Tag: GIS

Asset Management Certification Comes to MTU

A bridge over clear water.

Great news! Michigan Technological University (MTU) has recently become a corporate member with the IAM: The Institute of Asset Management.

The IAM is a not-for-profit international professional body dedicated to the whole-life management of physical assets. Established in 1994, its aim is to develop asset management knowledge and best practices while generating awareness of the benefits of the asset management discipline for individuals, organizations, and wider society.

Currently, this body consists of 2000 individual and 300 corporate members, as well as a global network of 46,000 people.

What is Asset Management?

Assets are anything with potential or actual value to an organization, customers, users, or stakeholders. For instance, investment firms, which contain financial assets and infrastructure portfolios, perform asset management. Insurance companies also use asset management to reduce risk, which helps stabilize or decrease premiums to their customers.

In civil engineering, though, asset management is the science and coordinated activity for the long-term care and maintenance of infrastructure systems, facilities, and other civil assets. The objective is ensuring that users, customers, and stakeholders receive the highest value. In other words, this discipline goes far beyond the design and the building of structures.

This discipline is a crucial one because public assets are everywhere. Transportation systems, long-span bridges, potable water distribution systems, stormwater conveyance systems, watersheds, dams, and trail networks are just a few examples.

This cross-functional field involves several disciplines, such as business, finance, risk management, and sustainable design. According to Mark Declercq, (professional engineer (PE), and MTU Alum (Bachelor’s and Master’s of Structural Engineering, ’88, ’90), AM “is more a business management tool than an engineering concept.”

MTU and IAM: An Advantageous Partnership

Michigan Tech will acquire several benefits through its IAM membership.

  • Networking opportunities with chapters and branches
  • In-person and online global events for asset management professionals
  • Discounts on membership fees and reduced rates for events
  • Access to several tools and resources to stay up to date on asset management topics, practices, and decision making. These include forums, a knowledge library, and a Digital version of Assets magazine

Even better: MTU’s membership also enables students to attain an individual membership for as little as $16 USD annually. 

But perhaps one of the biggest benefits is this one: students may receive certification from the IAM after taking Mark Declercq’s intense, practical, 14-week online course CEE5390: Civil Asset Management.

The certification successful CEE5390 graduates will receive.
Mark Declercq, professional engineer and CEE5390 instructor.
Declercq’s certification as an AMP.

Certification in Asset Management

That is, MTU is the first US university to have its students eligible for a formal certification from the IAM. Starting in Fall 2024, students will receive a Certificate in Asset Management upon receiving a letter grade “B” or better in CEE5390.

Those who gain expertise in technical topics in asset management earn this certificate. It represents one of the three opportunities to advance one’s asset management qualifications. The next two, in progression, are the Asset Management Diploma (advanced AM topics with a business focus); and Asset Manager Professional (received upon completion of an application, experience, and oral interview on seven core subjects in AM.)

Declercq, not only has 33 years of experience in the public and private sectors, but also impressively holds the certificate and is an Asset Manager Professional. He is also a professional engineer in the state of Michigan.

In addition, DeClercq is versed in LEAN Management and has a certificate from the Federal Emergency Management Agency program in Emergency Management. Memberships in the American Society of Civil Engineers and the Michigan Society of Professional Engineers round out his expertise.

His course, CEE5390, both demonstrates and analyzes asset management concepts as they are applied to traditional civil infrastructure systems. These include transportation, roads and bridges, water distribution, sanitary sewer collection, building facilities, airports, flood control, and parking structures. DeClercq knows that maintaining these systems is important now, more than ever before.

We’ve disinvested in our country’s infrastructure, “kicked the can down the road,” and lost the art of delivering on an asset’s life cycle for design, construction, operations, maintenance, and replacement. 

As global populations continue to grow, resources become more constrained, and the climate becomes an influential factor, being strategic about investment and care for infrastructure is critical.

Mark Declercq

Going Beyond Civil Engineering

CEE5390 has been carefully designed so that its fourteen modules align with the rigorous content of IAM’s official certification. After an introduction to the discipline, students dive into several topics that are necessary to building an asset management plan, such as organizational value, asset data, operational demand analysis, life cycle analysis, levels of service, asset risk assessment, contingency planning, and more.

Overall, the curriculum leverages students’ previous experience, courses, and degrees. That is, it addresses topics central to environmental engineering, mechanical engineering, environmental sustainability, business management, construction management, GIS, and more.

In other words, students from several disciplines can benefit from taking this course. “CEE5390 is also different from the past four years of schooling where analysis and design is emphasized. Asset management may seem a bit abstract since it envelops technical, business, risk, digital, human, and critical thinking skillsets into one practice” (Declercq). And then they apply these diverse problem-solving skills to a variety of industry asset types. 

And these skills are in-demand, too. That is, many government departments, such as the Department of Defense, Army Corps of Engineers, Department of Interior for the National Parks System, and Federal Emergency Management Agency (FEMA) are embracing civil asset management principles. What this change means is that teams submitting proposals for government contracts must contain at least one AM professional. And on international projects, requesting this team member is fairly standard.

In the course, each of Declercq’s students will be choosing a real-world example that allows them to work through and apply the 10 basic steps for developing an asset management plan. In fact, one of the current students is Dr. Audra Morse (PE, BCEE, F.ASCE), chair of the Department of Civil, Environmental, and Geospatial Engineering.

Stay Tuned to Learn More About CEE5390.

We’ll be hearing more from Dr. Morse and other graduates in a follow-up blog on this innovative course. We wish them the best of luck in developing and applying their asset management skills!

GIScience for Natural Resources: New Online Grad Cert. From CFRES

Dr. Parth Bhattin the field doing GIScience work.

Dr. Parth Bhatt at work.

Coming in Fall 2024, the College of Forest Resources and Environmental Science (CFRES) will be offering a new online graduate certificate: Foundations in Geographic Information Science (GIScience) for Natural Resources. Taught by Dr. Parth Bhatt, Associate Teaching Professor / Researcher at CFRES, this certificate consists of three foundational courses. They are GIS for Natural Resource Management (4 credits), Map Design With GIS (3 credits), and GPS Field Techniques (2 credits).

This certificate is the first of three that will form CFRES’s new online master’s degree in GIScience (currently under development). The others will be Advanced Geographic Information Science for Natural Resources and Remote Sensing for Natural Resources. These two will comprise rigorous courses in Python, Applied Spatial Statistics, GIS Project Management, Advanced Terrestrial Remote Sensing, Photogrammetry, and more. In other words, this online MS degree will equip graduates with a rich, varied skill set in GIScience. They will also acquire a holistic, deep understanding of the spatial dimensions of the world.

For a decade, CFRES has offered a respected, in-person MGIS. Like its predecessor, this interdisciplinary online master’s degree will emphasize practical skills in spatial visualization and analysis. Students will use real-world datasets and state-of-the-art GIS software and techniques to take on challenges in forestry, natural resources, and other disciplines.

The reputation of CFRES, the program’s emphasis on natural resources, and its robust curriculum promise to make this program a highly esteemed online GIS master’s degree. Global Campus is thrilled to be involved with it!

Applying GIScience in Forestry and Natural Resources

If you’re not familiar with Geographic Information Science, it is an exciting, growing, multidisciplinary field. It focuses on the study of geographic information, spatial data, as well as their applications. Combining principles from geography, computer science, mathematics, and other disciplines, GIScience has the ambitious goal of understanding, analyzing, and modelling the spatial aspects of the world.

GIS, or Geographical Information Systems, focuses on the what: the hardware and software that capture geographic information. In contrast, GIScience, focuses on the why: finding practical ways to improve GIS data, software, and professional practice.

This certificate and upcoming MGIS will provide fundamental GIScience expertise to foresters and natural resource experts. In Natural Resource Management, for example, professionals use GIScience for several purposes:

  • resource inventory and mapping
  • environmental impact assessment
  • habitat modeling and conservation planning
  • natural disaster management
  • sustainable land use planning
A forest, which is often managed by natural resource experts with GIScience experience.
GIScience is often used in forest management.

Take resource inventory and mapping. Natural resource managers turn to GIScience to create detailed inventories and maps of natural resources. This data then allows them to analyze the distribution and abundance of resources within an area: forest stands, wetlands, mineral deposits, endangered species habitats, and other important ecological features.

Alternatively, in habitat modeling and conservation planning, experts use GIScience tools to analyze the suitability of habitats for different species. This suitability is based on environmental variables such as temperature, precipitation, elevation, and vegetation cover. GIScience, in short, is crucial to conservation planning. It can help identify critical habitats, corridors for wildlife movement, and areas for habitat restoration or protection.

Solving Multiple Problems With GIScience

First and foremost, GIScience offers practical skills and tools for professionals in several natural resource fields. These include GIS Analysts/Technicians, foresters, civil and environmental engineers, spatial/transportation planners, wildlife ecologists, forest analysts, surveyors, geospatial specialists, water resources analysts, environmental scientists, geologists, community forest specialists, and urban forestry technicians.

Several, in fact, turn to this toolkit regularly. One previous alum from the in-person MGIS now works as a Senior GIS Analyst. In this role for Pine Gate Renewables, he uses GIS and Remote Sensing daily. These tools help him to identify risks for setting up solar farms, creating hydrology models, and locating wetlands.

Another alum with broad responsibilities also confirmed the daily use of GIScience. He oversees the creation of maps, spatial data analysis, surveying projects, data checks on road segments, and storm water analysis “to create pervious and impervious classification.” This person also admits to “diligently maintaining maps detailing water infrastructure” and managing and reviewing “various city assets, ensuring their accuracy and reliability through spatial data analysis.”

In other words, these alumni regularly manage several responsibilities with GIScience and Remote Sensing.

Contending With Climate Change

Regardless of their discipline, GIScience can also equip professionals with the tools and the strategies to predict and combat the effects of climate change.

This skillset is especially relevant now: 2023 was the warmest year on record. (The temperature was 1.18°C [2.12°F] above the 20th-century average of 13.9°C [57.0°F]. In fact, the last ten warmest years in the 174-year record have all occurred between 2014 and 2023. And with a heating planet come more impactful environmental events: floods, extreme weather, drought, and forest fires.

According to NOAA, 2023 also set another record–for natural disasters. During this year, there were 28 devastating weather and climate disasters. The price tag for these events was almost 93 billon dollars.

For contending with climate change’s effects, then, GIScience can aid with hazard mapping, risk assessment, and emergency response planning. For instance, by analyzing spatial data related to factors such as terrain, vegetation, hydrology, and population density, professionals can identify areas prone to natural hazards. Whether these are floods, wildfires, and landslides, experts can develop strategies to mitigate risks and respond effectively during emergencies.

The Pakistan Flood Events

Dr. Parth Bhatt, himself, used GI Science to document the effects of Pakistan’s historic floods, which lasted from June 15 to October 2022.

A map of the Pakistan floods made with GIScience.
Map of the area affected by the floods in Pakistan.
A flooded street in a Pakistani province.
Citizens traverse a flooded street in Pakistan.

In these devastating flood events, waters inundated more than one million homes. The flood hit all four of the country’s provinces, resulting in at least two million houses destroyed.

In total, 33 million people were directly affected with 20.6 million requiring urgent humanitarian assistance. (Unfortunately, nine months later, the monsoons brought more flooding, further exacerbating the crisis.)

Looking Ahead to the Future of GIScience

GIScience, in short, can help professionals in many fields manage the world’s resources, plan infrastructure, mitigate and plan for natural hazards, and combat (or prepare for) the effects of climate change, and more.

However, its tools are also becoming increasingly integral in fields beyond traditional domains like urban planning and environmental science.

As GIScience “continues to evolve and adapt to new demands, its impact on industries and disciplines worldwide is set to expand. As such, it will drive “transformative change and unlocking new possibilities for spatial analysis and decision-making” (GIS Analyst II). For instance, some of the newer industries hiring GIS experts are construction, engineering, insurance, real estate, and oil and gas.

One Senior GIS Specialist (Pine Gate Renewables) further confirmed that in the solar industry, there are more people being hired with a GIScience background than there were before. More professionals use “GIS and remote sensing to help identify issues, notice change over time, help drive decisions, and keep projects moving forward.”

Another expert stated that proficiencies in ArcGIS, QGIS, Python, R, and Javscript are becoming increasingly essential in GIS specialist roles.

From agriculture to healthcare, smart cities to disaster management, GIS and Remote Sensing are revolutionizing how we analyze spatial data, make informed decisions, and address complex challenges. Integration with emerging technologies like AI, along with a focus on environmental monitoring, public health, and conservation, underscores their pivotal role in shaping a more sustainable and interconnected world.

GIS Analyst II, Metro Consulting Associates

Learning From a Passionate Teacher

And it’s not just what you will learn in these programs but who you will learn it from. That is, Foundations in GI Science for Natural Resources (and the online MGIS) are both helmed and taught by Dr. Parth Bhatt, whose passion for the subject was covered in a previous blog.

Bhatt’s portfolio of GIScience skills is also diverse: he has expertise in Geographical Information Systems, remote sensing, digital image processing (Multispectral, LiDAR, UAV, Hyperspectral), land use/cover mapping, invasive species mapping, forest health and natural resource management, spatial data analysis, and Web GIS/ArcGIS Online.

Most recently, he has received a grant to put these skills to work: acting as a PI on research projects for The Nature Conservancy in Michigan.

Dr. Parth Bhatt in the classroom, teaching GI Science.
Dr. Parth Bhatt in the classroom

Bhatt has also been instructing the very popular, noncredit, professional development course, Python for Modern GIS and Remote Sensing. This course, which runs several times a year, has had rave reviews.

Taking the Next Steps

If you’d like to learn more about GIScience or you require more information about the Online GIS Certificate from CFRES, please contact Program Director Parth Bhatt (ppbhatt@mtu.edu).

Alternatively, reach out to Program Assistant Marjorie Banovetz (marjorie@mtu.edu).

There is still plenty of time to get started for Fall 2024 and develop your versatile GIS toolkit! And accelerated options are also available.

Parth Bhatt Powers Through With Python

 A high-resolution, drone-captured image of seagulls gathering on the beach in St. Ignace, Michigan.

Above: A high-resolution, drone-captured image of seagulls gathering on the beach in St. Ignace, Michigan.

Dr. Parth Bhatt is definitely making his mark at Michigan Tech’s College of Forest Resources and Environmental Science. Arriving in only 2016, he quickly earned both his master’s degree and then his doctorate from the CFRES. And on important projects, too. That is, during his PhD, he worked with the Nature Conservancy and the U.S. Forest Service to map the Hiawatha National Forest according to its natural habitat communities. To do so, he used both sensing and machine learning techniques.

Parth Bhatt in the classroom teaching a Python with GIS class.
Dr. Parth Bhatt in the classroom.

But this was not his first use of machine learning to depict and analyze complex natural phenomenon. Before coming to Tech, Parth Bhatt worked with the Indian Space Research Organization (ISRO).

Currently, Parth (which he prefers to be called) is a Teaching Assistant Professor / Researcher in the CFRES, who has a passion for Python, remote sensing, and more.

Recently, I’ve collaborated with him to help promote his courses and to grow with Global Campus.

Discovering Python’s Capabilities

But let’s take a step back for a second. Despite his current expertise in and enthusiasm for Python , it was at Michigan Tech that Parth first developed his passion for this programming tool.

As an MS student, he took the class Python Programming for ArcGIS. Here, he learned more about Python and applying some of its techniques to automate repetitive tasks. Impressed with this tool, Parth then attended a GIS conference in which he saw people using Python in almost every field. At this event, he thought to himself, “I need to get better at this.” So he buckled down on his studying, taking in several NASA sponsored online webinars.

And get better he did. And quickly!

He ended up teaching several courses at the undergraduate and graduate level. He was enthusiastically in the classroom for Introduction to GIS, Introduction to GIS for Natural Resources Management, GIS Project Management, and Seminar in GIS.

It is obvious that Parth is a very busy and motivated professional. That is, he is currently instructing a non-credit, 7-week course (Python for Modern GIS and Remote Sensing). And while doing so, he is also developing a for-credit graduate certificate for Spring 2024.

Because this programming language is his passion, I asked him to explain it to me.

Q. Summarize Python for a layperson.

A. Python is a popular programming language for making a person’s day to day work/research life easier and efficient. It has gained widespread popularity in the past decade. Overall, it is extremely useful in the field of GIS and Remote Sensing (or any field for that matter) due to its dynamic nature, ease of use, and versatile, large open community support.

Q. What distinguishes Python from other programming languages when it comes to being used in GIS environments?

A. Well, as I said before, Python is easy to use and implement. It is also very efficient and powerful for data visualization and processing.

Due to Python’s open-source nature, it can be combined with all the major GIS softwares like ArcGIS Pro, ArcGIS Online, QGIS etc. Therefore, it offers a great amount of working flexibility. And from a developer’s perspective, all the major advances are occurring within Python, as compared to other languages such as R. Over the last decade, Python has emerged as a winner in terms of the most liked and used programming languages by the GIS community.

Q: What excites you about applying Python in GIS environments? What is this tool best used for? How have you used it?

A. The possibilities are endless. Python can be used in anything from opening a simple excel sheet filled with various GIS data to visualizing, manipulating, and handling big data. It also has hundreds of useful libraries that are applicable for various geospatial analysis. To me, any modern GIS and Remote Sensing curriculum is incomplete without this language and tool.

In my work, I have used Python to automate various GIS tasks: updating a dataset attribute table with hundreds of rows and columns (basically data cleaning); classifying complex forest ecosystems using machine learning; as well as analyzing data, making charts, conducting accuracy assessments, and performing various geospatial analysis tasks. Furthermore, I have assessed change in terms of urbanization, detected algal blooms, and calculated fire burn ratios.

Q. You’re teaching a non-credit course “Python for Modern GIS and Remote Sensing.” Please briefly explain what this course is about and who should take it.

A: I’m excited about this course, which is new to Michigan Tech. No one has taught Python for GIS in either an online or non-credit format before.

In a nutshell, this course teaches beginning and intermediate-level Python skills as they are applied in the GIS environment. It is suitable for anyone who deals with (or is planning to deal with) GIS and Remote Sensing on a daily basis. Of course, anyone who wants to add to their skill set and make their work more efficient should take it.

As you know, Coding/Programming is an essential skill set to have in our current times, especially for fields such as GIS, Forestry, Ecology, Geology, Civil and Environmental Engineering, and Data Science.

For example, right now in my course, I have students from diverse backgrounds, as well as professionals working in the GIS Industry. They are enjoying the asynchronous class format and the assignments. I am looking forward to incorporating their feedback in the next edition of the course, which will be in Spring 2024.

On a broader scale, Python is basically used in every application that’s related to the the five earth elements (Air, Water, Land, Fire, and Space). For example, it’s playing a big part in NASA’s first ever Mars drone application

Dr. Parth Bhatt
Dr. Parth Bhatt in the field, doing GIS work with Python.
Dr. Parth Bhatt in the field, doing GIS work.

Q. How can professionals use Python to manage or solve prevailing environmental and sustainability challenges, such as land use, forest fires, and the effects of climate change?

A. Python offers hundreds of unique libraries, which can be implemented to any/all kind of GIS and Remote Sensing datasets. Developers can make useful tools according to their needs and applications. As a result, they can enhance their decision making processes.

For example, professionals at the multidisciplinary Michigan Tech Research Institute (MTRI) use Python programming to address complex ecological problems, make wildfire prediction models, analyze efficient road networks, asses infrastructure, and map and monitor land use/cover and pristine wetlands.

Overall, this is an exciting time to teach this course. We are living in a world where climate change is happening rapidly and things surrounding us are constantly changing (whether they are environmental, economical, or political).

Q. I agree that we need all hands on deck when it comes to solving climate change and sustainability issues. But what is a personal example of your use of Python to contend with pressing environmental problems?

This image, which shows the extent of the damage after the flood, was created with a change detection algorithm and Python.
This image, which shows the extent of the damage after the flood, was created using a change detection algorithm.

In my own work, I have used this tool to document the effects of the historic flood in Pakistan. The flood, which was in mid-June ’22, affected more than 33 million people and destroyed or damaged more than one million houses.

In fact, the floods affected all four of the country’s provinces or about 15% of the country’s population.

Floodwaters inundated tens of thousands of square kilometers of the country, causing at least 1,100 deaths. Because of the 2023 monsoon season, Pakistan is still struggling to recover from this event.

Q. What motivates you? And what is next on your journey at Michigan Tech?

A. I love teaching, doing research, and solving complex problems. These drives require me stay current with, if not slightly ahead of, my field. Furthermore, I believe that if I am not up to date with my knowledge, I won’t be able to offer anything new and beneficial to students.

As Gandhi so eloquently said, “You must be the change you wish to see in the world.” In other words, I have to keep updating and offering advanced skills, not only for my personal growth, but also for students so they can succeed in their careers.

And for the College of Forest Resources and Environmental Sciences, I’m glad to help grow its online offerings. My non-credit course marks the beginning of our online education program. That is, we are designing other useful and applied courses, such as ArcGIS Online. Also, starting in 2024, we plan to be offering the first ever Master’s of Geographical Information Science online degree certification. Look out for it on Michigan Tech’s Global Campus.

One more thing: I’m holding an information session on Oct. 20 at 10:30 AM for Carthage College in Kenosha, Wisconsin. The session will introduce the Online GIS programs from the CFRES. However, the Michigan Tech community is also welcome to attend. You will be asked to sign in with your MTU email (or the email associated with your Zoom account) to join the session. If you have any questions about this session or anything else, email me at ppbhatt@mtu.edu.

Q. Any final thoughts?

As excited as I am about learning new materials and tools, the biggest reward of teaching occurs when you run into or hear from a student and they say, “Thank you for teaching me that GIS thing, it’s helping me big time in my job or research.”

Global Campus Grows

Whether it’s been covering new education fellowship partnerships, reporting on Michigan Tech’s collaboration with the MEDC, writing about innovative mass timber research initiatives, researching the gifts of adult learners, welcoming new team members, or rushing to keep up with Global Campus Vice President David Lawrence, this blog writer has had a busy year. And while all these initiatives, and more, have been underway, I’ve also had to keep track of Michigan Tech’s new online courses and programs.

Recent Online Programs at Global Campus

For example, in the last year, the College of Business added the online Tech MBA and the Master of Engineering Management. Both are accredited, 10-course programs that, in various ways, leverage your STEM expertise. Whereas the Tech MBA provides foundational business skills, the MEM allows students to customize degrees that merge engineering and business. To promote these programs, Dr. Mari Buche, David Lawrence, and his Global Campus team graciously led several online virtual interest sessions, which were all well attended.

Leadership and learning are indispensable to each other.

President John F. Kennedy

Furthermore, the College of Engineering met the learning and leadership challenge with its Master of Engineering, a professional terminal degree. This degree allows students to focus on either a HEV (hybrid electric vehicle) track or an engineering track. For the engineering track, learners can combine courses from several disciplines. In fact, the master of engineering is ideal for those collaborating with their employer to develop a program to meet specific on-the-job needs.

More recently, the Department of Applied Computing has also added two new programs to its roster: Public Health Informatics and Foundations in Health Informatics. Both certificates can be stacked to form a master’s degree. Like other HI programs, these prepare students for diverse roles in the data-driven healthcare industry. Guy Hembroff, the Health Informatics director, also ensured that MTU’s CHI students have memberships in HIMSS. HIMSS (Health Information Management Systems Society) is a global society. It enables health information professionals to access resources, enroll in seminars, develop networks, search for jobs, and much more. In other words, it gives MTU’s Health Informatics students an edge.

Global Campus Bridge Courses

Bridge courses are short, intensive, preparatory online courses that help learners acquire the necessary knowledge and skills to enter advanced study. This study might mean an undergraduate program, graduate degree, or graduate certificate. Often, bridge courses are for students who are provisionally accepted into a program.

Linear Algebra: A Bridge Course Offered Through Global Campus
Linear Algebra: A Bridge Course Offered Through Global Campus

For instance, in September of 2022, Teresa Woods, Associate Teaching Professor in Mathematical Sciences and Linear Algebra aficionado, taught our first bridge course: Linear Algebra. Her ten-week, asynchronous online course was aimed at prospective students who needed the LA requirement to enroll in MTU’s Online Master of Science in Applied Statistics program.

Woods’ course covered fundamental linear algebra concepts as used in Applied Statistics. Some of the topics included systems of equations, vectors, matrices, orthogonality, subspaces, and the eigenvalue problem.

To learn more about this course, email Teresa Woods (tmthomps@mtu.edu).

Linear Algebra is once again running for the Fall 2023 semester. And there are still a few seats left. Right now, the proposed start date is Sept. 18, 2023.

Newer Professional Development Opportunities

Fundamental Courses and Bootcamps

Global Campus also had the privilege of working with subject matter experts to promote in-demand professional development courses. Also known as continuing education and career training, these courses allow those in the workforce to hone skills, acquire specialized training, develop leadership abilities, and stay up-to-date on current trends.

Currently, Michigan Tech offers both non-credit and for-credit pd courses.

For example, during the summer of 2023, APS Labs rolled out its short, but rigorous course on Diesel Engine Fundamentals. Despite the turn to EV, this course recognized that diesel engines weren’t going anywhere soon. That is, diesel engines are still in light-duty vehicles, medium and heavy-duty trucks; in commercial vehicles (trains, trucks, buses, barges, and boats); in army vehicles; and in generators.

This course was conveniently available in both online and in-person versions. Its goal was educating those pursuing careers in the automotive industry, commercial vehicles, power generation, or related fields.

A Diesel Engine, which was studied in the APS Labs short course for Global Campus
A Diesel Engine

Also, Kevin Johnson, Assistant Teaching Professor, Manufacturing and Mechanical Engineering, lent his significant expertise to summer students. He taught an an intense 20-hour in-person hydraulics bootcamp. In his course, students learned about several topics crucial to hydraulics, such as valves, pumps, motors, circuits, and closed-loop hydrostatic systems.

Upcoming Professional Development Courses

Python for Modern GIS

A person working on GIS with Python, one of the courses taught though Global Campus
GIS Workshop

Furthermore, recognizing the need for more Python professionals in the GIS world, Parth Bhatt (Assistant Teaching Professor / Researcher from the College of Forest Resources and Environmental Sciences) is offering a 7-week, asynchronous, online course for Fall 2023.

His Python for Modern GIS and Remote Sensing course will help students learn beginning and immediate-level applications of Python for understanding and writing simple scripts, automating workflows, and solving day-to-day, real-world geoprocessing tasks in the ArcGIS ecosystem and open-source platform.

Dr. Bhatt, a dynamic teaching professor who lives and breathes GIS, is also on deck to develop online for-credit certificates for his department. Stay tuned for more developments.

And, yes, you still have time to register for Bhatt’s course.

Civil Asset Management

As well, the Department of Civil, Environmental, and Geospatial Engineering has recently added a 3-credit, synchronous online course in Civil Asset Management. This course is taught by Mark Declercq, who brings three decades of valuable, practical civil asset expertise to the classroom. In fact, as Grand Rapids Engineer, Declercq was one of the first experts with boots on the ground during that city’s massive flood event.

Civil Asset Management (CEE 5390) will help students develop long-term plans, as well as the strategic, critical thinking they need to recognize and maintain the value of our all-important civil assets. Declercq also maintains that to develop resilient and affordable solutions and to tackle upcoming sustainability challenges, engineers definitely need Civil Asset Management skills.

Keep Up With Global Campus as We Learn and Grow

In the future, Global Campus plans to offer additional non-credit and for-credit courses and programs. Our goals are advancing the personal development, career goals, and leadership opportunities that come with education. We also recognize the importance of challenging all learners to grow, to think creatively and critically, and to prepare for tomorrow.

We’ll keep you posted as we assist in developing and supporting new programs. For updates, read this blog or follow us on social media.

And remember, regardless of where you are in your educational journey, whether you want to take a course for fun or for your future, it is never too late to start learning.

Anyone who stops learning is old, whether at twenty or eighty. Anyone who keeps learning stays young.

Henry Ford