Günter Schneckenreither
Publikationen
- | Validation and Quantification of Possible Model Extensions for a Railway Operations Model Using Delay Data Disaggregation at reposiTUm , opens an external URL in a new windowSchwab, N., Rößler, M., Kastinger, H., Schneckenreither, G., Wastian, M., & Popper, N. (2025). Validation and Quantification of Possible Model Extensions for a Railway Operations Model Using Delay Data Disaggregation. In 2024 Winter Simulation Conference (WSC) (pp. 1563–1574). IEEE. https://doi.org/10.1109/WSC63780.2024.10838982
- | Impact of COVID-19 measures on psychosocial outcomes in Austria – a qualitative vignette study at reposiTUm , opens an external URL in a new windowVorstandlechner, M., Harlfinger, J., Kien, C., Ritschl, V., Chapman, A., Schneckenreither, G., Zauner, G., Gartlehner, G., Popper, N., & Stamm, T. (2024). Impact of COVID-19 measures on psychosocial outcomes in Austria – a qualitative vignette study. European Journal of Public Health, 34(Supplement_3). https://doi.org/10.1093/eurpub/ckae144.2184
- | Assessing the heterogeneity in the transmission of infectious diseases from time series of epidemiological data at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Herrmann, L., Reisenhofer, R., Popper, N., & Grohs, P. (2023). Assessing the heterogeneity in the transmission of infectious diseases from time series of epidemiological data. PLoS ONE, 18(5), Article e0286012. https://doi.org/10.1371/journal.pone.0286012
- | Model based estimation of the SARS-CoV-2 immunization level in austria and consequences for herd immunity effects at reposiTUm , opens an external URL in a new windowBicher, M., Rippinger, C., Schneckenreither, G., Weibrecht, N., Urach, C., Zechmeister, M., Brunmeir, D., Huf, W., & Popper, N. (2022). Model based estimation of the SARS-CoV-2 immunization level in austria and consequences for herd immunity effects. Scientific Reports, 12(1), Article 2872. https://doi.org/10.1038/s41598-022-06771-x
- | Methods for Integrated Simulation - 10 Concepts to Integrate at reposiTUm , opens an external URL in a new windowPopper, N., Bicher, M., Breitenecker, F., Glock, B., Hafner, I., Mujica Mota, M., Mušic, G., Rippinger, C., Rössler, M., Schneckenreither, G., Urach, C., Wastian, M., Zauner, G., & Zechmeister, M. (2022). Methods for Integrated Simulation - 10 Concepts to Integrate. Simulation Notes Europe, 32(4), 225–236. https://doi.org/10.11128/sne.32.on.10627
- | Synthetic Reproduction and Augmentation of COVID-19 Case Reporting Data by Agent-Based Simulation at reposiTUm , opens an external URL in a new windowPopper, N., Zechmeister, M., Brunmeir, D., Rippinger, C., Weibrecht, N., Urach, C., Bicher, M., Schneckenreither, G., & Rauber, A. (2021). Synthetic Reproduction and Augmentation of COVID-19 Case Reporting Data by Agent-Based Simulation. Data Science Journal, 20. https://doi.org/10.5334/dsj-2021-016
- | Reproduction of patterns in melanocytic proliferations by agent-based simulation and geometric modeling at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Tschandl, P., Rippinger, C., Sinz, C., Brunmeir, D., Popper, N., & Kittler, H. (2021). Reproduction of patterns in melanocytic proliferations by agent-based simulation and geometric modeling. PLoS Computational Biology, 17(2), e1008660. https://doi.org/10.1371/journal.pcbi.1008660
- | Anomalous Transport of Infectious Diseases in Structured Populations at reposiTUm , opens an external URL in a new windowSchneckenreither, G. (2020). Anomalous Transport of Infectious Diseases in Structured Populations. In 2020 Winter Simulation Conference (WSC). Winter Simulation Conference 2020, Orlando, FL, United States of America (the). IEEE. https://doi.org/10.1109/wsc48552.2020.9383869
- | Comparison of a microscopic and a macroscopic age-dependent SIR model at reposiTUm , opens an external URL in a new windowBicher, M., Popper, N., & Schneckenreither, G. (2017). Comparison of a microscopic and a macroscopic age-dependent SIR model. Mathematical and Computer Modelling of Dynamical Systems, 23(2), 177–195. https://doi.org/10.1080/13873954.2016.1232279
- | A Norm-based Comparison of Approaches in ARGESIM Benchmark C17R 'Modelling and Simulation of a SIR-type Epidemic with Cellular Automata and Ordinary Differential Equations' using MATLAB at reposiTUm , opens an external URL in a new windowReichl, S., Miksch, F., & Schneckenreither, G. (2017). A Norm-based Comparison of Approaches in ARGESIM Benchmark C17R “Modelling and Simulation of a SIR-type Epidemic with Cellular Automata and Ordinary Differential Equations” using MATLAB. SNE Simulation Notes Europe, 27(1), 51–56. https://doi.org/10.11128/sne.27.bn17.10368
- | Dynamic Multiplex Social Network Models on Multiple Time Scales for Simulating Contact Formation and Patterns in Epidemic Spread at reposiTUm , opens an external URL in a new windowSchneckenreither, G., & Popper, N. (2017). Dynamic Multiplex Social Network Models on Multiple Time Scales for Simulating Contact Formation and Patterns in Epidemic Spread. In W. K. V. Chan, A. D´Ambrogio, G. Zacharewicz, N. Mustafee, G. Wainer, & S. E. Page (Eds.), Proceedings of the 2017 Winter Simulation Conference (p. 12).
- | Definition, Validation and Comparison of Two Population Models for Austria at reposiTUm , opens an external URL in a new windowBicher, M., Glock, B., Miksch, F., Popper, N., & Schneckenreither, G. (2015). Definition, Validation and Comparison of Two Population Models for Austria. In E. Hajrizi (Ed.), International Conference on Business, Technology and Innovation ICBTI 2015 (pp. 52–53). Proceedings of the IFAC 2011.
- | Mean-Field Based Comparison of Two Age Dependent SIR Models at reposiTUm , opens an external URL in a new windowBicher, M., Popper, N., & Schneckenreither, G. (2015). Mean-Field Based Comparison of Two Age Dependent SIR Models. In L. Yilmaz, W. K. V. Chan, I. C. Moon, T. Roeder, C. Macal, & M. Rosetti (Eds.), Proceedings of the 2015 Winter Simulation Conference (pp. 3200–3201). IEEE.
- | Modelling and Simulation of a SIR-type Epidemic with Cellular Automata and Ordinary Differential Equations - Definition ARGESIM Benchmark C17R at reposiTUm , opens an external URL in a new windowMiksch, F., Haim, C., Schneckenreither, G., & Popper, N. (2015). Modelling and Simulation of a SIR-type Epidemic with Cellular Automata and Ordinary Differential Equations - Definition ARGESIM Benchmark C17R. Simulation Notes Europe, 25(1), 49–54.
- | Methods for Cellular Automata and Evolution Systems in Modelling and Simulation at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Popper, N., & Breitenecker, F. (2015). Methods for Cellular Automata and Evolution Systems in Modelling and Simulation. IFAC-PapersOnLine, 48(1), 141–146. https://doi.org/10.1016/j.ifacol.2015.05.151
- | Methods for Cellular Automata and Evolution Systems in Modelling and Simulation at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Popper, N., & Breitenecker, F. (2015). Methods for Cellular Automata and Evolution Systems in Modelling and Simulation. In F. Breitenecker, A. Kugi, & I. Troch (Eds.), Mathmod 2015 Vienna (pp. 34–35). ARGESIM / ASIM, German Simulation Society, Division of German Society for Informatics and Life Sciences.
- | An Agent-based Approach to ARGESIM Benchmark C16 'Restaurant Business Dynamics' based on NetLogo at reposiTUm , opens an external URL in a new windowRuths, J., & Schneckenreither, G. (2014). An Agent-based Approach to ARGESIM Benchmark C16 “Restaurant Business Dynamics” based on NetLogo. Simulation Notes Europe, 24(3–4), 127–130.
- | Modellierung von Evolutions Systemen mit Stochastischen Zellulären Automaten at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Popper, N., & Breitenecker, F. (2014). Modellierung von Evolutions Systemen mit Stochastischen Zellulären Automaten. In C. Deatcu & J. Wittmann (Eds.), Tagunsgband ASIM 2014, 22.Symposium Simulationstechnik (p. 7). ARGESIM Verlag.
- | Comparison of Differential Equations and Cellular Automata for Epidemic Simulation at reposiTUm , opens an external URL in a new windowMiksch, F., Haim, C., Schneckenreither, G., & Breitenecker, F. (2013). Comparison of Differential Equations and Cellular Automata for Epidemic Simulation. In A. Zemva (Ed.), ERK - International Electrotechnical and Computer Science Conference (pp. 137–140). ERK - International Electrotechnical and Computer Science Conference.
- | Using Open Source Geo-Data in Agent-Based Models of Health Care Utilization at reposiTUm , opens an external URL in a new windowRomstorfer, G., & Schneckenreither, G. (2012). Using Open Source Geo-Data in Agent-Based Models of Health Care Utilization. In F. Breitenecker & I. Troch (Eds.), Preprints Mathmod 2012 Vienna - Full Paper Volume (pp. 421–422). Argesim / Asim.
- | Integration of GIS Data in Health Care Utilization at reposiTUm , opens an external URL in a new windowRomstorfer, G., Parragh, S., Schneckenreither, G., Landsiedl, M., Einzinger, P., & Scheuringer, M. (2011). Integration of GIS Data in Health Care Utilization. In Tagungsband Abstracts und Fullpapers. ASIM 2011, Winterthur, Schweiz, Non-EU. ZHAW School of Engineering.
- | Joint Utilization of GIS and Health Care Data in Dynamic Simulation models at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Einzinger, P., Landsiedl, M., Scheuringer, M., & Breitenecker, F. (2011). Joint Utilization of GIS and Health Care Data in Dynamic Simulation models. In Book of Abtracts ECCS´11 Vienna. European Conference on Complex Systems 2011, Vienna, Österreich, Austria. Löcker.
- | Radioactive Decay Models in A MatLab E-Learning Environment at reposiTUm , opens an external URL in a new windowBreitenecker, F., Breitenecker, K., Körner, A., Kristöfel, P., Popper, N., Schneckenreither, G., & Zauner, G. (2010). Radioactive Decay Models in A MatLab E-Learning Environment. In M. Snorek, Z. Buk, M. Cepek, & J. Drchal (Eds.), Proceedings of the 7th Congress on Modelling and Simulation (pp. 1222–1230).
- | Hybrid State Chart Modelling For Nonlinear Bouncing Ball Dynamics at reposiTUm , opens an external URL in a new windowKarim, R., Bauer, P., Heinzl, B., Rößler, M., Schneckenreither, G., Körner, A., Breitenecker, F., Zauner, G., & Popper, N. (2010). Hybrid State Chart Modelling For Nonlinear Bouncing Ball Dynamics. In M. Snorek, Z. Buk, J. Drchal, & M. Cepek (Eds.), Proceedings of the 7th Congress on Modelling and Simulation (pp. 893–898).
- | BCP - A Benchmark For Hybrid Modelling and State Event Modelling at reposiTUm , opens an external URL in a new windowKörner, A., Heinzl, B., Rößler, M., Winkler, S., Hafner, I., Schneckenreither, G., Zauner, G., & Popper, N. (2010). BCP - A Benchmark For Hybrid Modelling and State Event Modelling. In M. Snorek, Z. Buk, M. Cepek, & J. Drchal (Eds.), Proceedings of the 7th Congress on Modelling and Simulation (pp. 1032–1042).
- | A.RIES - A Web Lecture and Online Exercise Management System for Applied Mathematics and Mathematical Modelling at reposiTUm , opens an external URL in a new windowKörner, A., Nagele, N., Schneckenreither, G., Popper, N., & Landsiedl, M. (2010). A.RIES - A Web Lecture and Online Exercise Management System for Applied Mathematics and Mathematical Modelling. In M. Snorek, M. Cepek, Z. Buk, & J. Drchal (Eds.), Proceedings of the 7th Congress on Modelling and Simulation (pp. 1231–1236).
- | Implementing a Large-Scale Spatial Epidemic Model as Agent-Based System Using GPGPU and Databases at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Zauner, G., Popper, N., & Breitenecker, F. (2010). Implementing a Large-Scale Spatial Epidemic Model as Agent-Based System Using GPGPU and Databases. In M. Snorek, Z. Buk, M. Cepek, & J. Drchal (Eds.), Proceedings of the 7th Congress on Modelling and Simulation (pp. 868–874).
- | CAS - based E-learning for Improvement of Refresher Courses in Mathematics at reposiTUm , opens an external URL in a new windowJudex, F., Breitenecker, F., Schneckenreither, G., & Zauner, G. (2009). CAS - based E-learning for Improvement of Refresher Courses in Mathematics. In I. Troch & F. Breitenecker (Eds.), Proceedings MATHMOD 09 Vienna - Full Papers CD Volume (p. 6). ARGESIM / ASIM - Vienna.
- | Ein E-learning System für MMT - Mathematik, Modellbildung und Tools, Systemerweiterung und Einbindung von graphischer Modellbildung at reposiTUm , opens an external URL in a new windowKörner, A., Zauner, G., & Schneckenreither, G. (2009). Ein E-learning System für MMT - Mathematik, Modellbildung und Tools, Systemerweiterung und Einbindung von graphischer Modellbildung. In ASIM 2009 - 20. Symposium Simulationstechnik/20th Symposium Simulation Techniques (p. 8). ASIM / ARGESIM - TU Cottbus.
- | Teaching Physiological Engineering Using a MATLAB-based Web Environment at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Zauner, G., & Judex, F. (2009). Teaching Physiological Engineering Using a MATLAB-based Web Environment. In I. Troch & F. Breitenecker (Eds.), Proceedings MATHMOD 09 Vienna - Full Papers CD Volume (p. 6). ARGESIM / ASIM - Vienna.
- | A Web-based E-Learning System for Teaching Mathematics and Simulation with MATLAB at reposiTUm , opens an external URL in a new windowZauner, G., Schneckenreither, G., Judex, F., & Breitenecker, F. (2009). A Web-based E-Learning System for Teaching Mathematics and Simulation with MATLAB. In I. Troch & F. Breitenecker (Eds.), Proceedings MATHMOD 09 Vienna - Full Papers CD Volume (p. 6). ARGESIM / ASIM - Vienna.
- | Mathematische Modelle zur Unterstützung der Prostatakrebsdiagnostik für Mediziner at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Breitenecker, F., Zauner, G., & Ponholzer, A. (2008). Mathematische Modelle zur Unterstützung der Prostatakrebsdiagnostik für Mediziner. In C. Deatcu, P. Dünow, T. Pawletta, & S. Pawletta (Eds.), 4. ASIM-Workshop Wismar Modellierung, Regelung und Simulation in Automotive und Prozessautomation (pp. 173–180). ARGESIM Report / ARGESIM Vienna.
- | Modelling SIR-type epidemics by ODEs, PDEs, difference equations and cellular automata - A comparative study at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Popper, N., Zauner, G., & Breitenecker, F. (2008). Modelling SIR-type epidemics by ODEs, PDEs, difference equations and cellular automata - A comparative study. Simulation Modelling Practice and Theory, 16(8), 1014–1023. https://doi.org/10.1016/j.simpat.2008.05.015
- | Cellular Automata Models for SIR-type Epidemics at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Breitenecker, F., Popper, N., & Zauner, G. (2007). Cellular Automata Models for SIR-type Epidemics. Simulation News Europe SNE, 13(3), 27–36.
- | Modelling SIR-Type Epidemics by ODEs, PDEs, Difference Equations and Cellular Automata - a Comparative Study at reposiTUm , opens an external URL in a new windowSchneckenreither, G., Popper, N., & Zauner, G. (2007). Modelling SIR-Type Epidemics by ODEs, PDEs, Difference Equations and Cellular Automata - a Comparative Study. In B. Zupancic, R. Karba, & S. Blazic (Eds.), Proc. EUROSIM 2007 - 6th EUROSIM Congress on Modeling and Simulation (p. 13). ARGESIM / ASIM.