the ultrasound technology in the industrial sector and aviation, oil and gas. but most people know ultrasound from the hospital or medical imaging, so what we really want to do is be able to take medical imaging out of the hospital and put it into the homes for everyone. a lot of the wearables that are on the market at the moment only looks at the surface of the skin. they are optical and electrical. as soon as you use ultrasound you can get deep into the body and that opens up a huge amount of different parameters you can measure such as dehydration, blood pressure, tissue fatality, tissue movement. and what are you seeing on the tablet? we take an ultrasound picture, zap it over the wireless, put it onto the computer so we can extract information to go into machine learning algorithms. that allows you to measure stuff like, what we re showing here is dehydration, so how hydrated the tissue is. it is all through a completely wireless platform. novosound aren t the only ones working in
they are optical and electrical. as soon as you use ultrasound you can get deep into the body and that opens up a huge amount of different parameters you can measure such as dehydration, blood pressure, tissue fatality, tissue movement. and what are you seeing on the tablet? we take an ultrasound picture, zap it over the wireless, put it onto the computer so we can extract information to go into machine learning algorithms. that allows you to measure stuff like, what we re showing here is dehydration, so how hydrated the tissue is. it is all through a completely wireless platform. novosound aren t the only ones working in this area, with engineers at mit in the us having developed a sticker ultrasound earlier this year. the key bit that puts us ahead of our competition in this area is the fact that i have the ultrasound picture i ve got on the screen in front of me, there are no wires, it is truly wireless ultrasound we have here. and it could be as soon as in the next year or two that
yeah, go for it. getting from this very industrial use to something we can interact with every day is a big focus for the company. we have already proven the ultrasound technology in the industrial sector and aviation, oil and gas. but most people know ultrasound from the hospital or medical imaging, so what we really want to do is be able to take medical imaging out of the hospital and put it into the homes for everyone. a lot of the wearables that are on the market at the moment only looks at the surface of the skin. they are optical and electrical. as soon as you use ultrasound you can get deep into the body and that opens up a huge amount of different parameters you can measure such as dehydration, blood pressure, tissue fatality, tissue movement. and what are you seeing on the tablet? we take an ultrasound picture, zap it over the wireless, put it onto the computer so we can extract information to go into machine learning algorithms. that allows you to measure stuff like, what we
for the company. for the company. we have already proven for the company. we have already proven the - for the company. we have - already proven the ultrasound technology in the industrial sector and aviation, oil and gas. but most people know ultrasound from the hospital or medical imaging so what we want to do is be able to take medical imaging out of the hospitalfor medical imaging out of the hospital for everyone. medical imaging out of the hospitalfor everyone. 0ne medical imaging out of the hospital for everyone. one of the wearables that are on the market looks at the surface of the skin. they optical and electrical. as soon as you use ultrasound you can get deep into the body and that amount of different parameters you can measure such as dehydration, tissue fidelity, tissue movement. tissue fidelity, tissue movement. . ., ., tissue fidelity, tissue movement. ., ., movement. and what are you seeinr movement. and what are you seeing on movement. and what are you seeing on
is a big focus for the company. we have already proven the ultrasound technology in the industrial sector and aviation, oil and gas. but most people know ultrasound from the hospital or medical imaging, so what we really want to do is be able to take medical imaging out of the hospital and put it into the homes for everyone. a lot of the wearables that are on the market at the moment only looks at the surface of the skin. they are optical and electrical. as soon as you use ultrasound you can get deep into the body and that opens up a huge amount of different parameters you can measure such as dehydration, blood pressure, tissue fatality, tissue movement. and what are you seeing on the tablet? we take an ultrasound picture, zap it over the wireless, put it onto the computer so we can extract information to go into machine learning algorithms. that allows you to measure stuff like, what we re showing here is dehydration, so how hydrated the tissue is. it is all through a completely wirel