Významné publikace od roku 2003
Monografie
[1] Šolín, P., Segeth, K., Doležel, I.: Higher-Order Finite Element Methods. Chapman & Hall/CRC Press, Boca
Raton, USA, 2003.
[2] Doležel, I., Karban, P., Šolín, P.: Integral Methods in Low-Frequency Electromagnetics. Willey, Hoboken, USA
2009.
Vybrané impaktované články
[01] Kůs, P., Šolín, P., Doležel, I.: Solution of 3D Singular Electrostatics Problems Using Adaptive hp-FEM.
COMPEL 27, 2008, No. 4, pp. 939–945.
[02] Šolín, P., Červený, J., Doležel, I.: Arbitrary-Level Hanging Nodes and Automatic Adaptivity in the hp-FEM.
Mathematics and Computers in Simulation, Vol. 77, doi. 10.1016/j.matcom.2007.02.011, 2008, pp. 117–132.
[03] Doležel, I., Karban, P., Ulrych B., Pantelyat, M., Matyukhin, Y., Gontarowsky, P., Shulzhenko, N.: Limit Operation
Regimes of Actuators Working on Principle of Thermoelasticity. IEEE Trans. Magn. 44, 2008, No. 6,
pp. 810–813.
[04] Doležel, I., Karban, P., Ulrych B., Pantelyat, M., Matyukhin, Y., Gontarowsky, P.: Computer Model of Thermoelastic
Actuator Solved as Coupled Contact Problem. COMPEL 26/4, 2007, pp. 1063–1072.
[05] Karban, P., Dolezel, I., Solin, P.: Computation of General Nonstationary 2D Eddy Currents in Linear Moving
Arrangements Using an Integrodifferential Approach, COMPEL 25, 2006, No. 3, pp. 635–641.
[06] Barglik, J., Dolezel, I, Karban, P., Ulrych, B.: Modeling of Continual Induction Hardening in Quasi-Coupled
Formulation. COMPEL 24, 2005, pp. 251–260.
[07] Dolezel, I., Barglik, J., Ulrych, B: Continual Induction Hardening of Axisymmetric Bodies. Journal of Materials
Processing Technology 161, 2005, pp. 269–275.
[08] Doležel, I., Musil, L., Ulrych, B.: Modelling of Temperature-Dependent Effective Impedance of Non-Ferromagnetic
Massive Conductor. COMPEL 23, 2004, pp. 655–661.
[09] Dolezel, I., Barglik, J., Sajdak, C., Skopek, M., Ulrych, B.: Modeling of Induction Heating and Consequent
Hardening of Long Prismatic Bodies. COMPEL 22, 2003, pp. 79–87.
[10] Doležel, I., Šolín, P., Ulrych, B.: On a Fieldless Method for the Computation of Induction-Generated Heat in 3D
Non-Ferromagnetic Metal Bodies. Math. Comput. Simulation 61, 2003, str. 239–247.