Master of Science Programs in Engineering

Compare 256 Master of Science Programs in Engineering

Engineering

Pursuing higher education with a postgraduate degree is one of the wisest choices anyone can make for their career. Building on the skills you have already, as well as developing new ones, can allow students to go on to obtain a doctorate or enter a professional level career.

An MSc in Engineering is one of the many different fields a student can choose. These programs combine research and practical application to provide the experience you need. Enter a program in industrial engineering and learn how to work with complex systems, design solutions to problems, and improve existing systems. With areas of study like optimization and decision theory, and integrated design and manufacture, you can familiarize yourself with multiple different areas.

The benefits of completing such a program are many. Students can greatly expand their technical skills, and combine them with new management skills to become confident competitors in the engineering field. These qualifications can open them up to new job opportunities in higher capacities.

Just like each program is different from the next, so too do the costs of each differ. The number of different options, combined with the opportunity for scholarships and loans, can make it easy for anyone to find their best fit.

Engineering skills are applicable in many different career areas, allowing successful students to pick and choose their preference. They can bring new solutions to the world of sustainable energy, save lives with improvements for medical technology, or help keep the world moving in the field of transportation. Nearly any sort of option is open with your new and valuable skills.

Applying for the master's course in the engineering field of your choice can be easy. Many programs allow students to apply online after signing up for a free account, making this first step one of the easiest. With an extensive program listing to reference, anyone can find the best fit for them. Begin the process of obtaining your Master's of Science today with your program of choice. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.

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MSc in Project Management (Construction & Infrastructure)

University of Liverpool Online Programmes
Online Full time Part time Open Enrollment United Kingdom UK Online

The MSc in Project Management (Construction & Infrastructure Specialisation) is designed to give students an understanding of the theory and practice of all fundamental project management disciplines and phases. [+]

MSc Degrees in Engineering. Gain the knowledge, skills and confidence to manage large-scale construction and public complex infrastructure development projects with this fully online MSc in Project Management with a specialisation in Construction and Infrastructure. You will explore project management implications associated with the technical, organisational, financial, and governmental aspects of large projects and the changing external context. Modules include Leading and Managing Project Teams, Project Management in Construction, and Integrated Infrastructure Project Management. The University of Liverpool has been reviewed and approved as a provider of project management training by the Project Management Institute (PMI). All online MSc in Project Management programmes are covered by the University of Liverpool Management School’s AACSB Accreditation. Why choose this online project management masters degree? - You will gain a recognised degree from an internationally respected university, and one of very few management schools to be awarded AACSB accreditation - Effective project managers are more desirable than ever. You will acquire a set of skills that have direct and immediate application across a range of sectors - The curriculum is specifically designed to meet the needs of organisations operating into today’s global multicultural economy - You will be collaborating and sharing best practice with peers from around the world - You will learn with a supportive online environment and benefit from a personalised support programme that will keep you motivated and on track to succeed - You will grow personally and professionally as a leader, reflecting on your progress in a Personal Development Portfolio - The course is taught by internationally respected faculty with a wide range of practical project management experience across a number of sectors [-]

MSc in Supply Chain Engineering and Management

Jacobs University
Campus Full time 2 years September 2017 Germany Bremen

The program aims at educating and training leaders of tomorrows to deal with complex problems using engineering and management skills. [+]

MSc in Supply Chain Engineering and Management

 

The program aims at educating and training leaders of tomorrows to deal with complex problems using management and engineering skills. It is open for all students with a strong interest in the topic who are willing to learn and work hard. Knowledge in related areas is helpful, but no prerequisite. Frequently, students from other disciplines than engineering or business administration are admitted and receive a very good GPA.

Whereas the bachelor program in Industrial Engineering and Management at Jacobs University mainly focuses on production processes, the graduate program Supply Chain Engineering and Management in addition concentrates on describing, analyzing and designing logistics systems and thus supply chains.... [-]


Master of Science Innovation, Creation & Entrepreneurship

EPF Graduate School of Engineering
Campus Full time 12 - 13 months September 2017 France Troyes Montpellier + 1 more

The Master of Science Innovation, Creation & Entrepreneurship was founded from a partnership between Groupe ESC Troyes (School of Management) and EPF Graduate School of Engineering [+]

MSc Degrees in Engineering. The Master of Science Innovation, Creation & Entrepreneurship was founded from a partnership between Groupe ESC Troyes (School of Management) and EPF Graduate School of Engineering together with the Science Park Technopole de l’Aube en Champagne and its 60+ Start-ups. Accredited by the “Conférence des Grandes Ecoles”, this joint programme is open to students with a management, engineering or design background. A JOINT PROGRAMME COMBINING ENGINEERING, DESIGN AND MANAGEMENT This 12/13-month-programme starts with 7 months/two semesters of classes followed by a 5/6-month-internship or personal Business Project Creation. 100% of courses are taught in English. The Master of Science Innovation, Creation & Entrepreneurship is made for tomorrow's managers willing to work in several fields of expertise in a cross cultural environment. ENTREPRENEURIAL CULTURE & BUSINESS GAME Part of the programme aims at providing students with a solid entrepreneurial culture through meetings with Business owners, networking sessions, lectures, workshops and European Commission lobbies. In the course of their 8 months of studies, they will be faced with several sessions of intensive 3-daychallenges given by startups. By the end of the second semester, in order to assess their overall skills, students take part in a Business Game. For a whole week, they are asked to manage and implement an innovative project within challenging scenarios. ORGANISATION OF STUDIES SEMESTERS 1 & 2 The first 2 semesters are dedicated to go deeper in the knowledge of Management with entrepreneurship and innovation-oriented courses. Examples of courses: Economic Intelligence, Monitoring and Research Expert Information Standards and Quality System Engineering, Conception and Numerical Modeling Creating an Innovative Organization Management by Processess Entrepreneurial Team Formation Rethinking and Designing New Business Model Business Plan Achievement Entrepreneurial Finance Design Thinking FINAL PROJECT(5 months at least) The final project is oriented towards innovative entrepreneurship. This project may be fulfilled in a company or dedicated to the creation of a company (start-up): incubation at Technopole de l’Aube en Champagne (Science Park) EXAMPLES OF JOBS Innovative Project Leaders Entrepreneurship and Innovation Consultant Change / Strategic Management Consultant Head of R&D and Innovation Director Entrepreneur ADMISSION Applicants may have attended education programmes in the fields of engineering, management or design. International students must have a Bachelor degree. French students must have capitalized at least 240 ECTS credits (equivalent to 4 years’ higher education) in the course of their previous studies. Selection is based on the quality of the academic background together with a solid personal project. Application of candidates with a significant professional experience may be considered. An Admission Board will consider the applications and may decide for an interview in English to further clarify the motivations of candidates. [-]

Master AeroMat - Innovation Aerospace Materials

Ecole Des Mines D’Albi-Carmaux | EMAC
Campus Full time 2 years September 2017 France Albi

Innovation offers challenging opportunities to students interested in developing careers in the aerospace industry with both technical (innovation) and managerial skills by [+]

Master AeroMat – Innovation “Aerospace Materials: Designing, Manufacturing and Innovation Management” STRONG POINTS OF THE SCHOOL/PROGRAM Mines Albi is accredited by the French Ministry of Industry Télécom Ecole de Management - Evry is double-accredited: AACSB and AMBA Study in Toulouse and Paris regions, the two leading French and European regions for employment and economic activity in aerospace International Faculty Masters taught entirely in English and in small groups Strong links with industry 6-month master thesis in industry or in a research lab Intercultural seminars Free French language courses A MSc program boosted by renowned research departments An international team for international students A quality-chartered “Welcome to International Students” package COURSE OBJECTIVES Innovation offers challenging opportunities to students interested in developing careers in the aerospace industry with both technical (innovation) and managerial skills by: Training high level master students for the future in engineering and innovation management for industry Promoting teaching in close relationships with research most advanced achievements Favouring multi-cultural, multi-physics and multi-scales approaches Providing multi-choices paths for graduation Opening widely to the international dimension Thinking green and fostering a socially responsible innovative industrial spirit PROGRAM This is a full-time program of 2 years divided into four semesters: courses over 3 semesters followed by an internship of one semester in a company or in a research laboratory. The program is composed of 4 teaching units including an integrated and global approach addressing the specificity of the aerospace industrial sector, the materials science and mechanical engineering and the business and innovation management. Skills and competencies acquired will be utilised for the master thesis in a company or a research laboratory. 1. Aerospace engineering Market, technical and economical analysis Architecture, structure and performance of airplanes, launchers and satellites Aerospace project management, quality management, certification and environment rules for sustainable development Aerodynamics and flight dynamics Manufacturing Space techniques and materials in space environment Innovation in aerospace 2. Materials science and mechanical engineering Strategy for selecting & tailoring materials Modelling & simulation in mechanics of materials Physical properties of materials Additive manufacturing Advanced manufacturing processes Diagnosis and control of materials & structures Microsystems Surface engineering Laboratory work 3. Innovation management Principles of management (introduction, business simulation, multidisciplinary team management, soft skills learning, international negotiation) Innovation management (R&T, technology competition models, technology intelligence, organisation & tools, scientific and technological partnership, innovation measure & metrics, intellectual properties, rights & strategy, technology intelligence with patents)) Project management (designing innovation project, response to competitive call for tender, press review) Business management (strategy, value chain, firm network, human resources management, intercultural management, business ethics, supply chain management) 4. MSc Thesis 6-month MSc thesis in industry and/or research laboratory (France or international). The program also includes company visits and seminars. COMPETENCIES ACQUIRED knowledge in basic materials science engineering with a particular attention for research applied to industry, application of the scientific field of materials engineering in the specific field of aerospace structures with an objective of product performance enhancement. understanding of the industrial sector of aeronautics and space in all its technical, economic, organizational dimensions and regulatory issues. understanding of the strategies and methodologies specific to innovation management: management techniques, techniques of lean design, manufacturing and management, communication, change management, performance management, project management, planning techniques, financial analysis and cost management, resource management, risk analysis methods entrepreneurial spirit and an ability to take into account economic, quality, competitiveness and productivity and business requirements ability to lead a complex project in compliance with quality procedures, to take into account the standards and regulation; to develop a sense of responsibility and of decision-making; and an ability to act effectively. a good ability to integrate into real working life, into an organization, to animate and evolve in it: project management, communication ... a strong ability to work in an international context: fluency in English, cultural and international awareness, knowledge of French culture & language good skills in written and oral communication, to present convincingly and argue a case behind an audience, write and present a summary document, communicate and explain decisions economy and society TYPICAL JOBS R & T Operations Manager Engineer with client, supplier and/or research laboratories interfaces Junior Project manager Project procurement/purchasing Lean Management Officer Engineer / Consultant Technology Watch Engineer / Consultant Intellectual Property ACCREDITATION Master accredited by the French Ministry of Higher Education and Research under N°20151031 (july 2015). Opening in September 2016. Master in co-accreditation with Institut Mines-Telecom, Paris - France ENVIRONMENT The economic success of actors in the aerospace industry strongly depends on the ability of companies to develop management strategies for research and development, technology transfer and optimization of the overall manufacturing process. This is a strategic issue in the highly competitive sector of the production of materials and structure for aerospace applications. From a technological point of view, the engineers of tomorrow will develop multi-physics and multi-scale approaches adapted to generate innovation that will emerge at the crossroads of scientific disciplines. In terms of management skills, they will be able to deploy methodologies and implement complex and global organizational processes integrating a multi-cultural dimension to anticipate and accompany the changes due to an ambitious industrial innovation policy. SCHOLARSHIP Scholarships are available depending on academic records and countries of origin (companies, governments, embassies…). Internships are paid and cover living expenses during the last semester. [-]

Master of Science in Aeronautics

Embry-Riddle Aeronautical University Asia
Campus Full time 24 months August 2017 Singapore

Air traffic control personnel, flight crew members, flight operations specialists and technical representatives within the aviation and aerospace industry require a technical skill set. Whether you already work in one of these roles or you aspire to, a Master of Science in Aeronautics (MSA) may help you reach your goals. [+]

Apply for the Master of Science in Aeronautics

Reach new heights in your career with Embry Riddle Aeronautical University Asia. Air traffic control personnel, flight crew members, flight operations specialists and technical representatives within the aviation and aerospace industry require a technical skill set. Whether you already work in one of these roles or you aspire to, a Master of Science in Aeronautics (MSA) may help you reach your goals. Offered jointly by Embry-Riddle Aeronautical University and the Singapore Aviation Academy (SAA), the 36 credit-hour MSA degree program is similar to the Master of Business Administration in Aviation degree but with less of a business and management focus, and more of a technical, operations and safety oriented focus. As some courses are highly technical, more of an aviation background is needed. MSA program highlights Combines solid core classes with unique specializations targeting the Asian aviation and aerospace industry Learn the tools needed to develop, manufacture and operate aircraft and spacecraft Gain a comprehensive understanding of the infrastructure that supports the industry Concentrations in Aeronautics, Safety Systems, Education Technology, Operations, Human Factors in Aviation Systems and Unmanned Aircraft Systems. The benefit of learning from faculty who are experienced industry professionals themselves Already Embry-Riddle’s largest graduate program in the United States, the MSA program is an exciting addition to the Embry-Riddle Aeronautical University offerings in Singapore as it will give students the chance to be prepared for senior-level positions and critical leadership roles demanded in Singapore’s thriving aviation and aerospace industry. This program is offered in blended delivery modes so that you can continue working full time through your enrollment. We merge the convenience of night and weekend courses with diverse learning modes: In-classroom EagleVision Classroom (Web video conferencing between classrooms) Online (from anywhere with an Internet connection) Application Requirements Students must have a Bachelor’s Degree with a minimum GPA of 2.5. Applicants for whom English is not the primary language must either: Attain a minimum score on the Test of English as a Foreign Language (TOEFL) of 550 (paper-based) or 79 (Internet-based). Attain a minimum score on the International English Language Testing System (IELTS) of 6.0. Show evidence of attendance and graduation from a secondary school in which the language of instruction was English. International students should visit Singapore’s Immigration and Checkpoints Authority (ICA) FAQ website for information on the issuance of a student pass/student visa. All student pass requirements will be shared with students when an admission decision is made by the university. Official/Attested copies of documents listed above should be mailed to Embry-Riddle Aeronautical University, Office of Enrollment Management, 75 Bukit Timah Road, #02-01 Boon Siew Building, Singapore 229833. Alternatively, students may make an appointment to bring original documents in so that an official copy can be made. On the next page, please correct the following: Duration Part-Time Students can expect to graduate 24 months after they start the MSA degree program. Intake/Start Dates Students can start the MSA degree program in January, June or August. Price/Fees $952 per credit. To graduate, students need to complete 36 credits, SGD 34,272 + 7% GST Deadline Rolling admission throughout the year ... [-]

Part-Time Master of Science in Composites

PFH Private University of Applied Sciences
Campus Part time 3 semesters October 2017 Germany Stade

The Master's degree in "Verbundwerkstoffe/Composites" is intended for engineers and graduates of mathematics and natural sciences with professional experience, who would like to gain a qualification in the area of composites via the professional development route. The particular focus of the study programme is on both carbon fibre-reinforced plastics (CFRP, colloquially known as "carbon") and glass fibre-reinforced plastics (GFRP). [+]

PFH Hansecampus Stade/Hamburg Verbundwerkstoffe/Composites Master of Science (M.Sc.) The Master's degree in "Verbundwerkstoffe/Composites" is intended for engineers and graduates of mathematics and natural sciences with professional experience, who would like to gain a qualification in the area of composites via the professional development route. The particular focus of the study programme is on both carbon fibre-reinforced plastics (CFRP, colloquially known as "carbon") and glass fibre-reinforced plastics (GFRP). The course is structured as a total of four block units, each of 17 days' duration, and a weekend course. You can complete the study programme either in German or in English. A Master's qualification will open up the best possible career prospects, with the CFRP branch of the economy alone being forecast to grow by 10 percent a year. The high demand for specialists in composites is therefore bound to continue to increase in future. Your Benefits Study programme unique in the whole of Europe Best possible career prospects in aircraft construction, automotive engineering, machine construction, wind turbine construction and many other industries Professional development study programme in block and weekend courses Up-to-date content provided by professors with practical experience Collaborative partners like Airbus, DLR and Fraunhofer Institute in the immediate neighbourhood of the campus Selected management content in the study programme Individual supervision in small learning groups Professional Development Specialisation in the Key Technology Field of CFRP The University offers the professional development engineering programme, leading to a Master of Science (M.Sc.), in "Verbundwerkstoffe/Composites" at PFH Hansecampus Stade. It is accredited by the Accreditation Agency ASIIN and state-recognised. The study programme extends over three semesters, is worth a total of 60 ECTS and contains seven modules that have been coordinated in terms of content. In the first and second semester of the study programme taught in German, you will attend one two-week and one one-week block of courses as well as five weekend courses. In the study variant taught in English, you will complete a total of four block units, each of 17 days' duration, and a weekend course. In addition, blended-learning aspects accompany the study programme. The third semester in both study variants is reserved for the Master's thesis and oral defence . This split ensures that you can coordinate study programme and simultaneous professional activity optimally. Study Content The first two semesters are given over to theoretical consolidation of the engineering science content, focusing particularly on the conceptual and structural design of fibre composites, partially/fully automated manufacturing processes and process optimisation. You will also obtain extensive knowledge about designing multi-functional composites and implementing intelligent fibre composite structures. Business Administration content, such as Internal Accounting & Controlling (in the context of a business simulation game), Innovation and Strategic Management, are also integrated into the first semester. Finally, in the third semester, you will work on your Master's thesis, with the oral defence of which you will complete the study programme leading to a Master of Science. Career Prospects The Master of Science in Verbundwerkstoffe/Composites will give you a cross-industry qualification enabling you to undertake management tasks in activities related to fibre composites. It will, for example, open up excellent career prospects in aircraft construction, automotive engineering, machine construction, ship und yacht building, railway vehicle and wind turbine construction. Entry requirement Completed higher education course of study in engineering sciences or an above-average higher education qualification in natural sciences and at least one year's professional experience. Application procedure Written or online application personal interview, where applicable Application deadline Possible to apply at any time Application documents Letter of application, cover letter, tabular curriculum vitae, copies of all official graduation certificates from all higher education institutions and training centres, a letter of recommendation from the higher education, research or corporate sphere, application form specific to PFH Tuition fees 5,940 euro per semester 520 euro admin fee (waived for EU citizens) 420 euro enrolment fee (non-recurring) 1,000 euro examination fees (once per study programme) [-]

Master in Manufacturing Systems Engineering and Management (MSEM)

The University of Warwick, Warwick Manufacturing Group WMG
Campus Full time Part time 1 - 3 years October 2017 United Kingdom Coventry + 1 more

This course will provide you with up-to-date knowledge of manufacturing techniques and processes plus applications of technology and quality tools and techniques to improve operations in the organisation. [+]

MSc Degrees in Engineering. The MSc in Manufacturing Systems Engineering and Management is designed for engineering graduates interested in manufacturing systems and operations management. It is suitable for engineers working in industry who want to make the transition to engineering manager and is also suitable for graduates with little or no work experience. This course will provide you with up-to-date knowledge of manufacturing techniques and processes plus applications of technology and quality tools and techniques to improve operations in the organisation. You will develop an understanding of the concepts of manufacturing systems engineering, product and process development with an awareness of strategic management and operations. Course structure: The course is modular - each student takes a combination of core and elective modules. 9 modules are studied and assessed in total. Modules consist of nominally 40 hours directed tuition in the form of lectures, seminars, group work, presentations, case studies and e-learning. This is covered in a full-immersion, intensive week. Modules are assessed by Post Module Assignment - this is typically a further 40 -60 hours of work. The taught modules account for 50% of the Master's degree. A major individual research project, submitted in the form of a dissertation accounts for the other 50%. This should take approximately 900 hours of study time. An oral examination is held upon completion. The core modules for this MSc include: Logistics & Operations Management Project Planning, Management and Control Industrial Engineering Manufacturing Process Technology Operations Strategy for Industry Problem Solving with Statistics Quality, Reliability and Maintenance And one module from: Automation and Robotics Machining Technology Advanced Manufacturing Processes The Virtual Factory plus one elective module can also be chosen - a full list of elective modules is available on the website. Project The project that is worth 50% of the overall grade and supports you in developing your personal research skills. Projects for students on Manufacturing Systems Engineering should be centred around manufacturing systems or manufacturing technologies and their management. Accreditation The MSc in Manufacturing Systems Engineering is accredited by The Institution of Engineering and Technology (IET) as fulfilling the educational requirements for registration as a Chartered Engineer when presented with a CEng accredited Bachelors programme (or equivalent prior learning). Note that in all cases your MSc project must be suitably technical in nature and specific modules must be undertaken within the course. Please see our website for details and conditions. After you Graduate Graduate from this course can expect to be employed as leaders in general engineering management and manufacturing engineering management. [-]

MSc in Engineering Management

University of Nicosia
Campus Full time Part time 3 semesters September 2017 Cyprus Nicosia Greece Athens + 3 more

Enable graduates to meet existing challenges and create competitive advantage in technology organizations. [+]

Duration (years): 1.5 Years Qualification Awarded: Master of Science in Engineering Management Level of Qualification: Master Degree (2nd Cycle) Language of Instruction: English Mode of Study: Full-time or Part-time Minimum Credits: 36 Minimum ECTS Credits: 90 Profile of the Programme: The general objectives of the program are to: 1. Enable graduates to meet existing challenges and create competitive advantage in technology organizations; 2. Provide students with critical analytical skills, decision making approaches and targeted management competences to successfully assess risks, complete technology projects, efficiently run engineering teams, and create innovative products and services; 3. Develop skills for effective communication with co-workers, managers, and the public on topics related to technical concepts, risks, and recommendations; 4. Assist future entrepreneurs in Science and Technology unfold their full potential towards launching successful business initiatives. Career Prospects: For Engineers currently employed in the private, public and semi-public sectors Technical entrepreneurs Managers of engineering and technology organizations Business consultants Human resource managers Product development designers Access to Further Studies: Graduates of the programme can be accepted into Third Cycle degrees (Doctorate Degree) [-]

MSc in Oil & Gas Engineering

International Studies Ltd
Online & Campus Combined Full time Part time 1 year February 2017 United Kingdom London UK Online + 2 more

Oil & Gas Engineering is a field of engineering concerned with the activities related to the production of hydrocarbons, which can be either crude oil or natural gas. Exploration and manufacturing activities are the oil and gas industry's two main disciplines: they focus on maximizing economic recovery of hydrocarbons from subsurface reservoirs and on their processing, distribution and transportation. [+]

MSc Degrees in Engineering. The Meaning of Oil & Gas Engineering Oil & Gas Engineering is a field of engineering concerned with the activities related to the production of hydrocarbons, which can be either crude oil or natural gas. Exploration and manufacturing activities are the oil and gas industry's two main disciplines: they focus on maximizing economic recovery of hydrocarbons from subsurface reservoirs and on their processing, distribution and transportation. The Skills of Oil & Gas Engineers Oil & gas engineers locate, recover, and maintain the world's oil and gas supplies. First of all they are the innovators who use cutting-edge technology to create new methods of discovering and drilling for oil. Besides, as industrial specialist, oil & gas engineers work directly for pressure systems manufacturers, petrochemical corporations, materials processors, large construction contractors, large industrial product consumers or the wholesale distributors that service these industries. Although there are various job descriptions, oil & gas engineers all serve one function-to provide the world with energy, while safeguarding the environment for future generations. The Workplace of Oil & Gas Engineers Oil & gas engineers often work on offshore drilling platforms, in oil fields and reserves and in distributing plants around the world. Some of the duties include recording and updating information on all drilling and processing activities, ensuring compliance with laws and regulations, determining the most productive locations, taking responsibility for safety and efficiency, ensuring well maintenance, interpreting results, ensuring efficient well flow, overlooking the removal of all waste and equipment from drill sites, designing pressure systems for the storage and distribution of oil and gas. Most careers involve a combination of office-based and advanced, computer-oriented technology work. Plus, oil & gas engineers typically have numerous opportunities to travel across the globe for a variety of work-related projects. The world will always need energy. Oil & gas engineers must answer the call to find innovative technologies and new resources to meet the increasing demands for energy: they will also lead the way into the future and will have the opportunity to truly make a difference. This is an exciting and unique time to join the industry. Our Study Plan in Oil & Gas Engineering This university program in Oil & Gas Engineering aims at giving a thorough analysis and understanding of problems, challenges and solutions associated with all parts of the supply chains dealing with the oil and gas industry, on-shore as well as off-shore: petroleum fundamentals and exploration, reservoir characterisation, reservoir engineering and simulation, well engineering, purchasing, production planning, design of pressure systems, unconventional resources, inventory management and downstream distribution planning, energy economics management and risk analysis. Along with knowledge of a broad range of logistics topics, the program gives an understanding of the energy situation in the world comparing existing renewable energy sources, as well as non-renewable sources both in terms of costs, qualities and availability. The candidates will use a mixture of lectures, tutorials, laboratory sessions and project work and in addition they spend significant time in our laboratories, as well as in private study directed by lecturers. Place This course can be supplied completely online or in blended mode (online and classroom) in London Start date February 2017 Duration 1 year Price 5.500 GBP (study material, tutoring and use of daily facilities included) [-]

MSc in Engineering – Technology Based Business Development

Aarhus University
Campus Full time 2 years September 2017 Denmark Herning

Businesses today face issues of rapid innovation and change that have led to increased demand for graduates with a thorough understanding of engineering practices, and of new support technologies for business model innovation. On the MSc in Technology Based Business Development you will learn to collect, generate, understand and assess new technological knowledge, new business opportunities and new central technologies for companies. [+]

PROBLEM-SOLVING IN A REAL-LIFE CONTEXT Businesses today face issues of rapid innovation and change that have led to increased demand for graduates with a thorough understanding of engineering practices, and of new support technologies for business model innovation. On the MSc in Technology Based Business Development you will learn to collect, generate, understand and assess new technological knowledge, new business opportunities and new central technologies for companies. PROBLEM-SOLVING IN A REAL-LIFE CONTEXT During the first and second semesters, the MSc programme applies theories, models and concepts to real-life problems. These first two semesters give you the opportunity to work on assignments that originate with a company and may also be carried out within the same context. In the third and fourth semesters, students can intensify their engagement with a company so that most of their credits are gained in the corporate environment. The company could also be the student’s own start-up company within the framework of our business incubator. QUALITY TEACHING IN AN INFORMAL SETTING The MSc in Technology Based Business Development is dedicated to the highest-quality teaching in an informal and egalitarian learning environment. Teaching is conducted as a combination of traditional lectures, teamwork, individual study, and empirical investigations using observation and interviews. Collaborating in small groups on projects gives students the chance to make the most of the international student environment. CAREERS Graduates will be able to generate innovative product concepts, business concepts and business areas. The Technology Based Business Development programme is an excellent foundation for a career as an innovation manager, technical sales manager, product manager, business developer or R&D project manager. “Thanks to my education and experience, I am now a technical documentation coordinator. I work with the latest technologies and their implementation in the wind power market. The programme at Aarhus BSS prepared me for my current position by giving me a strong foundation for a broad understanding of different technologies and the various ways they can be implemented. In addition, the programme gave me even more than I expected - it enriched me not only as a professional but also as a person. Therefore, I highly recommend it to anybody interested in technology implementation.” ZHENI VALCHANOVA MSc in Engineering – Technology Based Business Development, from Bulgaria Technical Documentation Coordinator at Siemens Wind Power [-]

Master of Science, Electrical Power Engineering

University College of Southeast Norway
Campus Full time 2 semesters January 2017 Norway Porsgrunn

Do you want to explore the technology behind sustainable energy solutions, as well as how to regulate energy supply that is based on hydro power? Become an expert in hydro power and power supply! [+]

MSc Degrees in Engineering. Master of Science, Electrical Power Engineering Do you want to explore the technology behind sustainable energy solutions, as well as how to regulate energy supply that is based on hydro power? Become an expert in hydro power and power supply! Sustainable energy use in the future requires greater focus on electricity as energy carrier. Our master program is anchored in hydro power, which is the most effective form of renewable energy. Hydro power is also easy to regulate, which means that the social value of hydro power is higher than that of many other power sources. Considerable challenges have arisen in the further development of the power system in Norway and elsewhere through the introduction of greater amounts of unregulated energy production, such as small-scale production of hydro, wind and solar power. The various subjects of this master program will together provide a good overview over how electrical power systems are constructed and operated. The necessary design requirements for equipment and quality control (voltage quality) of the general energy supply are included in the studies. Central topics of the program deal with control technology to ensure safe operations of a power system and to deliver the required quality of power supply. The academic content is balanced to allow the candidates to work on both operating and rehabilitating/renewing existing systems, as well as developing Smart Grid and similar solutions so that business can run in a “socially responsible way”. Where can I work? With a master’s degree in Electrical Power Engineering you can work in power production, power transmission and distribution, larger industrial enterprises, supply industry for electric equipment and in consulting engineering. Would you like to continue your studies within electrical power technology? With a master’s degree you are also qualified for teaching as well as PhD-studies in Norway and abroad. [-]

HEI - Master of Science and Engineering Smart Cities

Ecole des Hautes Etudes d'Ingénieur
Campus Full time 2 years September 2017 France Lille

The HEI Master of Science and Engineering Smart Cities proposes a positive response to the growing demands of increasing urban densification, worldwide, urban centers suffering from insufficient planning and infrastructure, Responsible Social Development, at all levels economic and environmental. [+]

Academic context In September 2016, the 2 year, HEI Master of Science and Engineering Smart Cities (English as teaching language), designed for International Students, having obtained Bachelor of Science in an appropriate field and a level in French of B1 or equivalent, will open. The HEI Master of Science and Engineering Samrt Cities is also open to French Nationals residing in France or abroad, is accredited by the French Government. Professional Context The HEI Master of Science and Engineering Smart Cities proposes a positive response to the growing demands of increasing urban densification, worldwide, urban centers suffering from insufficient planning and infrastructure, Responsible Social Development, at all levels economic and environmental. The HEI Master of Science and Engineering Smart Cities Smart Cities carries viable solutions in transportation, housing, energy, planning, zoning and management plus the various services in quality and environmental conservation. New career paths and organisations required by these major changes see trained Engineers to assist businesses, local and National authorities and organisations in addressing these challenges and to resolve the stakes imposed by design, construction and management and sustainable urban centers. Objectives: HEI Master of Science and Engineering Smart Cities, offered in English over 2 years, enables students to gain capacity and professional skill in Sustainable Urbanism, Sustainable Building, Energy, Economy and Environmental Management. 2 Professional paid internships of 7 to 9 months complement interactive learning and job experience. Internships are offered in France and throughout the World, for Graduates to quickly launch their professional career. Professional Opportunities: Employment opportunities for Engineers, Managers, Consultants, Private and Public Sectors, NGO’s and other employeers inf ields such as: Building and energy efficiency, Renewable and Alternative energy, Sustainable building construction, Home Automation, Air, Soil and water quality restoration and conservation, Waste management, Environmental management … Program: The HEI Master of Science and Engineering Smart Cities provides the knowledge and skills for a career in the fields of energy, habitat and environment. Successful engineers are both Manager and Technically Competent, to achieve Professional goals. Typical Jobs and Comptence: Sustainable Urbanism, Sociology, Eco-district, Smart-Cities, Transport, Mobility and Ubiquity … Sustainable Buildings, Eco-renovation, Building Information Modeling, Sustainable habitat, Home automation, Lighting, Labels and Certification … Energy, Renewable Energy, Smart Grids, Power Production and Storage … Environment, Water management, Waste management, Air, Water and Soils quality… Economy, Life Cycle Assessment, Circular Economy, Third Industrial Revolution … Social and Humanities, Personal, Professional Development, Intercultural, French, Leadership, Teamwork … Engineer Common Core, Physics, Mechanics, Information Systems, Electricity, Automation, Quality Management, Management and Organization of Companies, Innovation … Professional Experience, Internship year 1 (HEI 4), 4 months in France or International + Internship year 2 (HEI 5), 6 months in France or International. Admissions: Application Form must be received before Deadline : 27th, April 2016. Submit in attachment files all Transcripts, CV, letters of motivation and recommendation. Successful interview in person or at a distance. Minimum Bachelor of Sc. or equivalent. GPA 3.0 or superior. English: B2, equivalent or proven proficiency: BULATS 65 ,TOEIC 750 French: B1, equivalent or proven proficiency. Fees: 10.000 € / year Starting date: September 2016 Key points: Program delivered in English. Accelerated Language and Cultural Training in French and English. Lille, France. 7 to 10 months of internships in France and Interational. HEI is a member of Group HEI ISA ISEN: 3800 students, 24500 Alumni, 25 accredited laboratories, 280 Academic Partners, 3500 industrial partnerships. HEI is a member of the Catholic University of Lille: 25500 students, 160 Fields of Study, 6 Faculties, 20 Schools and Institutes. All Diplomas are accredited worldwide.   Added extras: Welcome package: At HEI, we place particular emphasis on hosting and integrating international students, starting before their arrival in Lille and throughout the HEI Master of Science and Engineering Smart Cities. We assist you with all administrative steps such as mobile telephone set up, Internet connection, administrative formalities, health and insurance… Professional package: For HEI, knowledge acquisition in order to become an engineer is only one part of the student’s training. Another part involves giving them the keys to succeed in their professional integration. HEI, Ecole des Hautes Etudes d’Ingénieur: In 1885-1886 HEI was founded in Lille, by the Industrial Leaders of Northern France, to meet their engineering needs. HEI has since extended activities to the training of polyvalent engineers, open-minded to the world, humanistic in their managerial approach with the added plus of an international and intercultural profile. Some 125 years later, the school continues to pursue this mission through three core activities: the training of engineers and executives, industrial applied research and development and the provision of extension services to the business world including technology transfer. Since the creation of the school, these dimensions have defined the identity of HEI. We coach each student, personally, in the design and realization of his or her personal and professional project, enhancing learning outcomes in line with the needs, expectations and requirements of the global economic world. HEI, is at the service of the private business and industrial sectors, revealing individual talents and insight, fostering innovation, developing competency and creating competitive advantage. HEI is a founding member of the HEI ISA ISEN Group, inaugurated in 2012. 6 reasons to come to HEI: 1. AN ACCREDITED DEGREE OF ACKNOWLEDGED PRESTIGE Our graduates are renowned as HEI engineers throughout all areas of specialization, due to the reputation HEI carries with the leading companies in France and worldwide. HEI engineers are capable of efficiently resolving complex problems and are at ease in carrying out complex tasks in a clear, systematic manner, within budget. They are also well versed in teamwork, organization and structure, leadership, and project management, with clear, precise communication skills. They are sought after for these skills and also their humanistic and multi-cultural approach to project management and problem solving. 2. IMMEDIATE JOB PLACEMENT IN TOP POSITIONS Our students are often recruited prior to finishing their studies. Some of the top companies which hire our students in France or abroad are: Saint-Gobain, Schneider Electric, Colas, Vinci, Bouygues, Eiffage, EDF, Rabot Dutilleul, Areva, Veolia, Cap Gemini, Thompson and more than 2300 others throughout the world. 3. CLOSE INTERACTION WITH STUDENTS, PROFESSIONAL PROSPECTS Each of our future engineers is accompanied throughout their personally developed training program. All students are advised on a one-to-one basis, allowing them to successfully complete the engineering program of their design, both in terms of polyvalence and practical specialization. Successful engineers immediately take on management responsibilities within industry, or choose to further develop their skills in graduate school completing Master degree and/or PhD. training. All students, faculty members and post-doctoral staff contribute to an active international research program. 4. RESEARCH AND DEVELOPMENT: A CORE ACTIVITY R&D is organized into 4 areas of expertise on which HEI’s reputation has been built: Electrical Power Networks and Intelligent Transport Innovative Materials Sustainable Health and Chemistry, Energies, Building and Environment. 5. COOPERATION WITH THE BUSINESS COMMUNITY Relationships with industry are in fact our driving force in every aspect of our activities : teaching and class work, various training periods, Eleven Week Projects, many forms of internships, industrial projects, industrial and private sector involvement on-campus and in our curricula as well as through recruitment fairs. 6. WORK PLACEMENT AND INTERNATIONAL EXPERIENCE HEI engineers possess strong practical experience; all courses are highly industrial business world oriented. Students must spend three separate periods, during their studies in industry and must also undertake an industrial study/research project within a company or university research laboratory. In addition all students undertake an international experience during their studies within this framework or within the context of an exchange program. [-]

Msc Course in Electronics and Communications Engineering

University of Siena
Campus Full time 2 years October 2017 Italy Siena

The Master's Degree in Electronics and Communications Engineering aims to form a graduate with advanced skills in processing and information-transmission systems of and to provide more specific knowledge in the design of devices and electronic systems. It provides the skills and methodological tools needed to design and develop systems for signal and image processing, antenna design, microwave systems and devices, analog and digital electronic design with applications in the fields of electronics, telecommunications. [+]

MSc Degrees in Engineering. Language: English (Level B1 required) Numerus clausus: No Double degree: Universidad Carlos III - Madrid (Spagna) The Master's Degree in Electronics and Communications Engineering aims to form a graduate with advanced skills in processing and information-transmission systems of and to provide more specific knowledge in the design of devices and electronic systems. It provides the skills and methodological tools needed to design and develop systems for signal and image processing, antenna design, microwave systems and devices, analog and digital electronic design with applications in the fields of electronics, telecommunications. The program provides methodologies of advanced mathematical calculus, in particular functional and complex analysis, in order to introduce the necessary tools to model and formalize the solutions of complex information engineering problems. Study plan 2015/16 first year Advanced digital image processing 9 ECTF Reliability and design for safety 6 ECTF Analog circuit design 6 ECTF Microwave and optical engineering 9 ECTF Networking 6 ECTF Mathematical methods for engineering A 6 ECTF Statistical signal processing 6 ECTF Antennas and propagation 9 ECTF Altre attività per ulteriori conoscenze linguistiche (Inglese livello B2) 3 ECTF second year Digital communication 9 ECTF Information theory 6 ECTF Tirocinio 9 ECTF Prova finale (tesi) 18 ECTF Tre insegnamenti a scelta dal seguente gruppo (per un totale di 18 ECTF): Design of application and services 6, Electric system and energy market 6, Industrial measurements laboratory 6, RFID technologies 6, Communication technologies for energy 6, Mobile communications and security 6,Multimedia security 6, Sensors and microsystems Application: In order to apply to the 2016/17 academic year you will have to send all your documents to the Academic Committee of the course you are interested in for the evaluation and you will be able to do that (approx. from mid January 16 on) through an online platform that you will find by filling in the form on this page. For second cycle (laurea magistrale) degree programs taught in English (documents must be submitted in English) - evaluation form (please note: the form must be completed in all parts) - curriculum vitae - transcript of records of the first cycle degree possessed - certificate of proficiency in English, with language level - copy of passport or identity card Fee: Tuition fee for the MSc courses can be up to around 2000 euros per academic year but part of the fee is based on your family income and students are required to produce an official declaration of the economic status of the family unit for the previous year issued by the home country tax office, legally translated into Italian with the Embassy/Consulate duty stamps. Tuition fees have to be paid in three different moments: the first part when you complete the enrolment procedure, the second in January, the third part in May. Scholarship and accommodation Scholarship and accomodation are not granted by the University itself but by the DSU and are based on family income and merit. Call for scholarship and accomodation is usually out in the month each year so we advice you should keep an eye on their website www.dsu-toscana.it Contacts International Place - Sportello integrato internazionale Università di Siena Via Banchi di Sotto, 55 53100 - Siena (Italia) Tel. +39 0577 232293/2034 e-mail internationalplace@unisi.it Facebook Fan Page: International Place Università di Siena [-]

Master of Science - Satellite Engineering

UIT The Arctic University of Norway
Campus Full time 4 semesters January 2017 Norway Narvik

The master program in Satellite Engineering is applicable for students with interest in learning, developing, and applying state-of-the-art technology for space-related purposes. This type of technology has also large similarities with technologies for other extreme environments, such as in arctic regions and subsea, and students with interest in development of technologies in such fields will also find this program as relevant. [+]

Spacecraft has evolved into an invaluable tool for our society through applications within areas such as environmental, monitoring, metrology, communication and navigation. To exploit space to its fullest, spacecraft must be optimally designed, constructed and utilized, requiring the knowledge for several engineering fields. The master program in Satellite Engineering is applicable for students with interest in learning, developing, and applying state-of-the-art technology for space-related purposes. This type of technology has also large similarities with technologies for other extreme environments, such as in arctic regions and subsea, and students with interest in development of technologies in such fields will also find this program as relevant. The master program in Satellite Engineering at IVT-faculty, UiT Narvik Campus provides a unique education in Norway, where you as a student will learn about the most relevant technologies necessary for design, construction, and utilization of satellites as spaceborne platforms for various purposes. Through the two-year program, important theoretical preliminaries such as applied mathematics, communication, digital system and signal theory, real-time systems, microprocessor-technologies, navigation and automatic control are covered, as well as more specialized topics on rocket dynamics, spacecraft propulsion, guidance and control. Through a multidisciplinary program, students learn the relevant methods and skills in various technological fields, with a commonality through its application in space-related systems. The program involves lectured courses, as well as a high degree of problem-based education (i.e. learning-by-doing), where the students spend their time working on relevant projects under supervision of a highly qualified staff. The project topics are chosen from current and future national and international space projects, which UiT participates in, as well as ongoing internal research projects. Therefore, several projects has ended in results at a high international level, published in international scientific journals. The students have also been able to present their results for international audiences at scientific conferences and workshops. In the last few years, such projects have included: Attitude determination and control system design for the European Student Earth Orbiter (ESEO) and European Student Moon Orbiter (ESMO) spacecraft under the SSETI-project (http://www.sseti.net/) initiated by the European Space Agency (ESA). Development of an Aerosol detector rocket payload for collection of ionized dust particles, under the ESPRIT project (http://spirit.ee.psu.edu/spiritiii/home.html) initiated by NASA. Ground station and electric power supply development in the Norwegian student satellite projects NCube 1 and NCube 2. Design, implementation and testing of all subsystems (ground station, power supply, data handling, control, communication and payload) in UiTs own spacecraft HiNCube (http://hincube.hin.no/). Mathematical modelling, synchronization and coordinated control of small spacecraft in formation, in cooperation with internal PhD-students and supervisors. Mathematical modelling, guidance and control of unmanned aerial vehicles (UAVs), in cooperation with internal PhD-students and supervisors. To provide a high-quality education with relevance to industry, UiT is cooperating with the national universities in Oslo (UiO), Bergen (UiB), Trondheim (NTNU), as well as European Space Agency, Norwegian Space Centre and the Norwegian Centre for Space-related Education (NAROM). UiT has also a policy for advocating international cooperation, and several students have over the last years performed (parts of) the master project at well-known universities abroad. Learning outcomes Knowledge: has advanced knowledge within the academic field of mathematics, physics and engineering and specialized insight in a limited area within the field of satellite engineering has thorough knowledge of different theories and methods in the field of satellite engineering can apply knowledge in communication, electronics, automatic control and systems engineering to areas within satellite engineering can analyze academic problems within satellite engineering on the basis of the history, traditions, distinctive character and place in society of the academic field Skills: can analyze and deal critically with various sources of information and use them to structure and formulate scholarly arguments can analyze existing theories, and interpretations in the field of satellite engineering and work independently on practical and theoretical problems can use relevant methods for research and scholarly work in an independent manner can carry out an independent, limited research or development project under supervision and in accordance with applicable norms for research ethics can develop the cooperation skills to work in inter-disciplinary projects and to work in team General competence: can analyze relevant academic, professional and research ethical problems can apply the knowledge and skills within satellite engineering in new areas in order to carry out advanced assignments and projects can communicate extensive independent work and masters language and terminology of the academic field of satellite engineering can communicate about academic issues, analyses and conclusions in the field of satellite engineering, both with specialists and the general public can contribute to new thinking and innovation processes Admission requirements To be applicable for the master program in Satellite Engineering, you must have a bachelor in engineering, primarily within electronics or space technology, but it may also be within related fields such as automatic control, communications, power electronics or computer science. You must however have a sufficient background in electronics and communications. There is also a requirement of 30 points with preliminaries in mathematics/statistics, equivalent to the Norwegian courses Mathematics 1, 2, and 3, as well as Statistics. Teaching and assessment Teaching and Learning Methods The program involves lectured courses, as well as a high degree of problem-based education (i.e. learning-by-doing), where the students spend their time working on relevant projects under supervision of a highly qualified staff. The project topics are chosen from current and future national and international space projects, which UiT participates in, as well as ongoing internal research projects. In the last few years, such projects have included: Attitude determination and control system design for the European Student Earth Orbiter (ESEO) and European Student Moon Orbiter (ESMO) spacecraft under the SSETI-project (http://www.sseti.net/) initiated by the European Space Agency (ESA). Development of an Aerosol detector rocket payload for collection of ionized dust particles, under the ESPRIT project initiated by NASA. Ground station and electric power supply development in the Norwegian student satellite projects NCube 1 and NCube 2. Design, implementation and testing of all subsystems (ground station, power supply, data handling, control, communication and payload) in UiTs own spacecraft HiNCube (http://www.hincube.com/). Mathematical modelling, synchronization and coordinated control of small spacecraft in formation, in cooperation with internal PhD-students and supervisors. Mathematical modelling, guidance and control of unmanned aerial vehicles (UAVs), in cooperation with internal PhD-students and supervisors. To provide a high-quality education with relevance to industry, UiT is cooperating with the national universities in Oslo (UiO), Bergen (UiB), Trondheim (NTNU), as well as ESA, Norwegian Space Centre and the Norwegian Centre for Space-related Education (NAROM). UiT has also a policy for advocating international cooperation, and several students have over the last years performed (parts of) the master project at well-known universities abroad. Form of assessment Through the two-year master program in Satellite Engineering, the students are evaluated in both theoretical knowledge and engineering skills. This evaluation is performed based on written or oral exams, in addition to written reports and presentation of project results. The program aims at being international and research-based, and the students will therefore acquire state-of-the-art technological competence, and be able to deliver research results on an international level. Exchange possibilities It is possible to study parts of the master program at other universities. An individual plan must be made in accordance with the program coordinator. Job prospectives Successfully qualified candidates can acquire jobs in a range of Norwegian businesses which contribute technical products and services within satellite technology. Companies such as Andøya Rocket Launch Centre (ARS), Tromsø Satellite station, Kongsberg Spacetec, Kongsberg Defence & Aerospace, Nammo Raufoss and Norspace are among the interesting work places for our Masters candidates. Access to further studies After graduation from the master program in Satellite Engineering, the candidates may pursue PhD studies at UiT campus Narvik, in collaboration with i.e. the University of Science and Technology in Trondheim or other faculties at University of Tromsø within fields such as engineering cybernetics, communications or aeronautics. [-]

Master of Engineering/Master of Science in Sustainable Engineering

Rochester Institute of Technology (RIT)
Campus Full time Part time 2 years September 2017 USA Rochester + 1 more

Master degree in Sustainable Engineering at RIT equips engineers with the tools they need to meet the challenges associated with delivering goods, energy and services through sustainable means. [+]

Program overview

RIT offers two graduate programs in sustainable engineering. Sustainable engineering refers to the integration of social, environmental, and economic considerations into product, process, and energy systems design methods. Additionally, sustainable engineering encourages the consideration of the complete product and process lifecycle during the design effort. The intent is to minimize the total of the environmental impacts across the entire lifecycle while simultaneously maximizing the benefits to social and economic stakeholders. The programs are multidisciplinary and are managed by the industrial and systems engineering department.

The master of science and the master of engineering degrees in sustainable engineering build on RIT’s work in sustainability research and education. Both programs offer students the flexibility to develop tracks in areas such as renewable energy systems, systems modeling and analysis, product design, and engineering policy and management. Both programs are offered on campus, and both are available on a full- or part-time basis.... [-]