 Imagine a helicopter where the pilot and the experts of the helicopter feel no vibration. We're really after real discovery in the basic research area to help us in the future say vibration is no longer an issue. And that cost that goes along with maintaining systems due to vibration, we have eliminated that for systems in the future. That would be a big win. Helicopters are an interesting case study because of so many moving parts. All of those moving parts sort of an aggregate create this vibration situation that mostly is from the main rotor disk and travels down into the rest of the structure and it shakes everything and the people. So you're physically fatiguing individuals and parts. And eventually either one will break. Within this laboratory we have this multi degree of freedom shaker which is a very unique capability to have in a research environment. We invested in this because we wanted to have the capability to look at sub component technology in real world vibration conditions and to study that component technology with those complex vibration conditions to see how things fail, how things break apart. At its core the machine is capable of controlling this table and having it move in and out left and right and up and down and then rotation about those axes. So if you had previously recorded some sort of vibration scheme from something so a helicopter, ground vehicle, rocket launch, something like that you could tell the table to do that exact same sort of frequency spectrum and amplitude and so then if you had a device that say was going to have some kind of effect on said demonstration then you would put it on the table and then you would see like have I reduced the amplitude of vibration or changed the natural frequency associated with some kind of vibration. The unique thing about this facility is that we're able to gear this machine up and actually put specimens there and actually vibrate them in different directions and in different modes and different rotations and to do that simultaneously in a very precise fashion and that's what we mean by multi degree of freedom. The actual frequency band is larger so we can go to much higher frequencies and then the force associated with these large actuators is also a unique characteristic so it's a combination of multiple axes, a very wide range of frequencies and then the force capability is also high. Vibration really has an impact on the systems that soldiers use and also on the soldiers themselves. The discoveries that will come from this laboratory will really help us understand how mitigating vibration will allow us to have components that last longer that are less costly to maintain and for soldiers to help them overcome issues with fatigue and to increase the soldier comfort which will make the soldier much more effective in the battle space.