Department of Statistical Modelling
Brief characterization of its research field
Statistics in its various forms, such as e.g. mathematical statistics, biostatistics, applied statistics, econometrics, psychometrics, or even bioinformatics and ‘data science’, represents one of the branches of information sciences which use data to draw inference about the reality. This is specifically achieved using the concept of designed experiments which relates to different fields of research, such as agriculture (e.g. R. A. Fischer’s experiments), biomedical sciences (providing ’big data’ from genomic studies), medicine and pharmacology (e.g. involves statistical methodology for analysing data from clinical trials), engineering, economy (econometrics), social sciences (incl. psychology, pedagogy), and many other fields of scientific research. Observational studies, whether cross-sectional or longitudinal, offer another source of information, the latter rendering time series data. Observational studies may also involve ‘big data’ (e.g. data from satellite worldwide weather monitoring). Consequently, statistical science spans the realm of both basic and applied interdisciplinary research.
Key research trends in the field at hand
Various topics of statistical science are being researched by the members of our department. They include the following: linear and generalised linear models for independent data, mixed variants of the two classes of models for correlated data (e.g. cross-sectional and epidemiological studies), generalised additive models (GAM) allowing for flexible covariate modelling, methods for dimensionality reduction (big data), methods for analysing censored data (longitudinal, cohort studies), missing data imputation, hierarchical regression models, robust methods designed to obtain correct inference in the presence of outliers, change-point problems in time series, etc. In recent years the volume and complexity of data increased dramatically.
Department Vission
Mathematical statistics is one of the building blocks that is reflected in data management, processing and extraction of useful information from the data while controlling the level of confidence in our conclusions that are often based on large volumes of complex and noisy inputs. The ‘modelling emphasis’ indicates our interest in developing advanced methods and algorithms which take advantage from the design phase of an experiment and lead to optimised decision support in various scientific disciplines mentioned above. The department puts a key emphasis on promoting statistical approaches to solving various problems of basic and interdisciplinary research where the inspiration for developing advanced statistical methodology and algorithms comes primarily from related field of research. Propositions arising from related scientific disciplines are reformulated as statistical hypotheses and new testing procedures are developed to answer the scientific queries.
Substantiation of the vision
The department will contribute to a further development of statistical theory and methodology, primarily in relation to the above mentioned scientific disciplines and principal research topics. Interdisciplinary collaboration with colleagues from social sciences will result in developing new methods for validation of knowledge and psychologic tests, sensitivity analysis for items and tests in relation to different target groups, adaptive testing and mixed regression modelling. New approaches will be developed for testing structural changes in time series and panel data. Department members will continue in biomedical research collaboration, involving e.g. analysis of congenital defects, research of methods and algorithms for the analysis of categorical data (exact and interval estimation), development of advanced statistical methods for the analysis of trends in mortality and its short-term and long-term prediction. Methods will also be developed and refined to use large number of noisy data, often stemming from heterogeneous sources with various prior assumptions. Of special interest will be environmental data where statistical modelling can serve as a common framework for working with huge amounts of data from satellites, climate and meteorological models and various observational networks. Dynamic and/or spatial statistical modelling, of either non- or semi-parametric form, will also be at the centre of our interest. Frequentist as well as Bayesian inference from dynamic and spatial models will be drawn for such data, involving models’ identification and parameter estimation, with applications in e.g. ecology, meteorology and anthropology, medicine and technical disciplines. Dynamic and spatial inference will be applied to e.g. energy consumption modelling. Department’s activities will also include GAM and state-space modelling for vibrodiagnostics, as part of the Czech Academy of Sciences’ programme ‘Strategy 21’.
Selected publications
- Hrba, M., Maciak, M., Peštová, Barbora, Pešta, M.. Bootstrapping Not Independent and Not Identically Distributed Data.
In Mathematics,
volume 10,
issue č. 24
, 2022.
[FULLTEXT]
[SCOPUS]
[WOS]
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[ASEP]
- Maciak, M., Pešta, M., Peštová, Barbora. Changepoint in Dependent and Non-Stationary Panels.
In Statistical Papers,
volume 61,
issue č. 4,
pages 1385-1407
, 2020, ISSN 0932-5026.
[FULLTEXT]
[SCOPUS]
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[DOI]
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- Zámečník, S., Horová, I., Katina, Stanislav, Hasilová, K.. An adaptive method for bandwidth selection in circular kernel density estimation.
In Computational Statistics,
issue Online September 2023
, 2023, ISSN 0943-4062.
[DOI]
[ASEP]
- Fabián, Zdeněk. Score correlation.
In Research in Statisics,
volume 1,
issue č. 1
, 2023.
[FULLTEXT]
[DOI]
[ASEP]
- Klaschka, Jan, Reiczigel, J.. On Matching Confidence Intervals and Tests for Some Discrete Distributions: Methodological and Computational Aspects.
In Computational Statistics,
volume 36,
issue č. 3,
pages 1775-1790
, 2021, ISSN 0943-4062.
[FULLTEXT]
[SCOPUS]
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- Valenta, Zdeněk, Skrabaka, D., Owczarek, A. J., Kolonko, A., Król, R., Więcek, A., Ziaja, J.. Kidney Graft Failure and Patient Survival Modelling Based on Competing Risks Under Nonproportional Hazards.
In Transplantation Proceedings,
volume 54,
issue č. 4,
pages 940-947
, 2022, ISSN 0041-1345.
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- Šípek jr., A., Gregor, V., Šípek, A., Klaschka, Jan, Malý, Marek, Calda, P.. The reduced use of invasive procedures leads to a change of frequencies of prenatally detected chromosomal aberrations: population data from the years 2012–2016.
In Journal of Maternal-Fetal & Neonatal Medicine,
volume 35,
issue č. 22,
pages 4326-4331
, 2022, ISSN 1476-7058.
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- Řasová, K., Martinková, Patrícia, Vařejková, Michaela, Miznerová, B., Pavlíková, M., Hlinovská, J., Hlinovský, D., Philippová, Š., Novotný, M., Pospíšilová, K., Biedková, P., Vojíková, R., Havlík, J., Bríd O'Leary, V., Černá, M., Bartoš, A., Phillip, T.. COMIRESTROKE - A clinical study protocol for monitoring clinical effect and molecular biological readouts of COMprehensive Intensive REhabilitation program after STROKE: A four-arm parallel-group randomized double blinded controlled trial with a longitudinal design.
In Frontiers in Neurology,
volume 13,
issue 1 November 2022
, 2022, ISSN 1664-2295.
[FULLTEXT]
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- May, M., Sedlák, V., Pecen, Ladislav, Přibáň, V., Buchvald, P., Fiedler, J., Vaverka, M., Lipina, R., Reguli, S., Malík, J., Netuka, D., Beneš, V.. Role of risk factors, scoring systems, and prognostic models in predicting the functional outcome in meningioma surgery: multicentric study of 552 skull base meningiomas.
In Neurosurgical Review,
volume 46,
issue č. 1
, 2023, ISSN 0344-5607.
[FULLTEXT]
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- Hůnová, I., Brabec, Marek, Geletič, Jan, Malý, Marek, Dumitrescu, A.. Local fresh- and sea-water effects on fog occurrence.
In Science of the Total Environment,
volume 807,
issue č. 2
, 2022, ISSN 0048-9697.
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- Hůnová, I., Brabec, Marek, Malý, Marek, Škáchová, H.. Reconstruction of Daily Courses of SO42?, NO3?, NH4+ Concentrations in Precipitation from Cumulative Samples.
In Atmosphere,
volume 13,
issue č. 7
, 2022.
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- Hůnová, I., Brabec, Marek, Malý, Marek. Ambient ozone at a rural Central European site and its vertical concentration gradient close to the ground.
In Environmental Science and Pollution Research,
issue Č. 30,
pages 80014-80028
, 33, ISSN 0944-1344.
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- Drabinová, Adéla, Martinková, Patrícia. Detection of Differential Item Functioning with Nonlinear Regression: A Non-IRT Approach Accounting for Guessing.
In Journal of Educational Measurement,
volume 54,
issue č. 4,
pages 498-517
, 2017, ISSN 0022-0655.
[SCOPUS]
[WOS]
[DOI]
[ASEP]
- Goldhaber, D., Grout, C., Wolff, M., Martinková, Patrícia. Evidence on the Dimensionality and Reliability of Professional References’ Ratings of Teacher Applicants.
In Economics of Education Review,
volume 83,
issue August 2021
, 2021, ISSN 0272-7757.
[FULLTEXT]
[SCOPUS]
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[DOI]
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- Hladká, Adéla, Martinková, Patrícia. difNLR: Generalized Logistic Regression Models for DIF and DDF Detection.
In R Journal,
volume 12,
issue č. 1,
pages 300-323
, 2020, ISSN 2073-4859.
[FULLTEXT]
[SCOPUS]
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- Kolek, L., Šisler, V., Martinková, Patrícia, Brom, C.. Can video games change attitudes towards history? Results from a laboratory experiment measuring short- and long-term effects.
In Journal of Computer Assisted Learning,
volume 37,
issue č. 5,
pages 1348-1369
, 2021, ISSN 0266-4909.
[FULLTEXT]
[SCOPUS]
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- Martinková, Patrícia, Drabinová, Adéla. ShinyItemAnalysis for Teaching Psychometrics and to Enforce Routine Analysis of Educational Tests.
In R Journal,
volume 10,
issue č. 2,
pages 503-515
, 2018, ISSN 2073-4859.
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- Martinková, Patrícia, Drabinová, Adéla, Liaw, Y.L., Sanders, E.A., McFarland, J.L., Price, R.M.. Checking Equity: Why Differential Item Functioning Analysis Should Be a Routine Part of Developing Conceptual Assessments.
In CBE-Life Sciences Education,
volume 16,
issue č. 2
, 2017, ISSN 1931-7913.
[SCOPUS]
[WOS]
[DOI]
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- Martinková, Patrícia, Goldhaber, D., Erosheva, E.. Disparities in Ratings of Internal and External Applicants: A Case for Model-based Inter-rater Reliability.
In PLoS ONE,
volume 13,
issue č. 10
, 2018, ISSN 1932-6203.
[SCOPUS]
[WOS]
[DOI]
[ASEP]
- Martinková, Patrícia, Hladká, Adéla. Computational Aspects of Psychometric Methods With R.
CRC Press (Taylor & Francis Group, LLC), 2023[FULLTEXT]
[DOI]
[ASEP]
- Martinková, P., Hladká, Adéla, Potužníková, E.. Is academic tracking related to gains in learning competence? Using propensity score matching and differential item change functioning analysis for better understanding of tracking implications.
In Learning and Instruction,
volume 66,
issue April 2020
, 2020, ISSN 0959-4752.
[FULLTEXT]
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- Martinková, Patrícia, Bartoš, František, Brabec, Marek. Assessing Inter-rater Reliability With Heterogeneous Variance Components Models: Flexible Approach Accounting for Contextual Variables.
In Journal of Educational and Behavioral Statistics,
volume 48,
issue 3,
pages 349-383
, 2023, ISSN 1076-9986.
[FULLTEXT]
[SCOPUS]
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[DOI]
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- McFarland, J.L., Price, R.M., Wenderoth, M.P., Martinková, Patrícia, Cliff, W., Michael, J., Modell, H., Wright, A.. Development and Validation of the Homeostasis Concept Inventory.
In CBE-Life Sciences Education,
volume 16,
issue č. 2
, 2017, ISSN 1931-7913.
[SCOPUS]
[WOS]
[DOI]
[ASEP]
Applications
The results of the research may be find applications in the analysis of complex data in a variety of fields:
- clinical medicine
- biomedical research
- molecular genetics
- epidemiology
- image analysis
- psychometrics
- environmental research
