 Welcome to the World Radio Communication Conference in Shamar Shaikh where I'm here in the exhibition part of the conference and we're here on the Viasat stand with Craig Noonan. Craig, thanks so much for letting us join you on the stand. You're welcome. Now, we're here because over half of the world's population do not have access to essential medical care according to the World Health Organization and the World Bank. And Viasat are doing something about this, revolutionizing healthcare and mobile healthcare with the use of satellite broadband. Connectivity is the key. Okay, so tell us a little bit about what you've been developing here because they've got some very interesting tools that you've been demonstrating here I believe all day. Absolutely, absolutely. So what we're enabling with our low cost connectivity is the ability to now deliver healthcare remotely at an affordable price. So what we've developed here is a clinic in a box and we replicate the clinic experience from check in all the way through to the doctor visit. And in doing so, we allow the use of diagnostic devices through our platform, through the connectivity to connect the doctor to do everything he can do in the clinic with the exception of laying hands on his patient. So the clinic in the box, as I said, replicates the clinic experience. The front end of this allows us now to select clinics that can be either government run, socially run. They can be run by private healthcare networks, or we can divide the services to pediatric care or elder care or mental health. So we can develop the platform and route the patients however our customers would like. Okay, in the home whether you're using him. So one of our one of our key aspirations is to use off the shelf hardware, which allows us to control costs. So as technology proliferates, it drives costs down. We all know that. So we're using diagnostic devices, poll socks, stethoscope, glucometers, blood pressure, anything, any configuration that we would like. They're Bluetooth oriented and the Bluetooth connects to our off the shelf tablet to our software. Our software then connects to platform connects us with the doctor and allows the doctor then to live in real time, activate and read these devices. So when you would enter the clinic, you would choose the clinic. And so we're going to choose one. The first step is in any clinic is we have to do an intake form. So we would have you would enter the name, first name, last name, date of birth and gender. That allows the basic information to be transferred in the process of the experience. When you come through then you would enter in, type in what your symptoms are or what your challenges are today. Yes, what have I got? How about rapid heartbeat? Rapid heartbeat, that sounds familiar. And the hardware that you're using here, this is also off the shelf hardware as well as the tablet. The tablet in this case is a Samsung Android tablet. So our platform works on any Android platform. So essentially keeping the cost right down here? Always trying to drive the cost down so for our users. Okay, great. So we've entered the details there as if I'd gone into a reception of a doctor's surgery. Correct. And so what we're seeing on this screen is if you're the doctor. So now we're on the doctor's side. This is in the remote area. This is now connected to anywhere in the world as the doctor's view. On his status he will see a call waiting. If we had multiple tablets out there all calling at the same time it would queue those up. And so the doctor could see who's waiting just like in the waiting room. Right. It comes from the clinic is identified so that was identified from our area. The participant is Max Jacobson, that's the patient. So the doctor is controlling the system. He can start the video now and so now he would connect and this would be the doctor. It's going to look very similar when we answer the call on the other end. Okay. Now we have full two-way video and audio just as if you were sitting in front of the doctor in the clinic. Fantastic. So now we have an interaction between the doctor and the doctor would be asking you questions going through the same thing, looking at his data. Right. Now the key here is on a audio telemedicine they have no access to your vitals. No. Well now we have integrated the Bluetooth vitals. Okay. These diagnostic devices are Bluetooth to the tablet, the tablet is connected to the internet providing. So in this case the doctor would say we need Max, we need to see how your blood oxygen is. Okay. Let's see how this is going. We would activate the pulse oximeter. He would choose it as well up here and we will start it. So you can see it's searching. It's taking the measurements live. Okay. From remote and now it is giving you a 98 SP02 and a heart rate of 74. And it's giving you a waveform as we go along. And that's a good thing, isn't it? That's a very good thing. 95 to 100 and you're very good. Really? Excellent. Okay. Good. And you're not under stress. You have a 73 heart beat. Perfect. All right. It's gone up to 84. You see what happens. There we go. A little stress. So the key here is this real time. Right. These are actual vitals and they're in real time. It presented at the point of diagnosis from the doctor. In this case we have blood pressure. We have stethoscope. So we can see live stethoscope. We have an otoscope or a camera. So in case they need to look at the throat or the ears. Fantastic. We can capture those images and an archive. So now he's going through his normal sequence of whatever vitals he needs and talking to you about symptoms and so on. But he comes up with his diagnosis. So once he has his diagnosis he goes to visit details. He comes down here to the summary and he says Max is in excellent health. So that's the good news. You got good news today. Yeah. Now my insurance will be very pleased about that. So this captures whatever the vitals were. It captures all of those for the record. And now once we do that he can export the summary. Now this summary comes out into a PDF which can now be sent to you as the patient or it can be attached to your medical record. So the two issues in particularly in developing countries in rural areas are prenatal care and infant care. Infant mortality is very high. So we want to make sure that we can deliver that care to the mother pre and post delivery. And then on the other end of the spectrum we have an aging population. So now we must manage chronic conditions, COPD, diabetes, things of that nature. So in those cases now we're educating and providing easy access to doctors. And one other feature of our program is we can download and we do download guides on to the system which are not using bandwidth at this point. So now you can download information, community health information. So now we can help educate the community at the edge without having to use bandwidth. And what's the rollout been like so far on this? It's been fantastic. So we have been running it in the United States and in Canada. We are now rolling it out in the rural communities into Mexico. Viacet has installed community Wi-Fi into roughly 3,000 communities in the rural areas of Mexico. Those communities are roughly 500 people in less. And now we're bringing services to now elevate the community in health care and education. It's been a fascinating insight into these tools and into your push for the great connectivity for the globe, which is obviously ITU's mandate as well. And I just wanted to say thank you very much and I wish you very much the best of luck with this. Absolutely, thank you for your time. And hopefully we will catch up again some stage in the near future. Come back and we'll do more. OK, that's great. Thank you, Craig. Thank you. Well, thanks so much and thanks so much for joining us. And tune in for more interviews here at the World Radio Communication Conference here 2019 in Shamar Shake, where we'll be doing a number more of these interviews over the next few weeks. Thank you.