Another interesting vertical that's going to drive some requirements into the network-- now let's remember what the scope of what we're trying to do here. We're trying to show the breadth and depth of these requirements that are going to be placed onto that network. And there's going to be an aha moment for us as we get into one of the further sections about that. But let's take a look at the industrial use case. Again, we think about that connected factory when we talk about that, and the massive data burden that that's going to place onto that network. Again from a carrier perspective, why would we want a macro network, a licensed spectrum network inside, let's say, a very large factory, where we could deploy, for example, similar technologies like the unlicensed space from a Wi-Fi One of the critical points there is the manageability aspect of it. If we've got any experience with Wi-Fi, we know if we're deploying lots of Wi-Fi, and those signals are overlapping, that there's a high level of management that has to take place in configuring those devices. That's just one of the aspect of it. In the macro network when the comm service provider is deploying, for example, 4G or 5G microcell or picocell into those type of environments, that manageability comes as a result of the technologies that are being deployed. And the responsibility for that is not, then, with the enterprise, but rather with the comm service provider who are experts at this. So again, if you think about the factory type of an environment, or even a large stadium environment, in some cases it's advantageous to that enterprise to have a comm service provider come in and employ deploy a macro network capability, because there are fundamental differences in the manageability of those elements into that. So when we look at the potential tech across here, you want to think large-scale enterprises, it may be to their advantage to have a macro operator come in and provide that wireless connectivity. Not just because of the data, which they're there. But also because of the manageability, the control, the configuration, the actual operational aspects of those platforms that come into play. So again, back to the use cases we may find in there-- so automated or programmable production lines, process automation, supply chain management. Again, think about inventory control flowing, just-in-time or nearly just-in-time arrival of those developments, of those elements that are going to be consumed by that industry and how all of that back pressure is created all the way back into the order management system and the logistics and the freight that's in there. So if you know that you've got a six-week lead time to get the collection of clamps that you need, in order to hold all theses cabling or hoses together inside an airframe that you're manufacturing, from that standpoint, you want that to flow as seamlessly as possible so that you're not starving a production line, nor are you holding far more inventory locally than you need to in order to meet your expected flow of demand of that information. Also, human resource assistance, information mediation are elements there. Another use case that we see in this area is the industrial use of drones. And again, this is for very large plant management. So again, you can think about chemical plants are a really fine example of this, where there's a lot of infrastructure that's in play, a lot of critical infrastructure. It's not very dense in humans for a variety of reasons. Some of it may just be the environment that you're operating. Some of it may be the scope of it. Some of it may be elevation. Drones are a wonderful device to allow inspection of these devices, of these plants, and enabling those devices, again, with video camera capabilities to provide feedback to an operator so they can do inspection of these types of devices. Is corrosion developing? Do we have a sensor that's failing? Did a wire get knocked loose in the last hailstorm. For example it may have come through. Whatever it happens to be, these are types of applications that certainly come into play. Even the comm service providers themselves are using drones for inspecting their cell towers, again, for the same type of thing, rather than having someone come out with a boom, or a human being climbing up the tower itself to do visual inspections. But nevertheless, we want to get that information back effectively so we can make quality decisions based on that information. The media itself providing 3D panoramic view of the video. Here, we think about some of the other opportunities. Think about an open air type of stadium environment, whether that's a sailing race, for example. This is not a course where you can simply hang our cameras in a variety of locations. But you may want to improve the user experience. in wondering that race as it takes place in real-time. Well, drone capability is a wonderful thing that to do, where we've got infrastructure that we can put up in the sky and we can watch what's happening from a sports experience. And we would put that into this type of a classification. There are a number of trials have gone on in the 5G radio network. And some of these areas are actually pretty interesting, both from a viewer standpoint and from an industrial management standpoint.
