 What we have here is a stretch sensor. It's a proven fabric with sensing capability of stretch. We use it in a device that measures the edema in the leg. It's expansion of the leg volume due to liquid fluid. It's an early warning on heart failure. You also know it when you are flying. You will have a lot of water in your legs. It's similar and at a certain time when there is sufficient stress on the fabric, the sock here, it will send a warning to the hospital that they need to interfere. So that's a way of making smart... So this is a medical device. This is a medical device, exactly. So what kind of sensor do you put in there? What's the material? We put the sensor and then there is an electronic module which is in this version just the prototype here. We will make it much smaller, but it contains a Bluetooth module and the sensing of the strain. Is it a special material that you use for making this? We use constant wires which are also used on measuring vibration and large machinery. This is a very very thin, it's only 50 mark thick wire so it's very difficult to see. What are we looking at there? This one here? Yeah. This is a skin sensor. It has very thin silver threads moved up to the top of the fabric. So when you put it to the skin you have a very good contact. It's a substitution for dry electrodes which contains a gel. What are you showing here on the wall? What we are showing is that often people are not... just buying our products but they are not really sure about how the concept should look like. So we offer a feasibility study where we can go all the way from the identification of the customer needs to the product development, to the garment integration which is a new discipline in electronics and we go to prototype and complete developments. Are you in space or are you just saying you could go in? This sock is a device that measures the astronaut's muscle activity. It uses light sensors that expose the skin with light and then there is a photo detector here so that in the moment where you have it on the skin it measures the oxygenation which is more or less what's needed to know how much blood there is around the muscle. Is it similar to what Microsoft and Apple is doing? Yes, it's similar to watches and it's also known from pulse oximetry. That is very, very common. How precise is it? It can measure the percentages of the blood and the oxygen in and around the blood while it's a space device it's very much related to the way the astronauts are training. So it's calibrated on earth and then when they go to the space station they can use this device as an indication of how much they have trained. If they save training they can use that for scientific experiments. And you want to also be for the safety consumer? What's the safety about? The safety, I don't know, I don't have the product but we are making heat sensing, heat sensor on the shoulder and the sleeve label so it can predict heat stress which is a very dangerous situation for firefighters. So how big is this market? How many are you selling so far? We don't know. We are selling few so far and it can be huge in the future and where are you based? We know there's only 15 astronauts so that's a small market. So there is 15 of these in space or there has been? There will be. There will be. But we are doing this on contract for the European Space Agency so it doesn't depend on how many we are selling. That's more the level of contracting and the preciseness in measurement. Are you from Denmark? We are from Denmark. Alright. Thank you very much.