Engineering degrees are as wide and varied as the potential careers on offer out in the real world. There’s plenty of maths to learn, and a cavalcade of tough topics, from thermodynamics to fluid mechanics. However, the real challenge is the capstone project. Generally taking place in the senior year of a four-year degree, it’s a chance for students to apply everything they’ve learned on a real-world engineering project.
Known for endless late nights and the gruelling effort required, it’s an challenge that is revered beforehand, and boasted about after the fact. During the project, everyone is usually far too busy to talk about it. My experience was very much along these lines, when I undertook the Submarine That Can Fly project back in 2012. The project taught me a lot about engineering, in a way that solving problems out of textbooks never could. What follows are some of the lessons I picked up along the way.
It’s A Team Game
After 12 months of hard work, we still got along well enough to take a photo together and have everybody smiling – no easy feat!
Engineering is a team sport, and a big capstone project will drill this into you quickly. The bigger the project, the larger the team, and it’s important to learn how to work in such an environment in order to succeed. I led a team of seven other budding engineers, who aimed to design, build and test a flying submersible vehicle in just under twelve months.
In that team, there were a mixture of personalities, skills and cultures. Keeping this in mind is key to getting the best out of your people. There’s little to be gained by demanding your orthodox Jewish team mate show up to work on Saturday morning, just as it makes little sense to put your fluid mechanics expert on to dreary stress analysis problems. A happy team is a productive team, and it generally makes sense to play to your strengths where possible. Understanding your team is key if your project is to be a pleasant experience, or a disaster.
We were lucky to have a broad spectrum of abilities across the team. One member stepped up to manage the team’s documentation, becoming a pro at LaTeX. Another put his modelling abilities to work on the CAD side of things, while another ran the stability calculations to ensure we’d have a working aircraft at the end of the day.
Okay, so some days were better than others.
Obviously, it was important for all team members to have an idea of the greater scope of the project, but allowing team members to find their niche helped everyone buy in to the greater whole. Sometimes, difficult decisions had to be made, and there will always be work that nobody wants to do. But by sharing tasks carefully and with everyone contributing to the best of their abilities, we were able to achieve more as a team.
Get this right, and you’ll have a less stressful project, and finish with a group of lifelong friends. Get this wrong, and you’ll get destroyed in the peer assessment and never want to talk to your team again. You’ll be spending a whole year in the trenches together, so make sure you choose the right people!
You’re Gonna Have A Lot Of Meetings
Unfortunately, when you’re working with other people, you’re gonna have to have meetings to keep everyone abreast of developments. This goes for team members, as well as outside stakeholders such as sponsors or project supervisors. If managed poorly, these meetings can become excessively long and tiresome, so it’s important to stay on top of things.
Funny hats are worth a chuckle late at night in the computer labs, but don’t wear them to a meeting.
Agendas should be short, sharp, and shiny – and provided in advance. It’s a massive waste of time if you’ve called a meeting and nobody has brought the necessary materials because you didn’t make it clear beforehand. It’s likely your project supervisor is a professor who is busy with all manner of other things, and won’t tolerate such mistakes, so don’t make them in the first place.
It’s also important to keep discussions on topic. Don’t spend 40 minutes discussing the relative merits of fiberglass versus carbon fiber when you haven’t even decided on a basic layout for your vehicle, as an example. These things happen quite naturally, but it’s important to pull the conversation back to the key agenda topics if you’re going to get out of the room before sundown.
Finally, it pays to learn when you’re communicating effectively. If you’re raising your voice or stating the same thing over and over again, and people still aren’t understanding you, it’s likely time to change tack. You may need to understand their position first, before beginning to explain your own. Also, drawing a diagram often helps. Or in my case, getting someone else to draw a diagram because your own skills are somewhat lacking – Thanks, Lara!
Making Stuff Is Hard
Our SUbmersible Aerial Vehicle, or SUAVE, was built with an unconventional wing structure. Plywood ribs were connected together with carbon fiber stringers, and the whole assembly covered in fiberglass. No spars were used, as the stringers alone gave us enough rigidity.
If you’re lucky, you’ll go to a university with a well-equipped machine shop. They’ll let you spend untold hours turning out parts, and you’ll graduate with a great appreciation of the machinist’s craft. We weren’t so lucky, and instead had to prepare drawings to have our parts produced by the university’s own machining staff. This in itself is a powerful learning experience, as it’s important to be able to create drawings to standard that can be properly interpreted by others.
Between the university’s workshop and our CNC machining sponsor, we learned from experienced operators what works and what doesn’t in a variety of machining methods. Sitting down in meetings with our production partners, we were able to learn from their decades of experience. We set about refining our parts to cut production costs to the bone, something we likely wouldn’t have thought to do had we been let loose ourselves on the tools. Learning from the pros about how to minimise set ups and avoid repetitive tool changes reduced our costs by a factor of ten.
There were also pitfalls along the way. Our composites knowledge was weak, and we were trying to do some things a little unconventionally. Combined with a miscommunication, our wings ended up twice as heavy as intended, significantly harming our flight performance. Capstone projects are strictly time-limited due to the constraints of the degree, and a small mistake such as this one proved difficult to remedy after the fact. It’s important to stay sharp and detail oriented, from start to finish.
Don’t Forget About Presentation
Our poster was designed to give visitors to our exhibition a quick and clear rundown of the project’s goals, and the technology involved in our vehicle.
A significant part of a capstone project is documenting and presenting the project. The reality is, many capstone projects fail to achieve all of the lofty goals they set out to reach at the start of the year. Ours was no exception – our flying submarine did become airborne, but failed to achieve a submersible mission before deadline. Despite this, the true purpose of the capstone project is to learn – and our documentation and presentations reflected this.
We were able to discuss the stability criteria and structural requirements for a fixed-wing submersible vehicle. Our testing regime had highlighted the viability of using a single ducted thruster for both air and underwater propulsion. We’d also learned how to build effective thrust testing rigs, as well as unconventional wing structures with some success. In this regard, we had a lot to show for our work, and many other teams were in the same position.
By producing clear documentation of our work, and presenting our final seminar with clarity and focus, we were able to communicate to the audience and markers the value of our project. This in turn led to us achieving solid grades, which is what we were all there for in the first place!
In summary…
If you’re approaching your capstone project, a little prep work done early can go a long way. Find a project you’re passionate about, and assemble a team of students with the right attitude and skills to get the job done. Prepare yourself for the inevitable mistakes along the way, and soak up as much knowledge as you can from the people who are there to help you. Your capstone project can be a great stepping stone towards your eventual career, so it pays to get it right. Good luck with your studies, and if you’re doing something really great, you may just want to let us know!