Studienhandbuch | Mechatronik

Inhalt

Master's programme Mechatronics (K 066/481)

Overview	ECTS Credits
Mathematics	10,00
........ UE Geometrical Methods	1,25
........ VL Geometrical Methods	3,00
........ KV Numerical Analysis and Optimization	5,75
Physics	7,00
........ UE Physical Principles of Mechatronics	2,50
........ VL Physical Principles of Mechatronics	4,50
Computer Science	3,00
........ PR Systems Programming	3,00
Electives	54,00
........ Electrical Drive Engineering	39,00/0,00-15,00
................ Advanced basics in Mechatronics for Electrical Drive Engineering	21,00
........................ KV Adaptive and predictive Control	3,00
........................ KV Computer Aided Product Development	3,00
........................ KV Electrical Drives	3,00
........................ KV Electrical Networks and Electromagnetic Fields	3,00
........................ KV Advanced Machine Design	3,00
........................ KV Control Theory of Nonlinear Systems	3,00
........................ KV Thermofluiddynamics	3,00
................ Area of specialization: Electrical Drive Engineering	18,00/0,00-15,00
........................ Complementary basics in Mechatronics for Electrical Drive Engineering	0,00-18,00
................................ KV Design of Lightweight Structures	3,00
................................ KV Biology for Engineers	3,00
................................ KV Discrete Time Signal Processing	3,00
................................ KV Higher Kinetics - Multibody Systems	3,00
................................ KV Nonlinear Field Theories of Mechanics	3,00
................................ KV Communications Engineering	3,00
........................ Subject for the master exam: Electric Drive Technology
................................ VL Selected Topics of Electrical Drive Technology	3,00
................................ PR Lab for Electrical Drives	3,00
................................ PR Electronic Circuits of Electrical Drive Engineering Lab	3,00
................................ UE Electronic Circuits of Electrical Drive Engineering	1,25
................................ VL Electronic Circuits of Electrical Drive Engineering	3,00
................................ VL Theory and Applications of Magnetic Bearing Technology	3,00
........................ Subject for the master exam: Hydraulics
................................ PR Hydraulic Lab	3,00
................................ KV Servohydraulics	3,00
................................ KV Oil Hydraulics	4,50
........................ Subject for the master exam: Power Electronics
................................ VL Cooling of Electronical Elements	1,50
................................ UE Power Electronics 1	1,25
................................ VL Power Electronics 1	3,00
................................ UE Power Electronics 2	1,25
................................ VL Power Electronics 2	3,00
................................ PR Power Electronics Lab	3,00
........................ Subject for the master exam: Pneumatics
................................ KV Pneumatics	3,00
................................ PR Pneumatics Lab	3,00
................................ KV Simulation Methods in Fluid Power	3,00
........................ PR Design of Hydraulic Systems	3,00
........................ SE Design of Hydraulic Systems	4,50
........................ KV Design Methodologies	3,00
........ Automatic Control and Robotics	39,00/0,00-15,00
................ Advanced basics in Mechatronics for Automatic Control and Robotics	21,00
........................ KV Discrete Time Signal Processing	3,00
........................ KV Electrical Drives	3,00
........................ KV Electrical Networks and Electromagnetic Fields	3,00
........................ KV Higher Kinetics - Multibody Systems	3,00
........................ KV Advanced Machine Design	3,00
........................ KV Nonlinear Field Theories of Mechanics	3,00
........................ KV Control Theory of Nonlinear Systems	3,00
................ Area of specialization: Automatic Control and Robotics	18,00/0,00-15,00
........................ Complementary basics in Mechatronics for Automatic Control and Robotics	0,00-18,00
................................ KV Design of Lightweight Structures	3,00
................................ KV Adaptive and predictive Control	3,00
................................ KV Biology for Engineers	3,00
................................ KV Computer Aided Product Development	3,00
................................ KV Thermofluiddynamics	3,00
................................ KV Communications Engineering	3,00
........................ Subject for the master exam: Control Systems Technology
................................ KV Special Topics of Control Design	3,00
................................ VL Control System Technology 1	3,00
................................ VL Control System Technology	3,00
................................ PR Control System Technology Lab 1	3,00
................................ PR Control System Technology Lab 2	3,00
................................ SE Seminar Automatic Control	3,00
................................ UE Process Control Instrumentation Technology	1,25
................................ VL Process Control Instrumentation Technology	3,00
........................ Subject for the master exam: Control Theory
................................ KV Special Topics of Control Theory	3,00
................................ UE Modern Frequency Domain Methods in Control	1,25
................................ VL Modern Frequency Domain Methods in Control	3,00
................................ UE Optimal Control	1,25
................................ VL Optimal Control	3,00
................................ UE Control of nonlinear mechatronic systems 1	1,25
................................ VL Control of nonlinear mechatronic systems 1	3,00
................................ UE Control of nonlinear mechatronic systems 2	1,25
................................ VL Control of nonlinear mechatronic systems 2	3,00
........................ Subject for the master exam: Robotics
................................ KV Special Examples in higher Kinetics	1,50
................................ KV Special Topics in Robotics	3,00
................................ PR Robotics Lab	4,50
................................ SE Robotics Seminar	3,00
................................ UE Robotics	1,25
................................ VL Robotics	3,00
................................ SE Seminar Walking Robots	3,00
................................ UE Control of Robot Systems	1,25
................................ VL Control of Robot Systems	3,00
........ Biomedical mechatronics	39,00/0,00-15,00
................ Advanced basics in Biomedical mechatronics	21,00
........................ KV Adaptive and predictive Control	3,00
........................ KV Biology for Engineers	3,00
........................ KV Discrete Time Signal Processing	3,00
........................ KV Electrical Networks and Electromagnetic Fields	3,00
........................ KV Higher Kinetics - Multibody Systems	3,00
........................ KV Control Theory of Nonlinear Systems	3,00
........................ KV Thermofluiddynamics	3,00
................ Area of specialization: Biomedical mechatronics	18,00/0,00-15,00
........................ Complementary basics in Biomedical mechatronics	0,00-18,00
................................ KV Design of Lightweight Structures	3,00
................................ KV Computer Aided Product Development	3,00
................................ KV Electrical Drives	3,00
................................ KV Advanced Machine Design	3,00
................................ KV Nonlinear Field Theories of Mechanics	3,00
................................ KV Communications Engineering	3,00
........................ Subject for the master exam: Biomedical mechatronics
................................ KV Biomimetics	4,50
................................ VL Medical technology 2	3,00
................................ VL Medical technology	3,00
................................ VL Theoretical Modelling of Biological Systems	3,00
................................ VL Cell biology and genetics	3,00
........................ UE Machine Learning: Supervised Techniques	1,50
........................ VL Machine Learning: Supervised Techniques	3,00
........................ UE Machine Learning: Unsupervised Techniques	1,50
........................ VL Machine Learning: Unsupervised Techniques	3,00
........................ VL Bioanalytics II	3,00
........................ VL Bioanalytics I	3,00
........................ VL Biological signalling II	1,50
........................ VL Biological signalling I	3,00
........................ VL Methods in biochemistry I	1,50
........................ VL High Precision Measurement Techniques	3,00
........................ PR Digital Image Processing	3,00
........................ UE Design of Lightweight Structures	2,50
........................ VL Biological Control Loops Lab	3,00
........................ VL Digital Image Processing	3,00
........................ VL Introduction to Medical Law	1,50
........................ SE Medical technology	3,00
........................ VL Optical Sensors for Biomedical Applications	3,00
........................ PR Practical training biomimetics	3,00
........................ PR Practical training medical technology	3,00
........................ VL Radiology: imaging methods and their applications	1,50
........................ UE Theoretical Modelling of Biological Systems	3,00
........................ VL Physics of Soft Matter	3,00
........................ SE Seminar in physics of soft materials	3,00
........................ VL Chemistry for Physicists I (Gen. and Inorg. Chem.)	3,00
........................ VL Chemistry for Physicist II	3,00
........ Mechatronic Design	39,00/0,00-15,00
................ Advanced basics in Mechatronics for Mechatronic Design	21,00
........................ KV Design of Lightweight Structures	3,00
........................ KV Computer Aided Product Development	3,00
........................ KV Electrical Drives	3,00
........................ KV Higher Kinetics - Multibody Systems	3,00
........................ KV Advanced Machine Design	3,00
........................ KV Control Theory of Nonlinear Systems	3,00
........................ KV Thermofluiddynamics	3,00
................ Area of specialization: Mechatronic Design	18,00/0,00-15,00
........................ Complementary basics in Mechatronics for Mechatronic Design	0,00-18,00
................................ KV Adaptive and predictive Control	3,00
................................ KV Biology for Engineers	3,00
................................ KV Discrete Time Signal Processing	3,00
................................ KV Electrical Networks and Electromagnetic Fields	3,00
................................ KV Nonlinear Field Theories of Mechanics	3,00
................................ KV Communications Engineering	3,00
........................ Subject for the master exam: Computer-Aided Manufacturing
................................ UE Selected Aspects and Applications of the Method of Finite Elements	1,25
................................ VL Selected Aspects and Applications of the Method of Finite Elements	3,00
................................ VL Special Topics in Manufacturing Technology	3,00
................................ KV Computer Aided Manufacturing - CAD-CAM	4,50
........................ Subject for the master exam: Mechanisms and Gear Trains and Design Theory
................................ KV Selected Chapters of Mechanisms and Gear Trains	3,00
................................ PR Design of Hydraulic Systems	3,00
................................ SE Design of Hydraulic Systems	4,50
................................ KV Design Methodologies	3,00
........................ Subject for the master exam: Design of Lightweight Structures
................................ UE Design of Lightweight Structures	2,50
................................ UE Lightweight Design with Composite Materials	1,50
................................ VL Lightweight Design with Composite Materials	3,00
................................ VL Structural Health Monitoring	3,00
................................ KV Structure Analysis with Finite Element Methods	1,50
........................ Subject for the master exam: Mechatronic Product Development
................................ VL Special Topics in Mechatronic Design	3,00
................................ PR Computer Aided Product Development	3,00
................................ VL Computer Aided Design - CAD	3,00
................................ VL Introduction to Innovationmanagement and Marketing	3,00
................................ SE Solution Finding Techniques	3,00
................................ VL Realization of technical developments	3,00
........................ PR Electronic Circuits of Electrical Drive Engineering Lab	3,00
........................ UE Electronic Circuits of Electrical Drive Engineering	1,25
........................ VL Electronic Circuits of Electrical Drive Engineering	3,00
........................ PR Hydraulic Lab	3,00
........................ KV Oil Hydraulics	4,50
........ Sensors and Instrumentation	39,00/0,00-15,00
................ Advanced basics in Mechatronics for Sensors and Instrumentation	21,00
........................ KV Discrete Time Signal Processing	3,00
........................ KV Electrical Drives	3,00
........................ KV Electrical Networks and Electromagnetic Fields	3,00
........................ KV Nonlinear Field Theories of Mechanics	3,00
........................ KV Control Theory of Nonlinear Systems	3,00
........................ KV Thermofluiddynamics	3,00
........................ KV Communications Engineering	3,00
................ Area of specialization: Sensors and Instrumentation	18,00/0,00-15,00
........................ Complementary basics in Mechatronics for Sensors and Instrumentation	0,00-18,00
................................ KV Design of Lightweight Structures	3,00
................................ KV Adaptive and predictive Control	3,00
................................ KV Biology for Engineers	3,00
................................ KV Computer Aided Product Development	3,00
................................ KV Higher Kinetics - Multibody Systems	3,00
................................ KV Advanced Machine Design	3,00
........................ Subject for the master exam: Measurement Technology and Sensors
................................ VL High Precision Measurement Techniques	3,00
................................ KV Selected Problems in Measurement Technology	2,50
................................ KV Selected Problems in Sensor Technology	2,50
................................ PR Optical Measurement Systems	4,50
................................ VL Optical Measurement Systems	3,00
................................ PR Sensors and Actuators in Mechatronics	3,00
................................ VL Sensors and Actuators in Mechatronics	3,00
................................ VL Simulation Software Tools in Mechatronics	3,00
........................ Subject for the master exam: Digital Signal und Image Processing
................................ PR Digital Image Processing	3,00
................................ VL Digital Image Processing	3,00
................................ PR Discrete Time Signal Processing	4,50
................................ UE Discrete Time Signal Processing	2,50
................................ SE Discrete Time Signal Processing	3,00
................................ UE Statistical Signal Processing	2,50
................................ VL Statistical Signal Processing	3,00
........................ UE Analogue Circuit Design	1,25
........................ VL Analogue Circuit Design	3,00
........................ PR Computer-assisted Analogue Circuit Desgin	4,50
........................ UE Microsensors	1,25
........................ VL Microsensors	3,00
........................ VL Microwave Sensing	3,00
........ Microelectronics and Microsystems Technology	39,00/0,00-15,00
................ Advanced basics in Mechatronics for Microelectronics and Microsystems Technology	21,00
........................ KV Discrete Time Signal Processing	3,00
........................ KV Electrical Drives	3,00
........................ KV Electrical Networks and Electromagnetic Fields	3,00
........................ KV Nonlinear Field Theories of Mechanics	3,00
........................ KV Control Theory of Nonlinear Systems	3,00
........................ KV Thermofluiddynamics	3,00
........................ KV Communications Engineering	3,00
................ Area of specialization: Microelectronics and Microsystems Technology	18,00/0,00-15,00
........................ Complementary basics in Mechatronics for Microelectronics and Microsystems Technology	0,00-18,00
................................ KV Design of Lightweight Structures	3,00
................................ KV Adaptive and predictive Control	3,00
................................ KV Biology for Engineers	3,00
................................ KV Computer Aided Product Development	3,00
................................ KV Higher Kinetics - Multibody Systems	3,00
................................ KV Advanced Machine Design	3,00
........................ Subject for the master exam: Analog Electronics
................................ UE Analogue Circuit Design	1,25
................................ VL Analogue Circuit Design	3,00
................................ KV Special Topics in Microelectronics	3,00
................................ PR Computer-assisted Analogue Circuit Desgin	4,50
................................ UE Electronic Systems	1,25
................................ VL Electronic Systems	3,00
................................ VL Design of Integrated A/D-Converter	3,00
................................ VL Integrated RF Circuit Design	3,00
................................ PR Advanced Electronic Circuits Lab	3,00
........................ Subject for the master exam: Digital Electronics
................................ UE Digital Hardware Design	1,25
................................ VL Digital Hardware Design	3,00
................................ VL Special Topics in Integrated Circuits	3,00
................................ PR Circuit Design with HDL Lab (Hardware Description Language)	4,50
................................ SE Seminar Integrated Circuits	3,00
........................ Subject for the master exam: Electrodynamics
................................ KV Specialisation in electrical networks and electromagnetic fields	3,00
................................ UE Advanced Electrodynamics and Network Theory	1,25
................................ VL Advanced Electrodynamics and Network Theory	3,00
........................ Subject for the master exam: Microsensors and Microsystems Technology
................................ KV Selected Topics in Microsystems Technology	3,00
................................ UE Microsensors	1,25
................................ VL Microsensors	3,00
................................ PR Microelectronics and Microsystems Technology Lab	3,00
................................ PR Mircosensors Laboratory	3,00
................................ SE Seminar Microsystems Technology	3,00
........................ UE Microwave Engineering 1	1,25
........................ VL Microwave Engineering 1	3,00
........................ UE Microwave Engineering 2	1,25
........................ VL Microwave Engineering 2	3,00
........................ VL Microwave Sensing	3,00
........................ VL Optical Sensors for Biomedical Applications	3,00
........................ PR Laboratory Course in RF-Measurements-Techniques	3,00
........................ PR Microwave Lab	3,00
........................ VL Nanofabrication II: Semiconductor Technology	3,00
........ Communications- and RF-Engineering	39,00/0,00-15,00
................ Advanced basics in Mechatronics for Communications- and RF-Engineering	21,00
........................ KV Adaptive and predictive Control	3,00
........................ KV Discrete Time Signal Processing	3,00
........................ KV Electrical Drives	3,00
........................ KV Electrical Networks and Electromagnetic Fields	3,00
........................ KV Higher Kinetics - Multibody Systems	3,00
........................ KV Control Theory of Nonlinear Systems	3,00
........................ KV Communications Engineering	3,00
................ Area of specialization: Communications- and RF-Engineering	18,00/0,00-15,00
........................ Complementary basics in Mechatronics for Communications- and RF-Engineering	0,00-18,00
................................ KV Design of Lightweight Structures	3,00
................................ KV Biology for Engineers	3,00
................................ KV Computer Aided Product Development	3,00
................................ KV Advanced Machine Design	3,00
................................ KV Nonlinear Field Theories of Mechanics	3,00
................................ KV Thermofluiddynamics	3,00
........................ Subject for the master exam: RF Engineering
................................ UE Microwave Engineering 1	1,25
................................ VL Microwave Engineering 1	3,00
................................ KV Selected Topics in Microwave Engineering	3,00
................................ UE Microwave Engineering 2	1,25
................................ VL Microwave Engineering 2	3,00
................................ VL Integrated RF Circuit Design	3,00
................................ VL Microwave Sensing	3,00
................................ PR Digital Signal Processing for Communications and Radar Lab	3,00
................................ PR Laboratory Course in RF-Measurements-Techniques	3,00
................................ PR Microwave Lab	3,00
................................ PR Radar Lab	3,00
................................ UE Radar Signal Processing	1,25
................................ VL Radar Signal Processing	3,00
........................ Subject for the master exam: Communications Engineering
................................ KV Selected Topics in Communications Engineering	4,50
................................ PR Signal Processing Architectures	4,50
................................ VL Signal Processing Architectures	3,00
................................ UE Digital Communication Systems	1,25
................................ VL Digital Communication Systems	3,00
................................ UE Optimum and Adaptive Signal Processing Systems	1,50
................................ VL Optimum and Adaptive Signal Processing Systems	3,00
................................ KV Selected Topics in Communications Engineering	3,00
................................ UE Digital Signal Processing for Communications Engineering	1,25
................................ VL Digital Signal Processing for Communications Engineering	3,00
................................ PR Digital Communication Systems Lab	3,00
................................ VL Mobile Communications	3,00
................................ SE Communications Engineering, Seminar	3,00
........ System Analysis and Optimization	39,00/0,00-15,00
................ Advanced basics in Mechatronics for System Analysis and Optimization	21,00
........................ KV Adaptive and predictive Control	3,00
........................ KV Discrete Time Signal Processing	3,00
........................ KV Electrical Drives	3,00
........................ KV Electrical Networks and Electromagnetic Fields	3,00
........................ KV Higher Kinetics - Multibody Systems	3,00
........................ KV Advanced Machine Design	3,00
........................ KV Thermofluiddynamics	3,00
................ Area of specialization: System Analysis and Optimization	18,00/0,00-15,00
........................ Complementary basics in Mechatronics for System Analysis and Optimization	0,00-18,00
................................ KV Design of Lightweight Structures	3,00
................................ KV Biology for Engineers	3,00
................................ KV Computer Aided Product Development	3,00
................................ KV Nonlinear Field Theories of Mechanics	3,00
................................ KV Control Theory of Nonlinear Systems	3,00
................................ KV Communications Engineering	3,00
........................ Subject for the master exam: Automotive Control
................................ UE Selected chapters in dynamical systems	1,25
................................ VL Selected chapters in dynamical systems	3,00
................................ UE Fundamentals of Combustion Engines	1,25
................................ VL Fundamentals of Combustion Engines	3,00
................................ VL Control Systemes Design II	3,00
................................ PR Combustion engine control	3,00
................................ VL Combustion engine control	3,00
........................ Subject for the master exam: Control Systems
................................ SE Advances in System Analysis and Control	3,00
................................ VL Analysis and Control of vehicle drivelines	3,00
................................ UE Special Topics of Control Systems Design	1,25
................................ VL Special Topics of Control Systems Design	3,00
................................ PR Biological Control Loops Lab	1,50
................................ VL Biological Control Loops Lab	3,00
................................ KV Control Systemes Design I	4,25
................................ UE Energy systems control	1,25
................................ VL Energy systems control	3,00
................................ PR Adanced Lab in Adaptive and Predictive Control	3,00
........................ PR Analysis and Control of vehicle drivelines lab	3,00
........................ UE Mathematical Methods of System Analysis	1,25
........................ VL Mathematical Methods of System Analysis	3,00
........................ PR Control Systemes Design II	3,00
........ Mechanics of Solids and Fluids	39,00/0,00-15,00
................ Advanced basics in Mechatronics for Mechanics of Solids and Fluids	21,00
........................ KV Design of Lightweight Structures	3,00
........................ KV Electrical Networks and Electromagnetic Fields	3,00
........................ KV Higher Kinetics - Multibody Systems	3,00
........................ KV Advanced Machine Design	3,00
........................ KV Nonlinear Field Theories of Mechanics	3,00
........................ KV Control Theory of Nonlinear Systems	3,00
........................ KV Thermofluiddynamics	3,00
................ Area of specialization: Mechanics of Solids and Fluids	18,00/0,00-15,00
........................ Complementary basics in Mechatronics for Mechanics of Solids and Fluids	0,00-18,00
................................ KV Adaptive and predictive Control	3,00
................................ KV Biology for Engineers	3,00
................................ KV Computer Aided Product Development	3,00
................................ KV Discrete Time Signal Processing	3,00
................................ KV Electrical Drives	3,00
................................ KV Communications Engineering	3,00
........................ Subject for the master exam: Computational Methods of Mechanics
................................ KV Selected Topics in Computational Methods in Mechanics	3,00
................................ PR Experimental and Numerical Methods in Mechanics	4,50
................................ VL Experimental and Numerical Methods in Mechanics	3,00
................................ UE Advanced Computational Methods in Mechanics	1,25
................................ VL Advanced Computational Methods in Mechanics	3,00
........................ Subject for the master exam: Strengh of Materials
................................ KV Selected Topics in Strength of Materials	3,00
................................ VL Advanced Strength of Materials	3,00
................................ SE Modern Trends in Engineering Mechanics	3,00
........................ Subject for the master exam: Numerical Methods in Thermo-Fluid Dynamics
................................ KV Introduction to particle simulation	3,00
................................ PR Numerical Methods in Fluid Mechanics	4,50
................................ VL Numerical Methods in Fluid Mechanics	3,00
................................ SE Seminar in Thermofluiddynamics	3,00
........................ Subject for the master exam: Sound and Vibrations
................................ KV Selected Topics in Theory of Vibrations	3,00
................................ KV Vehicle Dynamics	3,00
................................ UE Mechanics of Smart Structures	1,25
................................ VL Mechanics of Smart Structures	3,00
................................ KV Modelling of vibratory systems	3,00
................................ UE Rotordynamics	1,25
................................ VL Rotordynamics	3,00
................................ SE Seminar Engineering Mechanics of Sloid Bodies	3,00
........................ Subject for the master exam: Thermo-Fluid Dynamics
................................ KV Special Topics in Thermofluiddynamics	3,00
................................ UE Fluid Dynamics 1	1,25
................................ VL Fluid Dynamics 1	3,00
................................ UE Fluid Dynamics 2	1,25
................................ VL Fluid Dynamics 2	3,00
................................ PR Thermofluiddynamics Laboratory	4,50
........ Advanced principles of mathematics and nature sciences for machatronics	0,00-15,00
................ Subject for the master exam: Advanced Mathmatics for Mechatronics
........................ KV Stochastic processes	3,00
........................ VL Statistical methods	3,00
........................ VL Mathematical fundamentals of CAD	3,00
........................ UE Mathematical methods in control theory	1,25
........................ VL Mathematical methods in control theory	3,00
................ UE Experimental Physics II	1,25
................ VL Experimental Physics II	3,00
................ VL Semiconductor and Solid State Physics	3,00
................ PR Semiconductor physics laboratory	3,00
................ UE Fuzzy control	1,50
................ VL Fuzzy control	3,00
................ UE Fuzzy logic	1,50
................ VL Fuzzy logic	3,00
................ UE Statistical methods	1,50
................ UE Reliability theory	1,50
................ VL Reliability theory	3,00
................ VL Semiconductor devices	3,00
................ VL Optoelectronic devices	3,00
........ Gender Studies	0,00-6,00
................ KV Gender Studies Managing Equality TN	3,00
................ VL Ethics and Gender Studies	3,00
Master's Thesis Seminar	3,00
........ SE Master's Thesis Seminar	3,00
Free Electives	16,00