Masters Degree in Engineering in North America

Find Masters Programs in Engineering in North America 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.

 

The United States of America is located on the continent of North America. It is the third largest country by size in the world. It has a relatively short history compared to other world nations, has one of the world's largest economies, and has one of the world's most diverse populations.

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Master of Engineering in Systems Engineering

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

This program concentrates on the industrial engineering courses that cover the science and technologies of decision making in a complex world in order to optimize the overall system rather than any one subsystem. [+]

This program in Systems Engineering concentrates on the industrial and systems engineering courses that cover the science and technologies of decision making in a complex world in order to optimize the overall system rather than any one subsystem. Systems engineering is concerned with improving the decision-making process by utilizing statistics, simulation, optimization, and computer science skills to enhance the design, control, operation, and understanding of systems. This discipline has shown rapid growth in both its development and recognition as a distinct field of engineering. Systems Engineering skills are becoming increasingly important within the local, industrial community as an aid to management seeking to respond to increasing competitive pressures. The program has flexibility in order to allow students to focus their course of study on various application domains. These application domains have common needs in many areas of systems engineering, but some unique ones as well.... [-]


Modeling and Simulation ME

Old Dominion University
Online Full time 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... [+]

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 [-]

MEng in Civil Engineering

Northern Arizona University
Campus Full time August 2017 USA Flagstaff

The Master of Engineering is a non-thesis professional degree, based primarily on course work and/or on an engineering project designed with the guidance of a faculty advisor to address a need or problem specific to their engineering field of study (Civil, Environmental, Electrical, or Mechanical Engineering). [+]

Masters in Engineering in North America 2017. This degree provides you with a broad, practice-based education. Degree requirements To earn this degree, you must complete a total of 30 credit hours: applied mathematics course, in a relevant topic such as numerical methods, linear algebra, or statistical analysis (3 credit hours) engineering management course (3 credit hours) 24 credit hours from: general engineering, environmental engineering, civil engineering, mechanical engineering, or geology, selected with your committee’s approval (15 credit hours) elective courses (9 credit hours), which can include up to six credit hours in an optional practice-oriented project Admission information Applicants must select one primary emphasis in: civil engineering electrical engineering environmental engineering mechanical engineering computer science Prerequisites / Admission Requirements 1. You must have a B.S. degree in the discipline and an overall GPA of 3.0 or higher. If you have a B.S. degree in a different discipline from that of your master’s application, you must complete a pre-admission course of study while earning a grade of "B" or higher in all pre-admission courses. See the prerequisite link below for this information. 2. You must take the GRE General Test unless you earned your B.S. degree from NAU or are in our Integrated Program in the discipline of your master’s application. If you are an international applicant whose native language is not English, you must also submit TOEFL scores. 3. Your application must include a statement that includes your educational goals and top areas of interest for your study and/or research. 4. Your application must include three letters of recommendation. 5. You must be accepted by the department. Prerequisites by emphasis: Civil engineering emphasis prerequisites Applicants without a BS degree in the discipline are required to attain equivalency of BS-level knowledge of the subject before being fully admitted to the MS program. Equivalency is determined by the CENE department faculty and Chair and may consist of additional coursework, experience, testing or a combination of these items. After determining the equivalency requirements, a representative of the CENE department faculty will meet with the applicant to develop a plan so that the applicant can be provisionally accepted to the program. Demonstration of achievement (B or better) in the following prerequisite courses is required to attain equivalency. Financial support Teaching and research assistantships are available for qualified students. The university will provide full graduate tuition remission for approved graduate assistants. This non-thesis program is designed for practicing professionals and allows you to build additional expertise in the civil engineering areas of water resources, transportation, geotechnical and structural engineering. Students graduating from this program can design solutions to complex infrastructure problems, and are prepared to become registered professional engineers specializing in civil engineering in their future careers. What Can I Do with a Master of Engineering in Civil Engineering? Society’s demand for essentials such as clean water and sustainable infrastructure pose large-scale, practical problems. Civil engineers design and operate facilities such as bridges, highway systems, waterworks, dams/levees and foundations. Learn to be part of the solution to some of society’s greatest challenges when you study civil engineering at the graduate level at NAU. This program leads to exciting careers in the public or private sectors where you can make a difference. With further education, one of these paths is possible: Researcher Sustainability engineer Engineering consultant Community college instructor University Requirements To receive a master’s degree at Northern Arizona University, you must complete a planned group of courses from one or more subject areas, consisting of at least 30 units of graduate-level courses. (Many master’s degree programs require more than 30 units.) You must additionally complete: All requirements for your specific academic plan(s). This may include a thesis. All graduate work with a cumulative grade point average of at least 3.0. All work toward the master’s degree must be completed within six consecutive years. The six years begins with the semester and year of admission to the program. Student Learning Outcomes Master of Engineering with an Emphasis in Civil, Environmental, Electrical, or Mechanical Engineering The Master of Engineering is a non-thesis professional degree, based primarily on course work and/or on an engineering project designed with the guidance of a faculty advisor to address a need or problem specific to their engineering field of study (Civil, Environmental, Electrical, or Mechanical Engineering). This degree program is designed to provide a broad, practice-based education. Demonstrate the ability to apply graduate level critical thinking skills to formulate and solve advanced civil (electrical/environmental/mechanical) engineering problems. Acquires knowledge on advanced contemporary engineering topics and computational tools specific to civil (electrical/environmental/mechanical) engineering. Develops the ability to identify, formulate, and solve relevant advanced civil (electrical/environmental/mechanical) engineering problems. Develops the ability to synthesize, explain, verify, and justify solutions to complex civil (electrical/environmental/mechanical) engineering problems. Demonstrate the ability to, independently and creatively, design, plan, and conduct complex civil (electrical/environmental/mechanical) engineering projects; Assesses the state of the art in the field of study. Applies, independently and creatively, appropriate engineering theories and tools towards developing a viable solution for the project. Designs and conducts activities specific to the project. Demonstrate the ability to communicate effectively the results of a comprehensive research project through oral presentations and publications. Creates a report reflecting the integration of knowledge acquired through the project. Delivers an oral presentation to peers summarizing the work performed on the project and its outcomes. Synthesizes and presents the relevance of the engineering project in both technical and non-technical terms. 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Master in Electrical Engineering (M.E.)

Inter American University of Puerto Rico
Campus Full time August 2017 Puerto Rico Bayamón

The Master’s Program in Electrical Engineering (M.E.) is designed to prepare students with the knowledge, skills and attitudes necessary to perform as efficient and highly qualified professionals in the specializations of Power and Control Systems. Both specializations are focused on modelling, design and practical knowledge of systems. [+]

The Master’s Program in Electrical Engineering (M.E.) is designed to prepare students with the knowledge, skills and attitudes necessary to perform as efficient and highly qualified professionals in the specializations of Power and Control Systems. Both specializations are focused on modelling, design and practical knowledge of systems. The specialization in Control Systems provides for the development and implementation of advanced technology and design techniques of control applications in manufacturing, pharmaceutical and petrochemical processes, and in the applications of robotics, automated systems and intelligent control. The specialization in Power Systems, will provide future graduates with the skills to analyze and to suggest solutions to problems in the generation, distribution and control of electrical energy. This specialization integrates the use of renewable energy, distributed generation and the challenges of the integration of intermittent sources within electrical systems. [-]

Master of Engineering in Project Management

University of Maryland, A. James Clark School of Engineering
Online & Campus Combined Full time September 2017 USA College Park

Master of Engineering in Project Management [+]

Masters in Engineering in North America 2017. Full admission as a degree seeking student requires: A bachelor’s degree, GPA of 3.0 or better, in engineering or a related field from an accredited institution Courses in mathematics (Calculus I, II, III, Differential Equations and/or one course in Statistics - see ENCE 302) are required to be considered for application [-]

Master Of Engineering (with Memory)

Université du Québec à Rimouski UQAR
Campus Full time September 2017 Canada Rimouski Lévis

The master of engineering is to improve scientific and technical knowledge in engineering, [+]

The master of engineering is to improve scientific and technical knowledge in engineering, to initiate research and technological innovation and to form autonomous and competent specialists able to perform a professional practice of high level in various fields of engineering and applied science. paths Master of Engineering, course type profile with project The Master of Engineering, project course type memory without profile promotes the development of vocational training component of the candidate by the deepening of knowledge and the acquisition of a specialty. Master of Engineering, with profile memory The Master of Engineering, with profile memory favors the development of a research component by deepening knowledge in a field of specialization. This pathway also helps develop the skills required for the pursuit of doctoral studies. Targeted audience This program is open to candidates with training in the field of engineering who wish to deepen their scientific and technical knowledge in engineering. Candidates holding training in fundamental or applied sciences are also eligible. However, they will be assessed a probationary tuition undergraduate engineering. Research areas The interests and expertise of engineering faculty focus on different fields of study grouped around four pillars. renewable energy and bioresources Sustainable Development Wind power Exploitation and development of peat electric and hybrid vehicles Etc. Productique Development of products, processes and systems Performance optimization of processes and industrial equipment advanced industrial systems Planning, management and control of production processes Etc. electromechanical systems Modeling, simulation, design, optimization, control, maintenance and management of industrial systems Telecommunications and information processing photonics Remote sensing Signal Processing Telecommunication and satellite communication and wireless Etc. Employment Opportunities Graduates senior engineering graduate programs occupy positions in several industry sectors such as: electronic; instrumentation and control; telecommunications; aerospace; design; manufacturing; automating; production engineering; energy; aviation; pulp and paper; metal processing; transport; Computer Engineering; wind engineering; marine engineering; R and D. The main functions for Graduates are: project manager; Director of R & D; researcher or associate researcher; systems engineer; project engineer; systems designer; responsible for experimentation; product development engineer; PhD student (for master's degrees). OBJECTIVES Contribute to increasing the scientific and technical knowledge in engineering, introduction to research and technological innovation and form autonomous and competent specialists able to perform a professional practice of high level in various fields of engineering and applied science . More specifically, the student should, on completion of its study program: having acquired more knowledge in some of the science and technology related to engineering; be able to apply this knowledge to issues, situations or various projects related to its specialization; demonstrate a critical able to propose and evaluate solutions to specific engineering problems; be able to conduct an engineering project in its area of ​​specialization; demonstrating that it is able to communicate orally and in writing in a clear and consistent manner, the results of scientific research work. In the thesis promotes the development of the research component of the candidate's training by deepening knowledge in a field of specialization; [-]

Master of Engineering Management

Lawrence Technological University
Campus or Online Full time Part time 2 years September 2017 USA Southfield + 1 more

From planning to completion, engineering managers are involved in nearly every aspect of engineering projects. They need strong business administration and leadership abilities in order to supervise employees, manage finances, and ensure the ultimate success of the jobs they oversee. [+]

Masters in Engineering in North America 2017. From planning to completion, engineering managers are involved in nearly every aspect of engineering projects. They need strong business administration and leadership abilities in order to supervise employees, manage finances, and ensure the ultimate success of the jobs they oversee. Not only must they demonstrate technical expertise in their particular field, they also require excellent communication skills to coordinate with other managers, contractors, suppliers, and customers in an effective and professional manner. The demand for leaders in today's engineering fields is expected to increase, especially in growing areas such as environmental and biomedical engineering. Lawrence Technological University's Master of Engineering Management is designed for professionals with diverse backgrounds - program management, engineering, quality, manufacturing, production control, management information systems, and other technical fields - who wish to expand their knowledge and advance their careers. [-]

Master of Engineering

University of Windsor
Campus Full time Part time 3 - 5 semesters September 2017 Canada Windsor + 1 more

In order to graduate with an MEng degree, a student must successfully complete eight graduate-level courses, including five from their area of specialization plus one more engineering course (from any department) and no more than two non-engineering courses. Alternatively, a student may choose to complete all eight courses within their area of specialisation. [+]

MEng Program Information In order to graduate with an MEng degree, a student must successfully complete eight graduate-level courses, including five from their area of specialization plus one more engineering course (from any department) and no more than two non-engineering courses. Alternatively, a student may choose to complete all eight courses within their area of specialisation. MEng degrees are available in: Electrical Engineering Electrical-Computer Engineering Mechanical Engineering Materials Engineering Industrial Engineering Environmental Engineering Civil Engineering General The Master of Engineering (MEng) degree offered at the University of Windsor is a course work professional program open to students who satisfy the admission requirements. The MEng Program takes three to five semesters to complete but is structured in such a way that it may be completed in one year by a full-time student. The minimum period of full-time registration for the MEng degree is three semesters and the maximum allowable time is five semesters. For part-time students, the minimum period of registration for the MEng degree is six semesters and the maximum allowable time is fifteen consecutive semesters. Practical work-experience placements (paid and unpaid) may be available for full-time students only, but cannot be guaranteed. Schemes of Study The Master of Engineering may be taken by full-time students or those who wish to study on a part-time basis while remaining in full-time employment external to the University. All applicants for the MEng program are expected to be entirely self-funded and no financial assistance will be provided by the Faculty of Engineering or the University of Windsor. International students are admitted as full-time students only. Full-Time Students will be: required to register for a maximum of three courses per semester, required to register for a minimum of two courses per semester, expected to complete all degree requirements within 5 academic semesters. Part-Time Students will be: required to register for a maximum of admissible two courses per semester, required to complete all degree requirements within 15 academic semesters and should not have more than two semesters of continuous "inactive" status Admission Requirements The Department should approve the application and in addition, MEng applicants shall be recommended for admission by the Faculty of Engineering Coordinator. Official admission to any program of graduate studies is in the form of a "Letter of Acceptance" issued by the Faculty of Graduate Studies. Please note that the following are minimum requirements and do not guarantee admission. Undergraduate degree (BASc / B.Sc. / B.Eng. degree or equivalent*) with at least 73% average over the last two years. International applicants are advised to refer to the specified minimum admission requirements, listed by country, at the Faculty of Engineering’s Professional and Graduate Studies (FEPGS) website and the Faculty of Graduate Studies website. *Candidates with degrees in such areas as Mathematics, Physics and Computer Science will also be considered. Students whose undergraduate degree programs do not provide them with sufficient background in Design, Applied Science and Professional/Technical communications are required to enter a qualifying program of courses at the undergraduate level before admission to candidature for the MEng degree. Students entering and successfully completing the MEng qualifying program may receive an Advanced Certificate in Engineering. A candidate who has not fulfilled the minimum requirement of 73% average may be admitted to the MEng Program as a probationary student** provided that he/she has either: at least 2 years of industrial or engineering experience following graduation or achieved at least 77% overall standing in the Final Year of the graduation. **Such candidates will be required to achieve a grade of at least 73% in the first two MEng courses to be regularized in the MEng Program. The language of instruction for the MEng courses is English. Applicants will be required to provide certification of English language proficiency, if he or she has: not completed three or more years of post-secondary work at a Canadian institution or at an institution at which English was the primary language of instruction***, *** Countries in which English is the Official Language of Instruction, as recognized by the Faculty of Engineering are listed on the Faculty of Engineering’s FEPGS website and the Faculty of Graduate Studies website. English Language proficiency may be met by the language coursework at the secondary school level in the countries listed on the FEPGS website. or not been employed for a similar period of time in a position in which English was the primary language of business. Where applicable a student’s certification of English language proficiency can be demonstrated by a minimum score set by the department. For minimum requirements in other equivalent exams, information is available in the Faculty of Graduate Studies web-site. The Faculty of Engineering and the Faculty of Graduate Studies reserve the right to require further demonstration of English Language proficiency. The Department may consider for admission to its degree programs students from outside Canada who have excellent academic preparation, but who do not meet the usual standards of English language proficiency. Successful completion of the English Language Improvement Program (ELIP) will be considered as a means to gain admission to the Department for such students. Students who do not meet the academic requirements outlined above may be considered for admission to a transitional, probationary or qualifying program depending on their academic background. Students seeking admission to the Department’s MEng programs must also complete the Department’s Graduate Student Information Form and the Faculty of Graduate Studies Admission Reference form. Program Requirements An MEng Degree may be awarded upon successful completion of a total of 8 courses (the MEng has no research component/thesis/work with a faculty supervisor). Of these 8 courses ... 5 to 8 must be from the student's department (major; electrical, electrical-computer, mechanical, materials, industrial, environmental, civil) 0 to 3 may be from another engineering department 0 to 2 may be from a department outside of engineering Co-op work experience is optional [-]

Master in Operations Research and Information Engineering

Cornell Tech
Campus Full time 1 year September 2017 USA Chelsea

Any business in any industry gains a competitive edge when they can harness data to inform strategic decisions. Our ORIE Masters will give you the mathematical and modeling skills you need to put data to work. [+]

Masters in Engineering in North America 2017. Master in Operations Research and Information Engineering Businesses of all types and sizes are awash in data and hungry for skilled analysts and information scientists who can use that data to make insightful, real-time business decisions. Cornell Tech's Master in Operations Research and Information Engineering (ORIE) will provide you with the mathematical modeling and data analysis skills you need to drive the decisions that improve customer satisfaction and operational efficiency. Learn Where Rigor Meets Innovation Cornell Tech's ORIE Masters combines Cornell University's academic rigor with the energy and opportunity that come with studying in the heart of New York's tech start-up community. Led by faculty who are actively shaping the future of Big Data, you'll master the intricacies of data modeling, machine learning and predictive analytics. You'll gain commercial context for your technical expertise through classes in business and entrepreneurship. Working in cross-functional teams with your classmates—who will include ambitious young lawyers, engineers, marketers and product managers— you'll create your own businesses in the Startup Studio and develop real solutions for clients in the Product Studio program. In just one year, you'll graduate with the skills, experience, and network you need to help startups and established companies alike harness data to drive customer value. Who Should Apply? Cornell Tech's ORIE Masters is ideal for students with a passion for querying data and using data-derived insights to shape business decisions. The minimum technical requirements are that you have completed one course on optimization, one course of intermediate-level probability and statistics and one course on intermediate-level programming before applying. A Master of Engineering in Operations Research and Information Engineering (ORIE) is also offered on Cornell's Ithaca campus, with a focus on building traditional math, scientific, and engineering skills, rather than Cornell Tech’s more data-driven approach to teaching mathematical and modeling skills to inform strategic decisions. Topics Covered Optimization Methods Probabilistic Analysis Machine Learning Data Science Modeling Under Uncertainty FEATURED COURSE Optimization Methods Credits 3.00 This course covers algorithmic and computational tools for solving optimization problems with the goal of providing decision-support for business intelligence. We will cover the fundamentals of linear, integer and nonlinear optimization. We will emphasize optimization as a large-scale computational tool, and show how to link programming languages, such as Python, Java and C++, with optimization software, such as Gurobi and CPLEX, to develop industrial-strength decision-support systems. We will demonstrate how to incorporate uncertainty into optimization problems. Throughout the course, we will cover a variety of modern applications and show how to deploy large-scale optimization models. Careers in the Field Analyst Data Scientist Product Manager Startup Founder What Your Schedule Might Look Like In the fall you’ll take morning classroom courses in Optimization Methods, Modeling Under Uncertainty, and Applied Machine learning. You’ll spend afternoons working on team-based projects in Product Studio and Startup Ideas and learn firsthand from industry leaders in Conversations in the Studio. In the spring you’ll take morning classroom courses in Service Systems & Online Markets and e-Logistics. You’ll also take one business and one tech elective. In the afternoons, you’ll pursue team-based projects in Startup Studio and Product Management. MEng Application Timeline Cornell Tech offers three application rounds. Applicants are encouraged to submit their application when ready. We will consider applicants that apply in each application round. We review applications as we receive them. The 2016-17 application deadlines for Operations Research & Information Engineering and Electrical & Computer Engineering are as follows: Round 1 - December 5, 2016 Round 2 - January 20, 2017* Round 3 - March 3, 2017** *Scholarship: To be considered for a merit-based scholarship, applicants are strongly encouraged to apply by the January 20th Round 2 application deadline. ** Complete applications received by April 10, 2017 will still be given full consideration for admission, capacity permitting; but applicants are encouraged to submit their applications as early as possible.Submitting applications early ensures early response. Application Requirements To be considered, all applicants must provide the following in their online application: Résumé You must submit a current résumé along with your application. With the use of LinkedIn, you will have the option to auto-populate the employment and education information listed within your online professional profile. Please note, any information that is auto-populated from LinkedIn can be edited. Personal Statement Here at Cornell Tech, you will be part of an environment where creativity, technical depth and leadership share seats at the table. We value expressions of who you are and what you add to this formula. Please submit a one- to two-page statement that describes your interest in this program at Cornell Tech. Your submission should highlight personal experiences that demonstrate your creativity, leadership and technical abilities. In particular, feel free to elaborate on technical projects you have completed, their creative and technical aspects; any entrepreneurial or leadership experiences; your professional career goals; the benefit you envision being part of the tech ecosystem in New York City; and, why this program is the one for you. Two Recommendations Recommenders should be faculty members or other individuals who know the applicants professionally and have seen them play a major role on substantial projects. Recommendations must be submitted online. GRE The GRE is required for admission to Cornell Tech. All official test scores should be reported directly to Cornell University. Students who have received (or will have received) a Bachelor degree from Cornell University are exempt from the GRE requirement for the Master of Engineering program. The GRE institution code for Cornell is 2098. Please be consistent in the spelling of your name on both your application and test score report. Transcripts Transcripts from each previously-attended college or university are required and must be uploaded online with the application. Admitted students will be required to submit an official transcript directly to Cornell University Graduate School prior to matriculation. Application Fee A nonrefundable application fee of $95 must be submitted with the online application. International Applicants Transcripts In addition to the aforementioned program requirements, international applicants must provide a certified English translation of transcripts if the original language is not English. Successful international applicants will have received a baccalaureate degree from a college or university of recognized standing. TOEFL Applicants must also demonstrate proficiency in the English language by taking the Test of English as a Foreign Language (TOEFL). Official TOEFL scores must be sent to the Cornell University Graduate School. The institution code is #2098. Cornell’s official minimum sub-scores for each element of the TOEFL are as follows: Writing: 20 Reading 20 Listening 15 Speaking 22 The TOEFL requirement may be waived if the applicant meets at least one of these criteria: Is a native citizen of the United States, Australia, Canada (except Quebec), Ireland, New Zealand or the United Kingdom. Has studied in full-time status for at least two academic years within the last five years in the United States, Australia, Ireland, New Zealand, the United Kingdom, or with English language instruction in Canada or South Africa. You must submit a transcript that shows you have attended college in one of these approved locations. [-]

Master in Engineering

Florida Polytechnic University
Campus Full time Part time September 2017 USA Lakeland

Florida Poly’s Master of Science in Engineering (ME) degree provides cutting edge research opportunities to students using state-of-the-art experimental or computational research facilities under the close supervision of a faculty member(s). [+]

The Engineering profession covers a wide spectrum of subject areas that ranges from nano-scale to industrial-scale application. It includes engines, robotics, information technology, electro-mechanical systems, motion intelligence, and others. Florida Poly’s Master of Science in Engineering (ME) degree provides cutting edge research opportunities to students using state-of-the-art experimental or computational research facilities under the close supervision of a faculty member(s). The College of Engineering will have research strengths in diverse areas addressing present day challenges, as well as developing technologies for the future. The College will offer graduate research in different areas such as: Digital Logic Design, Embedded System Design, Machine Intelligence, Control Systems, Digital & Hybrid Systems, Electrodynamics, Magnetics, Semiconductors, Geometric Dimensioning & Tolerancing, Motion Intelligence, Multifunctional Materials and Nanotechnology. Upon completion of the Master of Science in Engineering Degree in the College of Engineering, students will be able to: - Identify, formulate and solve engineering problems. - Apply analysis of user requirements to design engineering based solutions. - Research capabilities for identification, evaluation and implementation of current technologies and consider their application to address individual and organizational needs. - Build team based projects and plans to develop, integrate and implement engineering-based solutions from a managerial perspective. - Apply emerging modeling techniques, skills, methods and theories. Master Degree Program Admissions Requirements Admission decisions are based on consideration of the applicant’s academic records, letter of interest, resume and letters of recommendation. The following are the admissions requirements: - A bachelor degree in Engineering or a closely related discipline from a regionally accredited university - A minimum GPA of 2.7 in the last 60-semester credits attempted - Graduate Record Exam (GRE) is required for applicants with GPA less than 3.25. The GRE may be waived by the Graduate Student Advisor for applicants with a GPA of 3.25 or higher - A letter of interest - Two letters of recommendation [-]

Master (MSc) in Engineering

Marshall University - College of Information Technology and Engineering
Campus Full time September 2017 USA Huntington

The M.S. in Engineering (M.S.E.) program is an interdisciplinary engineering program designed to meet the specific needs of engineers employed in industry, government, and consulting. The program offers a broad core curriculum with opportunities for concentrated study in three areas of emphasis: Engineering Management, Environmental Engineering, and Transportation and Infrastructure Engineering... [+]

Masters in Engineering in North America 2017. MSc in Engineering The M.S. in Engineering (M.S.E.) program is an interdisciplinary engineering program designed to meet the specific needs of engineers employed in industry, government, and consulting. The program offers a broad core curriculum with opportunities for concentrated study in three areas of emphasis: Engineering Management, Environmental Engineering, and Transportation and Infrastructure Engineering. Students wishing to have two areas of emphasis must meet special requirements. Admission Requirements Each applicant for admission to the M.S. in Engineering degree program must have an undergraduate engineering degree from an ABET-accredited college or university and meet one of the following (A, B, or C) admission requirement options: Pass the PE exam, or Have an undergraduate cumulative GPA of 3.00 or greater, or Have an undergraduate cumulative GPA of 2.50 up to 2.99, and have at least two of the following: (1) Pass the FE,(2) verbal GRE score at least 151, (3) quantitative GRE score at least 150, and (4) analytical writing GRE score atleast 4.0. Alternatively, an applicant who has an undergraduate engineering degree from an ABET-accredited college or university and has an undergraduate GPA less than 3.00 may be considered for Provisional Admission without taking the GRE. To be removed from Provisional Admission, the student must have a minimum cumulative graduate GPA of at least 3.30 at the end of his or her first 9 credit hours of CITE M.S.E. degree courses—if this provisional requirement is not met, the student will be dropped from the program. Applicants who do not meet the above criteria but who do have an undergraduate engineering degree are welcome to apply as non-degree seeking students and take CITE M.S.E. degree classes. If a non-degree seeking student has at least a minimum cumulative graduate GPA of 3.30 in his or her first 9 credit hours of CITE M.S.E. courses, and has an undergraduate engineering degree, that student may re-apply to the university to be considered for admission to the M.S.E. degree program. Foreign students who have an undergraduate engineering degree, but not from an ABET-accredited college or university, and who have an undergraduate GPA equivalent to at least a 2.75, can be considered for admission only on a case-by-case basis, and the program admission recommendation will be up to the judgment and decision of the program coordinator for the M.S.E. degree program, while taking into consideration the other requirements stated above as well as individual high achievement of the applicant. Also, all international students must have an iBT TOEFL score of at least 85, or a Paper-Based TOEFL score of at least 527, prior to registering for the first semester of courses. All students, foreign or domestic, who are admitted without an engineering degree from an ABET-accredited engineering degree program must realize that they will likely not qualify to take the FE exam or the PE exam, even if they earn the M.S.E. degree. To apply to the Marshall University Graduate College, visit the Graduate Admissions website. You can apply online or use a PDF form. Refer to the Graduate Application menu item on the left of the page at that site. If you are from outside the US, you may find Marshall’s International Student Information website a useful resource. Degree Requirements Each degree candidate is required to complete at least 30 graduate credit hours, consisting of 9 credit hours of core courses plus 21 additional hours of required courses and electives in the applicable area of emphasis, with a cumulative Grade Point Average of 3.0 for the courses included in the student’s Plan of Study. Each degree-seeking student must have an approved “Plan of Study,” developed with a faculty advisor, that must be filed before the student registers for the 12th credit hour.. Please consult the Academic Regulations portion of the Graduate Catalog for other information. The Engineering program culminates with the comprehensive graduate project. This project is not the traditional graduate thesis with a research orientation, but rather a real-life, industry-type project in which the student undertakes an assignment that requires synthesis of all of the coursework and its application to a typical problem from a relevant subject area. Core Courses All Engineering degree students are required to take the following 9-hour core set of courses: EM 660 – Project Management (3 hrs) ENGR 610 – Applied Statistics (3 hrs) TE 699 – Comprehensive Project (3 hrs) Additional required courses vary by area of emphasis. Requirements for Areas of Emphasis Engineering Management EM 620 – Management of Technical Human Resources and Organizations (3 hrs) EM 668 – Operations Management (3 hrs) EM 670 – Seminar in Engineering Management (3 hrs) EM 675 – Engineering Economics (or TM equivalent) (3 hrs) EM 694 – Engineering Law (3 hrs) Two CITE elective courses approved in advance by the student’s advisor (6 hrs) Environmental Engineering ENVE 615 – Environmental Chemistry (3 hrs) ENVE 681 – Environmental Engineering Design (3 hrs) ES 514 – Environmental Risk Assessment (3 hrs) ES 560 – Environmental Law I (3 hrs) One of the following three courses: ES 620 Environmental Management Systems (3 hrs) ES 640 Groundwater Principles (3 hrs) ES 646 Dynamics of Ecosystems (3 hrs) Two CITE elective courses approved in advance by the student’s advisor (6 hrs) Transportation and Infrastructure Engineering Any two of the following (6 hrs): CE 612 – Structural Steel Design and Behavior (3 hrs) CE 614 – Advanced Reinforced Concrete Structure Design and Behavior (3 hrs) CE 616 – Pre-stressed Concrete Design (3 hrs) CE 618 – Bridge Engineering (3 hrs) Any two of the following (6 hrs): CE 634 – Traffic Engineering (3 hrs) CE 635 – Evaluation of Transportation Systems (3 hrs) CE 636 – Transportation Planning (3 hrs) CE 637 – Highway Safety Engineering (3 hrs) In addition to the required courses listed above, students must complete nine hours of elective courses selected from the list below: CE 612 – Structural Steel Design and Behavior (3 hrs) CE 614 – Advanced Reinforced Concrete Structure Design and Behavior (3 hrs) CE 615 – Finite Element Applications in Civil Engineering (3 hrs) CE 616 – Pre-stressed Concrete Design (3 hrs) CE 618 – Bridge Engineering (3 hrs) CE 634 – Traffic Engineering (3 hrs) CE 635 – Evaluation of Transportation Systems (3 hrs) CE 636 – Transportation Planning (3 hrs) CE 637 – Highway Safety Engineering (3 hrs) CE 638 – Pavement Design (3 hrs) CE 650-652 – Special Topics in Civil Engineering (3 hrs) CE 699 – Civil Engineering Research (1-6 hrs) EM 694 – Engineering Law (3 hrs) ENVE 670 – Hydrology and Drainage Control (3 hrs) ES 560 – Environmental Law (3 hrs) IS 645 – Geographic Information Systems (3 hrs) Students Wishing to Have Two Areas of Emphasis Master of Science in Engineering students who wish to complete two areas of emphasis must complete two comprehensive projects—one for each area of emphasis—and all the required courses for both areas of emphasis, as well as the M.S.E. core courses and needed electives as approved in advance by the student’s advisor. 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Master in Engineering Technology Leadership

Western Illinois University College of Business and Technology
Campus Full time August 2017 USA Macomb

The Master of Science program in Engineering Technology Leadership provides advanced course work in manufacturing strategies, agendas, and quality control and addresses principles of world-class organizations [+]

The Master of Science program in Engineering Technology Leadership provides advanced course work in manufacturing strategies, agendas, and quality control and addresses principles of world-class organizations and restructuring of manufacturing practices, including: simultaneous/concurrent engineering practices, just-in-time manufacturing, material requirements/resources planning, and product and process simplification with value analysis/value engineering. The program permits advanced course work for those persons having baccalaureate degrees in a variety of related technological fields (manufacturing, engineering, industrial, and production are a few examples). Other professionals who find it necessary to develop technical knowledge and skills from disciplines as diverse as computer science, industrial engineering, and business administration can benefit from the program. Courses Students have the choice of one of three plans: - thesis, - professional internship, - or independent research. Experiences include automation, CAD/CAM, CNC, robotics, measurement, and process control. The opportunity to participate in industrial work experiences (manufacturing internship), to pursue independent studies, and to perform independent research, coupled with graduate laboratory courses and technical writing at required industry standards, provides a balanced program of studies that may be designed to meet the individual needs of the student. Tuition - In-State: $317.31 per credit hour - Out-of-State: $634.62 per credit hour [-]

Master (MSc)Technology Management

School Of Professional Studies - Columbia University
Online & Campus Combined Full time 16 months September 2017 USA New York

Columbia University’s Executive M.S. in Technology Management prepares senior technology professionals to develop a strategic mindset, fine-tune their speaking and presentation skills, understand core business functions (such as finance, accounting, and leadership), and ultimately drive enhanced business performance through the use of technology. [+]

Masters in Engineering in North America 2017. The demand for skilled and experienced leaders who can guide their firms to compete in today’s highly competitive, fast-paced, global, technology-based economy has never been higher. Columbia University’s Executive M.S. in Technology Management prepares senior technology professionals to develop a strategic mindset, fine-tune their speaking and presentation skills, understand core business functions (such as finance, accounting, and leadership), and ultimately drive enhanced business performance through the use of technology. The program emphasizes the importance of using technology in business for strategic advantage and improved productivity. Graduates typically assume positions as CIO, CTO, CAO, COO, CEO, or CSO, or as entrepreneurs. The program is also ideal for those pursuing CISA (Certified Information Systems Auditor) certification. To meet expanding industry needs for executive technology managers with distinct knowledge, the program offers five areas of focus: C-Level Management, Data Management and Analytics, New Business Ventures, Entertainment Technology Management, and Cybersecurity. The executive, cohort-based program is completed over a 16-month period, which includes flexible online and interactive learning using Columbia’s unique networked learning platform and five multi-day residences where students engage in intensive study and have the opportunity to network with other students, faculty, and industry leaders. Students choose a residency plan based in New York City or in Paris. One-on-One Executive Mentoring One of the unique ways the program prepares students for the challenges of technology leadership is through extensive, one-on-one, structured mentoring from accomplished technology leaders. Beginning in the second term, each student is matched with a seasoned executive best suited to provide informed, individualized guidance for developing a master’s project idea into a complete, portable asset that can move any career forward. Who Should Apply The program provides an intensive graduate education for motivated candidates who have already demonstrated professional accomplishment. The ideal candidate has a minimum of ten years’ experience in professional roles using technology to further business goals, with a résumé demonstrating a strong record of professional achievement and clear leadership potential. Diverse industries and specializations are represented in every incoming class. Students are admitted as part of a cohort that moves through each phase of the program together, learning from each other as much as from faculty, mentors, and guest lecturers. Curriculum 36 points for degree completion Combination of on-campus and online instruction Executive Master’s Schedule* Fall intake only 16 months to complete Executive Seminars Executive Mentorship Program (one mentor per student) * Enrollment in this program does not meet the full-time requirements for an F1 student visa. The Executive M.S. in Technology Management is a 16-month executive format program framed by five multi-day residencies. The curriculum includes required or core courses; elective courses in five areas of focus: C-Level Management, Data Management and Analytics, New Business Ventures, Entertainment Technology Management, and Cybersecurity; executive seminars; and the Master’s Project. Activities during the residencies connect directly to the other program components. Throughout the program, coursework is supported by a leading-edge online learning platform designed to enhance and extend the face-to-face residency experience. Full participation is critical for degree completion. Core Courses (Required for all Students) Required or core courses provide all students, regardless of their backgrounds, with the knowledge and skills technology executives must have to succeed in today’s fast-paced global environment. Through the study of relevant theoretical frameworks, strategies, and tools, students acquire the ability to consider technology challenges from varied perspectives. Case studies help students to apply these theories, strategies, and tools to develop solutions to challenges they face in their own industries and work environments and become highly effective leaders. Elective Courses Electives include courses designed expressly for the program’s areas of focus. Students may also select related courses offered at the University that may help them advance their professional and academic interests. The Mentor-Led Master’s Project The Master’s Project demonstrates students’ ability to apply their coursework towards a specific technology solution based on the area of focus chosen by the student — usually in the form of a product or service — to a complex, real-world business challenge, objective, or scenario. A unique feature of the M.S. program and this project is the pairing of each student with an executive mentor drawn from the program’s vast network of CIOs and technology executives. Faculty approve students’ proposals for the Master’s Project during the first term of study. By a “draft” process, students are then matched with a mentor, who is interested in the student’s project. Then one-on-one work with the executive mentor over 3 semesters of the program develops and strengthens the idea into a project plan that will ultimately produce a complete and entirely portable professional asset. Master’s Projects are based on real-world business opportunities or challenges and are often centered on a business scenario the student knows firsthand from his or her own professional experience. Executive Seminars Over the course of the program, and in partnership with the program’s community of faculty, peers, and industry leaders, students research, develop, test, and refine their Master’s Project solutions over three sequential academic terms, completing three chapters in succession: product or service realization, strategic planning and marketing, and operations management. These online Executive Seminars immerse students in additional knowledge regarding current trends and issues in high-level technology management, taught by multiple instructors, all of whom are industry experts in one of the program’s areas of focus. After each Executive Seminar, mentors review and discuss the progress of the Master’s Project with the student, offering the opportunity to seek advice about any aspect of the Project, from logistical business concerns to strategies for presentation and defense of the project before a review panel. Every student must “defend” each chapter orally in front of a panel of executives. Mentor Activities The mentor approaches and critiques the Master’s Project from the perspective of a seasoned executive, providing business context, identifying practical problems, honing solutions, challenging assumptions, offering guidance and contacts, and managing expectations. Meetings with the mentor simulate the real-world experience of working out complex solutions with a senior colleague. Online Coursework Many courses are enhanced through a highly interactive online experience that uses the School’s innovative distance learning platform. Students and faculty communicate through a unique social networking function in ways that extend and enhance the impact of traditional learning experiences. Courses typically include a combination of live events, asynchronous community-driven activities, and self-study. The online component does not substitute for the in-person residencies and coursework. Residencies The residency component is an essential part of a student’s development and preparation for a career as an executive. The face-to-face sessions provide group discussions and debates so that students can challenge their own views and benefit from the diversity of ideas put forth by their colleagues. Students are provided access to senior IT executives who present contemporary issues facing the profession. The experience allows students to assess their own views and develop new perspectives on their leadership style. The residencies also offer students the opportunity to network with industry leaders, get to know fellow students from around the world, and build a lifelong network of alumni, mentors, and faculty from the program. [-]

Master in Applied Engineering and Technology Management

Murray State University
Campus Full time September 2017 USA Murray

This program is designed for people wanting to further their knowledge of industrial management, leadership, and technology. [+]

Master in Applied Engineering and Technology Management This program is designed for people wanting to further their knowledge of industrial management, leadership, and technology. The program is intended for students having backgrounds in technology, engineering, science, or business management. Other backgrounds will be considered as long as the students have taken sufficient mathematics. Most graduates find employment in manufacturing or chemical processing industries. Core Courses (Required, 18 credit hours) CET 682 Industrial Ecology IET 684 Engineering Economic Analysis IET 687 Quality Control IET 691 Industrial Operations IET 693 Systems Management Technology IET 695 Industrial Supervision Typically, CET 682, IET 684, IET 691, and IET 693 are offered in the Fall semester, and IET 687 and IET 695 are offered in the Spring semester on campus. No core classes are offered in Summer semester. IET 687 requires an introductory background in statistical analysis. Students without an undergraduate statistics course are encouraged to take MAT 135, CIS 243, or an equivalent course before taking IET 687. On line courses are available through an agreement with WKU, EKU, and Morehead State that will substitute for many of the core courses. Contact the AETM program coordinator if you need to take one of these classes. Some courses from these other universities can also be counted as electives. Electives (12 credit hours minimum) Electives may be taken over a wide range of categories. Elective courses are the student’s choice based on career interests, course availability, and satisfaction of any prerequisites. The choices must be approved by your advisor as a part of the program of study. HDL courses, e.g. HDL 660, HDL 670, and HDL 692 are recommended. Students also take a variety of COM courses. Students with a technical or science background or an interest in environmental management can take CET 655 and CET 681. Presently, AETM students are typically not allowed to take courses with the following prefixes, regardless of academic background: ACC, BPA, CIS, FIN, MGT, and MKT. Enrollment in TSM courses is currently restricted to after the TSM students have enrolled. Independent study, special problems, workshop, and similar courses will only be allowed in special circumstances as approved by your advisor and the course instructor. [-]

Master In Assessments, Appraisals And Judicial Expertise

Universidad Europea de Madrid (UEM)
Campus Full time 9 months September 2017 Spain Alcobendas

The construction sector (Architecture, Building and Engineering) is living in these years worldwide a crisis and rapid changes required at the same time, a number of opportunities and professional challenges they will have to deal these changes. [+]

Masters in Engineering in North America 2017. The the construction sector (Architecture, Building and Engineering) is living in these years worldwide a crisis and rapid changes pose the same time, a number of opportunities and professional challenges that will have to cope with these changes. Consider issues such as the global market, internationality, multidisciplinarity, multiculturalism, integration, new technologies, diversity management, change management, etc., is becoming more necessary and required. Masters of the art in Spain The Graduate School of the European University, offers an innovative training in the areas of Architecture and Building, Civil, Industrial, Aerospace and ICT. Our qualifications are focused on the student receives an international training, where the company is actively involved in the development of content and professional practices. Why study at the European University The rate of employability of our graduates is much higher than those of the current job market: "93% of our students find employment in the first year after completing their studies," in places like Fermoso Laura Dominguez, Technical Manager Lledo Group UK, or through the case of Alba Fernández Arias, Consultant in Architecture and Environment in the Consortium of Santiago. We have agreements with more than 3,500 companies to offer more internship to our students and our graduates employment. leading companies in their sectors such as Acciona, Movistar, BMW Ibérica, Vodafone, Sony Spain, Bp Oil, Iveco Spain, Airbus Spain, Endesa, Ferrovial, Sacyr, etc. We provide a comprehensive, international university education, designed to help students adjust to the workplace and personal development. The largest private university by number of students. Our fundamental principle is academic quality, which reinforced with practical classes and use the latest technology in the classroom. The faculty is highly qualified and has extensive teaching experience, professional and research that enriches the education and training of the student. The small groups allow permanent and direct contact with the teacher and can make the most of the practices of each of the degrees facilities. We are part of Laureate International Universities, a global leader in higher education, with over 1,000,000 students in 80 institutions in 28 countries. This schools network power your international presence, facilitating your trip abroad exchange programs. [-]