 So I'm here at the IOTX show with Len Alson from EMS. EMS won an award for best commercialization yesterday. Congratulations. Thank you very much. Can you tell us a bit about what other award was for? Sure, sure. Well, what this award was for was the Mimil Baby application, which is a good example of wearable technology. In this case it's a capacitive sensor. The chip and power is easily removed and reintegrated. The silver ink that's under these traces are setting up a capacitive field that measures motion and breathing rate, heart rate, and temperature. How many times would that be washed? The company reports 90 wash in dry cycles. And the part that fails is not the silver ink in that trace. It's something else in the kimono. So it's a pretty good test. But to me what's really cool is how they integrate their chip and power. So while this is getting recharged, the kimono is being washed. Then after the kimono is washed and cleaned, you have to just easily reintegrate and start the process all over. And then the information goes by Bluetooth off to mother and father's smart phone, which might alert them to unusual activity from the baby or the baby's laying in the wrong position and not breathing right if the temperature's gone up or down. So mother and father can get a great application. So you also provide conductive inks, dielectric inks. Can you talk us through some of the new products you have? Sure. What we try to do is build durability. So with the traditional type of printed electronics is on polyester film like this. So what we're building is our inks that will take very serious crease cycles. So if you want to crease this 10 to 15 times and it doesn't break. But we also make insulators that will protect it in very harsh environments of 85 degrees C, 85% relative humidity, aging with a bias load. So we're making sure that these are very robust. Wow. In the same way when we make surface mount components, what we're doing is everybody can put a chip on but can you take that chip and severely stress it and still have a good connection. So again, this is durability. We're building durability, which is very important. And then it just so happens that this durability just works pretty fantastic on stretchable film. So we got started on this on catheters and so forth. What does it stretch you getting there? Ours will go up to, it depends on the film but this particular film 100%. And I saw a couple of presentations done that made our ink look really good and those weren't by us. I was other people testing our material. And then, so this is TPU film but it doesn't need to be TPU normally. This is a resin filled, a PVC resin filled fabric and it works quite well in this for a bed sensor application. For which application? A bed sensor. Okay, right. But the same idea, we want these things to withstand severe handling, severe cycling, severe, it's gotta be durable. And so this sort of thing just led to this application. And when these people asked us for an ink and we sent it, they were just so happy. And I said, oh, that's nice. But they said, no, you don't get it. This really saved a big problem for us. So they were very excited about the result and they've been buying it ever since. Great. Great application. Thank you, Len. Congratulations. Good situation.