연세대학교 전기전자공학부
연세대학교 전기전자공학부
페이스북 트위터
    제어 및 전기에너지 분야
    EEE5710 전기기기 및 제어 (Electric Machine & Control)
    Magnetic circuit, Power transformer, Transformer equivalent circuit, Energy conversion theory, DCmachineryfundamentals, DC generator, DC motor, ACmachinefundamentals, Synchronous generator steady-state and transient condition analysis, Induction motor steady-state and transient condition analysis.
    EEE5720 로봇제어공학 (Robot Control System)
    Coordinate Transform, Motion Equation, Motion Tracing Control, Dynamics Control, Statics Control, Industrial Robot Control System
    EEE5730 선형시스템이론 (LInear System Theory)**
    Basic Concept of System, Linearity, Time-Invariant System, Differential System, Linear Transform, Eigenvalue and Eigenvector, Canonical Jordan Type, Transfer Function, Function Linear Independence
    EEE5740 선형네트워크 및 시스템 (Linear Networks and Systems)**
    Basic Circuit Theory, Network Topology, Loop Equation, Multi Node Circuit Analysis, Circuit State Equation, State Equation Analysis, Circuit Transfer Function, Scattering Network Analysis, Feedback System and Stability
    EEE5803 초전도 기초응용 (Fundamental Application of Superconductivity)▣
    Electric & magnetic properties of superconductor, Electronic & energy application of superconductor, Commercial application of superconductivity in the area of IT, BT, ET, NT and ST.
    EEE6710 비선형제어 (Non-Linear Control)
    Principle of Statistical Design, Sampling Data, Time Varying Parameter System, Phase-Plane Optimal Control, Adaptive Control, Stability Analysis Using Lyapunov Method, Nonlinear System Design
    EEE6720 퍼지제어공학 (Fuzzy Control Engineering)◉
    Fuzzy Theory, Fuzzy Set, Fuzzy Number and Operation, Fuzzy Relation, Fuzzy Logic, basic Structure of Fuzzy Control, Estimating Method of Fuzzy Control System, Fuzzy Control Method, System Adapting Method, Fuzzy Model Plant
    EEE6730 시스템모델링 및 시뮬레이션 (System Modeling and Simulation)
    Nonlinear system Stability, Electrical Machine Energy Transform, pu unit, Lagrange Equation, Network Representation Method, State Equation and Numerical Analysis Method, Euler Method, Runge-Kutta Method, Implication Method and Trapezoid Method, On-line Simulation, Real-Time Simulation, Simulator Application
    EEE6740 전력전자회로 (Power Electronic Circuits) (영문 필요)
    전력전자시스템개요, 전력용반도체스위치, 전기회로 및 자기회로 개념, 정류회로해석, 인버터회로해석, DC/DC컨버터, DC/AC Converter, Swiching Mode해석, PWM Inverter, 공진형변환기, 영전압/영전류스위칭, 전동기 구동장치응용, 전력변환 시스템의 컴퓨터 시뮬레이션
    EEE6750 전력계통해석 (Power System Analysis)
    Load Flow Calculation, Newton-Raphon Method, Decoupled Method, Fast Decoupled Method, Matrix Approach Method on Short Circuit Study, State Estimating Maximum Likelyhood Estimation, Least Square Error Estimation, Gauss Distribution System State Estimation, Bad Data Identification, Hypothesis Test
    EEE6760 바이오로보틱스(Biorobotics)
    (영문 필요)
    EEE6770 전력품질해석 (Electric Power Quality Analysis)
    (영문 필요)
    EEE7710 로버스트제어(Robust Control)
    Signal and System Norm Parameterize Method, Stability Analysis, Multi Variable Robust Control, H-control, Feedback Control Application, Model Matching Theory, Common Element Factorizing, Robust Control System Design
    EEE7720 적응제어 (Adaptive Control)
    Evaluation Index, Maximum Principle, Standard Model and Controller, Parameter Estimation, Time Variant Parameter System, Phase-Plane and Lyapunov Method, Controller Design
    EEE7730 전력계통안정도해석 (Power System Stability Analysis)
    Synchronous Machine Analysis, Park Transform, Eq'-Model, Linear System and Eigenvalue Analysis, Transient Stability Analysis, System Initial Value Estimation, Equivalent Mechanic Equivalent Model, Energy Function Derivation, Lyapunov Direct Method, Line Resistance, Generator Control System Effect Considering Energy Function Derivation
    EEE7740 이산사건시스템 (Discrete Event Systems)
    Discrete and Continuous Time Event, Untimed Model, Timed Model, stochastic Time Model, Markov Chain, Petri-Nets, Queueing Theory, Simulation Method
    EEE7750 신과학 개론 (Introduction to New Science)◉
    Concept of New Science and Bio Medical Phenomena, Electromagnetic Wave in Organism, Mechanical Structure of Bio Information, Alternative Curing Technology, Understanding about Bio Medical Information
    EEE7760 확률 로보틱스(Probabilistic Robotics)
    localization, mapping, SLAM, EKFSLAM, FastSLAM, Rao-blackwellized particle filter, probabilitic modeling
    EEE7770 로보틱스 및 제어 (Robotics and Control)
    This course introduces the engineering analysis of mechanical manipulation. It includes the background of mechanics, physical modeling, control theory, and computer science. It covers kinematics models and mechanical dynamics,trajectory planning and the corresponding intelligent control.This course will handle the computational aspects of control systems for various robots with arms or wheels.
    EEE7780-01-00 신재생에너지적용 전력기기 및 제어 (Modeling and Control of Renewable Energy Systems)
    Introduction to renewable generation, Overview on solar and wind energy generation, PV/Wind turbine modeling and simulation using electromagnetic transient program, PV/Wind turbine controls, Grid integration and emerging operational issues
    EEE7804 초전도 스위치 (Superconducting Switches)
    (영문 필요)
    EEE8403 의용전자특론(Advanced Medical Electronics)
    Medical Electronic Measurement, Medical Transformer, Medical Electronic Circuit, Diagnosing and Curing Appliance, Safety Problem
    EEE8720 규제완화 환경에서의 전력경제 (Power System Economics Under Deregulation)
    (영문 필요)
    EEE8730 Fault 내연시스템 (Fault Tolerant System)
    (영문 필요)
    EEE8750 기계학습 (Machine Learning)
    Probability distribution and exponential family, Linear regression and classification, grahpical model, mixture model, sampling and Markov chain Monte Carlo (MCMC), model selection
    EEE8805 초전도 디바이스 및 응용 (Superconducting Device and Applications)
    (영문 필요)
    EEE9499 의용전자공학특론(Advanced Topics in Biomedical Electronics)
    (영문 필요)
    EEE9710 제어 및 시스템 특론1 (Special Topics in Control and Systems 1)
    (영문 필요)
    EEE9720 제어 및 시스템 특론2 (Special Topics in Control and Systems 2)
    (영문 필요)
    EEE9730제어및시스템특론3 (Special Topics in Control and Systems 3)
    This class provides the state-of-arts of fault-tolerant and real-time computing systems. Specifically, logical correctness as well as time is so important to guarantee the reliable operation while meeting high-performance requirements in those systems. Fault, error, and failure should be well described and treated in those system as well. The important issues associated with design, implementation, and evaluation of those systems are dealt with. Also, some example systems (representing those systems) are introduced