Wydział Matematyki, Informatyki i Mechaniki Uniwersytetu Warszawskiego
Publications
Urszula Foryś
2019
- Mariusz Bodzioch, Marcin Choiński and Urszula Foryś, SIS criss-cross model of tuberculosis in heterogeneous population, Discrete And Continuous Dynamical Systems-series B 24 (5) 2019, p. 2169–2188.see in PBN
- Piotr Bajger, Mariusz Bodzioch and Urszula Foryś, Singularity of controls in a simple model of acquired chemotherapy resistance, Discrete And Continuous Dynamical Systems-series B 24 (5) 2019, p. 2039–2052.see in PBN
- Natalia Bielczyk, Katarzyna Piskała, Martyna Płomecka, Piotr Radziński, Lara Todorova and Urszula Foryś, Time-delay model of perceptual decision making in cortical networks, Plos One 14 (2) 2019, p. e0211885.see in PBN
2018
- Monika Joanna Piotrowska, Joanna Górecka and Urszula Foryś, The role of optimism and pessimism in the dynamics of emotional states, Discrete And Continuous Dynamical Systems-series B 23 (1) 2018, p. 401–423.see in PBN
- Urszula Foryś, SOME REMARKS ON THE GOTTMAN-MURRAY MODEL OF MARITAL DISSOLUTION AND TIME DELAYS, Discrete And Continuous Dynamical Systems-series B 23 (1) 2018, p. 181–191.see in PBN
- Urszula Foryś, Interdisciplinary character of mathematics: biomathematical perspective, in: Mathematical Transgressions 2015, Towarystwo Autorów i Wydawców Prac Naukowych Universitas, Kraków 2018, p. 341–348.see in PBN
- Mariusz Bodzioch, Marcin Choiński and Urszula Foryś, Analysis of global dynamics for HIV-infection of CD4+T cells and its treatment, Mathematica Applicanda (matematyka Stosowana). Annales Societatis Mathematicae Polonae Series Iii 46 (1) 2018, p. 35–48.see in PBN
- Piotr Radziński and Urszula Foryś, Analysis of a predator-prey model with disease in the predator species, Mathematica Applicanda (matematyka Stosowana). Annales Societatis Mathematicae Polonae Series Iii 46 (1) 2018, p. 137–147.see in PBN
- Beata Jackowska-Zduniak and Urszula Foryś, Mathematical Model of Two Types of Atrioventricular Nodal Reentrant Tachycardia: Slow/Fast and Slow/Slow, in: Dynamical Systems in Theoretical Perspective, Springer, 2018, p. 169–182.see in PBN
- Jan Poleszczuk and Urszula Foryś, Modelowanie odpowiedzi odpornościowej na rozwój nowtworu, in: Inzynierai biomedyczna. Podstawy i Zastosowania. Tom 1 Modelowanie procesów fizjologicznych i patofizjologicznych, 2018, r. 21, p. 531–548.see in PBN
2017
- Emad Attia, Marek Bodnar and Urszula Foryś, Angiogenesis model with Erlang distributed delays, Mathematical Biosciences And Engineering 14 (1) 2017, p. 1–15.see in PBN
- Urszula Foryś, Natalia Bielczyk, Katarzyna Piskała, Natalia Płomecka and Jan Poleszczuk, Impact of Time Delay in Perceptual Decision-Making: Neuronal Population Modeling Approach, Complexity 2017 (Article ID 4391587) 2017.see in PBN
- Urszula Foryś and Jarosław Śmieja (eds.), Proceedings of the XXIII National Conference Applications of Mathematics in Biology and Medicine, Politechnika Śląska, Uniwersytet Warszawski, Gliwice 2017.see in PBN
- Marek Bodnar and Urszula Foryś, Two models of drug resistance for low grade gliomas: comparison of the models dynamics, in: Proceedings of the XXIII National Conference Applications of Mathematics in Biology and Medicine, Politechnika Śląska, Uniwersytet Warszawski, Gliwice 2017, p. 37–42.see in PBN
2016
- Piotr Bajger, Mariusz Bodzioch and Urszula Foryś, Role of Cell Competition in Acquired Chemotherapy Resistance, in: Proceedings of the 16th International Conference on Computational and Mathematical Methods in Science and Engineering, Costa Ballena (Rota), Cadiz, Spain 2016, p. 132–141.see in PBN
- Beata Jackowska-Zduniak and Urszula Foryś, Mathematical model of the atrioventricular nodal double response tachycardia and double-fire pathology, Mathematical Biosciences And Engineering 13 (6) 2016, p. 1143–1158.see in PBN
- Urszula Foryś, Time delays and the Gottman, Murray et al. model of marital interactions, in: Proceedings of the Twenty Second National Conference Applications of Mathematics in Biology and Medicine, Wydawnictwo Uniwersytetu Jana Kochanowskiego w Kielcach, Kielce 2016.see in PBN
- Gang Huang, Anping Liu and Urszula Foryś, Global Stability Analysis of Some Nonlinear Delay Differential Equations in Population Dynamics, Journal Of Nonlinear Science 26 (1) 2016, p. 27–41.see in PBN
- Urszula Foryś, Marek Bodnar and Yuri Kogan, Asymptotic dynamics of some t-periodic one-dimensional model with application to prostate cancer immunotherapy, Journal Of Mathematical Biology 73 (4) 2016, p. 867–883.see in PBN
- Marek Bodnar and Urszula Foryś, Delays do not cause oscillations in a corrected model of humoral mediated immune response, Applied Mathematics And Computation 289 2016, p. 7–21.see in PBN
2015
- Urszula Foryś, Delayed equations in applications, Centrum Zastosowań Matematyki, 2015.see in PBN
- Mariusz Ziółko, Urszula Foryś and Joanna Grzybowska (eds.), Proceedings of the Twenty-First National Conference on Applications of Mathematics in Biology and Medicine, Regietów 22-26 September 2015, Institute of Applied Mathematics and Mechanics, University of Warsaw, Warszawa 2015.see in PBN
- Emad Attia, Marek Bodnar and Urszula Foryś, Angiogenesis model with Erlang distributed delay in vessels formation, in: Proceedings of the Twenty-First National Conference on Applications of Mathematics in Biology and Medicine, Regietów 22-26 September 2015, Institute of Applied Mathematics and Mechanics, University of Warsaw, Warszawa 2015, p. 9–14.see in PBN
- Urszula Foryś, Równanie Gompertza w modelowaniu prcesów nowotworowych, in: Metody matematyczne w zastosowaniach tom 3, Centrum Zastosowań Matematyki, Gdańsk 2015, r. 5, p. 85–102.see in PBN
- Jan Poleszczuk, Aleksandra Krzywoń, Urszula Foryś and Maria Wideł, Connecting Radiation-Induced Bystander Effects and Senescence to Improve Radiation Response Prediction, Radiation Research 183 2015, p. 571–577.see in PBN
- Meihong Qiao, Anping Liu and Urszula Foryś, The dynamics of a time delayed epidemic model on a population with birth pulse, Applied Mathematics And Computation 252 2015, p. 166–174.see in PBN
2014
- Paweł Matejek and Urszula Foryś, O pewnym ciekawym zastosowaniu modelu Lotki-Volterry, Matematyka Poglądowa 1 2014, p. 8–27.see in PBN
- Monika Joanna Piotrowska, Marek Bodnar and Urszula Foryś, Tractable Model of Malignant Gliomas Immunotherapy with Discrete Time Delays, Mathematical Population Studies 21 (3) 2014, p. 127–145.see in PBN
- Marek Bodnar, Urszula Foryś and Monika Joanna Piotrowska (eds.), Proceedings of the Twentieth National Conference on Applications of Mathematics in Biology and Medicine - Łochów 23-27 September 2014, Institute of Applied Mathematics and Mechanics, University of Warsaw, Warszawa 2014.see in PBN
- Monika Joanna Piotrowska and Urszula Foryś, DELAY DIFFERENTIAL EQUATIONS IN BIO-POPULATIONS, Mathematical Population Studies 21 2014, p. 125–126.see in PBN
- Jan Poleszczuk, Monika Joanna Piotrowska and Urszula Foryś, Optimal Protocols for the Anti-VEGF Tumor Treatment, Mathematical Modelling Of Natural Phenomena 9 (4) 2014, p. 204–215.see in PBN
- Urszula Foryś, Co możemy opisać układem dynamicznym?, Annales Universitatis Paedagogicae Cracoviensis. Studia Ad Didacticam Mathematicae Pertinentia VI 2014, p. 73–86.see in PBN
- Urszula Foryś, Meihong Qiao and Anping Liu, Asymptotic dynamics of a deterministic and stochastic predator--prey model with disease in the prey species, Mathematical Methods In The Applied Sciences 37 (3) 2014, p. 306––320.see in PBN
- Meihong Qiao, Anping Liu and Urszula Foryś, Qualitative Analysis for a Reaction-Diffusion Predator-Prey Model with Disease in the Prey Species, Journal Of Applied Mathematics 2014.see in PBN
- Beata Jackowska-Zduniak, Marek Bodnar and Urszula Foryś, Modified van der Pol equation with delay in a description of the heart action, International Journal Of Applied Mathematics And Computer Science 24 (4) 2014, p. 853–863.see in PBN
- Urszula Foryś and Beata Jackowska-Zduniak, Two-stage model of carcinogenic mutations with the influence of delays, Discrete And Continuous Dynamical Systems-series B 19 (8) 2014, p. 2501–2519.see in PBN
- Urszula Foryś, Jan Poleszczuk and Ting Liu, Logistic tumor growth with delay and impulsive treatment, Mathematical Population Studies 21 2014, p. 146–158.see in PBN
- Małgorzata Półtorak and Urszula Foryś, Functioning in close relationships: Mathematical model, in: Proceedings of the Twentieth National Conference on Applications of Mathematics in Biology and Medicine - Łochów 23-27 September 2014, Institute of Applied Mathematics and Mechanics, University of Warsaw, Warszawa 2014, p. 88–94.see in PBN
- Urszula Foryś, Nie tylko złoty podział: czy Fibonacci to przewidział?, in: Metody matematyczne w zastosowaniach, Centrum Zastosowań Matematyki, Politechnika Gdańska, Gdańsk 2014, p. 75–102.see in PBN
- Urszula Foryś and Paweł Matejek, O pewnym ciekawym zastosowaniu modelu drapieżnik-ofiara, Delta 8 (483) 2014, p. 12–15.see in PBN
2013
- Urszula Foryś and Monika Joanna Piotrowska, Analysis of the Hopf bifurcation for the family of angiogenesis models II: The case of two nonzero unequal delays, Applied Mathematics And Computation 220 (Complete) 2013, p. 277–295.see in PBN
- Mao Mingzhi, Liu Ting and Urszula Foryś, The quenched law of the iterated logarithm for one-dimensional random walks in a random environment, Statistics & Probability Letters 83 2013, p. 52–60.see in PBN
- Marek Bodnar, Monika Joanna Piotrowska, Urszula Foryś and Ewa Nizińska, Model of tumour angiogenesis - analysis of stability with respect to delays, Mathematical Biosciences And Engineering 10 (1) 2013, p. 19–35.see in PBN
- Monika Joanna Piotrowska, Marek Bodnar, Jan Poleszczuk and Urszula Foryś, Mathematical modelling of immune reaction against gliomas: Sensitivity analysis and influence of delays, Nonlinear Analysis-real World Applications 14 (3) 2013, p. 1601–1620.see in PBN
- Marek Bodnar, Monika Joanna Piotrowska and Urszula Foryś, Existence and stability of oscillating solutions for a class of delay differential equations, Nonlinear Analysis-real World Applications 14 (3) 2013, p. 1780–1794.see in PBN
- Marek Bodnar, Urszula Foryś and Monika Joanna Piotrowska, Logistic type equations with discrete delay and quasi-periodic suppression rate, Applied Mathematics Letters 26 (6) 2013, p. 607–611.see in PBN
- Urszula Foryś, Influence of time delays on a two-stage mutations model, in: Proceedings of the XIX National Conference Applications of Mathematics in Biology and Medicine, Gdańsk University of Technology, Gdańsk 2013.see in PBN
- Meihong Qiao, Anping Liu and Urszula Foryś, Qualitative analysis of the SICR epidemic model with impulsive vaccinations, Mathematical Methods In The Applied Sciences 36 2013, p. 695–706.see in PBN
- Monika Joanna Piotrowska, Urszula Foryś, Marek Bodnar and Jan Poleszczuk, A simple model of carcinogenic mutations with time delay and diffusion, Mathematical Biosciences And Engineering 10 (3) 2013, p. 861––872.see in PBN
- Marek Bodnar, Monika Joanna Piotrowska and Urszula Foryś, Gompertz model with delays and treatment: mathematical analysis, Mathematical Biosciences And Engineering 10 (3) 2013, p. 551––563.see in PBN
- Natalia Bielczyk, Urszula Foryś and Tadeusz Płatkowski, Dynamical models of dyadic interactions with delay, Journal Of Mathematical Sociology 37 (4) 2013, p. 223–249.see in PBN
2012
- Natalia Bielczyk, Marek Bodnar and Urszula Foryś, Delay can stabilize: Love affairs dynamics, Applied Mathematics And Computation 219 2012, p. 3923–3937.see in PBN
- Monika Joanna Piotrowska, Urszula Foryś, Marek Bodnar and Jan Poleszczuk, Carcinogenesis, mutations, delay and diffusion, in: Proceedings of the XVIII National Conference Applications of Mathematics in Biology and Medicine, Gdańsk University of Technology, Gdańsk 2012, p. 106–111.see in PBN
- Urszula Foryś, Problems with modelling using delay differential equations, Науковий вісник Чернівецького Yніверситету 2 (2-3) 2012, p. 164–169.see in PBN
2011
- Marek Bodnar, Urszula Foryś and Jan Poleszczuk, Negativity of delayed induced oscillations in a simple linear DDE, Applied Mathematics Letters 24 (6) 2011, p. 982–986.see in PBN
- Urszula Foryś and Joanna Skonieczna, Stability switches for some class of delayed population models, Applicationes Mathematicae 38 2011, p. 51–66.see in PBN
- Urszula Foryś and Jan Poleszczuk, A delay-differential equation model of HIV related cancer-immune system dynamics, Mathematical Biosciences And Engineering 8 (2) 2011, p. 627–641.see in PBN
- Jan Poleszczuk, Marek Bodnar and Urszula Foryś, New approach to modeling of antiangiogenic treatment on the basis of Hahnfeldt et al. model, Mathematical Biosciences And Engineering 8 (2) 2011, p. 591–603.see in PBN
- Monika Joanna Piotrowska and Urszula Foryś, Analysis of the Hopf bifurcation for the family of angiogenesis models, Journal Of Mathematical Analysis And Applications 382 (1) 2011, p. 180–203.see in PBN
- Urszula Foryś, Marek Bodnar, Jan Poleszczuk and Monika Joanna Piotrowska (eds.), Proceedings of the XVII National Conference on Application of Mathematics in Biology and Medicine, Uniwersytet Warszawski, Warszawa 2011.see in PBN
- Monika Joanna Piotrowska, Urszula Foryś and Marek Bodnar, Delayed logistic equation with treatment function, in: Proceedings of the XVII National Conference on Application of Mathematics in Biology and Medicine, Uniwersytet Warszawski, Warszawa 2011, p. 66–72.see in PBN
- Jan Poleszczuk, Urszula Foryś and Monika Joanna Piotrowska, New approach to anti-angiogenic treatment modelling and control, in: Proceedings of the XVII National Conference on Application of Mathematics in Biology and Medicine, Uniwersytet Warszawski, Warszawa 2011.see in PBN
- Monika Joanna Piotrowska and Urszula Foryś, The nature of Hopf bifurcation for the Gompertz model with delays, Mathematical And Computer Modelling 54 (9-10) 2011, p. 2183–2198.see in PBN
- Jacek Miękisz, Jan Poleszczuk, Marek Bodnar and Urszula Foryś, Stochastic Models of Gene Expression with Delayed Degradation, Bulletin Of Mathematical Biology 73 2011, p. 2231–2247.see in PBN
- Urszula Foryś (ed.), Proceedings of the Seventeenth National Conference on applications of mathematics in biology and medicine, Zakopane-Kościelisko, 1-6 September 2011, Institute of Applied Mathematics and Mechanics, University of Warsaw, 2011.see in PBN
- Marek Bodnar, Urszula Foryś and Jan Poleszczuk, Analysis of biochemical reactions models with delays, Journal Of Mathematical Analysis And Applications 376 (1) 2011, p. 74–83.see in PBN
2010
- Urszula Foryś, Influence of diffusion on interactions between malignant gliomas and immune system, Applicationes Mathematicae 37 (1) 2010, p. 53–67.see in PBN
- Urszula Foryś and Monika Joanna Piotrowska, MGS Immunotherapy: Simplified Model with delays, in: Proceedings of the XVI National Conference on Application of Mathematics in Biology and Medicine, AGH, Kraków 2010.see in PBN
- Yuri Kogan, Urszula Foryś, Ofir Shukron, Natalie Kronik and Zvia Agur, Cellular immunotherapy for high grade gliomas: mathematical analysis deriving efficacious infusion rates based on patient requireanalysis, Siam Journal On Applied Mathematics 70 (6) 2010, p. 1953–1976.see in PBN
- Natalia Bielczyk, Marek Bodnar, Urszula Foryś and Jan Poleszczuk, Delay can stabilise: love affairs dynamics, in: Proceedings of the XVI National Conference on Application of Mathematics in Biology and Medicine, AGH, Kraków 2010, p. 12–17.see in PBN
- Urszula Foryś and Jan Poleszczuk, Derivation of the Hahnfeldt et al. model (1999) revisited, in: Proceedings of the XVI National Conference on Application of Mathematics in Biology and Medicine, AGH, Kraków 2010.see in PBN
2009
- Urszula Foryś and Zuzanna Szymańska, Models of interactions between heterophic and autotrophic organisms, Applicationes Mathematicae 36 2009, p. 279–294.see in PBN
- Marek Bodnar and Urszula Foryś, Angiogenesis model with carrying capacity depending on vessel density, Journal Of Biological Systems 17 (1) 2009, p. 1–25.see in PBN
- Urszula Foryś, Multi-dimensional Lotka-Volterra systems for carcinogenesis mutations, Mathematical Models & Methods In Applied Sciences 32 2009, p. 2287–2308.see in PBN
- Urszula Foryś, Stability and bifurcations for the chronic state in Marchuk's model of an immune system, Journal Of Mathematical Analysis And Applications 352 2009, p. 922–942.see in PBN
- Marek Bodnar and Urszula Foryś, A model of immune system with time-dependent immune reactivity, Nonlinear Analysis-theory Methods & Applications 70 (2) 2009, p. 1049–1058.see in PBN
- Marek Bodnar and Urszula Foryś, Influence of time delays on the hahnfeldt et al. angiogenesis model dynamics, Applicationes Mathematicae 36 (3) 2009, p. 251–262.see in PBN
- Urszula Foryś and Jan Poleszczuk, Angiogenesis process with vessel impairment for gompertzian and logistic type of tumour growth, Applicationes Mathematicae 36 (3) 2009, p. 313–331.see in PBN
- Marek Bodnar and Urszula Foryś, Modelling of an immune reaction under the influence of interleukin, in: Proceedings of the XV National Conference Application of Mathematics in Biology and Medicine, Instytut Automatyki Politechnika Śląska, Gliwice 2009, p. 13–19.see in PBN
- J. Skonieczna and Urszula Foryś, Stability switches for some class of delayed population models, in: Proceedings of the XV National Conference Application of Mathematics in Biology and Medicine, Instytut Automatyki Politechnika Śląska, Gliwice 2009.see in PBN
- Marek Bodnar, Urszula Foryś and Zuzanna Szymańska, Model of AIDS-related tumour with time delay, Applicationes Mathematicae 36 (3) 2009, p. 263–278.see in PBN
2008
- Urszula Foryś, Spatial effect on interactions between brain tumour and immune system - influence of diffusion, in: Proceedings of the XIV National Conference on Application of Mathematics in Biology and Medicine, Wydział Matematyki Informatyki i Mechaniki, Uniwersytet Warszawski, Warszawa 2008.see in PBN
- Tomasz Trabszys, Jarosław Badowski and Urszula Foryś, Matematyczny model odpowiedzi odpornościowej (I), Matematyka, SpoŁeczeŃstwo, Nauczanie 41 2008, p. 48–56.see in PBN
- Marek Bodnar and Urszula Foryś, Global stability and Hopf bifurcation for a general class of delay differential equations, Mathematical Methods In The Applied Sciences 31 (10) 2008, p. 1197–1207.see in PBN
- Marek Bodnar and Urszula Foryś (eds.), Proceedings of the XIV National Conference on Application of Mathematics in Biology and Medicine, Wydział Matematyki Informatyki i Mechaniki, Uniwersytet Warszawski, Warszawa 2008.see in PBN
- Marek Bodnar, Urszula Foryś and Zuzanna Szymańska, Model of AIDS-related tumour with time delay, in: Proceedings of the XIV National Conference on Application of Mathematics in Biology and Medicine, Wydział Matematyki Informatyki i Mechaniki, Uniwersytet Warszawski, Warszawa 2008, p. 12–17.see in PBN
2007
- Urszula Foryś, Modele dyskretne a modele ciągłe w biomatematyce, Delta 10 2007, p. 6–8.see in PBN
- Marek Bodnar and Urszula Foryś, Three types of simple DDE's describing tumor growth, Journal Of Biological Systems 15 (4) 2007, p. 1–19.see in PBN
- Marek Bodnar and Urszula Foryś, Hahnfeldt angiogenesis model with time delays, in: Proceedings of the XIII National Conference on Application of Mathematics in Biology and Medicine, Serpelice 2007, p. 19–24.see in PBN
- Urszula Foryś and Zuzanna Szymańska, Analisis of the heterotrophic - autorophic organisms model, in: Krajowa Konferencja Zastosowan Matematyki w Biologii i Medycynie, Serpelice nad Bugiem, 18 - 22 wrzesnia 2007, Serplice 2007.see in PBN
2006
- Urszula Foryś, Jacek Waniewski and Petar Zhikov, Anti-tumour immunity and tumour anti-immunity in a mathematical model of tumour immunotherapy., Journal Of Biological Systems 14 2006, p. 13–30..see in PBN
- Petar Zhivkov, Urszula Foryś and Jacek Waniewski, Anti-tumor immunity and tumor anti-immunuty in a mathematical model of tumor immunotherapy, Journal Of Biological Systems 14 (1) 2006, p. 13–30.see in PBN
- Marek Bodnar and Urszula Foryś, A model of immune system with time-depended immune reactivity, in: Proceedings XII Krajowej Konferencji Zastosowań Matematyki w Biologii i Medycynie, University of Computer Engineering and Telecomunications in Kielce, Kielce 2006.see in PBN
- Urszula Foryś, Two dimensional cancer angiogenesis model, in: Proceedings of the Twelfth National Conference on Application of Mathematics in Biology and Medicine, University of Computer Engineering and Telecomunications in Kielce, Kielce 2006.see in PBN
2005
- Urszula Foryś and A. Mokwa-Borkowska, Solid tumour growth analysis of necrotic core formation, Mathematical And Computer Modelling 42 (5-6) 2005, p. 593–600.see in PBN
- Urszula Foryś, Matematyka w biologii, Wydawnictwa Naukowo-Techniczne, Warszawa 2005.see in PBN
- Urszula Foryś, Stability analysis and comparison of the models for carcinogenesis mutations in the case of two stages of mutations, Journal Of Applied Analysis 11 (2) 2005, p. 281–300.see in PBN
- Urszula Foryś, Time delays in one-stage models for carcinogenesis mutations, in: Proceedings of the Eleventh National Conference on Aplication of Mathematics in biology and medicine, University of Computer Engineering and Telecommunications, Kielce 2005.see in PBN
- Marek Bodnar and Urszula Foryś, Time delay in necrotic core formation, Mathematical Biosciences And Engineering 2 (3) 2005, p. 461–472.see in PBN
- Urszula Foryś, Yuri Kheifetz and Yuri Kogan, Critical-point analysis for three-variable cancer angiogenesis models, Mathematical Biosciences And Engineering 2 (3) 2005, p. 511–525.see in PBN
2004
- Urszula Foryś and Mikhail Kolev, Time delays in proliferation and apoptosis for solid avascular tumour, in: Mathematical Modelling of Population Dynamics, Banach Center Publications, Institute of Mathematics,Polish Academy of Sciences, Warszawa 2004.see in PBN
- Urszula Foryś, Comparison of the models for carcinogenesis mutations - one-stage case, in: Proceedings of the X National Conference on Application of Mathematics in Biology and Medicine, University of Computer Engineering and Telecomunications, Kielce 2004.see in PBN
- Urszula Foryś and Monika Joanna Piotrowska, Time delays in solid avascular tumour growth, in: Proceedings of the X national Conference on Application of Mathematics in Biology and Medicine, University of Computer Engineering and Telecomunications, Kielce 2004, p. 43–48.see in PBN
- Marek Bodnar and Urszula Foryś, Time delay in a model of necrotic core formation, in: Proceedings of the X National Conference on Application of Mathematics in Biology and Medicine, University of Computer Engineering and Telecomunications, Kielce 2004, p. 13–18.see in PBN
- Urszula Foryś, Global stability for a class of delay differential equations, Applied Mathematics Letters 17 2004, p. 581–584.see in PBN
- Urszula Foryś, Biological delay systems and the Mikhailov criterion of stability, Journal Of Biological Systems 12 (1) 2004, p. 45–60.see in PBN
2003
- Urszula Foryś and Marek Bodnar, Time delays in proliferation process for solid avascular tumour, Mathematical And Computer Modelling 37 2003, p. 1201–1209.see in PBN
- Urszula Foryś and Marek Bodnar, Time delays in regulatory apoptosis for solid avascular tumour, Mathematical And Computer Modelling 37 (11) 2003, p. 1211–1220.see in PBN
- Urszula Foryś and Anna Marciniak-Czochra, Logistic equations in tumour growth modelling, International Journal Of Applied Mathematics And Computer Science 13 (3) 2003, p. 317–326.see in PBN
- Urszula Foryś, Analysis of the model of coral reefs colony, in: Proceedings of the Nine National Conference on Mathematics Applied to Biology and Medicine, M.Markun, J. Stefaniak, Institute of Mathematics Jagiellonian University, Kraków 2003.see in PBN
2002
- Remigiusz Kowalczyk and Urszula Foryś, Qualitative analysis on the initial value problem to the logistic equation with delay., Mathematical And Computer Modelling 35 (1-2) 2002, p. 1–13.see in PBN
- Urszula Foryś and Anna Marciniak-Chochra, Delay logistic equation with diffusion., in: Proceedings of the Eight National Conference on Mathematics Applied to Biology and Medicine, Warszawa 2002.see in PBN
- Urszula Foryś, Jakub Nowak and Anna Mokwa-Borkowska, Some remarks on coral reefs, mathematical modelling and organic architecture of the future., in: Proceedings of the Eight National Conference on Mathematics Applied to Biology and Medicine, Warszawa 2002.see in PBN
2000
- Marek Bodnar and Urszula Foryś, Periodic dynamics in a model of immune system., Applicationes Mathematicae 27 (1) 2000, p. 113–126.see in PBN
- Marek Bodnar and Urszula Foryś, Behaviour of solutions to Marchuks model depending on a time delay., Applied Mathematics And Computer Science 10 (1) 2000, p. 97–1122.see in PBN
- M. Bodnar and U. Foryś, Behaviour of Solutions to Marchuk's Model Depending on a Time Delay, International Journal Of Applied Mathematics And Computer Science Vol. 10, no 1 2000, p. 97–112.see in PBN
- Urszula Foryś, Global analysis of Marczuks model in case of strong immune system., Journal Of Biological Systems 8 (4) 2000, p. 331–346.see in PBN
- Urszula Foryś, Modele matematyczne w epidemiologii i immunologii., Mathematica Applicanda (matematyka Stosowana). Annales Societatis Mathematicae Polonae Series Iii Nr 1 (1) 2000, p. 35–67.see in PBN
- Urszula Foryś, Some remarks on the stability of chronic state in Marchuks model depending on time delay, in: Proceedings of the Sixth National Conference on Application of Mathematics in Biology and Medicine., Zawoja 2000.see in PBN
- Urszula Foryś, Professor Wiesław Szlenk (1935-1995), Applicationes Mathematicae 27 2000, p. 1–20.see in PBN
- Urszula Foryś and Norbert Żołek, Complementary analysis of the initial value problem for a system of o.d.e. modelling the immune system after vaccinations, Applicationes Mathematicae 27 (1) 2000, p. 103–111.see in PBN
1999
- Marek Bodnar and Urszula Foryś, Forest-pest interaction dynamics, in: Proceedings of the V National Conference Application of Mathematics to Biology and Medicine, Instytut Elektroniki AGH, Kraków 1999, p. 15–20.see in PBN
1998
- Urszula Foryś, Mirosław Lachowicz and Jacek Waniewski (eds.), Proceedings of the IV National Conference Application of Mathematics to Biology and Medicine, Wydział Matematyki Informatyki i Mechaniki, Uniwersytet Warszawski, Warszawa 1998.see in PBN
- Marek Bodnar and Urszula Foryś, A model of the immune system with stimulation depending on time, in: Proceedings of the IV National Conference Application of Mathematics to Biology and Medicine, Wydział Matematyki Informatyki i Mechaniki, Uniwersytet Warszawski, Warszawa 1998, p. 12–17.see in PBN
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