List of publications

András Zempléni

 

Papers in peer-reviewed journals:

1.      Zempléni, A. (1990). On the heredity of Hun and Hungarian property, J. of Theoretical Probability, 3. No.4, p. 599-609.

2.      Zempléni, A. (1992). Testing max-infinite divisibility. Tyeorija Verojatnosztyej i Prim., 37, p. 173-175, (Russian, English translation: J. of Probab. & Appl.)

3.      Zempléni, A. (1995). In the max--semigroup of probability measures over the plane there is no Khinchine--type decomposition theorem. Studia Sci. Math. Hung. 31, p. 303-311.

4.      Zempléni, A. (1996). Inference for Generalized Extreme Value Distributions. Journal of Applied Statistical Science, 4, No. 2/3, p. 107-122.

5.      Székely, J.G. and Zempléni, A. (1997). Remarks on the paperOn a problem of  a Khinchin type decomposition theoremby E. Pancheva. Tyeorija Verojatnosztyej i Prim. 42, p. 216-217.

6.      Székely, J. G. and Zempléni, A. (1997). A direct decomposition of the convolution semigroup of probability distributions. Studia Sci. Math. Hung. 33, p. 299-304.

7.      Kárpáti, A., Zempléni, A., Verhelst, N. D., Velduijzen, N. H. és Schönau, D. W. (1997). A zsürizés, mint értékelési módszer a vizuális nevelésben, Magyar Pedagógia 97, 3-4, p. 203-234.

8.      Kárpáti, A., Zempléni, A., Verhelst, N. D., Veldhuijzen, N. H. and Schönau, D. W. (1998). Expert agreement in judging art projects – a myth or reality? Studies in Educational Evaluation, 24, 4, p. 385-404.

9.      Zempléni, A. (2000). Max-semigroups of bivariate random variables with Khinchine-type decompositions. Studia Sci. Math. Hung., 36. p. 359-366.

10.  Horváth Sz., Makra L., Zempléni A., Motika G. és Sümeghy Z. (2001). A közlekedés szerepe a levegőminőség módosításában egy közepes méretű város példáján. Légkör, XLVI/1, 23-28.

11.  Does, R.J.M.M. and Zempléni, A. (2001). Establishing a Statistical Consulting Unit at Universities. Quantitative Methods, 67, p. 51-64.

12.  Makra, L., Horváth, Sz., Zempléni, A., Csiszár, V., Rózsa, K. és Motika, G. (2001). Levegőminőségi trendek Magyarországon, különös tekintettel a dél-alföldi régióra. Légkör,  XLVI/2, p.12-19.

13.  Makra, L., Horváth, Sz., Zempléni, A., Csiszár, V., Rózsa, K. and Motika, G. (2001). Air Quality Trends in Southern Hungary. EURASAP Newsletter, 42, p. 2-13, August 2001.

14.  Makra, L., Horváth, Sz., Zempléni, A., Csiszár, V., Fodré, Zs., Bucsiné Kapocsi, I., Motika, G. and Sümeghy, Z. (2001). Analysis of air quality parameters in Csongrád county. Acta Climatologica et Chorologica.Universitatis Szegediensis, 2001, Tom. 34-35, p. 23-44.

15.  Zempléni, A. (2002). Arithmetics of a mixed bivariate model. Studia Sci. Math. Hung. 39, p. 157-167. 

16.  Taylor, C.C. and Zempléni, A. (2004). Chain Plot: a Tool for Exploiting Bivariate Temporal Structures. Computational Statistics and Data Analysis, 46, p. 141-153.

17.  Balázsi I. és Zempléni A. (2004).  A hozottérték-index és a hozzáadott pedagógiai érték számítása a 2003-as kompetenciamérésben. Új Pedagógiai Szemle, 2004. december, p. 36-50.

18.  Zempléni, A., Véber, M., Duarte, B. and Saraiva, P. (2004). Control Charts: A cost-optimization approach for processes with random shifts. ASMBI, 2004,  20, p.185-200.

19.  Bozsó D., Rakonczai P. és Zempléni A. (2005). Árvizek a Tiszán és néhány mellékfolyóján. Statisztikai Szemle,  83, 10-11, p. 919-936.

20.  Dryden, I.L. and Zempléni, A. (2006). Extreme shape analysis. J. Roy. Stat. Soc., Ser. C, 55, part 1, p. 103-121.

21.  Robotka, Zs., Zempléni, A., Hajas, Cs., Seres, Cs. and Balázs, S. (2008). Genetic algorithms and grid technologies in clustering, an example: clustering of images.  Quality Reliability Engineering International, p. 693-703.

22.  Arató, M., Bozsó, D., Elek, P. and Zempléni, A. (2009). Forecasting and simulating mortality tables. Mathematical and Computer Modelling, 49, 3-4, p. 805-813.

23.  Elek, P. and Zempléni, A. (2008). Tail behaviour and extremes of two-state Markov-switching autoregressive models. Computers and Mathematics, with applications, 55, p. 2839-2855.

24.  Elek, P. and Zempléni, A. (2009). Modelling extremes of time-dependent data by Markov-switching structures. Journal of Statistical Planning and Inference, 139, 6, p. 1953-1967.

25.  Robotka, Zs. and Zempléni, A. (2009). Image Retrieval using Gaussian Mixture Models, Annales Universitatis Scientarium de Rolando Eötvös Nominatae, Sectio Computatorica, Budapest, 31, p. 93-105.

26.  Rakonczai, P., Márkus, L. and Zempléni, A. (2011). Auto-copulas: investigating the interdependence structure of stationary time series. Methodology and Computing in Applied Probability, p. 1-19. 

27.  Varga, L., Szabó, B., Zsély, I.Gy., Zempléni, A. and Turányi,T. (2011). Numerical investigation of the uncertainty of Arrhenius parameters. Journal of Mathematical Chemistry, 49, p. 1798–1809.

28.  Turányi, T., Zsély I.Gy., Cserháti, M., Szabó, B.,  Varga, T.,  Sedyó, I.,  Nagy T., Kiss, P.,  Zempléni, A. and Curran, H.J. (2012). Determination of rate parameters based on both direct and indirect measurements, International Journal of Chemical Kinetics, 44, 5, p. 284–302.

29.  Rakonczai, P. and Zempléni, A. (2012).  Bivariate generalized Pareto distribution in practice: models and estimation. Environmetrics, 23, 3, p. 219-227.

30.  Zempléni, A., Hajas, Cs. and Nikovits, T. (2012). Mining the stock indices, using SVM. International Journal of Computer Information Systems, 4, No. 2, p. 1-5.

31.  Hajas, Cs. and Zempléni, A. (2014). Data mining of extreme value modelling European precipitation data, Annales Universitatis Scientarium de Rolando Eötvös Nominatae, Sectio Computatorica, Budapest, 42, p. 199-208.

32.  Rakonczai, P., Varga, L. and Zempléni, A. (2014). Copula fitting to autocorrelated data
with applications to wind speed modelling
, Annales Universitatis Scientarium de Rolando Eötvös Nominatae, Sectio Computatorica, Budapest, 43, p. 3-20.

33.  Kuhnt, S. and Zempléni, A. (2014), The ENBIS-13 Quality and Reliability Engineering International Special Issue, Qual. Reliab. Engng. Int, 30, 919919.

34.  Varga, L., Rakonczai, P. and Zempléni, A. (2015). Applications of threshold models and the weighted bootstrap for Hungarian precipitation data. Theoretical and Applied Climatology.

35.  Varga, L, and Zempléni (2017): Generalised block bootstrap and its use in meteorology. Advances in Statistical Climatology, Meteorology and Oceanography 3., p.55-66.

36. Hajas, Cs. and Zempléni, A. (2017). Chess and bridge: clustering the countries. Annales Universitatis Scientarium de Rolando Eötvös Nominatae, Sectio Computatorica, Budapest, 46, p. 67-79.

37. Zempléni, A. (2019). Estimating high quantiles based on dependent circular data. Journal of Mathematical Sciences , New York, 237, p. 865-874.

38. Dobi, B. and Zempléni, A. (2019). Markov-chain based cost optimal control charts for healthcare data. Quality and Reliability Engineering International, 35, p.1379-1395.

39.Németh, L. and Zempléni, A. (2020). Regression estimator for the tail index. Journal of Statistical Theory and Practice 14, paper: 48

40. Hijazy, A. and  Zempléni, A. (2020). Gamma Process-based Models for Disease Progression. Methodology and Computing in Applied Probabilityhttps://doi.org/10.1007/s11009-020-09771-4

41. Hajas, C. and Zempléni, A.(2020) : Dependent weighted bootstrap for European temperature data: is global warming speeding up? Időjárás,  
DOI:10.28974/idojaras.2020.3.3

42.
Németh, L. Hübnerová, Z. and Zempléni, A. (2020): Comparison of trend detection methods in GEV models.Commun. in Stat., Simul. & Comp.
https://doi.org/10.1080/03610918.2020.1804580

43. Németh, L. and Zempléni, A. (2020):  Matched bootstrap procedure for INAR(1) processes. ANNALES UNIVERSITATIS SCIENTIARUM BUDAPESTINENSIS DE ROLANDO EOTVOS NOMINATAE SECTIO COMPUTATORICA 50, pp. 269-282. 

43. C. Fugazza et al (2021). Rapid learning of object names in dogs. SCIENTIFIC REPORTS ( 2045-2322): 11, 1. 

44. Dobi, B. and Zempléni, A. (2021). Markovchart: an R package for cost-optimal patient monitoring and treatment using control charts. Computational Statistics, 1-41

45. Hijazy, A. and  Zempléni, A. (2021). Identifiability of convolutions. Annales Univ. Sci. Budapest., Sec. Math. Vol. LXIV., p. 55-69.

46. Németh, L. and Zempléni, A. (2021): A new bootstrap resampling scheme for INAR processes with trend. Annales Univ. Sci. Budapest., Sec. Math. Vol. LXIV., p. 135-156.

Lecture notes, book chapters:

1.      Székely, G. J. and Zempléni, A. (1994). Arithmetic in Commutative Semigroups. Discrete Mathematics and Applications  - TEMPUS Lecture Notes, Vol. 13, editor: Siemons, J., University of  East Anglia, Norwich, No. of pages: 28.

2.      Bognár J., Göndőcs F., Kászonyi L., Kováts A., Michaletzky Gy., Somogyi Á., Székely J. G., és Zempléni A. (1995). Matematikai Statisztika. Szerk..: Michaletzky György (ELTE TTK J3-958 sz. egyetemi jegyzet átdolgozott kiadás, Nemzeti Tankönyvkiadó Rt.). No. of pages 237, own: 24.

3.      Móri T., Szeidl L. és Zempléni A. (1997). Matematikai statisztika példatár (ELTE Eötvös Nyomda, Budapest). No. of pages: 228.

4.      Kárpáti A., Verhelst, N. D., Velduijzen, N. H. és Zempléni A. (1997). Vizuális nevelés: vizsga és projektmódszer 3. fejezete: a kritériumok optimalizásának matematikai alapjai. (Középiskolai tantárgyi feladatbankok II., szerk.: Mátrai Zsuzsa, Múzsák Közművelődési Kiadó, Budapest). No. of pages: 236, own 25.

5.      Does, R.J.M.M. and Zempléni, A. (2008). Statistical Consultancy Units at Universities. In: Statistical Practice in Business and Industry (Coleman, S., Greenfield, T., Stewardson, D. and Montgomery, D.C. eds, Wiley). No. of pages: 433, own: 12.

6.      Arató N.M., Prokaj V. és Zempléni A. (2013). Bevezetés a valószínűségszámításba és
alkalmazásaiba: példákkal, szimulációkkal
. Electronic lecture note.
No. of pages: 226.

7.      Prőhle T. és Zempléni A. (2013). Többdimenziós statisztika számítógépes módszerei. Electronic lecture note. No. of pages: 171.

 

Full papers in conference proceedings

1.      Zempléni, A. (1985). On irreducible measures. Proc. of the 3rd Pannonian Symp. on Math. Stat. Visegrád, 1982, p. 391-409. Academic Press Budapest.

2.      Zempléni, A. (1986). On the arithmetical properties of the multiplicative structure of probability distribution functions. Proc. of the 5th Pannonian Symp. on Math. Stat. Visegrád, 1985, p. 221-233. Academic Press Budapest.

3.      Ruzsa, I.Z. and Zempléni, A. (1987). The description of the class I0 in the multiplicative structure of distribution functions. Proc. of the 6th Pannonian Symp. on Math. Stat. Bad Tatzmannsdorf, 1986, p. 291-303. Reidel Publ. Co.

4.      Zempléni, A. (1989). On the max-divisibility of two-dimensional normal random variables. Proc. of the Conf. Probability Measures on Groups IX. Oberwolfach, 1988, p. 419-424. Lecture Notes in Math. 1379, Springer.

5.      Zempléni, A. (1991). Counterexamples in algebraic probability theory. Proc. Conf. Probability Measures on Groups X. Oberwolfach, 1990, p. 459--465. Plenum Press.

6.      Fodor, C.J., Fábián, Cs. and Zempléni, A. (1992). Experiences and Theoretical Investigations on Practical Linear Programs. Transactions of the Eleventh Prague Conference on Information Theory, Statistical Decision Functions, Random Processes. p. 397-408. Publishing House of the Czechoslowak Academy of Sciences. Prague.

7.      Zempléni, A. (1997). A consulting group is about to be born. Proceedings of the workshop Statistics at Universities, Its Impact for Society, Budapest, ELTE Eötvös Univ. Press. p. 9-17.

8.      Zempléni, A. (1997). Benefits & problems of running a university statistical consulting service. Proceedings of the workshop Statistics at Universities, Its Impact for Society, Budapest, ELTE Eötvös Univ. Press, p. 23-25.

9.      Zempléni, A. (2001). Decompositions and antiirreducibles in max-semigroups of bivariate random variables. Proceedings of the 20th Seminar on Stability Problems for Stochastic Models, Part II (Naleczow, 1999). J. Math. Sci., 106, no. 1, p. 2765--2768. (orig.: Theor. Probab. Appl. 45, p. 722-724.)

10.  Zempléni A., Patricia de Zea, B. és Csiszár V. (1999). Extrém-érték modellek alkalmazása a Palmer-féle aszályindex magyarországi adatsoraira. Időjárási és Éghajlati Szélsőségek. Proc. of 25th Meteorological Scientific Days, Budapest, 1999. OMSZ, Szerk.: Dr. Hunkel-Dr. Mika, p. 57-68.

11.  Zempléni, A., Dryden, I.L., Mika, J. and Sümeghy, Z., (2000). Modeling the monthly increments of the Palmer Drought Index (PDSI) for Southeast Hungary. Proc. of the 20th Conf. of the Danubian Countries, Pozsony, 2000.

12.  Makra, L., Horváth, Sz., Zempléni, A., Csiszár, V., Tar, K., Motika, G., Sümeghy, Z. and Károssy, Cs. (2000). Spatial and temporal characteristics of air quality status in Southern Hungary. ECAC 2000, 3rd European Conf. on Applied Climatology. Pisa.

13.  Diharce, E.V. and Zempléni, A. (2000). Dependence analysis of extreme values of ozone data from the environment monitoring network of Mexico City. 5th Statistics in the care of Public Resources and the Environment (SPRUCE) Sheffield, 2000.

14.  Véber, M. and Zempléni, A. (2001). Optimization of acceptance sampling methods, Proc. of the 1st Conf. ENBIS, Oslo.

15.  Makra, L.,  Horváth, Sz., Taylor, C.C., Zempléni, A., Motika, G. and Sümeghy, Z. (2001). Modelling air pollution data in countryside and urban environment, Hungary. The 2nd International Symposium on Air Quality Management at Urban, Regional and Global Scales. Istanbul Technical University, Istanbul, Turkey, 2001. Proceedings. p. 189-196. Eds: Topcu, S., Yardim, M.F. and Incecik, S.

16.  Horváth, Sz., Makra, L., Zempléni, A., Motika, G. és Sümeghy, Z. (2001). A közlekedés hatása a levegőminőség alakulására Szegeden. I. Magyar Földrajzi Konferencia, Földrajzi kutatások 2001 - A Magyar Földrajzi Konferencia Abstract kötete. A Szegedi Tudományegyetem TTK Természeti Földrajzi Tanszéke, szerk: Rakonczai, J., p. 67. A földrajz eredményei az új évezred küszöbén. CD-ROM, szerk: Dormány, G., Kovács, F., Péti, M. és Rakonczai, J.

17.  Makra L., Horváth Sz., Zempléni A., Csiszár V., Rózsa K. és Motika G. (2001). Levegőminőségi trendek a Dél-Alföldön. I. Magyar Földrajzi Konferencia, Földrajzi kutatások 2001 - A Magyar Földrajzi Konferencia Abstract kötete. A Szegedi Tudományegyetem TTK Természeti Földrajzi Tanszéke, szerk: Rakonczai J., p. 114., ISBN 963 482 543 5; A földrajz eredményei az új évezred küszöbén. CD-ROM, szerk: Dormány G., Kovács F., Péti M. és Rakonczai J.

18.  Horváth, Sz., Makra, L., Zempléni, A., Motika, G. and Sümeghy, Z. (2001).
The Role of Traffic in Modifying Air Quality in a Medium-Sized City, 3rd International Conference on Urban Air Quality and 5th Saturn Workshop, 2001, Measurement, Modelling and Management. Institute of Physics, Canopus Publishing Limited. Loutraki, Greece, p. 134-141.

19.  Makra, L., Horváth, Sz., Zempléni, A., Csiszár, V., Rózsa, K. and Motika, G. (2001). Air Quality Trends in Southern Hungary. 3rd International Conference on Urban Air Quality and 5th Saturn Workshop, 2001, Measurement, Modelling and Management. Institute of Physics, Canopus Publishing Limited. Loutraki, Greece, p. 142-149.

20.  Zempléni, A. (2002). Arithmetics of distributions on the hemisphere. Proceedings of the 21st Seminar on Stability Problems for Stochastic Models, Part II (Eger, 2001). J. Math. Sci. (New York), 111, no. 6, p. 3922-3926.

21.  Zempléni, A., Véber, M., Duarte, B. and Saraiva, P. (2002). Control charts: a cost-optimization approach via Bayesian statistics. (Proc. of 2nd Conf. ENBIS, Rimini, 2002).

22.  Zempléni, A., Hajas, Cs., Duarte, B. and Saraiva, P. (2003).  Cost-optimal control charts for detecting random shifts. (Proc. of 3nd Conf. ENBIS, Barcelona, 2003).

23.  Rakonczai, P. and Zempléni, A. (2007).  Copulas and goodness of fit tests. In: Recent advances in Stochastic Modelling and Data Analysis, 2007. Ed.: C.H.Skiadas, World Scientific, p. 198-205.

24.  Rakonczai, P., Márkus, L. and Zempléni, A. (2008). Goodness of Fit for Auto-Copulas: Testing the Adequacy of Time Series Models, Proceedings of the 4th International Workshop in Applied Probability, 2008, CD-ROM, paper No.73., 6 pages, Compiegne, France.

 

Talks, posters at major international conferences:

1.      Zempléni, A. (1995). Goodness-of-fit for bivariate extreme value distributions. Statistics in the care of Public Resources and the Environment (SPRUCE) III, Merida (Mexikó).

2.      Gáspár, S. and Zempléni, A. (2002). Randomization methods for extremal index estimation, 24th Meeting of European Statisticians, Prague.

3.      Villa-Diharce, E. and Zempléni, A. (2002). Modelling asymmetry for dependence functions of bivariate extreme-value distributions, 24th Meeting of European Statisticians, Prague.

4.      Zempléni, A., Duarte, B. Hajas, Cs. and Saraiva, P. (2003). Optimal Cost Control Charts for Shift Detection. Third ENBIS Conference, Barcelona..

5.      Zempléni, A., Duarte, B., Hajas, Cs. and Saraiva, P. (2004).  Probability Estimation for Mixture Distributions and their Application to Statistical Process Control. Fourth ENBIS Conference, Copenhagen.

6.      Bozsó, D., Rakonczai, P. and Zempléni, A. (2005).  Extreme value analysis: focusing on the fit and the conditions, with hydrological applications. Fourth Conference on Extreme Value Analysis, Gothenburg.

7.      Zempléni, A., Duarte, B., Hajas, Cs., Saraiva, P. and Szabó, K. (2005). Statistical Process Control: Economic and Multivariate. Fifth ENBIS Conference, Newcastle.

8.      Zempléni, A., Hajas, Cs. and Szabó. K. (2006).   Cost-effective control charts for heavy-tailed distributions. Sixth ENBIS Conference, Wroclaw.

9.      Zempléni, A. and Bozsó, D. (2006). High dimensional copulas for simulating and testing extreme-value models XXVI European Meeting of Statisticians, Torun.

10.  Bálint, G., Zempléni, A., Prokaj, V., Bozsó, D., Csík, A. and Gauzer, B. (2007). River flow simulations for the Tisza Basin in Hungary to estimate the uncertainty generated by superposition and coincidence of floods. Geophysical Research Abstracts,  9, 09418.

11.  Robotka, Zs., Zempléni, A., Hajas, Cs. and Seres, Cs. (2007). Genetic algorithms and grid technologies in clustering. Seventh ENBIS Conference, Dortmund.

12.  Rakonczai, P., Márkus, L. and Zempléni, A. (2008). Adequacy of Time Series Models, Tested by Goodness of Fit for Auto-Copulas, Proceedings of the COMPSTAT2008 conference, Porto, Portugal.

13.  Rakonczai, P., Hajas, Cs. and Zempléni, A. (2008). Cumulative copula charts for controlling the dependence among multivariate observations, Eighth ENBIS Conference, Athens.

14.  Varga L., Szabó B., Zsély I. Gy., Zempléni A. és Turányi T. (2009). Arrhenius-paraméterek bizonytalansága, MTA Reakciókinetikai és Fotokémiai Munkabizottság ülése. Balatonalmádi.

15.  Robotka, Zs. and Zempléni, A. (2009). Gaussian mixture models in processing video data. Ninth ENBIS Conference, Göteborg.

16.  Zsély, I.Gy. Szabó, B., Sedyó, I., Nagy, T., Zempléni, A., Curran, H.J. and Turányi, T. (2010).
Determination of Arrhenius parameters of elementary reactions based on both direct and bulk measurements.Poster, W2P014 Thirty-Third International Symposium on Combustion. Tsinghua University, 2010, Beijing, China.

17.  Turányi, T., Zsély, I.Gy., Cserháti, M., Szabó, B., Varga, T., Sedyó, I., Nagy, T.,  Kiss, P., Zempléni, A. and Curran, H.J. (2011). Determination of Arrhenius parameters based on both direct and indirect measurements. The 7th International Conference on Chemical Kinetics, Boston, MIT, USA.

18.  Zempléni, A. and Rakonczai, P. (2011). New bivariate threshold models with hydrological applications. Environmental Risk and Extreme Events, Ascona.

19.  Zempléni, A., Control of dependence for heavy tailed bivariate data. (2011). Eleventh ENBIS Conference, Coimbra.

20.  Bálint, G. and Zempléni, A. (2011). Bivariate flood estimation by different threshold models. Floods in 3D: processes, patterns, predictions. Bratislava, Slovakia.

21.  Bálint, G., Lipták, G., Szilágyi, J. and Zempléni, A. (2011). Design flood generation for lowland river sections, accounting the uncertainty generated by superposition and coincidence of floods. Floods in 3D: processes, patterns, predictions. Bratislava, Slovakia, November 23-25, 2011.

22.  Rakonczai, P., Varga, L. and Zempléni, A. (2011). Bivariate threshold models and the weighted bootstrap.

23.  Varga, L. and Zempléni, A. (2013). Weighted Bootstrap Methods in Modelling Multivariate Financial Data. XXIX. European Meeting of Statisticians, Budapest.

 

Others (dissertations, research reports, papers in popular press)

1.      Zempléni A. (1989). Többdimenziós eloszlások max-aritmetikája. Kandidátusi disszertáció, Budapest.

2.      Zempléni, A. (1991). A test for max-infinite divisibility. Research Report No. 380/91, Department of Probability and Statistics, University of Sheffield.

3.      Zempléni, A. (1991).  Goodness of fit for generalized extreme value distributions. Research Report No. 392/91, Department of Probability and Statistics, University of Sheffield.

4.      Zempléni A. (1993). Brit tétek,  Fortuna Magazin, Fortuna Press Kiadó.

5.      Zempléni A. (1993). Bukmékerek és az adó,  Fortuna Magazin, Fortuna Press Kiadó.

6.      Editor: Statistics at Universities: Its Impact for Society (Proceedings of the workshop). Budapest, ELTE Eötvös Univ. Press, 1997.

7.      Zempléni, A. (2004). Goodness-of-fit test in extreme value applications. Discussion paper No. 383, SFB. 386, Statistische Analyse Diskreter Strukturen, TU München, 2004

8.      Rakonczai, P., Butler, A. and Zempléni, A. (2010). Modeling temporal trend within bivariate generalized Pareto models of logistic type. University of Edinburgh.

9.      Varga, L., and Zempléni, A. (2014). Weighted bootstrap in GARCH models.  http://arxiv.org/pdf/1209.1302.pdf

10. Majoros, Sz. and Zempléni, A. (2018). Multivariate stable distributions and  their application for modelling cryptocurrency-returns. https://arxiv.org/pdf/1810.09521.pdf

11.  Hajas, Cs. and   Zempléni, A. (2018). Mathematical modelling European Temperature data: spatial differences in global warming. https://arxiv.org/pdf/1810.13014.pdf

12. Hübnerová, Z., Németh, L. and Zempléni, A. (2019). Trend detection in GEV models. https://arxiv.org/pdf/1907.09435.pdf

13.  Dobi, B and  Zempléni, A. (2020).  Markovchart: Markov Chain-Based Cost-Optimal Control Charts. R package 

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