Position:
Lecturer
Department:
Department of Mathematics (DM)
Room:
NB 618
eMail:
Phone:
+421 259 325 341
Research activities:
Real functions, Multifunctions, Graph theory, Number theory

Citations

  • Total citations       185

V. Baláž – T. Visnyai: I–convergence of arithmetical functions, In Number Theory and Its Applications, Editor(s): Prof. Cheon Seoung Ryoo, IntechOpen Limited, 5 Princes Gate Court, London, SW7 2QJ, UNITED KINGDOM, 2020.
  • Number of citations       2
  • Renáta Masárová: UPPER DENSITY, QUASI-DENSITY OF SUBSET OF THE SETS OF NATURAL NUMBERS. In Mathematics, Information Technologies and Applied Sciences 2022 post-conference proceedings of extended versions of selected papers, Brno, Czech Republic, pp. 55-61, 2022.
  • Dowlath Fathima – Mashael M. AlBaidani – Abdul Hamid Ganie – Afroza Akhter: New structure of Fibonacci numbers using concept of ∆– operator. J. Math. Computer Sci., vol. 26, pp. 101-112, 2022.
V. Baláž: On Generalized Notion of Convergence by Means of Ideal and Its Applications. In 19.Konferencia košických matematikov, 2018.
  • Number of citations       1
  • Masárová, Renáta: UPPER DENSITY, QUASI-DENSITY OF SUBSET OF THE SETS OF NATURAL NUMBERS. Mathematics, Information Technologies and Applied Sciences, pp. 55, 2022.
V. Baláž – J. Gogola – T. Visnyai: I(q)c-convergence of arithmetical functions. Journal of Number Theory, vol. 183, pp. 74–83, 2018.
  • Number of citations       5
  • J. Bukor – J.T. Tóth – F. Ferdinand: Sets with countably infinitely many prescribed weighted densities. Rocky Mountain Journal of Mathematics, no. 2, vol. 50, pp. 467-477, 2020.
  • Andrei Volodin – Mehmet Unver – Rita Giuliano Antonini: On the Concept of A-statistical Uniform Integrability and the Law of Large Numbers. Lobachevskii Journal of Mathematics, no. 12, vol. 40, pp. 2034–2042, 2019.
  • Adem, Abdu Awel – Kucukaslan, Mehmet: A Note on Statistical Limit and Cluster Points of The Arithmetical Functions ap (n), $\gamma$ (n), and $\tau$ (n) in The Sense of Density. Journal of the Indonesian Mathematical Society, no. 2, vol. 26, pp. 224–233, 2020.
  • T{ó}th, János T – Filip, Ferdinánd – Bukor, J{ó}zsef – Zsilinszky, Lászl{ó}: On I \_< q I< q-and I \_ ≤ q I≤ q-convergence of arithmetic functions. Periodica Mathematica Hungarica, vol. 82, pp. 125–135, 2021.
  • A. Awel: REMARKS ON THE ARITHMETICAL FUNCTION (ap(n)). Journal of Universal Mathematics, no. 2, vol. 3, pp. 131-136, 2020.
V. Baláž – M. R. Iacó – O. Strauch – S. Thonhauser – R. F. Tichý: An extremal problem in uniform distribution theory. Uniform Distribution Theory, no. 1, vol. 18, pp. 1–21, 2016.
  • Number of citations       2
  • Iac{\`o: Distribution functions, extremal limits and optimal transport. Indagationes Mathematicae, no. 5, vol. 26, pp. 823–841, 2015.
  • Durante, Fabrizio – Fernández-Sánchez, Juan – Ignazzi, Claudio – Trutschnig, Wolfgang: On extremal problems for pairs of uniformly distributed sequences and integrals with respect to copula measures. Uniform distribution theory, no. 2, vol. 15, pp. 99–112, 2020.
V. Baláž – J. Fialová – O. Strauch: Hilbert space with reproducing kernel and uniform distribution preserving maps II.. Uniform Distribution Theory, no. 1, vol. 18, pp. 67–91, 2014.
  • Number of citations       2
  • Hinrichs, Aicke – Kritzinger, Ralph – Pillichshammer, Friedrich: Optimal order of $ L\_p $-discrepancy of digit shifted Hammersley point sets in dimension 2. arXiv preprint arXiv:1410.4315, 2014.
  • Goda, Takashi – Suzuki, Kosuke – Yoshiki, Takehito: The b-adic tent transformation for quasi-Monte Carlo integration using digital nets. Journal of Approximation Theory, vol. 194, pp. 62–86, 2015.
V. Baláž – L. Mišík – O. Strauch – J. T. Tóth: Distribution functions of ratio sequences, III.. Publicationes Mathematicae Debrecen, no. 3-4, vol. 82, pp. 1–19, 2013.
  • Number of citations       6
  • Miska, Piotr – T{ó}th, János T: Characteristics of distributions of sets and their $(R) $-and $(N) $-denseness. arXiv preprint arXiv:2210.12303, 2022.
  • Iac{\`o: Distribution functions, extremal limits and optimal transport. Indagationes Mathematicae, no. 5, vol. 26, pp. 823–841, 2015.
  • T{ó}th, J{Á}NOS T – Filip, Ferdinand – Bukor, J{Ó}ZSEF: On properties derived from different types of asymptotic distribution functions of ratio sequences. Publ. Math. Debrecen, no. 1-2, vol. 95, pp. 219–230, 2019.
  • Bukor, J{ó}zsef – Csiba, Peter: Best bounds for dispersion of ratio block sequences for certain subsets of integers. In Annales Mathematicae et Informaticae, pp. 55–60, 2018.
  • Svitek, Szilárd – Vontszem{\H{u}: On structure of the family of regularly distributed sets with respect to the union. In Annales Mathematicae et Informaticae, pp. 109–119, 2021.
  • Miska, Piotr – T{ó}th, János T: Characteristics of Distributions of Sets and Their (R)-and (N)-Denseness. Results in Mathematics, no. 2, vol. 78, pp. 54, 2023.
V. Baláž – L. Mišík – O. Strauch – J. T. Tóth: Distribution Functions of Ratio Sequences IV.. Periodica Mathematica Hungarica, no. 1, vol. 66, pp. 1–22, 2013.
  • Number of citations       5
  • Bukor, J{Ó}ZSEF – Filip, Ferdinand – T{ó}th, J{Á}NOS T: On properties derived from different types of asymptotic distribution functions of ratio sequences. Publ. Math. Debrecen, pp. 95–1, 2019.
  • Svitek, Szilárd – Vontszem{\H{u}: On structure of the family of regularly distributed sets with respect to the union. In Annales Mathematicae et Informaticae, pp. 109–119, 2021.
  • R.M. Iac{\`o – S. Thonhauser – R.F. Tichy: Distribution functions, extremal limits and optimal transport. Indagationes mathematicae, no. 5, vol. 26, pp. 823–841, 2015.
  • Bukor, J{ó}zsef – Csiba, Peter: Best bounds for dispersion of ratio block sequences for certain subsets of integers. In Annales Mathematicae et Informaticae, pp. 55–60, 2018.
  • Miska, Piotr – T{ó}th, János T: Characteristics of Distributions of Sets and Their (R)-and (N)-Denseness. Results in Mathematics, no. 2, vol. 78, pp. 54, 2023.
V. Baláž – P. Liardet – O. Strauch: Distribution Functions Of Sequence Phi(N)/N, M\in[K,K+N), As K,N Go To Infinity. INTEGERS, vol. 10, pp. 705–732, 2010.
  • Number of citations       5
  • Morgan, Frank: Soap Bubbles and Mathematics. OF THE EUROPEAN MATHEMATICAL SOCIETY, vol. 2, pp. 32, 2015.
  • Barat, Guy – Grabner, Peter J – Hellekalek, Peter: Pierre Liardet (1943–2014) in memoriam. EMS Newsletter, 2015.
  • Pollack, Paul: Equidistribution mod q of abundant and deficient numbers. Unif. Distrib. Theory, vol. 9, pp. 99–114, 2014.
  • Kraaikamp, Cor: Pierre Liardet (1943–2014). Uniform distribution theory, no. 1, vol. 11, pp. i–xi, 2016.
  • Paštéka, Milan: Density and related topics, monography, VEDA, Academia, 2017.
V. Baláž – K. Nagasaka – O. Strauch: Benford’s Law and Distribution Functions of Sequences in (0, 1). Mathematical Notes, no. 4, vol. 88, pp. 449–463, 2010.
  • Number of citations       2
  • Paštéka, Milan: Density and related topics monography, 2017.
  • Allen, Demi – Brewer, Sky: Distribution Of Sequences Generated By Certain Simply-Constructed Normal Numbers. arXiv preprint arXiv:1511.01789, 2015.
V. Baláž – K. Nagasaka – O. Strauch: The law of Benford and distribution functions of sequences on (0,1) (in Russian). Matematičeskie zametki, no. 4, vol. 88, pp. 485–501, 2010.
  • Number of citations       3
  • Лукін, ВО – Дубницький, ВЮ – Гадецька, Світлана Вікторівна – Ходирєв, ОІ: Використання закону Бенфорда (закону першої цифри, закону аномальних відхилень) під час проведення фінансового аудиту. Системи обробки інформації, no. 2 (157),, pp. 22–32, 2019.
  • Paštéka, Milan: On four approaches to density, monography, Peter Lang, International academic publisher, 2013.
  • Paštéka, Milan: Density and related topics, monography, VEDA, Academia, 2017.
V. Baláž – P. Liardet: International Conference On Uniform Conference, Marseilles, CIRM. In Uniform Distribution Theory, no. 2, vol. 3, pp. 1–8, 2008.
  • Number of citations       3
  • Barat, Guy – Grabner, Peter J – Hellekalek, Peter: Pierre Liardet (1943–2014) in memoriam. EMS Newsletter, 2015.
  • Kraaikamp, Cor: Pierre Liardet (1943–2014). Uniform distribution theory, no. 1, vol. 11, pp. i–xi, 2016.
  • Morgan, Frank: Soap Bubbles and Mathematics. OF THE EUROPEAN MATHEMATICAL SOCIETY, vol. 2, pp. 32, 2015.
V. Baláž – O. Strauch – T. Šalát: Remarks on several types of convergence of bounded sequences. Acta Mathematica Universitatis Ostraviensis, no. 14, pp. 3–12, 2006.
  • Number of citations       1
  • Mohiuddine, SA – Belen, C: Restricted uniform density and corresponding convergence methods. Filomat, no. 12, vol. 30, pp. 3209–3216, 2016.
V. Baláž – T. Šalát: Uniform density u and corresponding I_u convergence. Mathematical Communications, no. 11, pp. 1–7, 2006.
  • Number of citations       33
  • Mursaleen, M. – Alotaibi, A. – Alghamdi, M.A.: I-Summability and I-approximation through invariant mean. JOURNAL OF COMPUTATIONAL ANALYSIS AND APPLICATIONS, no. 6, vol. 14, pp. 1049-1058, 2012.
  • Tas, E. – Yurdakadmin, T.: Characterization of uniform statistical convergence for double sequences. Miskolc Mathematical Notes, no. 2, vol. 13, pp. 543–553, 2012.
  • Das, P. – Savas, E.: Double uniform density and corresponding convergence of double sequences. Studia Scientiarum Mathematicarum Hungarica, no. 4, vol. 44, pp. 419-435, 2012.
  • Boccuto, A. – Dimitriou, X.: Modes of Ideal Continuity of (l)-Group-Valued Measures. International Mathematical Forum, no. 17, vol. 8, pp. 841 - 849, 2013.
  • Hazarika, B.: On σ-uniform density and ideal convergent sequences of fuzzy real numbers. Journal of Intelligent and Fuzzy Systems, no. 2, vol. 26, pp. 793-799, 2014.
  • E. Yilmaz – S.A. Mohiuddine – Y. Altin – H. Koyunbakan: Uniform lacunary statistical convergence on time scales. Int. J. Anal. Appl., no. 14, vol. 1, pp. 99-106, 2017.
  • T. Yurdakadim – L. Miller-Van Wieren: Some results on uniform statistical cluster points. Turkish J. Math., no. 41, pp. 1133-1139, 2017.
  • Masárová, Renáta: UPPER DENSITY, QUASI-DENSITY OF SUBSET OF THE SETS OF NATURAL NUMBERS. Mathematics, Information Technologies and Applied Sciences, pp. 55, 2022.
  • Khan, Vakeel A – Khan, Izhar Ali – Esi, Ayhan: Invariant convergent and invariant ideal convergent sequence in intuitionistic fuzzy normed space. Journal of Intelligent & Fuzzy Systems, no. Preprint, pp. 1–10, 2000.
  • Pal, Sudip Kumar: Further remarks on uniform statistical convergence of order $$$\backslash$alpha $$ $\alpha$. The Journal of Analysis, pp. 1–10, 2022.
  • Pal, Sudip Kumar: Further remarks on uniform statistical convergence of order $$$\backslash$alpha $$ $\alpha$. The Journal of Analysis, pp. 1–10, 2022.
  • Masarova, Renata – Visnyai, Tomas – Vrabel, Robert: Quasi-Density of Sets, Quasi-Statistical Convergence and the Matrix Summability Method. Axioms, no. 3, vol. 11, pp. 88, 2022.
  • 施慧华: $\beta$-统计收敛与收敛的关系. 华侨大学学报: 自然科学版, no. 5, vol. 32, pp. 597–600, 2011.
  • Miller-Van Wieren, Leila – Ta{\c{s}: Category theoretical view of I-cluster and I-limit points of subsequences. Acta et Commentationes Universitatis Tartuensis de Mathematica, no. 1, vol. 24, pp. 103–108, 2020.
  • Mohiuddine, SA – Belen, C: Restricted uniform density and corresponding convergence methods. Filomat, no. 12, vol. 30, pp. 3209–3216, 2016.
  • Altin, Yavuz – {\c{C}}olak, Rifat – Torgut, Birg{ü}l: I2 (u)-convergence of double sequences of order ($\alpha$, $\beta$). Georgian Mathematical Journal, no. 2, vol. 22, pp. 153–158, 2015.
  • Macaj, Martin – Sleziak, Martin – Toma, Vladim{\i}r: On weighted uniform density. Unif. Distrib. Theory, vol. 3, pp. 101–127, 2008.
  • Gogola, J – Mačaj, M – Visnyai, T: On Ic (q)-convergence. In Annales Mathematicae et Informaticae, pp. 27–36, 2011.
  • Yardimci, Seyhmus: Multipliers and factorizations for bounded I-convergent sequences. Mathematical Communications, no. 2, vol. 11, pp. 181–185, 2006.
  • Barbarski, Pawe{\l} – Filip{ó}w, Rafa{\l} – Mro{\.z}ek, Nikodem – Szuca, Piotr: Uniform density $ u $ and $$\backslash$I\_u $-convergence on a big set. Mathematical Communications, no. 1, vol. 16, pp. 125–130, 2011.
  • Altin, Yavuz – Koyunbakan, Hikmet – Yilmaz, Emrah: Uniform statistical convergence on time scales. Journal of Applied Mathematics, vol. 2014, 2014.
  • Akta{\c{s}: Generalized product of fuzzy subgroups and t-level subgroups. Mathematical communications, no. 2, vol. 11, pp. 121–128, 2006.
  • Nuray, Fatih – G{ö}k, Hafize – Ulusu, U{\u{g}}ur: $ I\_ $\{$$\backslash$sigma$\}$ $-Convergence. Mathematical Communications, no. 2, vol. 16, pp. 531–538, 2011.
  • Mursaleen, M – Edely, Osama HH: On the invariant mean and statistical convergence. Applied Mathematics Letters, no. 11, vol. 22, pp. 1700–1704, 2009.
  • Boccuto, Antonio – Dimitriou, Xenofon: Convergence theorems for lattice group-valued measures, monography, 2015.
  • Kisi, Omer – Guler, Erhan: Uniform J-Lacunary statistical convergence on time scales. New Trends in Mathematical Sciences, no. 4, vol. 6, pp. 142–153, 2018.
  • S{ü}mb{ü}l, Canan – Y{\i}ld{\i}r{\i}m, Mustafa – Belen, Cemal: On statistical and strong convergence with respect to a modulus function and a power series method. Filomat, no. 12, vol. 34, pp. 3981–3993, 2020.
  • Miller-Van Wieren, Leila: A note on subsequences of equidistributed and well distributed sequences. Advances in Math.: Sci. Journal, no. 1, vol. 10, pp. 377–384, 2021.
  • Leila Miller-Van Wieren: SOME PROPERTIES OF EQUIDISTRIBUTED AND WELL DISTRIBUTED SEQUENCES. Advances in Mathematics: Scientific Journal, no. 9, vol. 10, pp. 3175, 2021.
  • M{\.I}LLER-VAN W{\.I}EREN, Leila – YURDAKAD{\.I}M, Tu{\u{g}}ba – Emre, TA{\c{S}}: Some new insights into ideal convergence and subsequences. Hacettepe Journal of Mathematics and Statistics, no. 5, vol. 51, pp. 1–6, 2022.
  • M{\.I}LLER-VAN W{\.I}EREN, Leila – Emre, TA{\c{S}} – YURDAKAD{\.I}M, Tu{\u{g}}ba: Some new insights into ideal convergence and subsequences. Hacettepe Journal of Mathematics and Statistics, no. 5, vol. 51, pp. 1379–1384}, 2000.
  • Pal, Sudip Kumar: Further remarks on uniform statistical convergence of order $\alpha$. The Journal of Analysis, no. 1, vol. 31, pp. 343–352, 2023.
  • G{ü}lf{\i}rat, Mustafa – Bayram, Nilay {\c{S}}ahin: On uniform statistical convergence. Georgian Mathematical Journal, no. 6, vol. 30, pp. 873–882, 2023.
V. Baláž – J. Červeňanský – P. Kostyrko – T. Šalát: I-konvergencia a I-spojitosť reálnych funkcií (in Bulgarian). Acta Mathematica, no. 5, pp. 43–50, 2002.
  • Number of citations       31
  • Boccuto, A. – Dimitriou, X.: Modes of Ideal Continuity of (l)-Group-Valued Measures. International Mathematical Forum, no. 17, vol. 8, pp. 841 - 849, 2013.
  • Faisant, Alain – Grekos, Georges – Toma, Vladimír: On the statistical variation of sequences. Journal of mathematical analysis and applications, no. 2, vol. 306, pp. 432–439, 2005.
  • Banerjee, Amar Kumar – Banerjee, Apurba: I-CONVERGENCE CLASSES OF SEQUENCES AND NETS IN TOPOLOGICAL SPACES. JORDAN JOURNAL OF MATHEMATICS AND STATISTICS, no. 11, vol. 1, pp. 13-31, 2018.
  • Jamwal, Rohini – Jamwal, Renu – Jamwal, Dalip Singh: I-cluster points of filters. New Trends in Mathematical Sciences, no. 5, vol. 4, pp. 195-202, 2017.
  • SEVIM YEGUL – ERDINC DUNDAR: 0ON STATISTICAL CONVERGENCE OF SEQUENCES OF FUNCTIONS IN 2–NORMED SPACES. Journal of Classical Analysis, no. 1, vol. 10, pp. 49-57, 2017.
  • Amar Kumar Banerjee – Apurba Lahiri: A study on I-Cauchy sequences and I-divergence in S-metric spaces. Malaya Journal of Matematik, no. 2, vol. 6, pp. 326-330, 2018.
  • Jamwal, Rohini – Jamwal, Renu – Jamwal, Dalip Singh: More on I-cluster points of filters. New Trends in Math. Sci., no. 4, vol. 5, pp. 203-208, 2017.
  • BANERJEE, AMAR KUMAR – HOSSAIN, NESAR: ON I-CONVERGENCE OF SEQUENCES OF FUNCTIONS AND UNIFORM CONJUGACY.. Journal of Mathematical Analysis, no. 5, vol. 13, 2022.
  • Ki{\c{s}}i, {Ö}mer – D{ü}ndar, Erdin{\c{c}}: I2-Uniformly convergence of double sequences of fuzzy valued functions. Acta Mathematica Universitatis Comenianae, no. 4, vol. 91, pp. 281–300, 2022.
  • Yeg{ü}l, Sevim – D{ü}ndar, Erdin{\c{c}}: Statistical convergence of double sequences of functions and some properties in 2-normed spaces. Facta Universitatis, Series: Mathematics and Informatics, pp. 705–719, 2019.
  • Yeg{ü}l, Sevim – D{ü}ndar, Erdin{\c{c}}: Statistical convergence of double sequences of functions and some properties in 2-Normed spaces. 2018.
  • Powar, PL – Dubey, Pratibha: I-Continuity in Topological Spaces due to Martin: A Counter-example. International Journal of Computer Applications, no. 6, vol. 66, 2013.
  • Sarabadan, Saeed – Talebi, Sorayya: On I-Convergence of Double Sequences in 2-Normed Spaces. Int. J. Contemp. Math. Sciences, no. 14, vol. 7, pp. 673–684, 2012.
  • Banas, Vladislav: I-derivative. series Mathematics, pp. 63, 2013.
  • Boccuto, Antonio – Dimitriou, Xenofon: Convergence theorems for lattice group-valued measures, 2015.
  • Boccuto, Antonio – Dimitriou, Xenofon: On Filter ([alpha])-convergence and Exhaustiveness of Function Nets in Lattice Groups and Applications. Journal of Mathematics Research, no. 2, vol. 7, pp. 56, 2015.
  • Albayrak, H{ü}seyin – Pehli̇van, Serpil: On the ideal convergence of subsequences and rearrangements of a real sequence. Applied mathematics letters, no. 10, vol. 23, pp. 1203–1207, 2010.
  • Mursaleen, M – Edely, Osama HH: On the invariant mean and statistical convergence. Applied Mathematics Letters, no. 11, vol. 22, pp. 1700–1704, 2009.
  • Das, Pratulananda – Savas, Ekrem: Double uniform density and corresponding convergence of double sequences. Studia Scientiarum Mathematicarum Hungarica, no. 4, vol. 49, pp. 419–435, 2012.
  • Ghosal, Sanjoy: I-uniform continuity and I-uniform boundedness of a function. Demonstratio Mathematica, no. 4, vol. 45, pp. 887–894, 2012.
  • Gordji, M Eshaghi – Sarabadan, S – Arani, F Amouei: IK-convergence in 2-normed spaces. Funct. Anal. Approx. Comput, vol. 4, pp. 1–7, 2012.
  • Hazarika, Bipan: On ideal convergence in topological groups. Department of Mathematics Northwest University, no. 4, vol. 7, pp. 42–48, 2011.
  • Hazarika, Bipan: $ I $-Convergence and Summability in Topological Group. Journal of Informatics and Mathematical Sciences, no. 3, vol. 4, pp. 263–268, 2012.
  • Lahiri, Benoy Kumar – Das, Pratulananda: $ I $ and $ I\^{}* $-convergence in topological spaces. Mathematica bohemica, no. 2, vol. 130, pp. 153–160, 2005.
  • Lahiri, BK – Das, Pratulananda: I and I*–Convergence of Nets. Real analysis exchange, no. 2, vol. 33, pp. 431–442, 2008.
  • Rahmat, Mohd Rafi Segi – Kanthen, Harikrishnan: On $$\backslash$mathcal $\{$I$\}$ $-convergence in the Topology Induced by Probabilistic Norms. European Journal of Pure and Applied Mathematics, no. 2, vol. 2, pp. 195–212, 2009.
  • Sleziak, Martin: I-continuity in topological spaces. Acta Math.(Nitra), vol. 6, pp. 115–122, 2003.
  • D{ü}ndar, Erdin{\c{c}} – Yeg{ü}l, Sevim – Arslan, Mukaddes: On $$\backslash$mathcal $\{$I$\}$ $-uniform convergence of sequences of functions in 2-normed spaces. Rocky Mountain Journal of Mathematics, no. 5, vol. 50, pp. 1637–1646, 2020.
  • G{\: Dr. Öğrt. Üy. Mualla Birg{ü}l HUBAN Isparta Uygulamal{\i} Bilimler {\. Bilge Ka{\u{g}}an ISC-2019, pp. 191, 2019.
  • Renukadevi, V – Vijayashanthi, P: Statistical Convergence of Double Sequences. Jordan Journal of Mathematics and Statistics (JJMS), no. 4, vol. 14, pp. 787–808, 2021.
  • Yeg{ü}l, Sevim – D{ü}ndar, Erdin{\c{c}}: On I2-convergence and I2-Cauchy double sequences Of functions in 2-normed spaces. Facta Univ. Ser. Math. Inform, no. 3, vol. 35, pp. 801–814, 2020.
V. Baláž – T. Šalát: Zeros of continuos functions and the structure of two function space. Mathematica Slovaca, no. 4, vol. 52, pp. 397–408, 2002.
  • Number of citations       2
  • Vadovič, Peter: Zeros of continuous functions and the compact-open topology. Mathematica Slovaca, no. 5, vol. 53, pp. 515–523, 2003.
  • Hajja, Mowaffaq: The Integrating Factors of an Exact Differential Equation. Mathematics Magazine, no. 3, vol. 86, pp. 220–226, 2013.
V. Baláž – V. Kvasnička – J. Pospíchal: Two metrics in a Graph Theory Modeling of Organic Chemistry. Discrete Applied Mathematics, vol. 35, pp. 1–19, 1992.
  • Number of citations       11
  • Salas, J – Torra, V: Approximating degree sequences with regular graphic sequences. Electronic Notes in Discrete Mathematics, vol. 46, pp. 273–280, 2014.
  • Ugi, Ivar – Bauer, Johannes – Bley, Klemens – Dengler, Alf – Dietz, Andreas – Fontain, Eric – Gruber, Bernhard – Herges, Rainer – Knauer, Michael – Reitsam, Klaus – others: Computer-Assisted Solution of Chemical Problems—The Historical Development and the Present State of the Art of a New Discipline of Chemistry. Angewandte Chemie International Edition in English, no. 2, vol. 32, pp. 201–227, 1993.
  • Crabtree, John D – Mehta, Dinesh P: Automated reaction mapping. Journal of Experimental Algorithmics (JEA), vol. 13, pp. 1–15, 2009.
  • Ugi, Ivar – Bauer, Johannes – Bley, Klemens – Dengler, Alf – Dietz, Andreas – Fontain, Eric – Gruber, Bernhard – Herges, Rainer – Knauer, Michael – Reitsam, Klaus – others: Die computerunterst{ü}tzte L{ö}sung chemischer Probleme eine neue Disziplin der Chemie. Angewandte Chemie, no. 2, vol. 105, pp. 210–239, 1993.
  • Salas, Julián – Torra, Vicen{\c{c}}: Graphic sequences, distances and k-degree anonymity. Discrete Applied Mathematics, vol. 188, pp. 25–31, 2015.
  • Kamissoko, Daouda – Pér{\`e}s, Fran{\c{c}}ois – Zaraté, Pascale – Gourc, Didier: Complex system representation for vulnerability analysis. IFAC-PapersOnLine, no. 3, vol. 48, pp. 948–953, 2015.
  • Rappoport, Dmitrij: Reaction Networks and the Metric Structure of Chemical Space (s). The Journal of Physical Chemistry A, no. 13, vol. 123, pp. 2610–2620, 2019.
  • Marulanda Boh{ó}rquez, Jorge Alonso: La transformaci{ó}n de los modelos de la comunicaci{ó}n en el surgimiento de la sociedad de la informaci{ó}n: Del modelo de flujo unidireccional a la comunicaci{ó}n descentralizada, 2015.
  • Wang, Ruchuan – Li, Yunyao – Zheng, Hui – Zhang, Zhiwang – Guo, Mengjiao – Huang, Guangyan – Chen, Jinjun – He, Jing – others – Chi, Chi-Huang – Fan, Weibei: A fuzzy theory based topological distance measurement for undirected multigraphs. In 2020 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), pp. 1–10, 2020.
  • Clark, Aurora E. – Adams, Henry – Hernandez, Rigoberto – Krylov, Anna I. – Niklasson, Anders M. N. – Sarupria, Sapna – Wang, Yusu – Wild, Stefan M. – Yang, Qian: The Middle Science: Traversing Scale In Complex Many-Body Systems. ACS Central Science, no. 8, vol. 7, pp. 1271-1287, 2021.
  • Parisutham, Nirmala: How do centrality measures help to predict similarity patterns in molecular chemical structural graphs?. Artificial Intelligence Chemistry, no. 2, vol. 1, pp. 100007, 2023.
V. Baláž – V. Kvasnička – J. Pospíchal: Grafy v chémii (in Swedish). Acta Math. Univ. Comenian, vol. 44/45, pp. 14–20, 1991.
  • Number of citations       1
  • Gindikin, SG – Lagrange, Joseph Louis: Souhrnný rejstřík PMFA za léta 1986–2000. Pokroky matematiky, fyziky a astronomie, no. 4, vol. 45, pp. 313–352, 2000.
V. Kvasnička – J. Pospíchal – V. Baláž: Reaction and chemical distances and reaction graphs. Theor. Chim. Acta, vol. 79, pp. 65–79, 1991.
  • Number of citations       12
  • Gritsenko, Andrey – Shayestehfard, Kimia – Guo, Yuan – Moharrer, Armin – Dy, Jennifer – Ioannidis, Stratis: Graph transfer learning. Knowledge and Information Systems, pp. 1–30, 2022.
  • Temkin, Oleg N – Zeigarnik, Andrew V – Bonchev, Danail: Chemical reaction networks: a graph-theoretical approach, 2020.
  • Jakuš, Vladimír: Artificial intelligence in chemistry. Collection of Czechoslovak chemical communications, no. 12, vol. 57, pp. 2413–2451, 1992.
  • García-Domenech, Ram{ó}n – Gálvez, Jorge – de Julián-Ortiz, Jesus V – Pogliani, Lionello: Some new trends in chemical graph theory. Chemical Reviews, no. 3, vol. 108, pp. 1127–1169, 2008.
  • Estrada, Ernesto – Montero, Luis Alberto: Bond order weighted graphs in molecules as structure-property indices. Molecular Engineering, no. 4, vol. 2, pp. 363–373, 1993.
  • Bento, Jose – Ioannidis, Stratis: A family of tractable graph distances. In Proceedings of the 2018 SIAM International Conference on Data Mining, pp. 333–341, 2018.
  • Rappoport, Dmitrij: Reaction Networks and the Metric Structure of Chemical Space (s). The Journal of Physical Chemistry A, no. 13, vol. 123, pp. 2610–2620, 2019.
  • Mellor, Andrew – Grusovin, Angelica: Graph comparison via the nonbacktracking spectrum. Physical Review E, no. 5, vol. 99, pp. 052309, 2019.
  • Ioannidis, Stratis – Bento, José – Wang, Shikun – Gao, Jasmin – Moharrer, Armin: Massively distributed graph distances. IEEE Transactions on Signal and Information Processing over Networks, vol. 6, pp. 667–683, 2020.
  • Mishra, Rama K – Lee, Shyi-Long: Conversion of edge-to-loop and loop-to-edge technique used to study [$\pi$2+ $\pi$2] and [$\pi$2+ $\pi$4] chemical reactions. International journal of quantum chemistry, no. 4-5, vol. 75, pp. 821–827, 1999.
  • Bento, José – Ioannidis, Stratis: A family of tractable graph metrics. Applied Network Science, no. 1, vol. 4, pp. 107, 2019.
  • Gritsenko, Andrey – Shayestehfard, Kimia – Guo, Yuan – Moharrer, Armin – Dy, Jennifer – Ioannidis, Stratis: Graph transfer learning. Knowledge and Information Systems, no. 4, vol. 65, pp. 1627–1656, 2023.
V. Baláž – V. Kvasnička – J. Pospíchal: Dual approach to edge distance between graphs. Časopis pro pěstování matematiky, no. 2, vol. 114, pp. 155–159, 1989.
  • Number of citations       12
  • Malicky, Peter: GREATEST COMMON SUBGROUP AND SMALLEST COMMON SUPERGROUP OF TWO FINITE GROUPS AND RELATED METRICS ON A SYSTEM OF FINITE GROUPS. Acta Univ. M. Belii Math., vol. 5, pp. 85-90, 1997.
  • Šabo, Michal: On a maximal distance between graphs. Czechoslovak Mathematical Journal, no. 2, vol. 41, pp. 265–268, 1991.
  • Hrnčiar, Pavel – Haviar, Alfonz – Monoszová, Gabriela: Some characteristics of the edge distance between graphs. Czechoslovak Mathematical Journal, no. 4, vol. 46, pp. 665–675, 1996.
  • Haviar, Alfonz: Metrics on systems of finite algebras. Acta Univ. M. Bel{\`\i}i, vol. 3, pp. 9–16, 1995.
  • Daza, Edgar – A Melo, Jenny: On Molecular Graph Comparison. Current computer-aided drug design, no. 2, vol. 7, pp. 83–89, 2011.
  • Melo Ospina, Jenny Adriana: Una métrica sobre grafos ponderados como medida de similitud molecular. Departamento de Química, 2000.
  • He, Jing – Chen, Jinjun – Huang, Guangyan – Guo, Mengjiao – Zhang, Zhiwang – Zheng, Hui – Li, Yunyao – Wang, Ruchuan – Fan, Weibei – Chi, Chi-Huang – others: A fuzzy theory based topological distance measurement for undirected multigraphs. In 2020 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE), pp. 1–10, 2020.
  • Mellor, Andrew – Grusovin, Angelica: Graph comparison via the nonbacktracking spectrum. Physical Review E, no. 5, vol. 99, pp. 052309, 2019.
  • Rappoport, Dmitrij: Reaction networks and the metric structure of chemical space (s). The Journal of Physical Chemistry A, no. 13, vol. 123, pp. 2610–2620, 2019.
  • Bento, José – Ioannidis, Stratis: A family of tractable graph metrics. Applied Network Science, no. 1, vol. 4, pp. 1–27, 2019.
  • Bento, Jose – Ioannidis, Stratis: A family of tractable graph distances. In Proceedings of the 2018 SIAM International Conference on Data Mining, pp. 333–341, 2018.
  • Moharrer, Armin – Gao, Jasmin – Wang, Shikun – Bento, José – Ioannidis, Stratis: Massively distributed graph distances. IEEE Transactions on Signal and Information Processing over Networks, vol. 6, pp. 667–683, 2020.
Ľ. Holá – V. Baláž – T. Neubrunn: Remarks on c-continuous multifunctions. Sborník VŠCHT Praha M2, pp. 53–61, 1988.
  • Number of citations       10
  • Alsharabi, Esmail AM – Al Rahal, Deapo M – Nasser, MA: On Set-Valued Mappings. Alandalus Journal for Applied Sciences, no. 3556, vol. 391, pp. 1–52, 2014.
  • Matejdes, Milan: Graph and pointwise upper Kuratowski limits. In Colloquium Mathematicum, pp. 195–201, 2017.
  • Holý, D: On multifunctions with closed graphs. Mathematica Bohemica, no. 4, vol. 126, pp. 779–786, 2001.
  • Matejdes, Milan: Selection theorems and minimal mappings in a cluster setting. The Rocky Mountain Journal of Mathematics, pp. 851–867, 2011.
  • Kan{\i}bir, A – Reilly, IL: On almost l-continuous multifunctions. Hacettepe J. Math. Stat, vol. 35, pp. 181–188, 2006.
  • Noiri, Takashi – Popa, Valeriu: Some Forms of C-continuity for Multifunctions. European Journal of Pure and Applied Mathematics, no. 1, vol. 1, pp. 82–98, 2007.
  • Kanibir, ALEV – Reilly, Ivan L: On some variations of multifunction continuity. Applied general topology, no. 2, vol. 9, pp. 301–310, 2008.
  • Jankech, Andrej: Using cluster multifunctions for decomposition theorems. International J. Pure and Applied Math, vol. 46, pp. 303–312, 2008.
  • Popa, Valeriu – Noiri, Takashi: Characterizations of C-quasicontinuous multifunctions. Math. Balkanica (N. S.), vol. 20, pp. 265–274, 2006.
  • Matejdes, Milan: Upper quasi continuous maps and quasi continuous selections. Czechoslovak mathematical journal, no. 2, vol. 60, pp. 517–525, 2010.
V. Baláž: On almost and weak forms of continuity of functions and multifunctions. Mathematica Slovaca, no. 1, vol. 37, pp. 53–61, 1987.
  • Number of citations       4
  • Tanha , Z. A. – Ameen , Z. A.: Weakly r-Supercontinuous Functions. General Letters in Mathematics,, no. 3, vol. 12, pp. 116-125, 2022.
  • Neubrunn, T: Quasi-continuity. Real Analysis Exchange, no. 2, vol. 14, pp. 259–306, 1988.
  • Ameen, Zanyar A: Almost Somewhat Near Continuity and Near Regularity. Moroccan Journal of Pure and Applied Analysis, no. 1, vol. 7, pp. 88–99, 2021.
  • Holá, Ľubica: 2 Ľubica Holá: Zovšeobecnenie pojmu spojitost’funkcie. Tibor Neubrunn (1929–1990), pp. 53–70, 2016.
V. Baláž – V. Kvasnička – J. Koča – S. Milan: A Metric for Graphs. Časopis pro pestování matematiky, vol. 111, pp. 431–433, 1986.
  • Number of citations       29
  • Neffke, Frank – Mcnerney, James – Gomez-Lievano, Andres – Coscia, Michele: The Node Vector Distance Problem in Complex Networks. ACM Computing Surveys (CSUR), no. 6, vol. 53, pp. 1–27, 2020.
  • Malicky, Peter: GREATEST COMMON SUBGROUP AND SMALLEST COMMON SUPERGROUP OF TWO FINITE GROUPS AND RELATED METRICS ON A SYSTEM OF FINITE GROUPS. Acta Univ. M. Belii Math., vol. 5, pp. 85-90, 1997.
  • De Lacy, Kooper: Second and Higher-Order Conditions for Solutions to Constrained Optimisation Problems and Nonlinear Quantum Computation. 2019.
  • Gavlas, Heather D: A graph theoretic study of the similarity of discrete structures. 1996.
  • Zelinka, Bohdan: Edge-distance between isomorphism classes of graphs. Časopis pro pěstování matematiky, no. 3, vol. 112, pp. 233–237, 1987.
  • Chiew, Mitchell: Linear and nonlinear quantum algorithms made explicit. 2019.
  • Gardiner, Eleanor J – Raymond, John W – Willett, Peter: Heuristics for similarity searching of chemical graphs using a maximum common edge subgraph algorithm. Journal of chemical information and computer sciences, no. 2, vol. 42, pp. 305–316, 2002.
  • Jarrett, Elzbieta B – Hevia, Héctor – Chartrand, Gary – Schultz, Michelle: Subgraph distances in graphs defined by edge transfers. Discrete mathematics, no. 1-3, vol. 170, pp. 63–79, 1997.
  • Huband, Simon – McDonald, D: A preliminary topological debugger for MPI programs. In Proceedings First IEEE/ACM International Symposium on Cluster Computing and the Grid, pp. 422–429, 2001.
  • Chartrand, Gary – Gavlas, Heather – Hevia, Héctor – Johnson, Mark: Rotation and jump distances between graphs. Discussiones Mathematicae Graph Theory, no. 2, vol. 17, pp. 285–300, 1997.
  • Šabo, Michal: On a maximal distance between graphs. Czechoslovak Mathematical Journal, no. 2, vol. 41, pp. 265–268, 1991.
  • Huband, Simon – McDonald, Chris: Debugging parallel programs using incomplete information. In ICWC 99. IEEE Computer Society International Workshop on Cluster Computing, pp. 278–286, 1999.
  • Schulz, Lech: Set-spectrum method in structure comparison and the concept of topological kinship. Applied mathematics and computation, no. 1, vol. 41, pp. 1–20, 1991.
  • Zelinka, Bohdan: Edge shift distance between trees. Archivum Mathematicum, no. 1, vol. 28, pp. 5–9, 1992.
  • Monoszová, Gabriela – Haviar, Alfonz – Hrnčiar, Pavel: Some characteristics of the edge distance between graphs. Czechoslovak Mathematical Journal, no. 4, vol. 46, pp. 665–675, 1996.
  • Zelinka, Bohdan: Distances between graphs. In Annals of Discrete Mathematics, pp. 355–361, 1992.
  • Chiew, M – de Lacy, Kooper – Yu, CH – Marsh, Samuel – Wang, JB: Graph comparison via nonlinear quantum search. Quantum Information Processing, no. 10, vol. 18, pp. 302, 2019.
  • Schulz, Lech: Set spectra of chemical spaces. Journal of Molecular Structure: THEOCHEM, vol. 231, pp. 367–377, 1991.
  • Haviar, Alfonz: Metrics on systems of finite algebras. Acta Univ. M. Bel{\`\i}i, vol. 3, pp. 9–16, 1995.
  • Huilgol, Medha Itagi – Ramaprakash, Chitra: On Some Edge Rotation Distance Graphs. IOSR Journal of Mathematics, no. 6, vol. 10, pp. 16–25, 2014.
  • Huband, Simon: Topologies and Traces: Debugging Parallel Programs Using Expected Behaviours, 2002.
  • A Melo, Jenny – Daza, Edgar: On Molecular Graph Comparison. Current computer-aided drug design, no. 2, vol. 7, pp. 83–89, 2011.
  • Maurer, DE – Oates, KL – Chrysostomou, AK: A graph-theoretic metric for distributed data fusion in multi-target tracking. Control Engineering Practice, no. 5, vol. 2, pp. 865–873, 1994.
  • Rodríguez Romeu, Raidel – Jaime Infante, Ram{ó}n Alexander – Triana Dopico, Julián – Vázquez Molina, Joan: Análisis In Silico de la Viabilidad de la Mutaci{ó}n de Sistemas Biol{ó}gicos. Revista de Ciencias Médicas de Pinar del Río, no. 4, vol. 22, pp. 75–83, 2018.
  • Zelinka, Bohdan: Equivalences between isomorphism classes on infinite graphs. Mathematica Bohemica, no. 2, vol. 117, pp. 151–155, 1992.
  • Melo Ospina, Jenny Adriana: Una métrica sobre grafos ponderados como medida de similitud molecular. Departamento de Química, 2000.
  • Celoria, Daniele: Filtered simplicial homology, graph dissimilarity and$\backslash$. arXiv preprint arXiv:2105.03987, 2021.
  • Coscia, Michele: The atlas for the aspiring network scientist. arXiv preprint arXiv:2101.00863, 2021.
  • Celoria, Daniele: Filtered simplicial homology, graph dissimilarity and {ü}berhomology. Journal of Algebraic Combinatorics, pp. 1–46, 2023.
V. Baláž: On weak forms of continuity and product spaces. Acta Math. Univ. Comenian, vol. 44/45, pp. 169–179, 1984.
  • Number of citations       3
  • Neubrunn, T: Quasi-continuity. Real Analysis Exchange, no. 2, vol. 14, pp. 259–306, 1988.
  • Matejdes, M: Quasi-continuous and cliquish selections of multifunctions on product spaces. Real Analysis Exchange, no. 1, vol. 18, pp. 214–220, 1992.
  • Ameen, Zanyar A: Almost Somewhat Near Continuity and Near Regularity. Moroccan Journal of Pure and Applied Analysis, no. 1, vol. 7, pp. 88–99, 2021.
Facebook / Youtube

Facebook / Youtube

RSS