Michigan Tech Global Campus News

Month: November 2024

Manufacturing Engineering Programs From MTU Go Online.

Published
By
A young manufacturing engineering professional touches a computer monitor while in a factory setting.

The Department of Manufacturing and Mechanical Engineering Technology (MMET) has recently announced two new online programs: the MS and the PhD in Manufacturing Engineering. Previously, these programs were available only on campus. 

Both Michigan Tech’s online master’s degree and PhD program, designed in partnership with industry, stress manufacturing competitiveness. This competitiveness is central to smart manufacturing, modeling, simulation, sustainability, additive manufacturing, and advanced materials. All of these areas are crucial to Industry 4.0.

The programs’ practical core curriculum, which covers both the breadth and depth of manufacturing engineering, is inspired by Society of Manufacturing Engineer’s Four Pillars of Manufacturing Knowledge:

  • Materials and manufacturing processes
  • Product, tooling, and assembly engineering
  • Manufacturing systems and operations
  • Manufacturing competitiveness

Flexible Manufacturing Engineering Degrees for Working Professionals

But according to John Irwin, Professor and Department Chair of MMET, these programs are not solely for manufacturing engineers.

That is, similar to Michigan Tech’s online manufacturing engineering certificate, these in-demand programs have been designed to attract people from a wide range of undergraduate backgrounds. Students might come from mechanical engineering, electrical or computer engineering, materials science and engineering, manufacturing engineering technology, biomedical engineering, and robotics.

In other words, many can enroll in and then benefit from these degrees, which provide the tools and knowledge to take the next step: earning SME certifications, which are available in Lean, Additive, and Robotics Manufacturing.

In addition, the master’s and the PhD programs are both flexible and customizable. You may choose from three pathways for the 30-credit master’s degree (thesis, report, or course-work only). Also, there are two options for the doctoral degree (60 credits or 30 credits). Options depend on whether you begin with an undergraduate or a master’s degree. Beyond the core courses, you can also choose electives from four fundamental manufacturing areas. Thus, you can customize a degree that matches your educational and professional goals.

These online programs allow students from Michigan and beyond to benefit from this rigorous curriculum while working part or full-time. In fact, both programs are designed so that those enrolled can collaborate with their employers to complete workplace-based projects or conduct thesis or dissertation research.

 Students in the GD&T course work virtually in teams taking a component of a system from their workplace to perform tolerance analysis and conversion of traditional dimensions to GD&T in order to improve part functionality and minimize manufacturing errors.

John Irwin, Professor and Department Chair of MMET

In-Demand Knowledge for Current and Future Manufacturing Engineering Challenges

In 2021, the waves of the pandemic started to quickly unravel supply chains across the world. Manufacturing plants slowed or even closed, ports experienced unprecedented back-ups, and transportation costs and inflation raised prices dramatically.

According to NAM’s (National Association of Manufacturer’s) Q3 2023 Manufacturer’s Outlook Survey, 72.1% of the respondents indicated that the biggest challenge facing manufacturers was attracting and retaining a quality workforce. 

And manufacturing engineers are obviously a crucial part of that quality workforce. The US BLS stated that the job growth for industrial engineers (one possible career path) between 2023-2033 is 12%. This growth is much faster than average. Currently, there are over 241,977 manufacturing engineers employed in the US, but there still is a need for more. 

Why? The drive to incorporate Lean manufacturing processes, advances in additive manufacturing, the digital transformation of the manufacturing industry, and the reshoring of manufacturing in the US have all magnified the demand for manufacturing engineers.

In particular, the manufacturing industry needs engineers with expertise in IOT (Internet of Things) technologies and smart factory solutions, which are essential to manufacturing competitiveness. Michigan Tech, in fact, has a long history in advanced these and other manufacturing solutions.

That is, both the MS and PhD in manufacturing support efforts highlighted by Automation Alley, Michigan’s Industry 4.0 knowledge center. This center has helped manufacturers of all sizes understand the rapid technological changes associated with digital technology in manufacturing, so that both Michigan and the nation remain globally competitive.

Quality means doing it right when no one is looking.

Henry Ford, American industrialist, founder of the Ford Motor Company

Get Started On Your Program Now.

Michigan Tech’s online manufacturing programs can help you accelerate your career while making a difference in Industry 4.0.

There is still time to begin a graduate program for Spring 2025. Alternatively, you can start with an online graduate certificate in manufacturing engineering, and then apply these credits towards an advanced degree.

For Spring 2025, MMET is offering Industry for 4.0 Concepts (MFGE 5200), Design for Additive Manufacturing (MFGE 5300), which are core courses for both the certificate and master’s degree. Industrial Safety (MFGE 5500), a core course for the master’s program, is also on deck.

For more information about these programs, please contact David Wanless, Associate Teaching Professor MET and Program Director; and visit the web page on Global Campus.

Continue Reading →

Bridge Design Course Added for Spring 2025

Published
By
The Houghton lift bridge on a cloudy, yet sunny, day.

You can drive over a failed roadway. Failed bridges, though, are a different story–one that qualified structural engineers are responsible for preventing through good design practices and thorough bridge inspection, evaluation, and management.

Dr. Chris Gilbertson

Dr. Chris Gilbertson, PE, knows, lives bridges. Really respects their importance, too, in keeping us safe and getting us where we need to go. He is bringing his significant experience, expertise, and passion to Michigan Tech. He is teaching the Spring 2025 hybrid online/on-campus course CEE 5261, Bridge Construction and Design for CEGE. This course runs from January 6 to April 18.

Get an Overview AASHTO Bridge Design Specifications.

This fundamental course, required for Michigan Tech’s bridge analysis and design certificate, will provide an overview of the AASHTO (American Association of State Highway and Transportation Officials) bridge design specifications. These specifications include loading and load effects, as well as the design of steel and concrete superstructure and substructure components. CEE 5261 also introduces students to related bridge-management topics, such as inspection, load rating, and asset management.

If you haven’t heard of AASHTO, it “is a nonprofit, nonpartisan association representing highway and transportation departments in the 50 states, the District of Columbia, and Puerto Rico.” Although AASHTO covers all transportation modes, “its primary goal is to foster the development, operation, and maintenance of an integrated national transportation system.” It is a leader in setting standards for the design, construction, and maintenance of highways and materials.

“Most structural engineering curricula are focused on aspects of building design. This course will provide content focused on bridge design and the AASHTO specifications for both bridge design and evaluation,” Gilberston confirmed. Another unique aspect of CEE 5261 is the focus on bridge management. Bridge management is complex; it involves the inspection, load rating, and asset management that goes into maintaining an agency’s bridge network.

Students will gain real-world experience through a class project involving a local case study. That is, they will take a set of plans from a bridge located in the Western Upper Peninsula. Next, they will use those plans and inspection reports to produce a load rating. Finally, they will determine the safe load carrying capacity of the structure as it stands, deterioration and all.

Learn About Bridge Design from an Experienced Instructor.

Dr. Chris Gilbertson, PE., is not only an adjunct associate professor for the Department of Civil, Environmental, and Geospatial Engineering (CEGE), but also an associate director at CEGE’s Center for Technology and Training.

An expert in bridge design, load rating, and asset management, Gilbertson is a versatile, seasoned instructor who has taught college, practitioner-level, and high school audiences. Pre-college outreach is also his passion. In particular, he is active in the AASHTO’s hands-on TRAC (Transportation and Civil Engineering) outreach program. This innovative program integrates real-world engineering problems into 7th-12th grade STEM curriculum. For instance, previous students have designed bridges and analyzed the environmental and economic effects of building highways.

Gilbertson is also involved with NSTI (National Summer Transportation Institute), an interactive program that introduces students to STEM-based transportation careers.

Use the Bridge Analysis and Design Certificate to Launch into Graduate Study.

After completing the required CEE 5261 course, students can then broaden their knowledge. They will take two additional structural design elective courses to complete the certificate: Bridge Analysis and Design. They may choose from three options: Prestressed Concrete Design, Steel Design II, or Concrete and Masonry Building Systems. These three electives provided material that is of related depth.

The Bridge Analysis and Design certificate was also developed to introduce engineers to the AASHTO LRFD (Load Resistance Factor Design) bridge design specification.

This certificate is flexible, too. Graduates can stop after earning it, using the credential to help them progress in their careers. Whether they work in structural engineering, transportation, bridge project management, and more, this certificate will be an asset.

Alternatively, graduates may use this certificate to launch into a master’s program. That is, they can stack their bridge design credential with other structural engineering certificates, such as Advanced Analysis, to build a customizable master’s degree in civil engineering.

Chart demonstrating how students can stack their bridge design certificate with others to create a master's degree in structural engineering.
Examples of how students can stack their bridge building and design certificate with others to create an online master’s degree in civil engineering.

Get Training for Pressing Infrastructure Challenges.

Whether students choose to earn only the certificate or advance to a master’s, they should know that structural engineers with advanced education are needed now more than ever. First, the world needs engineers who can develop solutions for the effects of natural hazards, increasing extreme-weather events, and climate change.

And in the US, especially, there is a demand for engineers who can contend with infrastructure deterioration and maintenance. Bridges are a critical piece of infrastructure that must be designed safely and sustainably.

In their 2021 report card, the American Society of Civil Engineers (ASCE) gave US infrastructure the overall grade of C-. This grade, at the bottom end of average, reflected the poor condition and performance of American roads, levees, parks, transit, inland waters, ports, rail, and more.

Whereas rail had the highest grade (B), and transit the lowest (D-), that for bridges was a C. Of the over 617,000 bridges in the United States, 42% of them are at least 50 years old. And 7.5% (or 46,154) are considered structurally deficient, or in poor condition. The ASCE report card also revealed a 2.5 trillion-dollar funding gap in US infrastructure.

However, the situation in Michigan is bleaker. In Michigan’s last ASCE Report Card, the bridge grade was D+. In 2022, the state had 11,314 bridges, with 11% being in poor condition, which is higher than the national average (7.5%). These bridges include heavily traveled structures, such as I-696’s overpass and ramps with I-75.  And only 34% of these structures are in good condition, which is a drop from 43.5% in 2018.

According to Gilbertson, the condition of these bridges is largely due to limited availability of funding, what the ASCE refers to as chronic underinvestment in infrastructure.

Learn More About Making a Difference in Bridge Construction and Design.

Civil engineers who specialize in infrastructure, then, definitely have their hands full. They must find innovative solutions to fixing, maintaining, and increasing the lifespan of existing structures, such as bridges, roads, and buildings. And while designing and enacting these solutions, they must make difficult decisions about priorities and budgets while preserving safety and improving functionality. Tough jobs indeed!

Michigan Tech’s CEE 5261 course and certificate in Bridge Analysis and Design can educate civil engineers to meet these upcoming challenges.

To get more information about the certificate and master’s degree in structural engineering, visit their corresponding pages in Global Campus. To ask specific questions about any of the structural engineering programs, contact cege@mtu.edu or use the Request Information Button Below.

Structural engineering underpins wealth creation; it provides a bedrock of infrastructure that supports civilized living: homes for people to live in, places to work, and the lifeline systems we all need.

Allan Mann, 2011
Continue Reading →

How to Become a Medical Statistician

Published
By

Medical statisticians analyze data to prevent and predict diseases.

Accurate measurements and data analyses are invaluable throughout healthcare systems. That is, sound statistical methods in clinical trials, university research, and hospital operations are crucial to better patient outcomes. Medical statisticians – also known as biostatisticians – are key to setting the foundations of medical research and to clinical decision-making.

Medical statisticians regularly require both applied statistics expertise and healthcare industry knowledge. Merging these knowledge areas is possible with a graduate-level education. If this career intrigues you, read on about the responsibilities in this role.

A Medical Statistician’s Job Responsibilities

Medical statisticians design clinical studies and quality improvement projects. They also perform other data-gathering methods in healthcare settings. That is, they are involved in every step of a project’s development from study design through publication of research results.

Typical employers for medical statisticians include the following:

  • Integrated healthcare systems
  • Pharmaceutical and medical equipment companies
  • Public health departments
  • University research institutes and medical schools

Statisticians in healthcare settings may simultaneously oversee studies and projects in different stages. For instance, take the example of a medical statistician employed by a pharmaceutical company. This statistics professional might work on one of more of the following tasks in a day:

  • Optimizing sample sizes for upcoming clinical trials of new medications and products
  • Updating case report forms with data from ongoing trials
  • Modeling trial results for data on positive and negative impacts
  • Writing the methods section for an application to a regulatory body like the FDA

Because health statisticians are involved with many aspects of healthcare, their careers are highly collaborative. Medical statisticians might team up with physician-scientists, medical writers, clinical managers, and regulatory affairs specialists. They may also work with statisticians at other organizations as part of large-scale research projects.

Preparing For a Medical Statistician Career

An undergraduate degree with a mathematics focus is a good starting point for a career in medical statistics. Professionals pursuing nursing or other care-focused degrees may also leave statistics career options open by taking a few college courses. Truly, successful coursework in calculus, linear algebra, and statistics is helpful no matter your college degree.

However, the most common entry point into a medical statistician career is a master’s degree in applied statistics. Students in this graduate program learn how to use statistical methods to analyze and to solve real-world challenges. Medical statisticians typically build advanced skills in the following areas during their graduate education:

  • Designing and evaluating experiments
  • Communicating research results to stakeholders
  • Employing programming languages, such as R and Python to solve problems
  • Using SAS software for data mining and analysis

Success as a medical statistician, however, extends beyond fluency in statistics and data analytics. That is, medical statisticians also need project management skills to oversee junior staff members and balance research responsibilities. They also require a rich understanding of medical ethics and professional standards.

Looking Ahead: Career Prospects and Salary for Medical Statisticians

A graphic of a bar chart and a trend line.

Increasing complexity in clinical research and health services means there is a high demand for medical statisticians. Overall, the U.S. Bureau of Labor Statistics (BLS) projects a 30% growth in jobs for all statisticians from 2022 to 2032.

This projection far exceeds the estimated 3% growth in jobs for all occupations during the same period. What this growth comes down to is a need for about 10,600 statisticians.

And this long-term demand for statistics professionals in health fields translates into above-average salaries. The BLS found a median salary of $104,860 for mathematicians and statisticians in 2023. Experience and specialized knowledge may lead to higher salaries, with the top 10% of earners reporting salaries of at least $161,300.

Aspiring medical statisticians can boost their career prospects by studying at a leading university. A graduate education focused on the latest methods and tools prepares statisticians for future opportunities. Michigan Tech University offers a Master of Science in Applied Statistics that achieves these goals.

Acquiring Medical Statistician Skills at Michigan Tech

Michigan Tech’s innovative Online MS in Applied Statistics Degree provides entryways into in-demand fields such as medical statistics and others. This program is also flexible. It offers seven-week courses for accelerated learning opportunities as well as three possible start dates. And Michigan Tech does not require GRE or GMAT scores in its free graduate application process.

Applied statistics students work with experienced faculty members on several subjects including the following:

  • Computational Statistics
  • Design and Analysis of Experiments
  • Regression Analysis
  • Time Series Analysis and Forecasting

Prospective students with undergraduate calculus, linear algebra, and statistics coursework are well-positioned for admission into the program. Also, a ten-week bridge course is available for incoming students who need to brush up on their linear algebra skills.

Learn More About Applied Statistics.

But a medical statistician is just one example of a possible data-driven career made possible by advanced education in Applied Statistics. Want to learn more about the courses and the program structure in Michigan Tech’s online MSAS program? Explore other career trajectories?

Continue Reading →