Part time Masters Program in Engineering

Best Part time Master Degrees in Engineering 2017

Engineering

In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.

Improvements made to manmade things such as tools, structures and machines are largely due to the efforts of people in the field of engineering. These people combine creativity with mathematics and worldly knowledge, resulting in innovation.

 

Part time Masters in Engineering

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Master Control Systems Engineering

HAN University of Applied Sciences
Campus Part time 16 - 18  September 2017 Netherlands Arnhem

HAN's Masters course in Control Systems Engineering provides you with cutting-edge knowledge and techniques that can be directly used in an industrial [+]

Best Part time Master's Programs in Engineering. Applying knowledge to the industrial environment HAN's Masters course in Control Systems Engineering provides you with cutting-edge knowledge and techniques that can be directly used in an industrial environment. Complex processes require advanced control systems. This Masters course focuses on advanced regulating systems used in industry, such as optimal and model predictive control devices and multi-variable non-linear control devices. You also learn about the latest methods of statistical analysis. Upon graduation you will be ready for a specialised career in systems engineering. Cooperation with companies and other universities Associated large industries and specialised companies all acknowledge the constant need for control systems engineers with a Masters qualification. This is reflected in the support given by companies like DNV GL (KEMA), Shell, IPCOS, OMRON, SKF and Tatasteel, who share their knowledge by providing trainers and facilitate many of our major projects and excursions. HAN also cooperates with other institutes and universities, such as Delft University of Technology, Wageningen University, Eindhoven University of Technology and Artemis/Edulab. As a result, teaching and laboratory facilities can be shared and students can benefit from guest lecturers. This also enables the level and content of the course to be continuously monitored. The course is recognised and supported by the Royal Institute of Engineers in the Netherlands. International focus This course is unique in the Netherlands in that it focuses on the translation of skills and knowledge taught at university to the real world. Many of our graduation projects are carried out in association with multinational companies and the course itself has a truly international focus with students from all over the world. Master of Engineering in Control Systems Students completing the course with a graduation project (thesis) will be awarded the title Master of Science which is acknowledged worldwide. Completion of the course curriculum (without thesis) will entitle you to a postgraduate certificate. Full-time or part-time course taught in English The Masters course in Control Systems Engineering is taught entirely in English. You can combine your work and studies by choosing the part-time option. If you opt for studying full-time in the Netherlands, we will help you find a work placement position. Entry Requirements Applicants for this course need a Bachelors degree in Engineering or a related technical discipline, with a GPA of 2.8 or higher based on a 4.0 scale. Sufficient level of English As well as having a Bachelors degree, you will also need to be proficient in English. You will need one of the following: - TOEFL score of 550 or more - IELTS score of 6.0 or more - Cambridge Certificate in Advanced English - Cambridge Certificate of Proficiency in English Mathematics If you have doubts about whether you possess the required level of mathematics, you can work on some extra mathematics modules at home before the course starts. Exemptions If you can demonstrate that you have already covered certain units in the curriculum, you may receive exemption from some of the taught components of the course. All candidates with sufficient academic or field experience may indicate this in their application. [-]

Master Advanced Manufacturing Processes for Aeronautical Structures (AMPAS)

Ecole Des Mines D’Albi-Carmaux | EMAC
Campus September 2017 France Albi

The Advanced Master course AMPAS, is designed by Mines Albi and ISAE with the support of aeronautical industry partners. [+]

Master Advanced Manufacturing Processes for Aeronautical Structures (AMPAS) A booming industry After a short recession period, the Aeronautical industry market is facing a rapid and continuous increase worldwide as shown by the record breaking contracts recently signed by both Airbus and Boeing. These two industry leaders forecast an increase of close to 5% in activity over the next years and estimations indicate that the annual increase of large commercial airplanes will induce a doubling of the number of aircraft by 2030. Nearly sixty percent of the turnover is subcontracted all over the world and concerns mostly production and manufacturing activities. As a consequence most aeronautical subcontracting companies will have to increase their production rates but also to keep up to date with technological changes; moving from metallic processes toward composite materials processes. Moreover the aircraft manufacturers have changed their supply chain structure in the last years, and subcontractors are now required to manage more complex parts and to take over, on their own, the qualification processes. At the heart of Europes Aerospace Valley The Midi-Pyrénées is home to the global headquarters of Airbus and over 600 subcontracting businesses, employing more than 60,000 employees. The French space agency (CNES), as well as Thales and EADS Astrium are also present in the area along with their lot of subcontractors. The Ecole des Mines d’Albi and Institut Supérieur de l’Aéronautique et de l’Espace (ISAE), have both a proven track record of leading research and working alongside industrial partners in the aeronautics industry. This master program is accredited by the French “Conference des Grandes Ecoles” A formation tailored to the need of the industry The Advanced Master course AMPAS, is designed by Mines Albi and ISAE with the support of aeronautical industry partners. It will give a specialization to master level students allowing them to take over high level responsibilities in airframe structure manufacturing plants. It is especially well suited to students who have followed general studies in mechanical engineering, material science or equivalent and who would like to gain a major chance to be recruited by aeronautical industry. To reach this goal, AMPAS master students will develop: general knowledge of flight dynamics constrains and airframe design knowledge and understanding of the airframe materials and processes and their qualification constrains knowledge, understanding and practice of the prevalent processes for structural applications with either metallic or fiber reinforced thermoset composites materials ability to use state of the art simulation tools for definition and optimization of metallic sheet forming and RTM/infusion process knowledge of the aeronautical supply chain structure and their communication rules understanding of the aeronautic dedicated quality and management requirements knowledge and practice of lean manufacturing tools ability to undertake manufacturing projects in an international team environment ability to communicate with written reports and by oral presentation Lecturers Professoral staff form Ecole des Mines Albi and ISAE (Institut Supérieur de l'Aeronautique) and more generally from University of Toulouse Experts form Aeronautical Insdustry, especially from AIRBUS and supply chain Experts from certification, quality, supply chain organization and management Requirements Applicants must have a Master degree, or an equivalent degree in science or engineering, or a bachelor degree with 3 years of professional experience at least. English Language Requirements IELTS band: 6 TOEFL paper-based test score : 550 TOEFL iBT® test: 79 Contents A balance of theoretical learning and practical experience: The course consists of 75 credits mixing academic teaching and professional experience. First semester: academic term of 450h and 45 credits, provided by permanent professors of Mines Albi and ISAE and expert practitioners from aerospace industry to bring current knowledge and experience. The teaching, balancing academic lessons with more applied practice. Second semester: Professional thesis in the aeronautical industry or in an academic research lab in collaboration with aeronautical industrial partners, in France or abroad. The duration is from 5 to 6 months and corresponds to 30 credits. Students are supervised by a tutor from the host organization and from Mines Albi or ISAE. Thesis is concluded by the preparation of a final report and an oral dissertation in front of a jury. Syllabus The academic course consists of 450 hours of taught modules aiming to provide a deep knowledge of the three main material families used in airframe structures (i.e. aluminum, titanium and long fiber reinforced polymer composites) as well as their related forming routes relevant to aeronautical industries. It is also devoted to gain knowledge in aircraft architecture, on aeronautical supply chain specificities, lean manufacturing and quality management required to be able to take over technical and organizational responsibilities in industry. A team project (100 hours) will demonstrate the ability to address an aeronautical part processing problem following the theoretical and professional skills. In more details: 1. Aircraft, material and process basic scientific knowledge Aircraft General Knowledge Flight Dynamic Structure and Airframe Design Aeronautical materials and processes Aluminium and titanium alloys Epoxy and thermoplastic composites Assembly processes Material and processes qualification NDT and shape control techniques NDT for metallic and composite materials Optical techniques for assembly aid Computer Aided Design 2. Composite structure forming and machining Processes Physical phenomena description and modeling related to epoxy based manufacturing Raw material and composite quality control LCM/RTM processes Autoclave Vacuum Bagging (monolithic - sandwich) processes Composite material trimming, drilling and assembly RTM/Infusion Simulation 3. Metallic structure forming and machining processes Material behaviour and mechanical model Cold and hot sheet forming processes Surface treatments Metallic material machining Sheet forming simulation 4. Industrial Organization and Management Supply chain structure and organization Materials management and Lean manufacturing Supply chain improvement and collaborative processes Quality management and tools 5. Integrated Team Project 6. Internship and Professional Thesis (2nd semester) [-]

Master of Engineering in Real Time, Steering and Supervision

Centrale Nantes
Campus September 2017 France Nantes

The Master offers two speciality tracks: Real Time embedded systems - embedded computer science and Simulation & Supervision [+]

This Master is internationally recognized and accredited by the French Ministry of Higher Education.

Language of teaching

Courses fully taught in English during the two years.

TRACK: REAL TIME EMBEDDED SYSTEMS - EMBEDDED COMPUTER SCIENCE

The objective of this track is to present the techniques currently used for the design and the verification of embedded systems, and more especially real-time embedded systems. The track relies on several courses covering various topics: the design of real-time systems and the architecture of a real-time operating systems (OSEK/VDX standard is used); the real-time scheduling policies and the associated implementation; tools for the modeling and verification of real-time systems: Petri networks, finite state automata and time automata. ... [-]


Master of Engineering Management

Southern Cross University (Online)
Online Part time October 2017 Australia Sydney

Managing a $200 million project is vastly different to working on a $200 million project. It takes vision, exceptional communication skills, broad industry knowledge, business acumen, and the ability to delegate effectively – even when your first instinct is to complete the task yourself. [+]

Master of Engineering Management Designing your future Duration: From eight months part-time Advanced standing: Call us to see if you qualify Study periods: Feb, Apr, Jun, Aug, Oct, Dec Fees: $2340 per unit Units: 8 Accreditation: May be able to claim as CPD with Engineers Australia The MBA of Engineering Managing a $200 million project is vastly different to working on a $200 million project. It takes vision, exceptional communication skills, broad industry knowledge, business acumen, and the ability to delegate effectively – even when your first instinct is to complete the task yourself. Our Master of Engineering Management is the MBA for engineers. Taught by industry and academic leaders, it’s designed to prepare you to lead and innovate in the top tiers, work across any engineering discipline, or start your own firm or consultancy. Bolster your engineering foundation with units covering economic viability and sustainability, infrastructure longevity and stakeholder participation. And, add a business administration flavour to your degree by choosing units in entrepreneurship and marketing, accounting, project management and leadership. A Master of Engineering Management from SCU Online will prime you for a future less “greenfield”. You’ll gain the skills to respond strategically to growing population demand for world-class infrastructure, as a versatile engineer who can manage multi-disciplinary teams, stakeholders, budgets and timelines. And, it can count towards your continued professional development (CPD) requirements with Engineers Australia or your relevant professional registering body. Career opportunities The Master of Engineering Management can help you move up in your discipline, de-discipline (to work across engineering specialities as a manager) or strike out on your own. Where will your Master of Engineering Management lead? Engineering Manager Lead projects and teams of any size, in any field of engineering, confidently making decisions concerning asset management, stakeholder engagement, finances and marketing. Defence Force Become a Specialist Service Officer in the Defence Force, using strategic planning, analytical and problem solving skills and team leadership to serve your country. Government Planner or Political Advisor Harness the power of your practical and diverse expertise to influence community life on a local, state or federal level. Combine your engineering background with budget and stakeholder management to benefit society. Advisor or Consultant Share your knowledge and experience with a variety of organisations on a per-project basis. Advise strategic and effective business solutions and manage projects for successful project outcomes. Entrepreneur Pave your own path to success by initiating a start-up, equipped with the business knowledge to back up your bright ideas. Use your research project to investigate your passion, then leverage what expertise you’ve gained in the real world. Learning with SCU Online Southern Cross University Online courses fit around work, family, and life. We build the flexibility and excellence in – learning is 100% online, we offer six entry points throughout the year, and units are delivered by tech-savvy academics via fresh, smart, and collaborative interactive technology. Our 100% online learning delivers maximum flexibility. Each study period lasts seven weeks, with intakes in February, April, June, August, October and December, so you can start when it suits you. And you can power through six units a year, or skip a study period if life or work demands your full attention. From first enquiry to graduation, we are available to provide assistance at any time. When underway with your study, our personalised, one-on-one support keeps you motivated and means you’re getting what you need to achieve your study and career goals. Connectivity and engagement is part of the deal. A Master of Engineering Management not only increases your skills, but also enables you to network. Many of our graduates have met future collaborators while they were studying. A broad grounding in engineering management Stakeholder management Engaging and managing stakeholders is the best way to build the relationships necessary to bring your big ideas to life. Explore how to design, manage and evolve relationships and engage and liaise with stakeholders in a variety of contexts. Entrepreneurship If you’ve got your own great ideas, why not pave your own way? Even if you’re working in a larger organisation, it always pays to apply some entrepreneurial spirit. Learn how to make it on your own, or amplify the value of your projects within another company. Sustainability Providing sustainable solutions is the key to building not only a liveable future, but also a successful career. You’ll learn how to brainstorm and implement projects using sustainability best practice. Economics and accounting Managerial positions require a comprehensive understanding of economics and accounting, even when you have a dedicated team to undertake these tasks. Learn the relevance microeconomics and macroeconomics have to your role, and make informed, responsible financial decisions. What you can study Part A Engineering for a Sustainable Future Stakeholder Engagement Strategic Infrastructure Asset Management Part B (choose three) Organisational Behaviour Entrepreneurship and Marketing Economics and Quantitative Analysis Project Management Principles Project Management: Initiation and Planning Project Management: Quality, Control and Risk Accounting for Managers Finance for Managers Global Business Managing Digital Enterprise Information Systems Analysis and Design Leading and Managing People Corporate Governance for Managers Part C Industry Research Project (double weighted) Industry Research Project A Industry Research Project B Flexible exit options We know plans change. That’s why we’ve built a flexible completion option into the Master of Engineering Management. If you need to exit early, if home or work demand your full attention, you could still receive a postgraduate qualification based on the units you’ve completed. If you decide to complete your Masters at a later date, you’ll receive advanced standing towards your degree. Exit with a Graduate Certificate in Engineering Management Complete four units – two from Part A and two from Part B. Advanced standing If you’ve transferred from an MBA, or have studied part or all of a Graduate Certificate in Business, Graduate Diploma in Business or an MBA, you may be eligible for advanced standing. This recognition of prior knowledge can shave months off your total study time, which means you can graduate even sooner. Entry criteria Demonstrated professional standing – completion of either a four year undergraduate degree in engineering (or a cognate discipline), or a three year undergraduate degree in engineering (or a cognate discipline) plus two years of relevant industry experience. Be proficient in English. [-]

Master of Engineering (Management)

RMIT University: Online
Online Part time October 2017 Australia Melbourne

Develop engineering leadership and project management skills with RMIT University’s online Master of Engineering (Management). Likened to an MBA for engineers, this Masters is designed not just for skilled engineers but also for entrepreneurs who want to advance their career and prepare for the challenges of leadership in engineering and technology-based organisations. [+]

Best Part time Master's Programs in Engineering. Develop engineering leadership and project management skills with RMIT University’s online Master of Engineering (Management). Likened to an MBA for engineers, this Masters is designed not just for skilled engineers but also for entrepreneurs who want to advance their career and prepare for the challenges of leadership in engineering and technology-based organisations. 
While closely following the MBA with specific Engineering studies, our online Master of Engineering (Management) delivers a tailored qualification specific to the needs of the growing engineering management sector. 
 What you will learn: skills necessary to face the evolving challenges of engineering management complex project management techniques how to evolve established practices and develop systems-thinking approaches strategic managerial skills 
 What you will study: System Engineering Principles Management of Technology Building Quality Organisations Industrial Systems and Environments Integrated Logistics Support Management Risk Management and Feasibility Engineering Economic Strategy International Engineering Management Performance Management Foundations Project Management Masters Research Project 1 
 The benefits of studying online with RMIT Study while you work full-time RMIT’s accelerated online programs prepare you for greater career success, while you continue to work full time. This flexible approach to postgraduate study offers more opportunity to carry on with life commitments while advancing your career. Finish sooner You can enrol into any of our six study periods throughout the year; each study period is seven weeks long. So whether you need to fit your study around work, family, or treks through the Himalayas, you can create a timetable that suits you. No on-campus exams or lectures
While you will have online assessments, the Master of Engineering (Management) delivers a convenient online program without the requirement for on-campus attendance and traditional exams. All lecture material and content is delivered direct to you through an interactive online learning platform, wherever you are. Access to world-class academics Our online programs are developed and led by renowned academics and industry leaders who possess the most up-to-date knowledge to equip you to tackle management challenges. We’ve simply optimised our on-campus content for the digital classroom to make studying more achievable for busy lifestyles. Work-connected learning
The driving force behind our program is the industry connections you’ll make while studying. Learn from renowned academics and industry leaders, while guided by a notable advisory board of executives. This means that what you learn can be applied to your work immediately. Dedicated support and assistance Our study concierges are experts in student support and will be with you every step of the way, available to help you throughout your study journey. Students will receive one-on-one guidance, assistance and motivation as well as help you access any tools, resources or services you need, and help you achieve your study goals. Program intakes 6 intakes annually (October, January, March, May, July and September). Nested qualifications Our Master of Engineering (Management) encompasses courses that make up our Graduate Certificate and Graduate Diploma, so should you need to exit the program early you still have earned a postgraduate qualification. Entry requirements An Australian Bachelor of Technology, Bachelor of Engineering Science or Bachelor of Engineering, at AQF8 level or equivalent, in any engineering discipline, or a Bachelor of Business, at AQF8 level or equivalent, in any business discipline, with a Grade Point Average (GPA) of equal to or greater than 2.0 out of 4.0. Applicants with a GPA less than 2.0 out of 4.0 may be considered on a case-by-case basis, with consideration given to at least two years' relevant work experience in engineering or business; or An Australian Bachelor of Technology, Bachelor of Engineering Science or Bachelor of Engineering, at AQF7 level or equivalent, in any engineering discipline, or a Bachelor of Business, at AQF7 level, or equivalent, in any business discipline, with a Grade Point Average (GPA) of equal to or greater than 2.0 out of 4.0. AND at least two years' relevant work experience in engineering or business. Applicants with a GPA less than 2.0 out of 4.0 may be considered on a case-by-case basis, with consideration given to at least two years' relevant work experience in engineering or business; or An Australian Master of Engineering, Master of Business or PhD, or equivalent, in any engineering or business discipline. International qualifications are assessed for comparability to Australian qualifications according to the Australian Qualifications Framework (AQF). [-]

Master of Science in Nano and Radio Sciences

Aalto University
Campus August 2017 Finland Espoo

This programme offers all this and more. The Master’s programme in Nano and Radio Sciences offers you fundamental knowledge in the following areas: micro- and nanosciences, micro- and nanoelectronic circuit design... [+]

Are you curious how modern wireless devices work and why wireless connection is getting faster and faster? Would you like to know how to integrate radio-frequency circuits and antennas into smallest wireless sensors e.g. for the "Internet of Things", for satellite-based earth or space observation, or for implantable medical devices? Perhaps you are also interested in nano fabrication methods, solar panels, or radio propagation and electromagnetics in basic research? This programme offers all this and more. The Master’s programme in Nano and Radio Sciences offers you fundamental knowledge in the following areas: micro- and nanosciences, micro- and nanoelectronic circuit design, advanced materials and photonics, radio science, and space science & technology. In this programme you approach engineering studies from both industrial and scientific perspectives. You can be theoretically oriented or direct your studies more towards practical applications. Study Programme The programme offers five major options. During the first semester you focus on the common subjects, and at the end of the semester you select your major. During the second and third semesters you gain a deep insight in your chosen major, which leads to the Master's thesis during the second year of your studies. The programme is a combination of theoretical and practical courses which consist of lectures, independent exercises, computer simulations, laboratory works, and group assignments. The studies are closely connected to the current research in the relevant field. The programme also allows for elective studies from a broad choice of topics within for example arts, business and other technological subjects. The Master's degree (120 ECTS) is composed of studies in major (65 ECTS), elective studies (25 ECTS), and Master's thesis (30 ECTS). Majors Advanced Materials and Photonics Micro- and Nanoelectronic Circuit Design Micro- and Nanosciences Radio Science Space Science and Technology Career options After completing the programme, you have gained substantial knowledge and skills to work as an expert in your chosen field. In the early phases of your career you would typically work in research and development-oriented tasks. However, the master’s programme provides you with strong theoretical background, which facilitates career changes based on individual preferences, also later in your career. In this programme all majors are linked to ongoing research within various research groups in the departments. Thus, one option is to continue the studies as a researcher and a graduate student towards a doctoral degree. Tuition fees and scholarships Non-EU/EEA students selected in the application round 2017 will be charged tuition fees. Departments of Micro and Nanosciences and Radio Science and Engineering typically offer the best students summer trainee/research assistant positions. Admission requirements Required prior knowledge Applicants to the programme must first meet the general eligibility criteria and language requirements common to all Master’s programmes in Science and Technology. The applicant should have a Bachelor’s degree (minimum 180 ECTS credits or equivalent) in electrical engineering. Excellent candidates with degrees in other fields such as natural sciences, mathematics, or materials sciences will be considered. The following background knowledge is required for the Master's Programme. This knowledge is typically obtained by studying a Bachelor degree at a research university, especially in electrical engineering or closely related field. electronics mathematics basic programming skills physics Students chosen to the programme may be required to complement their earlier degree with complementary studies. The admission letter will provide information on any such requirements. The complementary studies cannot be included in the Master's degree but will be required for graduation. Evaluation criteria The application process is competitive. First the applicant’s suitability for the programme is evaluated. The applicants are then ranked and the best applicants are granted admission. The evaluation of the applicants is based on the following criteria: Content of the previous degree Recognition and quality of the home university Study success Motivation and commitment Other relevant achievements Recommendations Language Proficiency Advice for applicants from Finnish Universities of Applied Sciences The minimum GPA for applicants from Finnish universities of applied science is 3.2. Applicants with GPA below the limit cannot be admitted unless they have other exceptional qualifications. Meeting the minimum does not guarantee admission to the programme. Previously, all admitted students whose previous degree was from a Finnish university of applied science were required to take complementary studies. This is no longer a requirement, and complementary studies are assigned only in individual cases. Therefore, it is important to demonstrate the depth of the required prior knowledge in the application. This can be achieved, for example, with excellent grades in the relevant Bachelor courses, and by completing a small number of demanding courses in the areas of required knowledge. Required application documents In addition to the mandatory application documents, applicants to the NanoRAD programme are requested to provide the following additional documents: at least one original recommendation letter (preferably academic) work certificates and certificates of other relevant achievements copies of any publications official transcript of records for other university studies which are not included in the mandatory part of the application The application should explain the full educational history of the applicant. If you have started or completed other studies in addition to the Bachelor's degree mentioned above, please provide also the official transcripts and possible degree certificates of those. If you have work experience or other activities or achievements that could support your application, please include certificates or other proof of these in the application. If you have publications, include copies or permanent web links to them. Use the CV and motivation letter to provide a summary of your personal history, achievements and objectives and other points that you find important for the application. [-]

Master of Engineering (Engineering Management)

University of South Australia
Campus January 2017 Australia Adelaide

Offering two specialisations, the Master of Engineering offers you the opportunity to gain expertise in the area of Autonomous Systems [+]

Best Part time Master's Programs in Engineering. Offering two specialisations, the Master of Engineering offers you the opportunity to gain expertise in the area of Autonomous Systems or Engineering Management. This program is also offered in the form of a nested suite of three programs at postgraduate level (graduate certificate, graduate diploma and master). Each qualification extends to the next, allowing you to easily transition to a master level qualification. Autonomous Systems Intelligent autonomous systems represent the next big leap; they are likely to be transformational. These systems are enabled by the fusion of engineering systems, computational intelligence, sensing, communication and software to create intelligent systems capable of interacting with the complexities of the real world. This specialisation blends the disciplines of mechanical, electrical, computing, and systems engineering. It is distinguished by its focus on systems integration, outdoor field and real-world application of the systems. Engineering Management You will gain knowledge and skills in operations management, total quality management, supply chain management, enterprise resource planning, automation, energy and society, and project management. This program aims to closely align learning to professional practice and provides you with opportunities to develop and apply skills whilst integrating knowledge to complete a practical industry project in your own area of interest or a project related to any research institutions affiliated to the School of Engineering. Possible career outcomes Autonomous Systems graduates can undertake various roles such as developing, acquiring, managing or researching intelligent autonomous systems in sectors including defence, aerospace, automotive, construction, energy, water, transportation, consumer electronics, information technology, telecommunications, mining and health care. Engineering Management graduates can pursue opportunities as factory operation managers, engineering department managers, energy managers, project managers and engineering business development managers. International Postgraduate Student Grants A number of grants are available to international students seeking to study this program including: International Alumni Postgraduate Tuition grants of $3,000 - recent University of South Australia graduates (onshore and offshore) graduating with a GPA of 6.0 or above International Postgraduate High Achiever Tuition grants of $2,000 – recent graduates of a qualification recognised as being equivalent to an Australian Bachelor of Bachelor Honours program with a GPA equivalent to 5 or above International Student Relocation grants of $1,500 - students relocating from interstate to study a University of South Australia program [-]

Second Level University Professional Master MIPET: Master in Industrial Plant Engineering & Technologies

University Of Genoa (Università Degli Studi Di Genova)
Campus October 2017 Italy Genoa

MIPET (Master in Industrial Plant Engineering and Technologies) is a One-year Degree Program organized in Genoa University and focusing on preparing new generations of top quality technical experts for Process Engineering, Industrial Plant Main Contractors, Power & Energy Industry, Iron & Steel Sector, Plant Equipment Suppliers as well as Construction Companies. [+]

MIPET (Master in Industrial Plant Engineering and Technologies) is a One-year Degree Program organized in Genoa University and focusing on preparing new generations of top quality technical experts for Process Engineering, Industrial Plant Main Contractors, Power & Energy Industry, Iron & Steel Sector, Plant Equipment Suppliers as well as Construction Companies. MIPET main aim it is to satisfy the expectation from Leading Industries in term of high technical skills and excellence capabilities in Industrial Plants and Engineering. The Master Program is directed by Polytechnic School - Faculty of Engineering in strong cooperation with leading industries and major companies operating in these industrial sectors; this approach guarantees the relevance and effectiveness of the initiative in the international scenario. In fact this project is part of a large initiative devoted to develop excellence in Industrial Plant Engineering through the synergy between the expertise of Genoa University Engineering Faculty and Top Level Companies with long traditions that are leading this Area Nationally and Internationally in term of turnovers, size, processes and products complexity as well as knowhow and technical background and skills. Master Outcomes MIPET is devoted to create System and Process Engineers, Technical Coordinators operating effectively in Project Teams in Global Engineering and Construction. This Master provides deep technical skills in Industrial Plants as well as the capability to get the whole overview on the project and its technical aspects along the whole project phases: Offering, Engineering, Purchasing, Construction and Erection and Commissioning. At the completion of the Master Program students develop transversal capabilities in all the critical areas (mechanics, high power, electronics , automation, computation, management, security and safety, materials, processes and components) combined with their specialization expertise in specific Plant Sectors (i.e. Power Equipment, Iron & Steel) as well as with the Company Internship Experiences. Who Should Attend The Master in Industrial Plants is a Post Graduate University Program devoted to people with Engineering degree, addressing: Young Engineers with strong technical background Engineers interested in attending specific thematic educational modules of the Master Program that are already working in Companies involved in Construction and Engineering of Industrial Plant and related sectors MIPET General Program MIPET Program includes: Fundamentals in Industrial Plants, Construction and Engineering Operative Modules, integrated within the Master Program, but available even for being attended autonomously; these are dedicated to Project Works to be developed by individuals and/or in teams within a competitive/cooperative framework interacting dynamically with Experts Thematic Modules on Specific Plant Sectors (i.e. Power or Steel) Company Internships devoted to acquired direct experience on the field with real projects Tours in Industrial Plants and Engineering Centers and Labs Testing for Certifying Skills and Capabilities acquired by the attendees on each topic General Modules for supporting Potential Development of the Master Attendees (i.e. languages) [-]

Modeling and Simulation ME

Old Dominion University
Online Part time January 2017 USA Norfolk

Explore innovative solutions for economic development, health care, and transportation issues with ODU's online computer modeling, simulation and visualization degree. Our program provides a strong, common subject core, but also provides you with the flexibility to design a plan of study to meet your interests and goals. The result will help you transform your knowledge from theory to practice... [+]

Best Part time Master's Programs in Engineering. Explore innovative solutions for economic development, health care, and transportation issues with ODU's online computer modeling, simulation and visualization degree. Our program provides a strong, common subject core, but also provides you with the flexibility to design a plan of study to meet your interests and goals. The result will help you transform your knowledge from theory to practice. Required Courses 30 credit hours You will take 12 credits in core courses and select 18 credits of elective courses. Some electives may have prerequisites. Your program will culminate in a comprehensive exam and brief critique. Online Learning Environment Access course materials online from any location. Some classes will have live, regular online meeting times, while others will not. The instructor may schedule assignments and exams at specific times. All courses follow ODU's regular academic calendar. Careers in Modeling & Simulation Areas that need modeling and simulation expertise include: Business Serious Gaming Government Contracting Homeland Security Military Science Medicine TUITION : Click Here In-state Virginia Residents : $478 per credit hour* Out-of-State Students : $516 per credit hour APPLICATION DEADLINES - Fall Spring Summer Domestic : June 1 November 1 March 1 International : April 15 October 1 February 1 [-]

International Master in Energy Technology

Peter the Great St. Petersburg Polytechnic University
Campus September 2017 Russia St. Petersburg

The purpose of the Master of Science in Energy Technology degree programme is to prepare highly qualified professionals capable to solve complex engineering and management tasks in the world energy industry. [+]

International Master Degree Programme: Energy Technology

The 5 best reasons to participate in the program

1. The Master’s Degree Programme in Energy Technology includes a wide array of energy studies aimed to fundamental preparation and practical training.

2. The programme is conducted with the participation of key professors of St. Petersburg State Polytechnical University and other leading Russian and foreign universities.

3. The programme contributes to joint study of Russian students with foreign students, the opportunity to participate together in academic and extracurricular activities of SPbSPU.

4. The programme offers a unique opportunity to undertake an internship in leading Russian energy companies and a semester abroad at foreign partner University.... [-]


Master of Engineering in Energetic Concepts

University of Maryland, A. James Clark School of Engineering
Campus Part time 1 - 5  September 2017 USA College Park

Energetics is a branch of the physical science of mechanics, which deals primarily with energy and its transformations. Energetics research is the underpinning of the development of explosives and propellants. [+]

Best Part time Master's Programs in Engineering. Energetics is a branch of the physical science of mechanics, which deals primarily with energy and its transformations. Energetics research is the underpinning of the development of explosives and propellants. Energetics has clear applicability to military R&D, including the development of explosives technology, undersea weapons, and pilot ejection devices. Other applications are in space exploration, fire suppression, anti-terrorism, and cartridge-actuated devices such as door openers and automobile airbags. Admission Requirements: Full admission as a degree seeking student requires the following prerequisites: A bachelor's degree, GPA of 3.0 or better, in engineering; Civil and Environmental, Mechanical, Chemical and Biomolecular, from an accredited institution. Courses in mathematics (Calculus I, II, III, & Differential Equations), and Thermodynamics, Fluid Mechanics, and Heat Transfer are required to be considered for admission. Completed applications are reviewed and considered for admission on a case-by-case basis. [-]

Advanced Master Embedded Lighting Systems

ESTACA
Campus 400  September 2017 France Paris

The vehicle lighting sector is currently undergoing major change with the development of new technologies like LED lights, as well as new and complex lighting systems functionalities. This changing landscape provides an opportunity to explore new avenues for innovation based on lasers, smart lighting solutions and new lighting functionalities. Therefore, three major Engineering Schools in Transportation Engineering (ESTACA), Optical Sciences (Institut d’Optique Graduate School) and Design (STRATE – Ecole de design) join their experience in engineer training to develop a high-level international Advanced programme designed for training cross-skilled engineers for the field of vehicle embedded lighting systems. The training structures are strongly connected to research and actively supported by industrial players. [+]

THE HIGH-LEVEL INTERNATIONAL TRAINING CURRICULUM IN VEHICLE LIGHTING SYSTEMS The vehicle lighting sector is currently undergoing major changes with new technologies such as LED lights, as well as new and complex lighting systems functionalities. This changing landscape provides an opportunity to explore new avenues for innovations based on lasers, smart lighting solutions and new lighting functionalities. Therefore, three major Engineering Schools in Transportation Engineering (ESTACA), Optical Sciences (Institut d’Optique Graduate School) and Design (STRATE – Ecole de design) join their experience in engineer training to develop a high-level international Advanced programme designed for training cross-skilled engineers for the field of vehicle embedded lighting systems. The training structures are strongly connected to research and actively supported by industrial players. AIM: To train future project managers, department managers and experts in the field of ligthting systems. In an integrated vision from design to production including creative design, optical, mechanical and system design, simulation and virtual prototyping, embedded power and intelligence. PROGRAMME BENEFITS: High-level international training curriculum, 100% in English, with a broad international attendance (students from Korea, China, Spain, USA, France in last session) Leading edge and pioneer in lighting systems, with LEDs, laser sources, intelligent systems, to prepare for future lighting systems in Automotive or Aerospace, providing both theoritical and hands-on knowledge for all lighting applications. In a fast growing domain, outperforming systematically the global automotive growth, thanks to the strong increase of the technical content, and forecasting to recruit +15% to +30% engineers between 2014 and 2020 A program run by leading experts in the field of vehicle embedded lighting systems tailor-made to suit industry needs, with the strong support of industrial partners, currently hiring new graduates worldwide A program delivered by higher education institutions in optics, embedded systems and design in Paris area in France A post graduate degree accredited by CGE (Conférence des Grandes Ecoles - France's top-ranking engineering colleges): “Advanced Master” ("Mastère spécialisé©" in French),undergoes a rigorous accreditation procedure that guarantees the programme’s quality SYLLABUS: 400 hours of academic coursework (in 2016, from September 5th to December 16th) 6 SESSIONS COVER OPTICS & PHOTONICS FOR LIGHTING (INSTITUT D’OPTIQUE GRADUATE SCHOOL), THEY INCLUDE: Basic training in optics and photonics ; sciences, technology and applications of light sources including lamps, discharge tubes, LEDs, OLEDs and lasers ; photometry of sources and optical Systems, colorimetry ; Optical systems design and shaping of illumination using complex surfaces, light guides and diffractive optics ; computer assisted optical design ; 2D & 3D photometric Simulations, realistic and physico-realistic rendering of illumination and aspect, measurement and simulation of surface aspects, vision and cognition. 2 SESSIONS COVER EMBEDDED SYSTEMS (ESTACA), THEY INCLUDE : Embedded electronic driving and regulation of sources ; hardware dimensioning ; servo controls, actuators, sensors including visible and infrared cameras ; Embedded energy management ; Electrical & electronical vehicle architecture ; Embedded intelligence for illumination and driving assistance ; system design and CAD. 3 SESSIONS COVER RELATED TECHNOLOGIES (ESTACA), THEY INCLUDE : Mechanics and materials: design and CAD, process including injection, Tools, assembly & plastic welding, surface processing ; environment simulation: humidity, thermal, impacts & vibrations ; Integrated design of embedded lighting systems, prototyping and industrialisation ; regulatory requirements: regulations and standards ; Patents and industrial property. 1 SESSION COVERS CREATIVE DESIGN OF LIGHTING SYSTEMS (STRATE Ecole de design), IT INCLUDES: Industrial design, awareness, vocabulary, creativity A PROFESSIONAL THESIS of 6 months minimum in a lighting company, between January and July. ASSESSMENT: Teaching modules assessed via exams and case studies Academic project & Professional thesis assessed with a dissertation JOB PROSPECTS: In a highly competitive international context, the program meets the needs for advanced skills of all players in the value chain: car manufacturers, lighting systems and components suppliers, and engineering service providers. INDUSTRIAL PARTNERS: Renault, PSA Peugeot Citroën, Valeo, Automotive Lighting, Osram, Nertrandt, Mentor Graphics COURSE BREAKDOWN: Lectures, case studies, team work project and management, LANGUAGE: English NUMBER OF CREDITS: 75 ECTS LOCATION: The faculty will be based in Paris-Saclay, near Paris, in the heart of a high-growth area offering dense and diversified scientific and technological potential. Classes, tutorials and labs will be hosted at ESTACA (Montigny le Bretonneux), Institut d'Optique Graduate School (Paris-Saclay) and Strate – School of Design (Sèvres) (link to maps) ELIGIBILITY: This program is open to all international and French students holding a Master of Science (preferably in scientific fields). Applicants must prove an engineering degree recognized by the Commission des Titres d’Ingénieurs (Commission for Engineering Degrees), or a master degree or equivalent, or a foreign degree equivalent to one of those. Applicants should have English language proficiency at the B2 level (minimum paper based TOEFL: 575 or TOEIC: 785) A limited number of applications, not fulfilling the degree criteria but with outstanding credentials INFORMATION AND ADMISSIONS: embedded-lighting.com PRICE: 13 000€: Full Fee 11 000€: Reduced fee for recently graduated students Fee can be reduced by 50% or 100% for a limited number of self –sustained students [-]

Master’s degree in Building Engineering ( taught in Italian )

University Of Bergamo
Campus October 2017 Italy Bergamo

The two-year Master in Building Engineering aims at forming professional individuals with extensive multi-disciplinary expertises, able to operate in the Building compartment. The course completes the education achieved by the 1st-level graduate, by supplying higher-order competences for direct insertion in the job market or for further education in specialised contexts or advanced scientific and technological sectors. [+]

Best Part time Master's Programs in Engineering. EDUCATIONAL OBJECTIVES The two-year Master in Building Engineering aims at forming professional individuals with extensive multi-disciplinary expertises, able to operate in the Building compartment. The course completes the education achieved by the 1st-level graduate, by supplying higher-order competences for direct insertion in the job market or for further education in specialised contexts or advanced scientific and technological sectors. JOB OPPORTUNITIES The main professional opportunities could be outlined as follows: senior chartered engineer or consultant, building and structural designer (including for dynamic and seismic engineering problems), restoration technician, project manager, employee at engineering and construction companies, real estate agencies, private and public administrations and institutions. ADMISSION A Three-Year First level Degree or equivalent. ENTRY TESTS Individual interview. [-]

Master in Laser Measuring Technology

Saint Petersburg Electrotechnical University
Campus September 2017 Russia St. Petersburg

Students get knowledge of quantum electronics and laser techniques. [+]

The structure of degree program consists of advanced professional studies, elective studies and a Masters Thesis. Students get knowledge of quantum electronics and laser techniques. They get skills of practical work with modern laser techniques and laser measurement equipment, ability of carrying out science research during development of new laser measuring devices and systems. As a result we achieve competitiveness of our graduates and their job placement in prestigious research institutes and firms. Program curriculum includes the following advanced courses: Wave Optics Optical systems and components Theoretical Principles of Quantum Devices Laser systems Fiber and Integrated Optics Laser measurement systems Methods and means of laser radiation control Laser and fiber optic technology in navigation systems Optoelectronics Programme: 120 ECTS credits, full-time study (2 years), Master’s Degree Eligibility: candidates must hold a Bachelor's Degree in the corresponding field Scholarship: scholarship covers the tuition fee and some study materials An academic year includes 2 semesters beginning on 1st September and 10th February, Winter holidays - 2 weeks, Summer holidays - 2 months (July, August). Master’s Thesis defense is in June. Educational programs of «LETI» are constantly modernized, following the principle «Training through research». Graduates of our university receive new, profound knowledge and practical skills of work. [-]

Master of Engineering Science (Petroleum Engineering)

Curtin University
Campus February 2017 Australia Bentley

This comprehensive course will provide you with a multidisciplinary education and hands-on training in petroleum engineering. [+]

Best Part time Master's Programs in Engineering. Master of Engineering Science (Petroleum Engineering) This comprehensive course will provide you with a multidisciplinary education and hands-on training in petroleum engineering. You will cover a wide variety of subjects central to the petroleum engineering field, including applied geology and geophysics, drilling and reservoir engineering, hydrocarbon phase behaviour, formation evaluation, petroleum economics and project management. In your final semester you will complete an individual research project and develop a thesis under the guidance of one of our highly experienced staff. To assist your studies, we will provide you with access to top of the range computer hardware and software, and the Society of Petroleum Engineers’ online information library. Professional recognition Students may apply for student membership of the Society of Petroleum Engineers (U.S). Upon graduation you may apply for active membership of the society. Career opportunities There is a strong demand for qualified petroleum engineers in the oil and gas industry, both within Australia and internationally. Our graduates have found work as fully qualified petroleum engineers in the upstream oil and gas industry. Credit for previous study Applications for recognition of prior learning are assessed on an individual basis. Australian & NZ students ENTRY REQUIREMENTS: An honours degree or equivalent in a relevant engineering or science discipline including at least first year university level subjects in both physics and calculus. Candidates with degrees in other disciplines may be considered where they have relevant work experience. WHERE: Bentley WHEN: February HOW: Full-time STUDY: On-campus DURATION: Expected completion: 2 years International students 2015 ENTRY REQUIREMENTS: Minimum English language entry requirements: IELTS ACADEMIC (INTERNATIONAL ENGLISH LANGUAGE TESTING SYSTEM) Writing 6.0 Speaking 6.0 Reading 6.0 Listening 6.0 Overall band score 6.5 Certificate in Advanced English (CAE): Grade C Pearson Test of English Academic: 58 WHERE: Bentley WHEN: February HOW: Full-time STUDY: On-campus DURATION: 2 years full-time [-]