Masters of Business Administration - Advanced Business Strategy Using A.I. and Analytics
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M.S. in Engineering
Milwaukee, Wisconsin
INTAKE: March, Sept & Dec
Program Overview
The MSE program at MSOE emphasizes the further development of engineering knowledge and skills, with a strong focus on enhancing the productivity of the practicing engineer. It typically requires 30 graduate credits and offers flexibility, allowing students to pursue either an integrated approach covering multiple disciplines or a specialized approach in fields such as electrical or mechanical engineering. The program is designed for individuals holding bachelor's degrees in engineering, engineering technology, or closely related areas. Students work with a program director to tailor their course of study to their specific needs and career goals, culminating in either a project or a final paper that integrates the knowledge and skills learned.
STEM-Designated: Yes, the Master of Science in Engineering (MSE) at MSOE is a STEM-designated program. This designation is highly beneficial, particularly for international students on F-1 visas, as it allows them to apply for a 24-month extension to their Optional Practical Training (OPT) period. This means eligible international graduates can gain up to 36 months of work authorization in the U.S. after completing their degree, significantly expanding their professional development and career opportunities in STEM-related engineering fields.
Curriculum: The MSE curriculum provides a flexible platform for advanced engineering studies. While specific course lists can vary based on individual student needs and chosen specializations (e.g., electrical engineering, mechanical engineering, industrial and systems engineering), the program generally includes courses in advanced engineering mathematics, simulation and modeling, operations research, quality engineering, finite element analysis, advanced mechanics, fluid power systems, data communications, control systems, and advanced electronic systems. The program's strength lies in its adaptability, allowing students to gain depth in specific technical areas or a broader understanding of various engineering disciplines, all while emphasizing quantitative skills and modeling-based approaches.
Research Focus: The MSOE MSE program has a strong applied research and problem-solving focus. Its primary emphasis is on enhancing the productivity of practicing engineers through the application of advanced engineering principles and methods to solve real-world industrial projects. While a traditional thesis may be an option, the program often culminates in either a capstone project or a specialty paper, where students must integrate and apply their learned knowledge and skills to a specific engineering problem or area of interest. This approach fosters critical thinking, analytical skills, and the ability to develop practical, innovative solutions for complex engineering challenges, reflecting MSOE's hands-on learning philosophy.
Industry Engagement: MSOE is well-known for its deep industry engagement and commitment to preparing graduates who are "ready now" for the workforce. The MSE program benefits from this strong connection, with a curriculum that is designed to meet the evolving needs of various engineering industries. Faculty members often have extensive practical experience, bringing real-world case studies and current industry challenges directly into the classroom. MSOE boasts numerous state-of-the-art laboratories and research centers, such as the Rapid Prototyping Center and the Fluid Power Institute, which offer students opportunities for hands-on experience and collaboration with industry leaders on cutting-edge projects. These robust partnerships provide invaluable networking opportunities and practical exposure.
Global Perspective: The M.S. in Engineering at MSOE inherently incorporates a global perspective by addressing advanced engineering challenges that are universal across industries worldwide. The program's focus on quantitative skills, modeling, and problem-solving equips graduates to work effectively in diverse international engineering teams and contribute to global technological advancements. MSOE attracts a diverse international student body, which enriches classroom discussions with varied cultural insights and engineering practices from around the world. Furthermore, the STEM designation of the program is a crucial element for international students, as it facilitates extended opportunities for practical training in the U.S. post-graduation, thereby enhancing their global career competitiveness and professional experience.
Location
Milwaukee, Wisconsin
Score
IELTS 7
Tuition Fee
USD 43608
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 70% or above in their bachelor's degree.
English Language Proficiency:
- IELTS: Overall band score of 6.5 or 7.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 90 or higher.
- PTE: Overall score of 60 or higher.
- DET (Duolingo English Test): Minimum score of 130.
Standardized Test Requirements
- GRE (Graduate Record Examinations): Minimum score of 300 required.
Milwaukee School of Engineering (MSOE) offers a variety of scholarship opportunities specifically designed for international students to support their academic journey and make education more affordable. These scholarships are primarily merit-based and aim to recognize outstanding academic achievements, leadership qualities, and contributions to the community.
Merit-Based Scholarships: International students applying to MSOE are automatically considered for merit scholarships based on their academic records, standardized test scores, and overall application strength.
Global Scholar Award: This prestigious award is granted to international students who demonstrate exceptional academic excellence, leadership skills, and community involvement. The Global Scholar Award helps reduce tuition fees significantly and supports high-achieving students throughout their studies.
External Scholarships and Funding: MSOE encourages international students to explore additional funding opportunities through external scholarships such as the Fulbright Program, EducationUSA Scholarships, and various private foundations or government-sponsored awards from their home countries.
The Milwaukee School of Engineering (MSOE)'s Master of Science (M.S.) in Engineering (MSE) is a highly flexible and STEM-designated program designed for practicing engineers and technical professionals aiming to deepen their technical expertise or broaden their engineering knowledge across disciplines. It focuses on enhancing an engineer's productivity by providing advanced problem-solving skills and the ability to apply cutting-edge engineering principles to industrial projects.
Senior Design Engineer: Graduates can take on lead roles in designing complex systems, products, or components within various industries (e.g., automotive, aerospace, medical devices, consumer electronics). Their advanced knowledge allows them to tackle more intricate design challenges and innovate solutions.
Research and Development (R&D) Engineer: MSE graduates are well-equipped for R&D positions, where they conduct experiments, analyze data, and develop new technologies or improve existing ones. This can involve materials science, automation, energy systems, or product innovation.
Advanced Manufacturing Engineer: Specializing in optimizing manufacturing processes, these engineers implement advanced techniques like additive manufacturing, automation, and lean principles to improve efficiency, reduce costs, and enhance product quality.
Systems Engineer: This role focuses on the holistic design, integration, and management of complex systems throughout their lifecycle. MSE graduates can ensure that all components of a system work together effectively to meet overall functional and performance requirements.
Test and Validation Engineer (Advanced): These engineers develop and execute rigorous testing protocols for products, systems, or software. Their advanced analytical skills help them identify critical performance issues, analyze failures, and ensure product reliability and safety.
Simulation and Modeling Engineer: Leveraging advanced quantitative skills, graduates can specialize in creating sophisticated computer models and simulations to predict system behavior, optimize designs, and analyze complex engineering phenomena before physical prototyping.
Automation Engineer: These professionals design, implement, and maintain automated systems and robotic solutions in manufacturing, logistics, or other industrial settings to improve productivity and consistency.
Technical Consultant (Specialized): Graduates can provide expert technical advice to companies facing complex engineering challenges. They might specialize in a specific area like fluid power, materials science, or advanced electronics, leveraging their in-depth knowledge to offer solutions.
Quality Engineer (Advanced/Reliability): Focusing on quality assurance and control, these engineers implement advanced statistical methods and quality management systems to ensure product and process excellence, reduce defects, and improve reliability.
Engineering Management (Entry/Mid-level): While MSOE has a dedicated M.S. in Engineering Management, the general MSE program, with its focus on enhancing productivity and problem-solving, can also prepare graduates for entry- or mid-level leadership roles where they manage small teams or specific technical projects.
