• Regent’s University London Featured Masters Courses
  • University of Leeds Featured Masters Courses
  • University of Glasgow Featured Masters Courses
  • University of Edinburgh Featured Masters Courses
  • Leeds Beckett University Featured Masters Courses
  • Xi’an Jiaotong-Liverpool University Featured Masters Courses
  • Swansea University Featured Masters Courses
  • University of York Featured Masters Courses
Middlesex University Featured Masters Courses
University of Greenwich Featured Masters Courses
Institute for Advanced Architecture of Catalonia Featured Masters Courses
University of Hertfordshire Featured Masters Courses
Cardiff University Featured Masters Courses
"modeling" AND "simulatio…×
0 miles

Masters Degrees (Modeling And Simulation)

  • "modeling" AND "simulation" ×
  • clear all
Showing 1 to 15 of 37
Order by 
The Ravensbourne MA Environment Design investigates spatial design in its real-virtual, and macro-micro scales. Read more
The Ravensbourne MA Environment Design investigates spatial design in its real-virtual, and macro-micro scales. Encompassing interior, architecture, cities and natural environments the programme analyzes a series of different perspectives of theory and practice from art, science, and technology towards an understanding of a cultural sustainability.

Systems - Every year the course aims to produce new research that takes forward questions inherent in Modernity. Currently focused on natural ecological systems (earthquakes, tectonic plates, deltas and shorelines), (re)contruction and war, cosmographies and cultures of outerspace, and bio-tech materials ; the course encourages you to explore your own field of research and practice.

Technologies - The Environment Design operates with a multidisciplinary team where knowledge exchange is one of the core points to focus. From: applied technologies, visual effects, interactive digital media, moving image, communication design and fashion, the programme aims to deploy students with methods and techniques from different perspectives embracing new possibilities offered by new technology and the creative processes involved in designing.

Modeling and simulation - with a hands on training in the use of the scientific instruments and computational tools, Ravensbourne offers you with full access to digital facilities for digital imaging and prototyping; where you will be able to experiment and innovate through technical, user and interaction workshops based upon strategies deployed by leading practitioners within the field.

You will be encouraged to engage with advanced practice within a global context and explore the similarities and key differences and emphases of different centres across the world and to put your learning and design solutions into context.

Here you will expand your own research and practice, by developing and managing an individual programme of enquiry and creative development in environment design culminating in the realisation of a final major project fully informed by professional and industrial contexts and multi disciplinary perspectives.

Study units

- Technology Issues
- Business and Innovation
- Research Process
- Concept and Prototyping
- Major project

The Research Process unit supports you in gaining the research skills needed for the development of your individual projects.

Three five-week workshops in the Technology Issues unit will enable you to explore interdisciplinary, cross-disciplinary and individually negotiated projects.

In the Business Innovation unit, you are helped to develop an understanding of business and innovative practices in the creative industries.

The Concept and Prototyping unit allows you to further develop the skills you have learnt; for example: using hybrid bottom-up strategies and to take a single line of inquiry, idea or theory embedded in environment design and research and develop the concept.

The Major Project represents the culmination of the your investigation and the final stage of the research strategy.

Learning

You will receive regular support from tutors, peers and subject-specific group tutorials as part of a constant critical dialogue to help create a professional and critical understanding of your individual creative process.

You will benefit from working alongside students on other MA pathways in a multi-disciplinary environment, creating opportunities to widen and expand approaches to your own research and practice giving the opportunity to adapt and adopt new and innovative methods and solutions.

The course benefits from its positioning and relationship to allied creative disciplines, such as the Applied Technologies, Fashion, and Interactive Digital Media pathways, affording opportunities for collaboration, cross-fertilisations and synergies. You are also expected to engage with the architectural design profession and to make full use of the resources and opportunities available in London.

Programme Aims

All postgraduate courses at Ravensbourne provide students with the opportunity to develop advanced skills in the conceptualisation and practical realisation of innovative creative projects in their discipline area and provide them with the entrepreneurial skills to realise their commercial potential. These courses share the following common aims:

- to develop advanced creative practitioners with the potential to originate, innovate or influence practice in their discipline area;

- to equip students with a comprehensive understanding of the core principles and technology underpinning their creative project and the theoretical frameworks within which to locate it;

- to underpin students’ creative practice with the entrepreneurial skills and business awareness necessary to turn concepts into commercially viable realities;

- to develop students’ skills in independent learning, self-reflection and research skills necessary to sustain advanced creative practice and scholarship;

- to offer a stimulating environment for postgraduate students which is both supportive and flexible in relation to their learning needs and a creative space in which to incubate their ideas.

Read less
The master of engineering program at Binghamton University provides students with the balance of theory and practical knowledge necessary to be successful in the profession and is intended for students who are working full time and attending graduate school part time. Read more
The master of engineering program at Binghamton University provides students with the balance of theory and practical knowledge necessary to be successful in the profession and is intended for students who are working full time and attending graduate school part time. Students may pursue the Master of Engineering (MEng) degree in either Industrial Engineering (MEngIE) or in Systems Engineering (MEngSE). These programs can be taken entirely online via EngiNet.

Utilizing the industrial resources available in the Binghamton community, students are able to develop a realistic approach to integrating both engineering and non-engineering systems such as those found in manufacturing, healthcare, and transportation. In this way, students have the opportunity to use a wide variety of industrial and systems engineering tools such as those related to modeling and simulation, statistical process control, scheduling, human factors, and supply chain management, among others.

Graduate Degrees Offered

- MEng in Industrial Engineering
- MEng in Systems Engineering

All applicants must submit the following:

- Online graduate degree application and application fee
- Transcripts from each college/university you have attended. Note: MEng Industrial Engineering and Systems Engineering applicants should have an undergraduate major in engineering or a related field.
- Two letters of recommendation
- Personal statement (2-3 pages) describing your reasons for pursuing graduate study, your career aspirations, your special interests within your field, and any unusual features of your background that might need explanation or be of interest to your program's admissions committee.
- Resume or Curriculum Vitae (max. 2 pages)
- Official GRE scores

And, for international applicants:
- International Student Financial Statement form
- Official bank statement/proof of support
- Official TOEFL, IELTS, or PTE Academic scores

Read less
The systems science program emphasizes the complementary use of mathematical, computational and heuristic approaches to solving systems problems. Read more
The systems science program emphasizes the complementary use of mathematical, computational and heuristic approaches to solving systems problems. Students learn to analyze assumptions under which various methods are applicable with the aim of selecting methods that best fit the problem. The program emphasizes learning through classes that deal with systems modeling and simulation, systems analysis and synthesis, and the various problems associated with the simplification of overly complex systems to make them manageable, and includes such research areas as fuzzy logic; data analysis and knowledge discovery; uncertainty theories; generalized information theory; soft computing; intelligent control and robotics; decision making; and complex systems.

Recent doctoral graduate placements include: Industrial Engineer for Best Buy, Industrial Engineer for IBM Corporation, Assistant Professor at Middle East University (Jordan), Industrial Engineer for North Shore-LIJ Health System.

All applicants must submit the following:

- Online graduate degree application and application fee
- Transcripts from each college/university you have attended
- For PhD candidates, an MS in engineering or related field is desirable, but does not preclude admission for exceptional applicants
- Two letters of recommendation
- Personal statement (2-3 pages) describing your reasons for pursuing graduate study, your career aspirations, your special interests within your field, and any unusual features of your background that might need explanation or be of interest to your program's admissions committee.
- Resume or Curriculum Vitae (max. 2 pages)
- Official GRE scores

And, for international applicants:
- International Student Financial Statement form (PDF)
- Official bank statement/proof of support
- Official TOEFL, IELTS, or PTE Academic scores

Read less
WHAT YOU WILL GAIN. - Advanced skills and know-how in the latest advanced technologies in power generation through Renewable Energy technologies, for professional or highly-skilled work and/or further learning. Read more
WHAT YOU WILL GAIN:

- Advanced skills and know-how in the latest advanced technologies in power generation through Renewable Energy technologies, for professional or highly-skilled work and/or further learning
- Credibility as an advanced practitioner in Renewable Energy technologies
- Ability to make independent judgments and high-level decisions in a variety of technical or managerial contexts
- The knowledge and skills to be actively involved in the planning, implementation and evaluation stages of a range of Renewable Energy power generation systems
- An EIT Graduate Certificate in Renewable Energy Technologies

Next intake starts May 15th, 2017. Applications now open; limited places available.

INTRODUCTION

The Graduate Certificate in Renewable Energy Technologies is an advanced program. It is presented at a considerably higher level than the Advanced Diploma and bachelor degree level programs and intending students should be aware of the greater challenge. This Certificate has identical standing and level to that of a university graduate diploma, but is focused on the career outcomes of a professional engineer and technologist. As the title suggests, it has a greater vocational or ‘job related’ emphasis, and focuses more on developing practical skills that you can apply to the workplace, rather than theory alone.

A feature of this program is that in using web collaborative technologies you will not only study and work with your peers around the world on various renewable energy design projects, but you will do this conveniently from your desktop using the latest techniques in live web and video conferencing. The Graduate Certificate in Renewable Energy Technologies focuses on the mainstream technologies viz. photovoltaic, wind and small hydro, but also covers other less common technologies such as biomass, osmotic and tide power generation, among others. The course deals with practical issues of renewable energy that will confront an advanced practitioner in the field. For example, you will be exposed to the modeling and simulation of wind turbines, and the design of wind farms. You will also be expected to undertake advanced design and conceptualisation work in which you will apply the calculations learned in less advanced programs. Some of the work and study you will be undertaking will involve pioneering technology and exploring new approaches. There is a definite ongoing need for highly qualified and skilled specialists in the Renewable Engineering field and this course caters for that need. Upon completing this program you will be able to show technical leadership in the field of Renewable Energy, and be recognised as an advanced practitioner in the field.

PRE-REQUISITES

Applications are considered on a case-by-case basis. Potential students include:

- Practising engineers or technologists with advanced knowledge, experience and education (such as an Advanced Diploma, or undergraduate degree)
- Practising engineers or technicians with demonstrated competence
- Engineers or technologists from another discipline (such as mechanical and chemical engineering) wanting to up-skill in this area
- It would not be suitable for a student with no relevant work experience. We will review your enrolment application and may recommend pre-course studies if required.

COURSE STRUCTURE

The Graduate Certificate is an intensive part-time program, conducted over 6 months. Unlike other universities or academic institutions, we operate almost all year round without extended breaks between semesters. The course is composed of 4 units, each conducted over 6 weeks.

Unit 1 - Fundamentals and Balance-of-Plant Components
Unit 2 - Small Hydro and Other Renewable Energy Technologies
Unit 3 - Photovoltaic (PV) Systems
Unit 4 - Wind Turbine Systems

COURSE FEES

What are the fees for my country?

The Engineering Institute of Technology (EIT) provides distance education to students located almost anywhere in the world – it is one of the very few truly global training institutes. Course fees are paid in a currency that is determined by the student’s location. A full list of fees in a currency appropriate for every country would be complex to navigate and, with today’s exchange rate fluctuations, difficult to maintain. Instead we aim to give you a rapid response regarding fees that is customised to your individual circumstances.

We understand that cost is a major consideration before a student commences study. For a rapid reply to your enquiry regarding courses fees and payment options, please enquire via the below button and we will respond within 2 business days.

Read less
Complex systems with a technological, biological or socio-economic background determine our everyday life. Read more

About the Program

Complex systems with a technological, biological or socio-economic background determine our everyday life. The challenge of modeling these complex systems mathematically demands the following prototypic profile of an "expert mastering a repertoire of modern mathematical and computer based methods for modeling, simulating and optimizing complex systems and knowing how to combine those methods for solving real-world problems".
The term expert is understood in the sense of generalist and not a specialist, since this program aims at teaching a broad spectrum of modern methods.

The two-years English-taught master program "Mathematical Modeling of Complex Systems" focuses on advanced techniques of modeling, simulation and optimization. A substantial set of elective courses allows concentration on areas of individual interest. A mobility window enables the students to study abroad and gain scientific and cultural experience at international partner universities. This program uses English as medium of instruction since its graduates will enter a highly globalized work and research community. Besides that, the participation and enrollment of international candidates is explicitly welcomed.

Application oriented, interdisciplinary seminars link the theoretical basics and concepts of modeling and simulation. Students work in small teams to solve real world problems. This teamwork reflects typical work in applied sciences and corresponds to our paradigm of an "expert mastering a repertoire of methods to solve problems".

Find out more about the program and our campus in Koblenz under:
https://www.uni-koblenz-landau.de/de/koblenz/fb3/mathe/studium/mmcs/

Aims/Career Perspectives

The Master degree in Mathematical Modeling of Complex Systems is to give those possessing extended skills in Mathematics, Physics and Computer Science in theory, experiment and practical application. These skills are complemented with further knowledge in additional topics, individually selected by each student. The degree entitles its holder to exercise professional work in the field of Applied Mathematics and/or Mathematical Modeling in science or industry or to pursue a PhD program in related fields.

Program Structure

The first three terms of the two-years master „Mathematical Modeling of Complex Systems“ consist of core courses in Applied Mathematics and Applied Physics. Elective courses in Applied Mathematics, Applied Physics and Computer Sciences allow each student to set its individual focus. Active use of the gained knowledge and its application to the solution of real-world problems is taught and practiced in a project seminar. This project seminar can be carried out in a three-month period at a research institution, enterprise or at university. The master thesis in the last term and dealing with modeling and simulating a real-world problem, shows the student’s ability to perform independent research work.
The core and elective courses typically include a written or oral exam, the project seminar is graded based an oral presentation and written report of the project results.

You can find an exemplary list of courses and can download a overview of the modules under:
https://www.uni-koblenz-landau.de/de/koblenz/fb3/mathe/studium/mmcs#curriculum

Read less
This Master of Science programme, taught entirely in English, aims at preparing high level professionals that can deal with a variety of problems common to all development and resource exploitation plans. Read more

Mission and Goals

This Master of Science programme, taught entirely in English, aims at preparing high level professionals that can deal with a variety of problems common to all development and resource exploitation plans. Their expertise will range from the knowledge of modelling of land and ecological systems, to acquisition and analysis of relevant data, geo-referencing and geo-processing, to pollution abatement technologies and reclamation plans. Students following this programme may either specialize in Geomatics or Environmental Engineering with particular emphasis on sustainable development and water resources.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/environmental-and-geomatic-engineering/

Career Opportunities

In addition to the classic professional opportunities for Environmental and Land Planning Engineering, studying Geomatic Engineering in depth allows to work in national or local bodies involved in cartography, land registries and collection of land data or in the aerospace and ICT industries involved in the management of territorial databases. On the other side, graduates with a deeper knowledge in Environmental Engineering can also found opportunities in the field of international relations, large multinational corporations and in non-governmental organizations.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Environmental_and_Geomatic_Engineering_02.pdf
This Master of Science programme, taught entirely in English, aims at preparing high level professionals that can deal with a variety of problems common to all development and resource exploitation plans. Their expertise will range from the knowledge of modeling of land and ecological systems, to acquisition and analysis of relevant data, geo-referencing and geo-processing, to pollution abatement technologies and reclamation plans. Students will increase their understanding of the functioning of ecosystems, learn how to assess the local and global environmental impacts of human activities, and apply advanced methods, techniques and models to identify, describe, quantify and develop integrated systems to support environmental decision-makers. The programme is organized around two main topics: Geomatics or Environmental Engineering, with particular emphasis on sustainable development and water resources. The first specialization aims at creating experts in surveying, monitoring, representing the land shape and processes in terms of information systems, while the second provides the future engineers with a clear understanding of sustainability issues and of their application in the current professional activities.

The programme is taught in English.

Subjects

- Mandatory courses:
Modeling and Simulation, Statistical Analysis of Environmental Data, Natural Resources Management, Environmental and Natural Resources Economy and Geographic Information Systems

Eligible courses:
1. Geomatics
Remote Sensing, Image Analysis, Satellite Navigation and Monitoring; Geophysical Prospecting;

2. Environmental Engineering
Hydraulic Engineering and River Basin Reclamation, Environmental Technology, Engineering and Cooperation for Global Development and Energy for sustainable Development.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/environmental-and-geomatic-engineering/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/environmental-and-geomatic-engineering/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

Read less
The Master of Science programme in Energy Engineering for an Environmentally Sustainable World (EEE-SW) is taught in English and offers a broad overview of the various technical issues related to energy and the environment. Read more

Mission and Goals

The Master of Science programme in Energy Engineering for an Environmentally Sustainable World (EEE-SW) is taught in English and offers a broad overview of the various technical issues related to energy and the environment. This special programme aims to prepare technicians capable of following and actively directing technological advances, operating effectively in a competitive and multi-disciplinary industrial context.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

Career Opportunities

Graduates find employment in numerous industrial sectors, including industries producing and distributing energy, thermal, thermal-electric, air-conditioning and refrigeration plant design and management companies, energy management in companies or bodies with production objectives which may be far-removed energy. A Master of Science Engineer has openings in research and development as well as in activities related to the feasibility study and design of large-scale plant, innovative processes and development of technologically advanced machines and components.

For the academic year 2014-2015 prospective students with a university qualification obtained abroad can apply only for the 1st semester. This study course does not accept applications for the 2nd semester.
Applicants are required to take the GRE test (Graduate Record Examination) through ETS DI code 6939 in due time to have test scores sent to Welcome Desk Piacenza (welcome.piacenza(at)polimi.it) within the last day of the application period.

Recommended minimum GRE scores to be achieved for admission:
Verbal Reasoning: 155
Quantitative Reasoning: 155
Analytical Writing: 4.0

Only students with a Degree earned at an Italian University can apply without taking GRE test and they can also apply for admission at the 2nd semester.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Energy_Engineering_01.pdf
The programme provides a mix of design, operational and management skills, with particular emphasis on system and process engineering related to the production of basic energy carriers (electricity, heat and fuels) under tight environmental constraints. Students will learn how to evaluate and solve engineering issues (thermal, environmental, mechanical, chemical, electrical) raised by energy conversion systems, as well as analyze and assess operational and maintenance issues. Particular attention will be devoted to renewable energy sources, non-conventional energy technologies, emission control, electric systems with distributed power generation, etc. Teaching is organized around 3 core aspects: modeling and simulation tools; interdisciplinary vision; problem-solving approach. The programme is taught in English.

Subjects*

1st year – 1st semester
- Advanced Mathematical methods for energy engineering
- Advanced Thermodynamics and Heat Transfer
- Fundamentals of chemical processes for energy and the environment
1st year – 2nd semester
- Turbomachinery and internal combustion engines
- Energy and environmental technologies for building systems
- Electric conversion of renewable energy sources
- Materials and manufacturing process for energy

2nd year – 1st semester
- Energy systems and low-carbon technologies
- Air pollution and control engineering
- Operation and control of machines for power generation
2nd year – 2nd semester
- Bio-energy and waste-to-energy technologies
- Smart grids and regulation for renewable energy sources
- Major independent project work

* The list and titles of the courses to be followed is undergoing a revision aimed at enhancing the focus of the programme on the connection between Energy and the Environment. This will entail a reduction of the credits devoted to manufacturing, operation and control of machines and an increase of the credits devoted to optimization methods, renewable energy, industrial ecology. The final list of courses to be taken for the Academic Year 2016-17 will be available in January 2016.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-for-an-environmentally-sustainable-world-track/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

Read less
Leiden Observatory offers a challenging two-year master’s programme in Astronomy, leading to the MSc degree in Astronomy. Students can expect research at the cutting edge of modern astronomy as an integral part of the programme. Read more
Leiden Observatory offers a challenging two-year master’s programme in Astronomy, leading to the MSc degree in Astronomy. Students can expect research at the cutting edge of modern astronomy as an integral part of the programme. Both education and research focus on two major themes:

- the formation and evolution of galaxies, from high-redshifts to the nearby universe, and
- the birth and death of stars, including the lifecycle of dust and gas.

Visit the website: http://en.mastersinleiden.nl/programmes/astronomy/nl/introduction

Course detail

The overall goal is to integrate students in research as soon as possible. Right from the start of the programme, master’s students get involved in front-line research, have access to all facilities, and get their own workspace at the institute. During the programme, students learn to analyse and evaluate scientific information independently and critically, and to conduct academically sound research.

Specialisations

Students can choose one out of six specialisations, each containing a different study path:

- Astronomy Research
Broadest possible training in astronomical research.

- Astronomy and Cosmology
Research training with a particular focus on modern observational and theoretical cosmology.

- Astronomy and Instrumentation
Research training with a particular focus on astronomical instrumentation and instrument development.

- Astronomy and Education
Teacher training for obtaining the qualification required for teaching in Dutch secondary schools.

- Astronomy and Science-Based Business
Research education combined with training in management, business and entrepreneurship.

- Astronomy and Science Communication and Society
Research education combined with training in science communication and public outreach.

Careers

Graduates holding an MSc or PhD degree in Astronomy from Leiden University find work in many different capacities, including:

- High technology
- Aerospace industry
- IT/Telecommunications
- Computer software
- Finance banking
- Consultancy
- Insurance industry
- Science communication
- Education

Some graduates continue in science and get research positions at universities, observatories or research institutes. Others pursue a career as science communicator, science policy maker, or a physics teacher.

Reasons to choose Astronomy in Leiden:

1) Leiden Observatory is a vibrant university astronomy department with a distinguished history. It has both a strong international reputation, and is widely known to turn out masters and doctoral students of the highest quality.
2) The favorable student-staff ratio guarantees a high degree of interaction with and personal attention from the senior staff.
3) The Leiden programme is particularly known for its emphasis on the interface between observation and theory: interpretation, modeling and simulation.
4) Leiden astronomers have access to the foremost observing facilities and the largest high performance computer facilities in the world.
5) The Observatory provides an international atmosphere. It has close ties with other astronomy institutes in Europe and the U.S. Many students, postdocs and staff come from abroad, and there are regular visits by guests from all over the world.
6) The institute provides a very welcoming, informal atmosphere, in which social activities flourish.

How to apply: http://en.mastersinleiden.nl/arrange/admission

Funding

For information regarding funding, please visit the website: http://prospectivestudents.leiden.edu/scholarships

Read less
Graduate education in Computational Science and Engineering (CMSE) at Koç University is offered through an interdisciplinary program among the Departments of the College of Arts and Sciences and the College of Engineering. Read more
Graduate education in Computational Science and Engineering (CMSE) at Koç University is offered through an interdisciplinary program among the Departments of the College of Arts and Sciences and the College of Engineering. In this program graduate students are trained on modern computational science techniques and their applications to solve scientific and engineering problems. New technological problems and associated research challenges heavily depend on computational modeling and problem solving. Because of the availability of powerful and inexpensive computers model-based computational experimentation is now a standard approach to analysis and design of complex systems where real experiments can be expensive or infeasible. Graduates of the CMSE Program should be capable of formulating solutions to computational problems through the use of multidisciplinary knowledge gained from a combination of classroom and laboratory experiences in basic sciences and engineering. Individuals with B.S. degrees in biology, chemistry, physics, and related engineering disciplines should apply for graduate study in the CMSE Program.

Current faculty projects and research interests:

• Computational Biology & Bioinformatics
• Computational Chemistry
• Computational Physics
• Molecular Dynamics and Simulation
• Parallel and High Performance Computing
• Computational Fluid Dynamics
• Dynamical and Stochastic Systems
• Quantum Mechanics of Many Body Systems
• Electronic Design Automation
• Numerical Methods
• Simulation of Material Synthesis
• Structural Dynamics
• Biomedical Modeling and Simulation
• Virtual Environments

Read less
See the Department website - http://www.rit.edu/kgcoe/program/microelectronic-engineering-1. Read more
See the Department website - http://www.rit.edu/kgcoe/program/microelectronic-engineering-1

The master of engineering in microelectronics manufacturing engineering provides a broad-based education for students who are interested in a career in the semiconductor industry and hold a bachelor’s degree in traditional engineering or other science disciplines.

Program outcomes

After completing the program, students will be able to:

- Design and understand a sequence of processing steps to fabricate a solid state device to meet a set of geometric, electrical, and/or processing parameters.

- Analyze experimental electrical data from a solid state device to extract performance parameters for comparison to modeling parameters used in the device design.

- Understand current lithographic materials, processes, and systems to meet imaging and/or device patterning requirements.

- Understand the relevance of a process or device, either proposed or existing, to current manufacturing practices.

- Perform in a microelectronic engineering environment, as evidenced by an internship.

- Appreciate the areas of specialty in the field of microelectronics, such as device engineering, circuit design, lithography, materials and processes, and yield and manufacturing.

Plan of study

This 30 credit hour program is awarded upon the successful completion of six core courses, two elective courses, a research methods course, and an internship. Under certain circumstances, a student may be required to complete bridge courses totaling more than the minimum number of credits. Students complete courses in microelectronics, microlithography, and manufacturing.

Microelectronics

The microelectronics courses cover major aspects of integrated circuit manufacturing technology, such as oxidation, diffusion, ion implantation, chemical vapor deposition, metalization, plasma etching, etc. These courses emphasize modeling and simulation techniques as well as hands-on laboratory verification of these processes. Students use special software tools for these processes. In the laboratory, students design and fabricate silicon MOS integrated circuits, learn how to utilize semiconductor processing equipment, develop and create a process, and manufacture and test their own integrated circuits.

Microlithography

The microlithography courses are advanced courses in the chemistry, physics, and processing involved in microlithography. Optical lithography will be studied through diffraction, Fourier, and image-assessment techniques. Scalar diffraction models will be utilized to simulate aerial image formation and influences of imaging parameters. Positive and negative resist systems as well as processes for IC application will be studied. Advanced topics will include chemically amplified resists; multiple-layer resist systems; phase-shift masks; and electron beam, X-ray, and deep UV lithography. Laboratory exercises include projection-system design, resist-materials characterization, process optimization, and electron-beam lithography.

Manufacturing

The manufacturing courses include topics such as scheduling, work-in-progress tracking, costing, inventory control, capital budgeting, productivity measures, and personnel management. Concepts of quality and statistical process control are introduced. The laboratory for this course is a student-run factory functioning within the department. Important issues such as measurement of yield, defect density, wafer mapping, control charts, and other manufacturing measurement tools are examined in lectures and through laboratory work. Computer-integrated manufacturing also is studied in detail. Process modeling, simulation, direct control, computer networking, database systems, linking application programs, facility monitoring, expert systems applications for diagnosis and training, and robotics are supported by laboratory experiences in the integrated circuit factory. The program is also offered online for engineers employed in the semiconductor industry.

Internship

The program requires students to complete an internship. This requirement provides a structured and supervised work experience that enables students to gain job-related skills that assist them in achieving their desired career goals.

Students with prior engineering-related job experience may submit a request for internship waiver with the program director. A letter from the appropriate authority substantiating the student’s job responsibility, duration, and performance quality would be required.

For students who are not working in the semiconductor industry while enrolled in this program, the internship may be completed at RIT. It involves an investigation or study of a subject or process directly related to microelectronic engineering under the supervision of a faculty adviser. An internship may be taken any time after the completion of the first semester, and may be designed in a number of ways. At the conclusion of the internship, submission of a final internship report to the faculty adviser and program director is required.

Read less
The operating officers of tomorrow master in Operations Management today. The program focuses on the effective management of the resources and activities that produce or deliver the goods and services of a business. Read more
The operating officers of tomorrow master in Operations Management today. The program focuses on the effective management of the resources and activities that produce or deliver the goods and services of a business. Operations managers oversee the people, materials, equipment and information resources that a business needs to produce and deliver its goods and services. Many of the most esteemed data systems operating the processes and activities of worldwide business are designed by operations managers.

Visit the website: http://manderson.cba.ua.edu/academics/departments/masters_program/master_of_science_in_operations_management

Choose from two track options:

Track 1: Operations Management

The master's program in Operations Management is offered both on campus and online. The degree requires 30 hours of coursework (10 courses). Full-time, on-campus students can complete the program in three semesters (fall/spring/summer). Students who want to pursue this degree program part-time while continuing to work can choose between the two-year and three-year schedules for completing the degree online.

Required Courses:

- OM 500 Management Science I
- OM 517 Supply Chain Modeling & Analysis
- OM 522 Operations Scheduling Problems
- OM 523 Inventory Management
- OM 524 Manufacturing Scheduling & Control Systems
- OM 540 Systems Simulation
- OM 596 Capstone Project
- ST 560 Statistical Methods

Track 2: Decision Analytics

The concept for this track is to offer an Operations Management master’s degree that combines the prescriptive modeling and analytical skills arising from the OM program with the data management and data mining skills arising from the SAS-UA Data Mining certification program offered in the Statistics program.

The Decision Analytics track consists of 10 courses: five from Operations Management, four from Statistics, and one from either Statistics or Management Information Systems.

- Required Courses:

- ST 560 Statistical methods in Research I
- ST 521 Statistical Data Management
- ST 531 Knowledge Discovery and Data Mining I
- ST532 Advanced Data Mining
- OM 500 Management Science and Spreadsheet Modeling
- OM 540 Systems Simulation
- OM 596 Capstone Project

- Two OM Elective Courses:

- OM 517 Supply Chain Modeling and Analysis
- OM 522 Operations Scheduling Problems
- OM 523 Inventory Management
- OM 524 Manufacturing Scheduling and Control Systems

*Choose two courses from this set of four courses.

- One Restricted Elective Course:

- ST 522 Advanced Statistical Data Management
- MIS 541 Business Analytics Support Systems

*Choose one of these two with consultation by program advisor.

How to apply: http://graduate.ua.edu/prospects/application/

Fund your studies

Student Financial Aid provides comprehensive information and services regarding opportunities to finance the cost of education at The University of Alabama. We recognize that financial assistance is an important key to helping reach your educational and career goals. The financial aid staff is dedicated to making the financial aid process as straightforward as possible. Visit the website to find out more: http://financialaid.ua.edu/

Read less
The accredited Master of Science program in Computer Science is a two-year program that has been designed for international and German graduate students. Read more
The accredited Master of Science program in Computer Science is a two-year program that has been designed for international and German graduate students. The curriculum is very flexible. Students can compile their individual study plans based on their background and interests. It is also a very practical program. In addition to lectures and tutorials, students will complete two seminars, one or two projects and the master thesis.

In the beginning students will choose one or two key courses. Key courses are courses which introduce the students to the research areas represented at the Department of Computer Science. The following key courses are offered:

• Algorithm Theory
• Pattern Recognition
• Databases and Information Systems
• Software Engineering
• Artificial Intelligence
• Computer Architecture

After that, students can specialize in one of the following three areas:

• Cyber-Physical Systems
• Information Systems
• Cognitive Technical Systems

Here are some examples of subjects offered in the three specialization areas:

Cyber-Physical Systems:

• Cyber-Physical Systems – Discrete Models
• Cyber-Physical Systems – Hybrid Control
• Real Time Operation Systems and Reliability
• Verification of Embedded Systems
• Test and Reliability
• Decision Procedures
• Software Design, Modeling and Analysis in UML
• Formal Methods for Java
• Concurrency: Theory and Practice
• Compiler Construction
• Distributed Systems
• Constraint Satisfaction Problems
• Modal Logic
• Peer-to-Peer Networks
• Program Analysis
• Model Driven Engineering

Information Systems:

• Information Retrieval Data Models and Query Languages
• Peer-to-Peer Networks
• Distributed Storage
• Software Design, Modeling and Analysis in UML
• Security in Large-Scale Distributed Enterprises
• Machine Learning
• Efficient Route Planning
• Bioinformatics I
• Bioinformatics II
• Game Theory
• Knowledge Representation
• Distributed Systems

Cognitive Technical Systems:

• Computer Vision I
• Computer Vision II
• Statistical Pattern Recognition
• Mobile Robotics II
• Simulation in Computer Graphics
• Advanced Computer Graphics
• AI Planning
• Game Theory
• Knowledge Representation
• Constraint Satisfaction Problems
• Modal Logic
• Reinforcement Learning
• Machine Learning
• Mobile Robotics I

We believe that it is important for computer science students to get a basic knowledge in a field in which they might work after graduation. Therefore, our students have the opportunity to complete several courses and/or a project in one of the following application areas:

• Bioinformatics
• Educational Sciences
• Geosciences
• Cognitive Sciences
• Mathematics
• Medicine
• Meteorology
• Microsystems Engineering
• Physics
• Political Sciences
• Psychology
• Sociology
• Economics

In the last semester, students work on their master’s thesis. They are expected to tackle an actual research question in close cooperation with a professor and his/her staff.

Read less
The European Master's in System Dynamics is the first international Master's programme in System Dynamics in Europe. It has been built on the strengths of four leading universities. Read more

Overview

The European Master's in System Dynamics is the first international Master's programme in System Dynamics in Europe. It has been built on the strengths of four leading universities: the University of Bergen, New University of Lisbon, University of Palermo and Radboud University. The programme has been specifically designed for students who are interested in learning how to initiate strategic change in organisations by using computer simulation models.

Goals & expectations

Our goal is to teach you everything you need to know when starting an international career in strategic modeling with System Dynamics. After you have finished our Master's Programme, you will know how to build a System Dynamics model, how to apply it to a variety of complex problems in real life and how to facilitate the model-building process with the client in such a way that not only can a high-quality model be built, but what is equally important, that a strategic change can be achieved and policies can be implemented.

Partner universities:

University of Bergen, Norway
University of Palermo, Italy
New University of Lisbon, Portugal
Radboud University, The Netherlands

Multiple Master's degrees:

Master of Philosophy in System Dynamics
Master of Philosophy in System Dynamics
Master of Science in System Dynamics
Master of Science in Business Administration

Read less
Backed by an unparalleled reputation for expertise and innovation in mineral extraction, mineral processing and environmental protection, the graduate program in Mining Engineering has two types of students in mind. Read more

MASTERS OF APPLIED SCIENCE

Backed by an unparalleled reputation for expertise and innovation in mineral extraction, mineral processing and environmental protection, the graduate program in Mining Engineering has two types of students in mind:

Those from industry who wish to improve their workplace skills; and

Those who wish to pursue research leading to advances in state-of-the-art or state-of-the-practice mining and mineral process engineering.

In order to best meet the needs of these two groups, the program encourages interaction between universities in North America and other countries. In many cases, this collaborative outlook leads to joint research projects and student exchanges.

Program Overview

The graduate program in Mining Engineering offers opportunity for study in the fields of mining and mineral processing, including mine environment and coal preparation. Areas of research interest are indicated below.
1. Mining. Mine economics and valuation, mine design, drilling and blasting methods, rock mechanics and slope stability, optimization and simulation of mining operations, advanced mining methods, mine services (particularly mine ventilation), and climatic control.
2. Mineral processing. Unit operations, comminution, process modeling and optimization, expert systems, instrumentation and computer control. Flotation, surface chemistry, fines recovery, coal recovery, treatment of fine and oxidized coal, and precious metals recovery.
3. Mining and Environment. Acid rock drainage, environmental protection, effluent control and treatment. Social and legal aspects of sustainable mining practices, small-scale mining in developing countries.

Quick Facts

- Degree: Master of Applied Science
- Specialization: Mining Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Applied Science

Read less
The Research Master’s specialization in Operations Research prepares students for the PhD programs in fields such as operations management or optimization techniques. Read more

Operations Research

The Research Master’s specialization in Operations Research prepares students for the PhD programs in fields such as operations management or optimization techniques. This Research Master’s specialization in Operations Research is an in-depth study program focused on cutting edge research in Operations Research. A graduated student from this program gains knowledge of and insight in the tools and methodologies of operations research, including optimization, stochastic modeling, simulation, combinatorics, and game theory. Teaching is led by academics that are at the forefront of their fields.

A Research Master student is a part of a select group of finest students from all over the world. It is aimed at ambitious students that want to distinguish themselves. Students follow classes in small groups. This allows intensive interaction with professors who are top-notch researchers, both during as well as outside of classes. This program offers many different courses and students are free to choose most of the offered courses.

Students enrolled in the Research Master program qualify for research positions anywhere in the world.

Several of our Research Master students embark on a 3-year Ph.D. program and later become professors themselves. With their research, discoveries, and insights – expressed through writing, speaking, and teaching – they help shape academic world. Others opt for business practice with international companies and consulting firms.

Career Perspective MSc specialization in Operations Research

If you follow the Research Master's program in Business - be it accounting, finance, information management, marketing, operations research, or organization and strategy - you are prepared to continue in a PhD program. More than 75% of the graduates continue at a PhD position at either Tilburg University or another university. 25% of the graduates start a professional career, mostly in the consultancy or financial sector.

The Research Master's program in Business in combination with the subsequent PhD studies enable our students to find jobs at universities around the world, at research institutes or in the banking and consultancy sectors.

In the PhD phase, most accepted PhD students become university employees earning a gross salary over more than Euro 85000 over three years and are granted pension rights.

Read less

Show 10 15 30 per page


Share this page:

Cookie Policy    X