Given the same problem to tackle, different engineers will come up with different solutions. Now most of those solutions will work, they will be valid, and could happily be applied. There will always be a few that are just a little too “out there” to make it.
The interesting thing with solutions is that the best one can vary wildly depending on the circumstances. What works during a design stage, or during testing, is not necessarily going to be desirable during a race situation.
An example from a recent race…
On a British Touring Car there is a small radio receiver known as the “Beacon”. This clever little bit of kit is used by the on-board electronics and data logging systems to separate each lap during a race. It provides a cut-off between laps, and generates the comparative lap time and split timings to the driver on the dash display.
In all honesty, this is not a critical piece of kit for the race. The driver rarely looks at his laptimes during a race. It’s main use is during post-race analysis where data engineers such as myself can use it for comparison and navigation.
Where this is important the driver however, is during qualifying. During qualifying, a driver wants to know exactly where he or she is gaining or loosing time, and would like a comparison to a previous or theoretical best lap. Not having a beacon during qualifying is a huge disadvantage.
During a recent BTCC round, we noticed that the driver radioed to say he did not have laptimes appearing on the dash. When the car came in for new tyres, I inspected the beacon and saw that it’s mount had rotated around the rollcage meaning it no longer pointed out of the window. No line of site to the transmitter means no lap time. A simple fix; I forced the beacon back around and away he went.
Three laps later, we receive another radio call.
"No Lap Time."
However, this time I was ready. Before the car was back in the pitlane, I had several lengths of duct tape torn off and taped to my trouser (USA: Pant) leg. As soon as the car stopped, I rotated the beacon again, and secured it with copious amounts of tape. It was crude and messy. It was not what you might call the ideal solution. But the two most important things about this particular solution are:
Would duct tape have been approved when the car was designed? Of course not!
Would it have been signed off during the build process? Nope.
Had the issue occurred during testing, would the duct tape still be on the car? I really doubt it.
My duct tape only stayed on the car for qualifying. Before the race, I applied a much neater and permanent solution. Rubber strips installed between the rollcage and mount mean nothing moves now. This was also applied to the second car in the team to proactively prevent the issue happening there too.
Solutions can be fluid, they evolve and develop. Solutions should not only match problems; they need to match circumstance. As an engineer at a race track, you need to be prepared to come up with fast but workable solutions. You will be under pressure. No one will expect your solution to look like art work, but they will certainly expect your solution to work.
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Tom is an engineer working his way through the motorsport industry, sharing stories, anecdotes and lessons to help new engineers coming through the ranks.