Date: Wednesday, October 20, 2021
Location: Rozsa Center for the Performing Arts
Are you interested in learning more about Enterprise at Michigan Tech? Maybe you are thinking about joining Enterprise, but are not sure which team is right for you? Learn more by talking with program staff and students from various Enterprise teams, all in one place!
Participants are able to visit in-person between 6 – 8 p.m. During this time, participants may move between multiple tables to ask questions, check out current projects, and network with team representatives. Learn more about each team below, and come prepared to have fun and learn about Enterprise.
The use of masks and social distancing will be determined by the current Campus Health and Safety Level on the day of Enterprise Day, October 20, 2021. Please keep an eye on the Campus Health and Safety Level information page.
Faculty Advisor: Paul Sanders
Advanced Metalworks Enterprise (AME) is composed of a diverse team of students who execute research and development projects for industrial sponsors. Interdisciplinary teams of four to five students model, fabricate, and characterize metallic systems, such as aluminum, iron, zinc, titanium, and nickel-based alloys. AME helps industry sponsors increase productivity, identify causes of material failures, design near-net castings, develop advanced material modeling techniques, and more.
Faculty Advisor: Dr. L. Brad KingThe Aerospace Enterprise provides hands-on aerospace education and experience to Michigan Tech undergraduate students. The team works together on innovative and relevant aerospace-related projects, with all members contributing toward specific project goals. Aerospace Enterprise places an emphasis on space mission design and analysis, vehicle integration,systems engineering, and comprehensive ground testing and qualification.
Alternative Energy Enterprise
Alternative Energy Enterprise (AEE) provides opportunities for students in multiple academic disciplines to research and develop alternative energy sources. Projects, research, and development are done in conjunction with industry sponsors to produce viable solutions to real-world energy problems. Each team is interdisciplinary and receives a rewarding hands-on experience while working on challenging problems and seeking innovative solutions.
Blizzard Baja SAE
Faculty Advisor: Kevin Johnson
Michigan Tech’s long-standing tradition in Baja SAE dates back to the first competition in 1981. Tech pioneered the Winter Baja Invitational and continues to host and organize it annually. The Michigan Tech Blizzard Baja Enterprise is a student-led organization that designs, builds, and tests a single-seat off-road vehicle to compete in a national competition. The team’s students use modern engineering and manufacturing processes to enhance vehicle performance by focusing on reduction of vehicle mass, maximization of drivetrain efficiency, improvement of driver visibility and comfort, and optimization of off-road vehicle handling and maneuverability. Each year, the team designs and builds a completely new vehicle for entrance into one or more of the national SAE Baja events. The team also organizes their own Winter Baja International event in February which brings nearly 20 universities and 50 vehicles to the Upper Peninsula each year. Michigan Tech’s Baja team has a long history of success in SAE competitions. In 2012 Blizzard Baja placed 8th among nearly 100 teams in the Baja SAE Wisconsin event.
Blue Marble Security
Faculty Advisor: Glen Archer
Blue Marble Security (BMS) Enterprise is a student-led enterprise that focuses on securing the future through the thoughtful use of technology. The team specializes in engineering design and product development. Blue Marble has developed a culture that fosters high professional standards, creativity, and productivity. BMS defines “national security” through the provision of technological support to the defense, the corporate economy, and the personal well-being of the country and all its people.
Faculty Advisor: Ibrahim Miskioglu
BoardSport Technologies (BST) focuses on the engineering, design and manufacturing of skis, snowboards, skateboards, longboards, wakeboards, and other products related to the board sports industry. We strive to produce new, refined and attractive boards by making them lighter and stronger using innovative materials.
CinOptic Communication and Media
Faculty Advisor: Erin Smith
CinOptic Communication and Media Enterprise works closely with clients to develop creative and effective communication strategies and products, specializing in video production, photography, and graphic design. Team members enjoy the support of a strong creative community, educational opportunities, and access to production resources.
Clean Snowmobile Challenge
Clean Snowmobile Challenge
Faculty Advisor: Jason Blough
The overall team goal is to design and build a snowmobile that achieves reduced emissions and noise characteristics, minimizes additional cost, all while keeping performance equal to or better than the performance of stock snowmobiles. The Clean Snowmobile Challenge Enterprise is creating a clean-burning snowmobile that runs on isobutanol and a full electric snowmobile. Some of the major projects include an exhaust system, an intake system, and a new fuel calibration for the internal combustion snowmobile, as well as a new rear drive system for the electric snowmobile. The team competes in the Annual Clean Snowmobile Challenge held at Michigan Tech’s Keweenaw Research Center.
Consumer Product Manufacturing
Faculty Advisor: Tony Rogers
Consumer Product Manufacturing (CPM) Enterprise aspires to empower students with the
entrepreneurial, technical, and professional skills to conceive, develop, and market
successful products in a company-like setting. Students on the team come from many
disciplines and use hands-on experiences to identify and solve real-world engineering
problems. CPM aims to exceed the expectations of company sponsors, improve the lives
of consumers through innovation, and develop our team members into highly marketable
Faculty Advisor: Jim DeClerck
Formula SAE is a student competition where more than 100 teams from universities around the world build a formula-style race car to compete in both static and dynamic events at the annual Formula SAE world competition held in Michigan. The concept is to build an affordable race car geared towards the weekend auto-crosser where the static engineering innovations and dynamic racing capabilities are judged and ranked. Michigan Tech has a long history of top performing cars. Each year we push the racing envelope to develop cutting edge innovations that will create the future of racing!
General and Expedition Adventure Research (GEAR)
Faculty Advisor: Brett Hamlin
The focus of the General and Expedition Adventure Research (GEAR) Enterprise is to design, model, test, prototype, and manufacture a wide variety of goods and equipment used in recreational outdoor and commercial expedition endeavors. Team members analyze and develop innovative solutions on both internal and industry-sponsored projects. GEAR worked on soft and hard goods related to backpacking, camping, climbing, snowshoeing, kayaking, canoeing, mountaineering, and military applications.
Faculty Advisor: Chris Wojick
The goal of Green Campus Enterprise is to annually measure the carbon
footprint of Michigan Tech, and design and implement projects to improve the
sustainability of the Michigan Tech campus. Green Campus works closely with
the Michigan Tech administration to effectively engage the university community
in reducing its carbon footprint.
More information coming soon!
Faculty Advisor: Mark Rudnicki
Hotforest aims to innovate technologies and services that advance the circular bioeconomy. An alternative to the current make, use and dispose practice of the linear economy, the circular bioeconomy is a model for renewable, regenerative practices where we extract maximum value from resources we use, keep them in use as long as possible and recover and regenerate materials for additional service lives. Projects will focus on a variety of topics such as circular practices, sustainable construction, influencing consumer preferences, circular business models, bio-based materials development, and sustainable manufacturing and circular design. Students from the colleges of Engineering, Forestry, Computing, Business, and Science and Arts work together on projects creating a team with diverse talents.
Humane Interface Design
Faculty Advisor: Robert Pastel
The members of Humane Interface Design Enterprise (HIDE) come together to design, develop, and evaluate interfaces. The goal is to make daily work more efficient and easier to manage. The team works together to design and test different applications for industry sponsors that can be used on Android, iPhone, and other devices. HIDE accomplishes these projects by combining knowledge from multiple disciplines (e.g., computer science, psychology, and human factors). HIDE team members can get involved in various stages of the design process, from developing an app by programming, to evaluation by designing usability tests and analyzing data.
Husky Game Development
Faculty Advisor: Scott Kuhl
Husky Game Development (HGD) is a student-run enterprise focused on developing video games. Each year, HGD breaks up into subteams of around six students who experience a full game-development cycle, including ideation, design, and end product. HGD develops both PC and mobile games using a variety of video game engines. Students pitch their games to the enterprise at the beginning of development and then prepare game trailers as final presentations. Finished games are then released on the Husky Game Development Enterprise website.
Innovative Global Solutions
Innovative Global Solutions (IGS) pursues solutions for the needs of developing countries, making contributions towards solving Grand Challenges. Team members improve technical skills and gain hands-on experience with an international engineering project. Typical project areas focus on energy, water, health, education, entrepreneurship, transportation, infrastructure, and more.
ITOxygen is a cross-disciplinary, student-run enterprise that specializes in information technology (IT) for student organizations and businesses, with a focus on developing information system and IT solutions. Team members work on real-world projects that foster skill development and business savvy. Areas of interest include systems and information analysis, software development, database design, and web-based application development.
Mining INnovation Enterprise
Faculty Advisor: Paul Van Susante
The Mining INnovation Enterprise (MINE) seeks to design, test, and implement mining innovation technologies for industry partners. MINE works in interdisciplinary subteams to solve current and future challenges in the traditional mining industry, as well as the emerging mining fields of deep sea and space mining. Opportunities include the improvement of safety and working conditions, increasing productivity and efficiency, as well as mine and equipment design and optimization.
Open Source Hardware
Faculty Advisor: Joshua Pearce
Open Source Hardware specializes in building low-cost alternatives to expensive hardware/software, and then sharing the designs with the commons so that collaborative improvements can be made rapidly. Anyone can make changes or updates to the designs the Enterprise team creates—through this process, designs are improved at a much higher rate than would be possible within the Enterprise alone. Open source is all about collaboration.
Faculty Advisor: Jeremy Bos
The Robotic Systems Enterprise focuses on seamlessly integrating exceptional knowledge in electronics, robotics, and programming to solve real-world engineering problems. All majors are welcome—the team depends on more than just the skills and talents of engineering and science majors. The Robotic Systems Enterprise produces solutions that contribute to industry, recreation, and medical research.
Strategic Education through Naval Systems Experiences (SENSE)
Faculty Advisor: Andrew Barnard
The SENSE Enterprise’s mission is to enable the workforce of tomorrow to redefine
the boundaries for air, land, sea, and cyber supremacy through experiential learning
and discovery. Students design, build, and test engineering systems with a focus on
Navy applications in all domains: space, air, land, sea, and undersea. They get hands-on
experience with cutting-edge defense technologies that directly impact the safety
and success of the armed forces. They prepare for civilian employment opportunities
in Department of Defense
research labs or with DoD contractors.
The Supermileage Systems Enterprise builds a single seat, high efficiency vehicle that competes in either the SAE Collegiate Design Series or the Shell Eco-marathon. The powertrain utilized by the vehicle is determined by the competition and is either a small displacement internal combustion engine or a battery electric design. Regardless of the event, the team must engineer a competitive vehicle and submit a written report detailing the vehicle design. The team must also deliver an oral presentation that demonstrates understanding of the engineering principles that support the design. Following a technical inspection, the vehicle must complete a dynamic performance event where miles per gallon (MPG) or mile per gallon equivalent (MPGe) is measured.
Faculty Advisor: Steven D. Lehmann
Velovations is a bicycle design enterprise dedicated to collaborating with the bicycle
industry to develop new products and processes. The goal is to educate team members
in the fundamentals of product development—from customer need through product and
process design and testing,manufacturing, supply chain management, marketing, and
distribution. Velovations leverages multiple majors, including mechanical engineering,
electrical engineering, business, and technical communications, to deliver product and process innovations to the bicycle industry.
Faculty Advisor: Christopher (Kit) Cischke
The Wireless Communication Enterprise (WCE) focuses on wireless, optical, renewable energy, user interface, and biomedical technologies. WCE functions much like an engineering company with a variety of different project teams. These small project teams allow team members to be involved in project work and provide ample opportunity to gain technical skills, business presentation skills, and leadership experience.