Computation of several Hessenberg determinants
-
Feng Qi
,
Omran Kouba
Abstract
In the paper, employing methods and techniques in analysis and linear algebra, the authors find a simple formula for computing an interesting Hessenberg determinant whose elements are products of binomial coefficients and falling factorials, derive explicit formulas for computing some special Hessenberg and tridiagonal determinants, and alternatively and simply recover some known results.
(Communicated by Tomasz Natkaniec )
Dedicated to people facing and fighting 2019-nCoV
References
[1] Anderson, G.-D.—Vamanamurthy, M.-K.—Vuorinen, M.: Conformal Invariants, Inequalities, and Quasiconformal Maps. Canadian Mathematical Society Series of Monographs and Advanced Texts, John Wiley & Sons, New York, 1997.Suche in Google Scholar
[2] Bernstein, D. S.: Scalar, Vector, and Matrix Mathematics: Theory, Facts, and Formulas, revised and expanded edition, Princeton University Press, Princeton, NJ, 2018.10.1515/9781400888252Suche in Google Scholar
[3] Bourbaki, N.: Functions of a Real Variable, Elementary Theory. Elements of Mathematics, translated from the 1976 French original by Philip Spain, (Berlin), Springer-Verlag, Berlin, 2004.Suche in Google Scholar
[4] Chen, C.-P.: Complete monotonicity and logarithmically complete monotonicity properties for the gamma and psi functions, J. Math. Anal. Appl. 336 (2007), 812–822.10.1016/j.jmaa.2007.03.028Suche in Google Scholar
[5] Chen, C.-P.—Choi, J.: Inequalities and complete monotonicity for the gamma and related functions, Commun. Korean Math. Soc. 34(4) (2019), 1261–1278.Suche in Google Scholar
[6] Cigler, J: Some observations about determinants which are connected with Catalan numbers and related topics, arXiv prepint (2019),Suche in Google Scholar
[7] Hardy, G. H.—Littlewood, J. E.—Pólya, G.: Inequalities, 2nd ed., Cambridge University Press, Cambridge, 1952.Suche in Google Scholar
[8] Lang, S.: Complex Analysis, 4th ed, Graduate Texts in Mathematics 103, Springer-Verlag, New York, 1999.10.1007/978-1-4757-3083-8Suche in Google Scholar
[9] Qi, F.: A determinantal representation for derangement numbers, Glob. J. Math. Anal. 4(3) (2016), 17–17.10.14419/gjma.v4i3.6574Suche in Google Scholar
[10] Qi, F.: Derivatives of tangent function and tangent numbers, Appl. Math. Comput. 268 (2015), 844–858.10.1016/j.amc.2015.06.123Suche in Google Scholar
[11] Qi, F.: Determinantal expressions and recurrence relations for Fubini and Eulerian polynomials, J. Interdiscip. Math. 22(3) (2019), 317–335.10.1080/09720502.2019.1624063Suche in Google Scholar
[12] Qi, F.—Čerňanová, V.—Semenov, Y. S.: Some tridiagonal determinants related to central Delannoy numbers, the Chebyshev polynomials, and the Fibonacci polynomials, Politehn. Univ. Bucharest Sci. Bull. Ser. A Appl. Math. Phys. 81(1) (2019), 123–136.Suche in Google Scholar
[13] Qi, F.—Čerňanová, V.—Shi, X.-T.—Guo, B.-N.: Some properties of central Delannoy numbers, J. Comput. Appl. Math. 328 (2018), 101–115.10.1016/j.cam.2017.07.013Suche in Google Scholar
[14] Qi, F.—Chapman, R. J.: Two closed forms for the Bernoulli polynomials, J. Number Theory 159 (2016), 89–100;10.1016/j.jnt.2015.07.021Suche in Google Scholar
[15] Qi, F.—Chen, S.-X.: Complete monotonicity of the logarithmic mean, Math. Inequal. Appl. 10(4) (2007), 799–804.10.7153/mia-10-73Suche in Google Scholar
[16] Qi, F.—Chen, S.-X.—Chen, C.-P.: Monotonicity of ratio between the generalized logarithmic means, Math. Inequal. Appl. 10(3) (2007), 559–564.10.7153/mia-10-52Suche in Google Scholar
[17] Qi, F.—Debnath, L.: Evaluation of a class of definite integrals, Internat. J. Math. Ed. Sci. Tech. 32(4) (2001), 629–633.10.1080/00207390116734Suche in Google Scholar
[18] Qi, F.—Guo, B.-N.: A closed form for the Stirling polynomials in terms of the Stirling numbers, Tbilisi Math. J. 10(4) (2017), 153–158.10.1515/tmj-2017-0053Suche in Google Scholar
[19] Qi, F.—Guo, B.-N.: A determinantal expression and a recurrence relation for the Euler polynomials, Adv. Appl. Math. Sci. 16(9) (2017), 297–309.10.20944/preprints201610.0034.v1Suche in Google Scholar
[20] Qi, F.—Guo, B.-N.: A diagonal recurrence relation for the Stirling numbers of the first kind, Appl. Anal. Discrete Math. 12(1) (2018), 153–165.10.2298/AADM170405004QSuche in Google Scholar
[21] Qi, F.—Guo, B.-N.: Explicit and recursive formulas, integral representations, and properties of the large Schröder numbers, Kragujevac J. Math. 41(1) (2017), 121–141.10.5937/KgJMath1701121FSuche in Google Scholar
[22] Qi, F.—Guo, B.-N.: Expressing the generalized Fibonacci polynomials in terms of a tridiagonal determinant, Matematiche (Catania) 72(1) (2017), 167–175.10.20944/preprints201703.0208.v1Suche in Google Scholar
[23] Qi, F.—Guo, B.-N.: Some determinantal expressions and recurrence relations of the Bernoulli polynomials, Mathematics 4(4) (2016), Art.ID 65, 11 pp.10.3390/math4040065Suche in Google Scholar
[24] Qi, F.—Guo, B.-N.: Two nice determinantal expressions and a recurrence relation for the Apostol–Bernoulli polynomials, J. Indones. Math. Soc. (MIHMI) 23(1) (2017), 81–87.10.22342/jims.23.1.274.81-87Suche in Google Scholar
[25] Qi, F.—Kızılateş, C.—Du, W.-S.: A closed formula for the Horadam polynomials in terms of a tridiagonal determinant, Symmetry 11(6) (2019), 8 pp.10.3390/sym11060782Suche in Google Scholar
[26] Qi, F.—Lim, D.—Guo, B.-N.: Explicit formulas and identities for the Bell polynomials and a sequence of polynomials applied to differential equations, Rev. R. Acad. Cienc. Exactas Fís. Nat. Ser. A Mat. RACSAM 113(1) (2019), 1–9.10.1007/s13398-017-0427-2Suche in Google Scholar
[27] Qi, F.—Lim, D.—Yao, Y.-H.: Notes on two kinds of special values for the Bell polynomials of the second kind, Miskolc Math. Notes 20(1) (2019), 465–474.10.18514/MMN.2019.2635Suche in Google Scholar
[28] Qi, F.—Liu, A.-Q.: Alternative proofs of some formulas for two tridiagonal determinants, Acta Univ. Sapientiae Math. 10(2) (2018), 287–297.10.2478/ausm-2018-0022Suche in Google Scholar
[29] Qi, F.—Mahmoud, M.—Shi, X.-T.—Liu, F.-F.: Some properties of the Catalan–Qi function related to the Catalan numbers, SpringerPlus 5 (2016), Art. ID 1126, 20 pp.10.1186/s40064-016-2793-1Suche in Google Scholar PubMed PubMed Central
[30] Qi, F.—Niu, D.-W.—Guo, B.-N.: Some identities for a sequence of unnamed polynomials connected with the Bell polynomials, Rev. R. Acad. Cienc. Exactas Fís. Nat. Ser. A Math. RACSAM 113(2) (2019), 557–567.10.1007/s13398-018-0494-zSuche in Google Scholar
[31] Qi, F.—Niu, D.-W.—Lim, D.—Guo, B.-N.: Closed formulas and identities for the Bell polynomials and falling factorials, Contrib. Discrete Math. 15(1) (2020), 163–174.10.55016/ojs/cdm.v15i1.68111Suche in Google Scholar
[32] Qi, F.—Shi, X.-T.—Guo, B.-N.: Two explicit formulas of the Schröder numbers, Integers 16 (2016), Art. ID A23, 15 pp.Suche in Google Scholar
[33] Qi, F.—Shi, X.-T.—Liu, F.-F.: Several identities involving the falling and rising factorials and the Cauchy, Lah, and Stirling numbers, Acta Univ. Sapientiae Math. 8(2) (2016), 282–297.10.1515/ausm-2016-0019Suche in Google Scholar
[34] Qi, F.—Shi, X.-T.—Liu, F.-F.—Kruchinin, D. V.: Several formulas for special values of the Bell polynomials of the second kind and applications, J. Appl. Anal. Comput. 7(3) (2017), 857–871.10.11948/2017054Suche in Google Scholar
[35] Qi, F.—Wang, J.-L.—Guo, B.-N.: A determinantal expression for the Fibonacci polynomials in terms of a tridiagonal determinant, Bull. Iranian Math. Soc. 45(6) (2019), 1821–1829.10.1007/s41980-019-00232-4Suche in Google Scholar
[36] Qi, F.—Wang, J.-L.—Guo, B.-N.: A recovery of two determinantal representations for derangement numbers, Cogent Math. 3 (2016), Art. ID 1232878, 7 pp.10.1080/23311835.2016.1232878Suche in Google Scholar
[37] Qi, F.—Wang, J.-L.—Guo, B.-N.: A representation for derangement numbers in terms of a tridiagonal determinant, Kragujevac J. Math. 42(1) (2018), 7–14.10.5937/KgJMath1801007FSuche in Google Scholar
[38] Qi, F.—Zhao, J.-L.: Some properties of the Bernoulli numbers of the second kind and their generating function, Bull. Korean Math. Soc. 55(6) (2018), 1909–1920.10.12691/tjant-6-2-1Suche in Google Scholar
[39] Qi, F.—Zhao, J.-L.—Guo, B.-N.: Closed forms for derangement numbers in terms of the Hessenberg determinants, Rev. R. Acad. Cienc. Exactas Fís. Nat. Ser. A Mat. RACSAM 112(4) (2018), 933–944.10.1007/s13398-017-0401-zSuche in Google Scholar
[40] Quaintance, J.—Gould, H. W.: Combinatorial Identities for Stirling Numbers, the Unpublished Notes of H. W. Gould, with a foreword by George E. Andrews, World Scientific Publishing Co. Pte. Ltd., Singapore, 2016.10.1142/9821Suche in Google Scholar
[41] Sprugnoli, R.: Riordan Array Proofs of Identities in Gould’s Book, University of Florence, Italy, 2006.Suche in Google Scholar
[42] Tomovski, Ž.—Pogány, T. K.—Srivastava, H. M.: Laplace type integral expressions for a certain three-parameter family of generalized Mittag-Leffler functions with applications involving complete monotonicity, J. Franklin Inst. 351(12) (2014), 5437–5454.10.1016/j.jfranklin.2014.09.007Suche in Google Scholar
[43] Wei, C.-F.—F. Qi: Several closed expressions for the Euler numbers, J. Inequal. Appl. 2015, Art. ID 219, 8 pp.10.1186/s13660-015-0738-9Suche in Google Scholar
© 2020 Mathematical Institute Slovak Academy of Sciences
Artikel in diesem Heft
- Regular papers
- Fuzzy deductive systems of RM algebras
- Congruence pairs of principal MS-algebras and perfect extensions
- The lattices of 𝔏-fuzzy state filters in state residuated lattices
- Central lifting property for orthomodular lattices
- EQ-Modules
- On the exponential Diophantine equation Pxn + Pxn+1 + ⋯ + Pxn+k-1 = Pm
- Remarks on some generalization of the notion of microscopic sets
- Disjointness of composition operators on Hv0 spaces
- A common fixed point theorem for non-self mappings in strictly convex menger PM-spaces
- The Poincaré-Cartan forms of one-dimensional variational integrals
- Coarse cohomology with twisted coefficients
- Divisible extension of probability
- Asymptotic behavior of the records of multivariate random sequences in a norm sense
- Strong convergence of the functional nonparametric relative error regression estimator under right censoring
- A new kumaraswamy generalized family of distributions: Properties and applications
- Efficient message transmission via twisted Edwards curves
- Computation of several Hessenberg determinants
Artikel in diesem Heft
- Regular papers
- Fuzzy deductive systems of RM algebras
- Congruence pairs of principal MS-algebras and perfect extensions
- The lattices of 𝔏-fuzzy state filters in state residuated lattices
- Central lifting property for orthomodular lattices
- EQ-Modules
- On the exponential Diophantine equation Pxn + Pxn+1 + ⋯ + Pxn+k-1 = Pm
- Remarks on some generalization of the notion of microscopic sets
- Disjointness of composition operators on Hv0 spaces
- A common fixed point theorem for non-self mappings in strictly convex menger PM-spaces
- The Poincaré-Cartan forms of one-dimensional variational integrals
- Coarse cohomology with twisted coefficients
- Divisible extension of probability
- Asymptotic behavior of the records of multivariate random sequences in a norm sense
- Strong convergence of the functional nonparametric relative error regression estimator under right censoring
- A new kumaraswamy generalized family of distributions: Properties and applications
- Efficient message transmission via twisted Edwards curves
- Computation of several Hessenberg determinants
