| 1 | Advanced Detection Techniques | WMME19004 |
In this course advanced detector systems for the particle and nuclear physics
are introduced to the students on examples of large-scale experiments. Selection
of particular detector types for different subsystems of the experiment is followed
by different readout architectures. Here the data-acquisition systems and concept
of the “trigger” are discussed. This course treats as well post-processing of the
acquired data and event filtering in on-line as well as off-line. |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. M. Kavatsyuk | | Docent(en) | prof. dr. A.M. Barychevdr. M. Kavatsyuk | | Onderwijsvorm | Hoorcollege (LC), Werkcollege (T), Practisch werk (PRC) | | Toetsvorm | Presentatie (P), Schriftelijk tentamen (WE), Verslag (R) | | ECTS | 5 | | Entreevoorwaarden | The course unit assumes prior knowledge acquired from Basic Detection Techniques |
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| 2 | Advanced Polymer Processing | WMCH16003 |
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| 3 | Advanced Processing for Complex Materials | WMME19003 |
| In this course the student will learn about the constitutive laws for various materials, such as metals, polymers and composites and how to process them. Among the techniques that will be discussed are molding, forming, drawing, cutting, joining and 3D printing. During the course the students will visit multiple companies and factories to see the processing in real life. |
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| 4 | Analysis and control of smart systems | TBACSS-11 |
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| 5 | Basic detection techniques (19/20) | STBDT5E |
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| 6 | Characterisation of Materials | WMPH13005 |
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| 7 | Computational Mechanics I | WMME19001 |
| Engineering problems are often studied by means of computer simulation. This course concerns numerical techniques for applied problems governed by partial differential equations. Many techniques will be seen at work in the program COMSOL, a finite element package for modelling. During the course predefined problems from electro-magnetics, fluid dynamics and mechanics have to be worked out to master the theory. Moreover, the students will be challenged to ask research questions themselves while doing the lab exercises. |
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| 8 | Computational Mechanics II | WMME19005 |
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| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | prof. dr. ir. R.W.C.P. Verstappen | | Docent(en) | | | Onderwijsvorm | Hoorcollege (LC), Practisch werk (PRC) | | Toetsvorm | Opdracht (AST), Practisch werk (PR), Schriftelijk tentamen (WE) | | ECTS | 5 |
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| 9 | Data-driven optimization | WMME19011 |
The objective of the course is to understand the fundamentals and relevant applications of data-driven optimization. Particular
focus is on machine learning and control theory related fields. The tentative list of topics is:
- Introduction to data-driven optimization models
- Linear and logistic regression
- Support vector machines
- Gradient and stochastic gradient descent
- Online optimization
- Time permitting, Gaussian processes, Neural networks, and Kernel methods |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. A.K. Cherukuri | | Docent(en) | dr. A.K. Cherukuri | | Onderwijsvorm | Hoorcollege (LC), Practisch werk (PRC) | | Toetsvorm | Practisch werk (PR), Schriftelijk tentamen (WE) | | ECTS | 5 | | Entreevoorwaarden | The course assumes familiarity with linear algebra, calculus, and preliminary notions on optimization and probability. | | Opmerkingen | This course has a limited capacity. Priority will be given to students from the MSc Mechanical Engineering. The remainder of places in the course can be filled with students from the MSc Industrial Engineering and Management.
Practical, written exam
Final grade = 0.6*ST + 0.4*PR
where ST written exam grade, PR practical grade |
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| 10 | Experimental Design | WMME19002 |
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| 11 | Finite element modelling for advanced processing | WMME19010 |
In this course the student will learn Nonlinear Solid Mechanics and the Finite Element Method for Nonlinear Solid Mechanics
problems. The main topics treated in this course are:
1. Nonlinear Solid Mechanics:
1.a Material and geometric nonlinearities;
1.b Kinematics at large (finite) deformations;
1.c Stress measures in finite deformations;
1.d Strong and weak form of equilibrium/principle of virtual work;
1.e Constitutive restrictions (Clausius-Duhem inequality);
1.f Typical nonlinear constitutive laws (with focus on elasticity and plasticity).
2. Finite Element Method techniques for Nonlinear Solid Mechanics:
2.a Spatial discretization;
2.b Interpolation and integration in space and time;
2.c Total Lagrande vs Updated Lagrange formulations;
2.d Solution methods for nonlinear problems: determination of stiffness tangent, nonlinear iteration schemes, convergence.
Exercise sessions will focus on strengthening the understanding of the above topics, such that the student can be able to
reproduce results and solve independently new exercises. Also, some examples of the computer implementation of nonlinear solid
mechanics problem with FEM will be discussed. |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | F. Maresca, PhD. | | Docent(en) | F. Maresca, PhD. S. Solhjoo, PhD. | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Practisch werk (PRC) | | Toetsvorm | Mondeling tentamen (OR), Opdracht (AST), Schriftelijk tentamen (WE), Tussentoets (IT) | | ECTS | 5 | | Entreevoorwaarden | The course assumes that the student has the knowledge, comprehension and is able to apply the main concepts of linear algebra
and calculus from the Bachelor programs. This will be tested one week before the course starts (see Nestor).
Also, the course assumes that the student has the knowledge and comprehension of the main concepts related to small strain
continuum (solid) mechanics and the linear finite elements method.
Thus, the student should have attended the course Computational Mechanics I (WMME19001). Attendance of the course
Computational Mechanics II (WMME19005) is also welcome. |
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| 12 | Fitting dynamical models to data | TBAFPE-11 |
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| 13 | Global Change | WMEE16001 |
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| 14 | Introduction to Data Science | WMCS16002 |
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| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | K. Bunte, PhD. | | Docent(en) | dr. G. Azzopardi K. Bunte, PhD. | | Onderwijsvorm | Hoorcollege (LC), Practisch werk (PRC), Bijeenkomst (S) | | Toetsvorm | Opdracht (AST), Schriftelijk tentamen (WE) | | ECTS | 5 |
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| 15 | Master Design Project Mechanical Engineering | WMME19014 |
The course is a design project, aiming see below at design engineering in a company by an internship.
1st Supervisors are from ENTEG.
2nd Supervisors are from other companies (abroad)
Before the completion of the design project the student must have followed the compulsory module on scientific integrity. It is
advisable for the student to follow this module at the earliest opportunity during the overall master period.
The protocol of an MSc Thesis comprises the following steps:
1. The student may choose his/her own design topic upon discussion with the department of Mechanical Engineering.
2. Preliminary literature study, problem formulation and planning
3. Writing preliminary design proposal including: title, name, student number; supervisor/s, short state of the art, approach,
expected results, timing and literature
4. Handing in the project proposal
5. Literature study, orientation and careful consideration of the different phases
6. Actual design work
7. Analyze, interpret and discuss results within the state of the art prior to regular discussion with supervisor/s (including results
presentation and modification of the original research proposal if and when needed)
8. Writing final report and presentation
9. Providing the ESC the following documents: 1) copy of the thesis in repository; 2) assesment form with final score (according to
fixed criteria) signed by the
at least two persons: supervisor/s. |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. E.J.M. Vertelman | | Docent(en) | Individual Supervisor | | Onderwijsvorm | Opdracht (ASM) | | Toetsvorm | Opdracht (AST), Presentatie (P), Verslag (R) | | ECTS | 20 | | Entreevoorwaarden | First year master courses at least 45 ECTS and the course Scientific Integrity | | Opmerkingen | A special assesment form is available for the final grade. It consists of 4 criteria, Quality of the design (50%), Management of the
design (25%), final presentation (12,5%) , report (12.5%)
The final grade is only registered in when
-the student has followed the module Scientific Integrity. This module will be offered twice a year.
-The report is uploaded in the repository |
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| 16 | Master Research Project Mechanical Engineering | WMME19015 |
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| 17 | MEMS, NEMS and Nanofabrication | WMIE18007 |
| The course will introduce very large scale integration (VLSI) technology and the various MEMS unit processing steps (bulk and surface micromachining) involved in semiconductor and MEMS fabrication technologies. Various actuation and sensing techniques such as capacitive, thermal, electrostatic, magnetic, piezoresistive, piezoelectric and optical methods will be discussed. MEMS chip-scale packaging technologies such as flip-chip, ball grid array, multi-chip packaging to integrate the sensors into a system level will be discussed. Through case studies, the course will teach the students to design MEMS sensors and actuators that meet a set of specifications (sensitivity, frequency response, accuracy, linearity). The innovative use of soft polymers such as hydrogels, 2D materials, and rapid prototyping in the development of MEMS/NEMS devices for futuristic applications will be explored through student team projects. |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. A.G.P. Kottapalli | | Docent(en) | dr. A.G.P. Kottapalli | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Bijeenkomst (S) | | Toetsvorm | Opdracht (AST), Presentatie (P), Schriftelijk tentamen (WE), Tussentoets (IT), Verslag (R) | | ECTS | 5 |
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| 18 | Modeling and Control of Complex Nonlinear Engineering System | WIMCCNES12 |
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| 19 | Multibody and Non-Linear Dynamics | WMME19013 |
The objective of this course is to provide the basic theoretical knowledge on the fundamentals of multibody dynamics and a broad
introduction to nonlinear dynamics with applications to machine and structural dynamics, robotics, physics and biological
mathematics. The course will cover topics on kinematics and dynamics of rigid multibody systems, introduction to flexible body
dynamics, Lagrangian and Hamiltonian mechanics, stability analysis of dynamic systems, and bifurcations. The application of
nonlinear dynamic analysis to mechanical, physical, biological, and chemical models will be considered. |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. A.O. Krushynska | | Docent(en) | dr. A.O. Krushynska | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Werkcollege (T) | | Toetsvorm | Presentatie (P), Schriftelijk tentamen (WE), Verslag (R) | | ECTS | 5 | | Entreevoorwaarden | The course unit assumes prior basic knowledge of linear algebra, calculus, and introductory physics acquired from bachelor courses. | | Opmerkingen | The students will receive three grades: one for the report of the specific case, one for the written exam, and one for the
presentation.
The final grade = (1 report + 2 exam + 1 presentation)/4 |
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| 20 | Multiscale Contact Mechanics and Tribology | WMIE14006 |
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| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | prof. dr. A. Vakis | | Docent(en) | prof. dr. A. Vakis | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Practisch werk (PRC) | | Toetsvorm | Opdracht (AST), Schriftelijk tentamen (WE) | | ECTS | 5 |
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| 21 | Opto-Mechatronics | WMME19006 |
The aim of this course is to provide overview and knowledge on the integration of optical and optoelectronic sensors and actuators in high-precision mechatronics systems. The course will cover topics on fundamental of optical technology and systems, optical sensor and actuator systems, vision systems, dynamical modeling of opto-mechatronic systems, advanced control techniques for achieving high-precision and fast-motion control systems, and the integration aspect of opto-mechatronic systems. The application of opto-mechatronic systems on state-of-the-art advanced instrumentation systems will also be studied.
The topics that are covered in the class include:
- Introduction to optomechatronic technology
- Optics and machine vision
- Mechatronic elements for optomechatronic interface
- Dynamical modeling and control of optomechatronic systems
- Optomechatronic integration |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | prof. dr. ir. B. Jayawardhana | | Docent(en) | prof. dr. ir. B. Jayawardhanadr. ir. W. Jellema | | Onderwijsvorm | Hoorcollege (LC), Practisch werk (PRC), Werkcollege (T) | | Toetsvorm | Practisch werk (PR), Schriftelijk tentamen (WE) | | ECTS | 5 | | Entreevoorwaarden | The course unit assumes prior knowledge acquired from
- Mechatronics (BSc, Period 1b), degree program: IEM/Mathematics/Applied Mathematics, (MSc, Period 1b), degree program: Applied Physics/Astronomy/Biomedical Engineering
- Control engineering (BSc, Period 1a), degree program: IEM/Applied Physics/Astronomy/Applied Mathematics/ Chemical Engineering, (MSc, Period 1a), degree program: Astronomy/Biomedical Engineering |
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| 22 | Polymer Physics | CHPPH05E |
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| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | G. Portale, PhD. | | Docent(en) | G. Portale, PhD. | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Werkcollege (T) | | Toetsvorm | Presentatie (P), Schriftelijk tentamen (WE), Verslag (R) | | ECTS | 5 |
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| 23 | Product design by the Finite Element Method | TBPDFEM-10 |
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| 24 | Robotics for AI | KIM.ROB03 |
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| 25 | Robotics for IEM | TBROB-12 |
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| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | prof. dr. ir. M. Cao | | Docent(en) | prof. dr. ir. M. Cao | | Onderwijsvorm | Hoorcollege (LC), Practisch werk (PRC), Werkcollege (T) | | Toetsvorm | Schriftelijk tentamen (WE), Verslag (R) | | ECTS | 5 |
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| 26 | Scientific Integrity | WMME19022 |
| The student will be exposed to various topics on the research misconduct in plagiarism, proper way of allocating credit, whistleblowing. The course will also include case studies for typical examples of research misconduct. The case study will be also extended to two famous real cases in research history. |
| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | prof. dr. ir. B. Jayawardhana | | Docent(en) | prof. dr. ir. B. Jayawardhana | | Onderwijsvorm | Hoorcollege (LC) | | ECTS | | | Opmerkingen | Scientific integrity will be offered in Ia and IIa. you only have to participate this meeting once during your master degree. |
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| 27 | Scientific Visualization | INMSV-08 |
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| 28 | Strategic Management of Inf. Technology | EBM051B05 |
| Information technology increasingly plays a principle role as the enabler or inhibitor for organizations to achieve strategic objectives in the digital age. Strategic management of information technology has paramount importance for innovation and business success. The alignment between strategic innovation management and information technology management is the focus of this course. Students will learn how to identify and solve business problems by strategically using information technology for innovation. There are no simple, right answers. Students are trained on how to develop innovative solutions in a creative, digitally enabled approach. |
| Faculteit | Economie en Bedrijfskunde | | Voertaal | Engels | | Coordinator | dr. Q. Dong | | Docent(en) | dr. Q. Dong M. Hanisch | | Onderwijsvorm | -werkcollege | | Toetsvorm | -schriftelijk tentamen (open vragen) | | ECTS | 5 | | Entreevoorwaarden | Basic knowledge about innovation | | Opmerkingen | This course covers cutting-edge knowledge about the role of information technology in strategic management. Attendance is not enforced by grade. Yet, preparation for, attendance at, and participation in lectures is required for students. Students need to read a series of academic articles before each lecture, and do a group assignment by conducting an in-depth case study at a real company. |
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| 29 | Structure at Macro, Meso and Nano Scale | WMPH13003 |
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| 30 | Surface Engineering and Coating Technology | WMIE14002 |
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| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | prof. dr. Y. Pei | | Docent(en) | prof. dr. Y. Pei | | Onderwijsvorm | Bijeenkomst (S), Hoorcollege (LC), Opdracht (ASM), Werkcollege (T) | | Toetsvorm | Opdracht (AST), Presentatie (P), Schriftelijk tentamen (WE), Verslag (R) | | ECTS | 5 |
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| 31 | Sustainability for Engineers | CHSFE05E |
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| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. ir. G.H. Jonker | | Docent(en) | dr. ir. G.H. Jonker | | Onderwijsvorm | Hoorcollege (LC), Opdracht (ASM), Werkcollege (T) | | Toetsvorm | Opdracht (AST) | | ECTS | 5 |
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| 32 | Systems engineering | TBSE05E |
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| Faculteit | Science and Engineering | | Voertaal | Engels | | Coordinator | dr. N.B. Szirbik | | Docent(en) | dr. N.B. Szirbik | | Onderwijsvorm | Werkcollege (T), Hoorcollege (LC) | | Toetsvorm | Opdracht (AST), Presentatie (P) | | ECTS | 5 |
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| 33 | Technology based entrepreneurship | WMIE14001 |
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