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[1] |
Marek Jasiński, Numerical analysis of thermal damage and oxygen distribution in laser irradiated tissue, Journal of Applied Mathematics and Computational Mechanics, 21(2), 2022, pages 51-62.
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[2] |
Marek Jasiński, Maria Zadoń, Mathematical modeling of the phenomena that occur in a biological tissue containing photosensitizer, Journal of Applied Mathematics and Computational Mechanics, 21(4), 2022, pages 40-51.
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[3] |
Marek Jasiński, Numerical analysis of the temperature impact to the oxygen distribution in the biological tissue, Journal of Applied Mathematics and Computational Mechanics, 19(3), 2020, pages 17-28.
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[4] |
Marek Jasiński, Modelling of thermal damage process in soft tissue subjected to laser irradiation, Journal of Applied Mathematics and Computational Mechanics, 17(2), 2018, pages 29-41.
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[5] |
Marek Jasiński, Modelling of thermal damage in laser irradiated tissue, Journal of Applied Mathematics and Computational Mechanics, 14(4), 2015, pages 67-78.
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[6] |
Marek Jasiński, Sensitivity analysis of transient bioheat transfer during thermal injury formation of biological tissue, Journal of Applied Mathematics and Computational Mechanics, 13(2), 2014, pages 33-42.
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[7] |
Marek Jasiński, Modelling of light and human skin interaction using Kubelka-Munk theory, Scientific Research of the Institute of Mathematics and Computer Science, 10(1), 2011, pages 71-81.
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[8] |
Marek Jasiński, Numerical modeling of tissue coagulation during laser irradiation controlled by surface temperature, Scientific Research of the Institute of Mathematics and Computer Science, 9(1), 2010, pages 29-36.
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[9] |
Marek Jasiński, Influence of emissivity changes on the blood flow rate determined on the basis of heat balance equation, Scientific Research of the Institute of Mathematics and Computer Science, 9(1), 2010, pages 37-44.
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[10] |
Marek Jasiński, Sensitivity analysis of bioheat transfer in human cornea subjected to laser irradiation. Part 1: Variation of optical parameters, Scientific Research of the Institute of Mathematics and Computer Science, 8(1), 2009, pages 63-70.
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[11] |
Marek Jasiński, Sensitivity analysis of bioheat transfer in human cornea subjected to laser irradiation. Part 2: Shape variation, Scientific Research of the Institute of Mathematics and Computer Science, 8(1), 2009, pages 71-76.
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[12] |
Marek Jasiński, Modelling of 1D bioheat transfer with perfusion coefficient dependent on tissue necrosis, Scientific Research of the Institute of Mathematics and Computer Science, 7(1), 2008, pages 57-62.
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[13] |
Marek Jasiński, Multiobjective identification of boundary temperature using energy minimization method coupled with Boundary Element Method, Scientific Research of the Institute of Mathematics and Computer Science, 7(1), 2008, pages 63-70.
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[14] |
Ewa Majchrzak, Mirosław Dziewoński, Marek Jasiński, Identification of thermal conductivity by means of the gradient method and the BEM, Scientific Research of the Institute of Mathematics and Computer Science, 6(1), 2007, pages 147-158.
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[15] |
Ewa Majchrzak, Marek Jasiński, Estimation of epidermis and dermis thicknesses on the basis of skin surface temperature, Scientific Research of the Institute of Mathematics and Computer Science, 5(1), 2006, pages 124-133.
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[16] |
Marek Jasiński, Identification of boundary temperature using the energy minimization method coupled with the 2ND scheme of BEM, Scientific Research of the Institute of Mathematics and Computer Science, 4(1), 2005, pages 58-65.
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[17] |
Ewa Majchrzak, Marek Jasiński, Parameter sensitivity analysis of burn integrals using the adjoint approach, Scientific Research of the Institute of Mathematics and Computer Science, 3(1), 2004, pages 115-120.
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[18] |
Marek Jasiński, Sensitivity analysis of burn integrals with respect to thickness of epidermis, Scientific Research of the Institute of Mathematics and Computer Science, 2(1), 2003, pages 45-54.
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