"Proceedings of the WSEAS European Computing Conference - ECC\u201911" . "6"^^ . . "Memristor; modeling and simulation; MATLAB; Simulink; Simscape; physical model"@en . . . "Memristor modeling in MATLAB\u00AE&Simulink\u00AE"@en . "Paris" . . . . "Paris" . . "Memristor modeling in MATLAB\u00AE&Simulink\u00AE" . "978-960-474-297-4" . . "RIV/60162694:G43__/11:00436881" . "211433" . "WSEAS" . "The article deals with various ways of memristor modeling and simulation in the MATLAB\u00AE&Simulink\u00AE environment. Recently used and published mathematical memristor model serves as a base, regarding all known features of its behavior. Three different approaches in the MATLAB&Simulink system are used for the differential and other equations formulation. The first one employs the standard system core offer for the Ordinary Differential Equations solutions (ODE) in the form of an m-file. The second approach is the model construction in Simulink environment. The third approach employs so-called physical modeling using the built-in SimscapeTM system. The output data are the basic memristor characteristics and appropriate time courses. The features of all models are discussed, especially regarding the computer simulation. Possible problems that may occur during modeling are pointed." . . "Memristor modeling in MATLAB\u00AE&Simulink\u00AE" . . "Zaplat\u00EDlek, Karel" . "The article deals with various ways of memristor modeling and simulation in the MATLAB\u00AE&Simulink\u00AE environment. Recently used and published mathematical memristor model serves as a base, regarding all known features of its behavior. Three different approaches in the MATLAB&Simulink system are used for the differential and other equations formulation. The first one employs the standard system core offer for the Ordinary Differential Equations solutions (ODE) in the form of an m-file. The second approach is the model construction in Simulink environment. The third approach employs so-called physical modeling using the built-in SimscapeTM system. The output data are the basic memristor characteristics and appropriate time courses. The features of all models are discussed, especially regarding the computer simulation. Possible problems that may occur during modeling are pointed."@en . . "http://vavtest.unob.cz/registr" . "Memristor modeling in MATLAB\u00AE&Simulink\u00AE"@en . . "G43" . "1"^^ . . . . "I" . . . . "RIV/60162694:G43__/11:00436881!RIV12-MO0-G43_____" . "1"^^ . "[E31C52178C0B]" . "2010-01-01+01:00"^^ .