 Joneum Research is a non-profit research organization located in Austria. We have about 450 employees and we developed this technology over the last 10 years. It all started with a PhD work of a colleague and this is a fully printed pizza sensor based on organic materials, organic copolymer. It's fabricated via screen printing routine and the printing gives you high freedom in geometry and design. I think it's very well known in the field of printed electronics and so we have quite many advantages with the sensor. One is the scalability from very small areas to large areas on many different substrates. Normally we print it on a PET foil as shown here but we can also print it on paper as shown here directly on paper and also on very very thin and stretchable substrates which is like this thermoplastic polyurethane and this can be for example directly laminated onto paper or onto other substrates for giving or equipping different surfaces with sensory functions. What are the patients you see this is having the most impact? Loads of, loads of honestly spoken. I think the most simple application would just be a switch. So if you touch the surface you turn on or off a light for example. It's also quite beneficial that this technology itself doesn't consume any energy so it's a passive sensor. Of course you need to drive the electronics but due to the fact that there's no energy supply needed you can use it for energy harvesting applications as well and another topic we're just exploring and this is the colleague Clemens was working in this field is vibration so vibra acoustics for for example condition or structural health monitoring and we have also some demos here. If we have a look at one of our demos here it's just a our sensor put to different surfaces woods and ceramic and metal and what we implemented here is a simple switch that works acoustic curly so if you just interact with the surface by knocking on it you will get a information we sense that information and as soon as a double-click is detected we do a wireless connection and switch the light to different colors so we just show that any surface can be intelligent and can be used as a switch. So it's the most simple acoustic application of the sensor and when we go to our next demonstrator this is shows the capability of a condition monitoring system so this is a machine that just vibrates and on the top of the machine we put our sensor if you turn on the machine it starts rotating and record and show the sensor response right here in this live spectrogram where we can see the lines the frequency contact that we gain from the sensor so we can see if we click on the on the sensor we can even detect a swipe so just very small changes in the air pressure can be detected you see it here you swipe and yeah that that's how we show the capabilities of our sensor. What challenges lie in store for you over the next few years? What are your key targets for the next few years and getting this commercialized? Yeah we developed the sensors during the last 10 years and since two years we started to do demos and product developments so I think this is the goal to show that our sensors can be put into products and that our customers can can realize functionality in their products. Well thank you by a few times. I think we have to restart the system but it's mostly this so in this case for example a sensor as shown here this one a 3.5 matrix is integrated with a flexible display or flex enable and used as an input device so as an HMI it's a 3.5 sensor you have high flexibility for flexible electronic spending but it's also sensitive to pressure levels and of course swiping so different interaction modes of visible by using the sensor for HMI input device. As mentioned in the beginning the switch would be the most simple application but also the flexibility is quite an advantage the sensor offers. Excellent and how are you finding your time here at the ID TechEd Show? Have you had the chance to meet lots of other interesting technology companies? It's a very very good show it's very good for us to present this technology to make people aware that a print-a-pizzo exists and is ready for product development and I think the quality of the contacts and companies which are interested in looking for novel technologies to equip their products with sensory functions are coming here and we have high quality contacts which hopefully will result in product development or in prototyping to show the capability of the sensors for the respective end customer.