, 537, 452-466. https://doi.org/10.1016/j.ins.2020.06.031

Nagy, B. (2020b). On the Membership Problem of Permutation Grammars - A Direct Proof of NP-Completeness. International Journal of Foundations of Computer Science, 31(4), 515-525. https://doi.org/10.1142/s0129054120500227

Nagy, B. (2020c). ON THE NUMBER OF SHORTEST PATHS BY NEIGHBORHOOD SEQUENCES ON THE SQUARE GRID. Miskolc Mathematical Notes, 21(1), 287-301. https://doi.org/10.18514/mmn.2020.2790

Nagy, B., & Khassawneh, B. (2020). On the Number of Shortest Weighted Paths in a Triangular Grid. Mathematics, 8(1), Article 118. https://doi.org/10.3390/math8010118

Nagy, B., & Otto, F. (2020). Linear automata with translucent letters and linear context-free trace languages*. Rairo-Theoretical Informatics and Applications, 54, Article 3. https://doi.org/10.1051/ita/2020002

Nagy, B., & Parchami, S. (2021). On deterministic sensing 5 ' -> 3 ' Watson-Crick finite automata: a full hierarchy in 2detLIN. Acta Informatica, 58(3), 153-175. https://doi.org/10.1007/s00236-019-00362-6

Ogurlu, S. Z., & Elidemir, I. (2020). On the omega-multiple Meixner polynomials of the first kind. Journal of Inequalities and Applications, 2020(1), Article 167. https://doi.org/10.1186/s13660-020-02432-7

Onye, S. C., Dimililer, N., & Akkeles, A. (2020). Chemical disease relation extraction task using genetic algorithm with two novel voting methods for classifier subset selection. Turkish Journal of Electrical Engineering and Computer Sciences, 28(2), 1179-1196. https://doi.org/10.3906/elk-1906-46

Ozarslan, M. A. (2020). APPROXIMATION PROPERTIES OF JAIN-APPELL OPERATORS. Applicable Analysis and Discrete Mathematics, 14(3), 654-669. https://doi.org/10.2298/aadm190223044o

Ozarslan, M. A., & Ustaoglu, C. (2020). Extended Incomplete Version of Hypergeometric Functions. Filomat, 34(2), 653-662. https://doi.org/10.2298/fil2002653o

Turgay, N. D.  (2020). ON THE MOD P STEENROD ALGEBRA AND THE LEIBNIZ-HOPF ALGEBRA. Electronic Research Archive, 28(2), 951-959. https://doi.org/10.3934/era.2020050

Turgay, N. D. , & Karaca, I. (2020). The Arnon bases in the Steenrod algebra. Georgian Mathematical Journal, 27(4), 649-654. https://doi.org/10.1515/gmj-2018-0076

2019 yılında AHCI/SSCI/SCI/SCI endeksleri tarafından taranan dergilerde yayımlanmış olan makaleler

Abdeljawad, T., & Fernandez, A. (2019). On a New Class of Fractional Difference-Sum Operators with Discrete Mittag-Leffler Kernels. Mathematics, 7(9), Article 772. https://doi.org/10.3390/math7090772

Aliyev, R., & Salehi, S. (2019). Development of Fuzzy Time Series Model for Hotel Occupancy Forecasting. Sustainability, 11(3), Article 793. https://doi.org/10.3390/su11030793

Alizadeh, A. V., Aliyev, R. R., & Huseynov, O. H. (2018, Aug 27-28). Algebraic Properties of Z-Numbers Under Additive Arithmetic Operations.Advances in Intelligent Systems and Computing [13th international conference on theory and application of fuzzy systems and soft computing - icafs-2018]. 13th International Conference on Application of Fuzzy Systems and Soft Computing (ICAFS), Warsaw, POLAND.

Atsa'am, D. D., & Bodur, E. K. (2020). Knowledge mining on the association between psychological capital and educational qualifications among hospitality employees. Current Issues in Tourism, 23(9), 1073-1077. https://doi.org/10.1080/13683500.2019.1597026

Avkan, A., Nagy, B., & Saadetoglu, M. (2019, Sep 23-25). On the Angles of Change of the Neighborhood Motion Maps on the Triangular Grid.International Symposium on Image and Signal Processing and Analysis [Proceedings of the 2019 11th international symposium on image and signal processing and analysis (ispa 2019)]. 11th International Symposium on Image and Signal Processing and Analysis (ISPA), Dubrovnik, CROATIA.

Baleanu, D., & Fernandez, A. (2019). On Fractional Operators and Their Classifications. Mathematics, 7(9), Article 830. https://doi.org/10.3390/math7090830

Bashirov, R., Duranay, R., Seytanoglu, A., Mehraei, M., & Akcay, N. (2019). Exploiting stochastic Petri nets with fuzzy parameters to predict efficient drug combinations for Spinal Muscular Atrophy. Turkish Journal of Electrical Engineering and Computer Sciences, 27(5), 4009-4022. https://doi.org/10.3906/elk-1902-133

Bodur, E. K., & Atsa'am, D. D. (2019). Filter Variable Selection Algorithm Using Risk Ratios for Dimensionality Reduction of Healthcare Data for Classification. Processes, 7(4), Article 222. https://doi.org/10.3390/pr7040222

Buranay, S. C., & Iyikal, O. C. (2019a). A predictor-corrector iterative method for solving linear least squares problems and perturbation error analysis. Journal of Inequalities and Applications, Article 203. https://doi.org/10.1186/s13660-019-2154-z

Buranay, S. C., & Iyikal, O. C. (2019b). Approximate Schur-Block ILU Preconditioners for Regularized Solution of Discrete Ill-Posed Problems. Mathematical Problems in Engineering, 2019, Article 1912535. https://doi.org/10.1155/2019/1912535

Fernandez, A. (2021). A complex analysis approach to Atangana-Baleanu fractional calculus. Mathematical Methods in the Applied Sciences, 44(10), 8070-8087. https://doi.org/10.1002/mma.5754

Fernandez, A., & Baleanu, D. (2019). On a New Definition of Fractional Differintegrals with Mittag-Leffler Kernel. Filomat, 33(1), 245-254. https://doi.org/10.2298/fil1901245f

Fernandez, A.Ozarslan, M. A., & Baleanu, D. (2019). On fractional calculus with general analytic kernels. Applied Mathematics and Computation, 354, 248-265. https://doi.org/10.1016/j.amc.2019.02.045

Golmankhaneh, A. K., & Fernandez, A. (2019). Random Variables and Stable Distributions on Fractal Cantor Sets. Fractal and Fractional, 3(2), Article 31. https://doi.org/10.3390/fractalfract3020031

Hocaoglu, M. B., Gurkas, S., Karaderi, T.Taneri, B., Erguler, K., Barin, B., . . . Rahmioglu, N. (2019). Cyprus Women's Health Research (COHERE) initiative: determining the relative burden of women's health conditions and related co-morbidities in an Eastern Mediterranean population. Bmc Womens Health, 19, Article 50. https://doi.org/10.1186/s12905-019-0750-1

Kovacs, G., Nagy, B., & Vizvari, B. (2019). Chamfer distances on the isometric grid: a structural description of minimal distances based on linear programming approach. Journal of Combinatorial Optimization, 38(3), 867-886. https://doi.org/10.1007/s10878-019-00425-x

Lukic, T., & Nagy, B. (2019). Regularized binary tomography on the hexagonal grid. Physica Scripta, 94(2), Article 025201. https://doi.org/10.1088/1402-4896/aafbcb

Mahmudov, N. I. (2019a). A novel fractional delayed matrix cosine and sine. Applied Mathematics Letters, 92, 41-48. https://doi.org/10.1016/j.aml.2019.01.001

Mahmudov, N. I. (2019b). Delayed perturbation of Mittag-Leffler functions and their applications to fractional linear delay differential equations. Mathematical Methods in the Applied Sciences, 42(16), 5489-5497. https://doi.org/10.1002/mma.5446

Mahmudov, N. I. (2019c). Necessary First-Order and Second-Order Optimality Conditions in Discrete-Time Stochastic Systems. Journal of Optimization Theory and Applications, 182(3), 1001-1018. https://doi.org/10.1007/s10957-019-01478-y

Mahmudov, N. I., & Al-Khateeb, A. (2019). Existence and Ulam-Hyers stability of coupled sequential fractional differential equations with integral boundary conditions. Journal of Inequalities and Applications, Article 165. https://doi.org/10.1186/s13660-019-2115-6

Mahmudov, N. I., Emin, S., & Bawanah, S. (2019). On the Parametrization of Caputo-Type Fractional Differential Equations with Two-Point Nonlinear Boundary Conditions. Mathematics, 7(8), Article 707. https://doi.org/10.3390/math7080707

Mehraei, M., Nagy, B., Akcay, N. I., & Tuzmen, S. (2019). Potential Therapeutic Modalities of Reawakening Fetal Hemoglobin Simulated by Reaction Systems. Acta Polytechnica Hungarica, 16(3), 19-35. https://doi.org/10.12700/aph.16.3.2019.3.2

Momenzadeh, M., & Mahmudov, N. I. (2019). Study of New Class of q-Fractional Integral Operator. Filomat, 33(17), 5713-5721. https://doi.org/10.2298/fil1917713m

Nagy, B. (2019a). Generalised Distances of Sequences II: B-Distances with Weight Sequences. Filomat, 33(18), 5803-5812. https://doi.org/10.2298/fil1918803n

Nagy, B. (2019b). Optimal Boolean Programming with Graphs. Acta Polytechnica Hungarica, 16(4), 231-248. https://doi.org/10.12700/aph.16.4.2019.4.12

Nagy, B., & Abuhmaidan, K. (2019). A Continuous Coordinate System for the Plane by Triangular Symmetry. Symmetry-Basel, 11(2), Article 191. https://doi.org/10.3390/sym11020191

Nagy, B., Basbous, R., & Tajti, T. (2019). Lazy evaluations in Lukasiewicz type fuzzy logic. Fuzzy Sets and Systems, 376, 127-151. https://doi.org/10.1016/j.fss.2018.11.014

Nagy, B., & Otto, F. (2019, Jan 27-30). Two-Head Finite-State Acceptors with Translucent Letters.Lecture Notes in Computer Science [Theory and practice of computer science, sofsem 2019]. 45th International Conference on Current Trends in Theory and Practice of Computer Science (SOFSEM), Novy Smokovec, SLOVAKIA.

Noupoue, Y. Y. Y., Tandogdu, Y., & Awadalla, M. (2019). On numerical techniques for solving the fractional logistic differential equation. Advances in Difference Equations, Article 108. https://doi.org/10.1186/s13662-019-2055-y

Ozarslan, M. A., & Kurt, C. (2019a). Bivariate Mittag-Leffler functions arising in the solutions of convolution integral equation with 2D-Laguerre-Konhauser polynomials in the kernel. Applied Mathematics and Computation, 347, 631-644. https://doi.org/10.1016/j.amc.2018.11.010

Ozarslan, M. A., & Kurt, C. (2019b). Nonhomogeneous initial and boundary value problem for the Caputo-type fractional wave equation. Advances in Difference Equations, Article 199. https://doi.org/10.1186/s13662-019-2110-8

Ozarslan, M. A., & Ustaoglu, C. (2019). Some Incomplete Hypergeometric Functions and Incomplete Riemann-Liouville Fractional Integral Operators. Mathematics, 7(5), Article 483. https://doi.org/10.3390/math7050483

Riyasat, M., Khan, S., & Mahmudov, N. I. (2019). A Numerical Computation of Zeros and Determinant Forms for Some New Families of q-special Polynomials. Azerbaijan Journal of Mathematics, 9(2), 20-46.

Srivastava, H. M., Ozarslan, M. A., & Yasar, B. Y. (2019). Difference equations for a class of twice-iterated h-Appell sequences of polynomials. Revista De La Real Academia De Ciencias Exactas Fisicas Y Naturales Serie a-Matematicas, 113(3), 1851-1871. https://doi.org/10.1007/s13398-018-0582-0

Srivastava, H. M., Yasar, B. Y., & Ozarslan, M. A. (2019). A Class of Big (p, q)-Appell Polynomials and Their Associated Difference Equations. Filomat, 33(10), 3085-3121. https://doi.org/10.2298/fil1910085s

Varma, S., Yasar, B. Y., & Ozarslan, M. A. (2019). Hahn-Appell polynomials and their d-orthogonality. Revista De La Real Academia De Ciencias Exactas Fisicas Y Naturales Serie a-Matematicas, 113(3), 2127-2143. https://doi.org/10.1007/s13398-018-0607-8

2018 yılında AHCI/SSCI/SCI/SCI endeksleri tarafından taranan dergilerde yayımlanmış olan makaleler

 1) N. Mahmudov,S. Emin, Fractional-order boundary value problems with Katugampola fractional integral conditions, ADVANCES IN DIFFERENCE EQUATIONS,2018,81.

2) R.Duranay,R. Bashirov,A. Seytanoglu, Simulation-based identification of optimal combination of drug candidates for spinal muscular atrophy,2017, Conference: 9th International Conference on Theory and Application of Soft Computing, Computing with Words and Perception (ICSCCW) Location: Budapest, HUNGARY Date: AUG 22-25, 2017 9TH INTERNATIONAL CONFERENCE ON THEORY AND APPLICATION OF SOFT COMPUTING, COMPUTING WITH WORDS AND PERCEPTION, ICSCCW 2017   Book Series: Procedia Computer Science,2017,120,253-259.

 3)  A. Bashirov,S. Norozpour, ON COMPLEX MULTIPLICATIVE INTEGRATION, TWMS JOURNAL OF APPLIED AND ENGINEERING MATHEMATICS,2017,7(1), 82-93   .

4)  N. Mahmudov ,M. Awadalla ,K. Abuassba, Nonlinear sequential fractional differential equations with nonlocal boundary conditions,ADVANCES IN DIFFERENCE EQUATIONS  ,2017, 319.

5)  N.I. Mahmudov,H. Mahmoud, Four-point impulsive multi-orders fractional boundary value problems, JOURNAL OF COMPUTATIONAL ANALYSIS AND APPLICATIONS,2017,22(7),1249-1260.

6)  J. Durand-Lose,B. Nagy,J. Kari, Special Issue on Machines, Computations and Universality (MCU 2015), FUNDAMENTA INFORMATICAE, 2017, 155(1-2);V,VII.

7)  N.I. Mahmudov, M.M. Matar, EXISTENCE OF MILD SOLUTION FOR HYBRID DIFFERENTIAL EQUATIONS WITH ARBITRARY FRACTIONAL ORDER, TWMS JOURNAL OF PURE AND APPLIED MATHEMATICS,2017, 8(2),160-169.

 8)  M. Abdalla, B. Nagy, Concepts of Binary Morphological Operations Dilation and Erosion on the Triangular Grid, Conference: 5th International Symposium on Computational Modeling of Objects Represented in Images. Fundamentals, Methods and Applications (CompIMAGE) Location: Niagara Falls, NY Date: SEP 21-23, 2016 COMPUTATIONAL MODELING OF OBJECTS PRESENTED IN IMAGES: FUNDAMENTALS, METHODS, AND APPLICATIONS, COMPIMAGE 2016   Book Series: Lecture Notes in Computer Science,2017, 10149, 89-104.

9)  N.I. Mahmudov, FINITE-APPROXIMATE CONTROLLABILITY OF EVOLUTION EQUATIONS, APPLIED AND COMPUTATIONAL MATHEMATICS,2017,16(2),159-167.

10)  M. A. Ozarslan, R. Srivastava, C. Kaanoglu, CERTAIN FAMILIES OF MULTIVARIABLE CHAN-CHYAN-SRIVASTAVA POLYNOMIALS, ISKOLC MATHEMATICAL NOTES,2017,18(1),379-389.

11)  N.I. Mahmudov, S. Unul, On existence of BVP's for impulsive fractional differential equations, ,2017,15.

12)  L. Alzboon, B. Nagy, On the Number of Weighted Shortest Paths in the Square Grid, Conference: 21st IEEE International Conference on Intelligent Engineering Systems (INES) Location: Larnaca, CYPRUSDate: OCT 20-23, 2017 Sponsor(s): IEEE; IEEE Ind Elect Soc; IEEE Hungary Sect; IES & RAS, IEEE Joint Chapter; IEEE Computat Intelligence Chapter; IEEE SMC Chapter 2017 IEEE 21ST INTERNATIONAL CONFERENCE ON INTELLIGENT ENGINEERING SYSTEMS (INES)   Book Series: IEEE International Conference on Intelligent Engineering Systems,2017,83-90.

13)  B. Nagy, S. Valvi, A Shift-free Characterization of NP within Interval-valued Computing, FUNDAMENTA INFORMATICAE,2017,155(1-2),187-207.

14)  B. Nagy, The Cheapest Way to Obtain Solution by Graph-Search Algorithms,ACTA POLYTECHNICA HUNGARICA,2017,14(6),29-40. 

15) G. Kovacs, B. Nagy, B. Vizvari, Weighted Distances and Digital Disks on the Khalimsky Grid, JOURNAL OF MATHEMATICAL IMAGING AND VISION  ,2017, 59(1), 2-22.

16) Z. Amirabi, Stability of generic thin shells in conformally flat spacetimes, EUROPEAN PHYSICAL JOURNAL C , 2017, 77(7), 493

2017 yılında AHCI/SSCI/SCI/SCI endeksleri tarafından taranan dergilerde yayımlanmış olan makaleler

1) M.A. Özarslan, T. Vedi, Two-dimensional Chlodowsky variant of q-Bernstein-Schurer-Stancu operators, Journal of Computational Analysis & Applications, 2017, 23(3), 446-461.

2) R. Bashirov, M. Mehraei, Identifying targets for gene therapy of β-globin disorders using quantitative modeling approach, Information Sciences, 2017, 397: 37-47.

3) M. A.Ozarslan, C. Kurt, On a double integral equation including a set of two variables polynomials suggested by Laguerre polynomials, Journal of Computational Analysis and Applications, 2017, 29 (7), 1198-1207.

4) N. I. Mahmudov, H. Mahmoud, Four $ point impulsive multi $ orders fractional boundary value problems, Journal of Computational Analysis and Applications, 2017, 22 (7), 1249-1260.

5) B. Nagy, E.V. Moisi,  Memetic algorithms for reconstruction of binary images on triangular grids with 3 and 6 projections, Applied Soft Computing, 2017, 52: 549-565.

6) A. E. Bashirov, Linear Filtering for Wide Band Noise Driven Observation Systems, Circuits, Systems and Signal Processing, 2016, 36 (3), 1247-1263.

7) N.I. Mahmudov, R. Murugesu, C. Ravichandran, & B. Vijayakumar, Approximate controllability results for fractional semilinear integro-differential inclusions in Hilbert spaces, Results in Mathematics, 2015, 71 (2), 45-61.

8) N. I. Mahmudov, S. Unul, Existence of Solutions of Fractional Boundary Value Problem with Irregular Conditions, In: The 28th International Conference of The Jangjeon Mathematical Society. 2017. 5.

9) B. Nagy, Application of neighborhood sequences in communication of hexagonal networks, Discrete Applied Mathematics, 2017, 216: 424-440. 

10) Wright, M., Yanagida, T., Aoyama, I., Dedkova, L., Li, Z., Kamble, SV., Bayraktar, F., Sevcikova, A., Soudi, S., Machackova, H.,Lei, L., Shu, C. (2017). Differences in attributions for public and private face-to-face and cyber victimization among adolescents in China, Cyprus, the Czech Republic, India, Japan, and the United States. The Journal of Genetic Psychology, 178(1), 1-14.

11) M. I. Mahmudov,  Approximation Properties of the q-Balázs–Szabados Complex Operators in the Case q\ ge 1, Computational Methods and Function Theory, 2016, 16 (4), 567-583.

12) M. Mehraeı, R. Bashırov, Ş. Tuzmen, Target-based drug discovery for β-globin disorders: drug target prediction using quantitative modeling with hybrid functional Petri nets, Journal of Bioinformatics and Computational Biology, 2016, 14 (5), 1650026.

13) N.I. Mahmudov, V. Vıjayakumar, R. Murugesu, Approximate controllability of second-order evolution differential inclusions in Hilbert spaces, 2016, 13 (5), 3433-3454.

14) L. Čomıć, B.Nagy,  A combinatorial coordinate system for the body-centered cubic grid, Graphical Models, 2016, 87, 11-22.

15) L. Čomıć, B. Nagy, A topological coordinate system for the diamond cubic grid, Acta Crystallographica Section A: Foundations and Advances, 2016, 72, 570-581.

16) M.A. Özarslan, New Korovkin Type Theorem for Non-Tensor Meyer–König and Zeller Operators, Results in Mathematics, 2016, 69(3-4), 327-343.

17) L. Hegedüs, B. Nagy, On periodic properties of circular words, Discrete Mathematics, 2016, 339(3), 1189-1197.

18) H. Mujahed, B. Nagy, Wiener index on rows of unit cells of the face-centred cubic lattice, Acta Crystallographica Section A: Foundations and Advances, 2016, 72(2).

19)  M.A. Özarslan, O. Duman, Smoothness Properties of Modified Bernstein-Kantorovich Operators, Numerical Functional Analysis and Optimization, 2016, 37(1), 92-105.

20) B.Y. Yaşar, M.A. Özarslan, Unified Bessel, Modified Bessel, Spherical Bessel and Bessel-Clifford Functions, 2016, 7(4), 77-117.

21) T. Vedi, M.A. Özarslan, Voronovskaja Type Approximation Theorem for q-Szasz–Schurer Operators, In Computational Analysis, 2016, pp. 353-361. Springer International Publishing.

22) N.I. Mahmudov, M.A. Mckibben, On approximately controllable systems survey, Applied and Computational Mathematics, 2016, 15(3), 247-264.

23) T. Tajti, B. Nagy, Motion sensor data correction using multiple sensors and multiple measurements In Applied Machine Intelligence and Informatics (SAMI), 2016 IEEE 14th International Symposium on (pp. 287-291). 2016, IEEE.

24) B. Nagy, T. Lukić, Dense Projection Tomography on the Triangular Tiling, Fundamenta Informaticae, 2016, 145(2), 125-141.

25) M.A. Özarslan, Approximation properties of Jain-Stancu operators, Filomat, 2016, 30(4), 1081-1088.

26) H. Aktuglu, M.A.  Özarslan, Anti-periodic BVP for Volterra integro-differential equation of fractional order 1< α≤ 2, involving Mittag-Leffler function in the kernel, Journal of Nonlinear Sciences and Applications, 2016, 9(2), 452-460.

 


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