Ask engineering managers about the quality of recent engineering graduates and you’re likely to get more than a few sighs. In fact, a recent Design News article was titled, simply, “Lack of Qualified Engineering Candidates.” According to many readers, one of the biggest deficits among newly minted engineers is a lack of real-world problem-solving skills.
An innovative program at the Illinois Institute of Technology (IIT) in Chicago is addressing this deficit. The Interprofessional Projects Program (IPRO) was launched in 1995. Today, it is a requirement for all IIT undergraduates and was recently recognized by the National Academy of Engineering as an example for other universities. In the IPRO program, teams of 10 to 15 students work together to solve complex, open-ended, real-world problems. An IPRO project differs from a traditional capstone engineering project because students from different disciplines work together. A typical team might include mechanical, electrical, and civil engineers, along with computer scientists, architects, and even psychology majors.
Many of the projects are sponsored by companies including Motorola, Nokia, Argonne National Laboratory, and A.M. Castle, among others. There are also service-oriented projects, done in collaboration with local community organizations and non-profits. Some projects are based on ideas developed by the students themselves.
On November 30, IIT students presented this semester’s crop of projects. The students manned trade-show style booths and gave conference-style presentations to a panel of judges drawn from the Chicago-area professional community.
One of the longest-running IPRO projects is sponsored by A. Finkl & Sons, a manufacturer of custom forgings and tool steels for forging dies, pressure die casting, and plastic injection molding. This project has been going on for more than six years. Its goal is to develop an automated tool monitoring system for a vertical milling machine used to de-scale and square up huge slabs of steel. Currently, Finkl relies on operators to find and replace broken cutting inserts before the broken insert can do too much damage.
In previous semesters, student teams have investigated tool monitoring techniques including power meters, microphones, and accelerometers. This semester’s team explored the use of RFID tags. The students modified the tungsten carbide cutting tools to include a conductive path, made from silver paint, connected to an RFID transmitter near the cutting head. If the tool is damaged, the circuit will open, and the RFID tag will stop transmitting. Student-written software monitors the RFID signals and shuts off the machine when a tool is damaged. The students also used FEA to make sure that their modifications wouldn’t lead to premature tool failure. Guy Brada, Finkl’s chief metallurgist, says that the students’ proposal has merit, and will be investigated further.
Dave, I have a son at IIT. When we were looking at schools we visited many. Marquette has a similar program, as do many others with strong engineering programs. As you point out, this is not something that has been going on for a very long time, though. There is also a project at IIT that is installed as a type of outdoor art on the campus. It consists of a number of ways of connecting steel beams. Some of these are pattented and are now standard practice in the industry.
Internships are also a good way to give students experience. I have a nephew who did one for a large auto parts manufacturer. He did well at it and is likely to be able to work for that company. My understanding is that about 40% of students do internships. It should be 100% in engineering.
As for the lack of qualified graduates, I think the companies are being a little short sighted. In the past, companies brought in newly graduated engineers and put them through a two year program with six month rotations in four areas of the business. Now they expect them to come in and start deisgning final product immediately. I don't think the schools have changed so much as the companies.
I was talking to another older engineer the other day about how modern grads are afraid to learn how to use a lathe or mill, breadboard a circuit, or just build something from scratch all by themselves. I hope this Chicago program inspires a new generation of fearless engineers ready to learn and experience before we lose that wonderful edge this country has enjoyed for generations...
@warren: I didn't have room to mention this in the article, but a recent addition to the IPRO program is a space called the Idea Shop that includes several CNC milling machines, 3D printers, vacuum forming equipment, and a laser cutter, among other cool stuff. So students have ample opportunity to get hands-on experience making things. This is an important part of the program, and like you say, an important part of becoming an engineer.
Today demands that every engineer be a "jack of all trades."
I can't even remember a job where I only performed one function. Every job had me designing circuits, placing components, machining parts, mechanical design, and in one case sawing wood by hand. (They needed rigging parts.)
It will behoove any graduating engineer to diversify.
Dave, that sounds like a great idea: providing real-world hands-on experience. I'm a little surprised to learn that so many young engineers don't have some already. The Silicon Valley model (where I grew up) was taking apart stuff in the garage, often, but not always, with a dad who was an engineer. The one thing that occurs to me is whether today's electronic systems have become less easy to take apart because so much has become inaccessible now in software and/or inside the chip's guts--I know this is true for automotive systems.
@Ann: I think it's safe to say that a lot of engineering students have some degree of practical experience before starting college. My lab partner in circuits class, who was from Uganda, had built an ultralight airplane using an old motorcycle engine and some aluminum tubes before coming to the U.S. I think he's working for Boeing now. But this kind of project is important in order to get experience working as part of a multidisciplinary team. Besides developing hands-on skills, students need to learn "people skills." In spite of the stereotype of the solitary engineer laboring away at a desk or in a lab, real engineers work in teams, and not just with other engineers.
Thanks for the feedback, Dave, that makes a lot of sense (and is reassuring). And Cabe's comment about engineers needing to be a jack of all trades was borne out by DN's materials buyers survey, where we saw how many engineers are working in multiple disciplines: http://www.designnews.com/author.asp?section_id=1392&doc_id=252670
I agree it's a great program, naperlou. Sounds like they've taken a page from IIT's famed design school and gone one better by actually building prototypes that work. It also goes a step farther than the traditional senior design project. After suffering through the heavy helping of theory that engineering students always get, this is an important trip toward reality.
Warren--back in the "dark ages" when I was going through the university, we were required to take one semester of "machine shop". I know those days are long gone but that experience became extremely valuable for the very first job I had and most others following that initial experience. We also had included with our engineering schedule three semesters of mechanical drafting. Most of our professors were academics with considerable manufacturing experience and this fact generally provided classroom exercises targeted towards solving design problems relating to manufactured products. This became valuable as we graduated and found ourselves in "real-world" situations. My co-op experience provide additional "value-added" and introduced me to "the slings and arrows" most working engineers experience on a daily basis. You can't beat hands-on.
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When a crane doesn't have a monitoring system, crane owners schedule service every six months and simply scrap the parts they replace, even if a part has had little use and doesn't need replacing. This can cost thousands.
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