Difference between revisions of "CEM"

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'''Instructors'''
 
'''Instructors'''
* Dániel Marcsa (lecturer)
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* [http://wiki.maxwell.sze.hu/index.php/Marcsa Dániel Marcsa] (lecturer)
* Lectures: Monday, 14:50 - 16:25 (D201), 16:30 - 17:15 (D105)
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* Lectures: Wednesday, 08:30 - 11:05 (ÚT215)
 
* Office hours: by request
 
* Office hours: by request
 
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== Syllabus==
 
== Syllabus==
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* [[Lecture 1.]] - Basics of Electromagnetics / Static Magnetic and Electrostatic Field
 
* [[Lecture 1.]] - Basics of Electromagnetics / Static Magnetic and Electrostatic Field
 
* [[Lecture 1. - Assignment]] - Fuel Injection Solenoid  
 
* [[Lecture 1. - Assignment]] - Fuel Injection Solenoid  
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* [[Lecture 4.]] - Integral Equations Based Methods / Wave equations
 
* [[Lecture 4.]] - Integral Equations Based Methods / Wave equations
 
* [[Lecture 4. - Assignment]] - Cable Harness Analysis
 
* [[Lecture 4. - Assignment]] - Cable Harness Analysis
* <span style="color:red">'''[[Homework Assignment]] - Analysis of Solenoid Valve'''</span>
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* <span style="color:red">'''[[Homework Assignment]] - Analysis of Shunt Resistor'''</span>
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== Lecture notes and recommended literature ==
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* '''[https://drive.google.com/file/d/1NCrkh8VN3J0iBR0fQmAYWlV4o6I70jxy/view?usp=sharing Kuczmann M. - Potential Formulations in Magnetics Applying the Finite Element Method, Elektronikus jegyzet, Széchenyi István Egyetem, 2009.]'''
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* '''[https://drive.google.com/file/d/1DmkzXA8BZzlSZTPkjWbI093_mion6ETw/view?usp=sharing Kuczmann M.- The Finite Element Method in Electromagnetics, Előadás, Széchenyi István Egyetem, 2016.]'''
* '''{{BFS pdf|Preface and Contents|bfs-frontmatter|14Sep14}}'''
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* '''[https://drive.google.com/file/d/1OqrIjqFqkbfrkEyZxi3__WWECez1UrVh/view?usp=sharing Bargallo R.- Finite Elements for Electrical Engineering, Lecture notes, Polytechnic University of Catalonia, 2006.]'''
* '''Chapter 1: {{BFS pdf|Introductory Concepts|bfs-intro|14Sep14}}'''
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* Silvester P.P., Ferrari R.L. - Finite elements for electrical engineers, Cambridge University Press, 1983.
** Systems Biology: Modeling, Analysis and the Role of Feedback
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* Ida N., Bastos J.P.A. - Electromagnetics and Calculation of Fields. Springer, New York, 1992.
** The Cell as a System
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* Sadiku M.N.O. - Numerical Techniques in Electromagnetics, CRC Press, New York, 2001.
** Control and Dynamical Systems Tools
 
** Input/Output Modeling
 
** From Systems to Synthetic Biology
 
* '''Chapter 2: {{BFS pdf|Core Processes|bfs-coreproc|14Sep14}}'''
 
** Modeling Techniques
 
** Transcription and Translation
 
** Transcriptional Regulation
 
** Post-Transcriptional Regulation
 
** Cellular Subsystems
 
* '''Chapter 3: {{BFS pdf|Dynamic Behavior|bfs-dynamics|14Sep14}}'''
 
** Analysis Near Equilibria
 
** Robustness
 
** Oscillatory Behavior
 
** Bifurcations
 
** Model Reduction Techniques
 
* '''Chapter 4: {{BFS pdf|Stochastic Modeling and Analysis|bfs-stochastic|14Sep14}}'''
 
** Stochastic Modeling of Biochemical Systems
 
** Simulation of Stochastic Systems
 
** Input/Output Linear Stochastic Systems
 
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* '''Chapter 5: {{BFS pdf|Biological Circuit Components|bfs-circuits|14Sep14}}'''
 
** Introduction to Biological Circuit Design
 
** Negative Autoregulation
 
** The Toggle Switch
 
** The Repressilator
 
** Activator-repressor Clock
 
** An Incoherent Feedforward Loop (IFFL)
 
** Bacterial Chemotaxis
 
* '''Chapter 6: {{BFS pdf|Interconnecting Components|bfs-modules|14Sep14}}'''
 
** Input/Output Modeling and the Modularity Assumption
 
** Introduction to Retroactivity
 
** Retroactivity in Gene Circuits
 
** Retroactivity in Signaling Systems
 
** Insulation Devices: Retroactivity Attentuation
 
** A Case Study on the Use of Insulation Devices
 
* '''Chapter 7: {{BFS pdf|Design Tradeoffs|bfs-tradeoffs|14Sep14}}'''
 
** Competition for Shared Cellular Resources
 
** Stochastic Effects: Design Tradeoffs in Systems with Large Gains
 
* '''{{BFS pdf|Bibliography and Index|bfs-backmatter|14Sep14}}'''
 
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Latest revision as of 13:56, 17 February 2022

Introduction to Computational Electromagnetics

Instructors

  • Dániel Marcsa (lecturer)
  • Lectures: Wednesday, 08:30 - 11:05 (ÚT215)
  • Office hours: by request

Teaching Assistants

  • -
  • Office hours: -.

Course Description

Introduction to fundamentals and techniques of finite element method and modelling in electromagnetics. The course includes: basics of electromagnetics, equations of static magnetic, electrostatic, eddy current and time-dependent problems, Helmholtz-equation, basic of finite element method, nodal and edge shape functions, boundary conditions, mesh operations. The course participants meet the following automotive examples in practice, fuel injection solenoid, induction heating, permanent magnet motor and an automobile cable harness analysis.

Syllabus

Lecture notes and recommended literature

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