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A Q&A with Verizon SVP Adam Koeppe

Verizon leveraging integrated wireless, fiber engineering process to hasten 5G deployment

Editor’s note: This interview, based on a conversation during the Wireless Infrastructure Association’s Connect X show last month, has been edited for length and clarity. A video recording of the full interview is available here and embedded below. 

Q: Tell me a little bit about Verizon’s broader strategy as it relates to 5G near-term and long-term.

A: What you’re seeing now is really a remarkable technical evolution that’s occurring in the industry. What we’ve been driving literally since 2015 believe it or not is an advancement of a set of capabilities that the network can provide to consumers, enterprise, small business alike, that is truly transformational. Probably the best way to think about what 5G can bring to the table is in the form of currencies.

Q: Let’s go into those currencies. If I recall Mr. Vestberg’s CES keynote correctly, there’s eight of them. Maybe you can walk us through those.

A: They are based on network capabilities that are largely defined today so the starting point for them is actually fairly mature while the network deployments are new and off to the races…the currencies are defined by true network capabilities. Starting with throughput, the promise of 5G is really a throughput experience of up to 10 GBPs if you have the right amount of bandwidth deployed. That’s currency number one.

The second one is the bandwidth that can accommodate connections like that, so being able to accommodate significantly more users on a per square kilometer basis.

The third one is low latency. This gets really exciting when you combine your 5G radio access network with your multi-access edge compute framework…for example, in a use case like virtual reality where you want to ensure your roundtrip latency is less than 20 milliseconds. Part of that you solve with a new 5G air link, part of that you solve with an edge compute framework that puts that processing closer to the customer.

We see a lot of activity in high-speed mobility. Today’s LTE networks are somewhat bound by how fast the end device can go but in the context of drones and high speed trains, 5G enables significantly faster end-device speed, raw speed, ground speed if you will or air speed, on the network so the hand-off mechanisms between sectors and sites in the context of 5G is designed for high-speed mobility like that.

We talk about service deployment timeframes and probably a key feature within 5G you’ll want to focus on is the concept of network slicing. When you have a virtualized network framework you can actually slice the network in real time to provide different types of use cases in a highly efficient way for the operator and an optimized way for the end user. That allows us to shorten service delivery for new features and services on the network significantly. Certainly from an enterprise perspective, it allows for a very agile framework to deliver new products.

A lot of focus also on energy efficiency so part of being a responsible business is finding new ways to to really not only help the environment with a more mature manufacturing cycle but also creating products that have higher energy efficiency ratios compared to 4G and we already see that in some of the early prototype devices. 
When you look at the intersection of 4G and 5G in the context of IoT, a lot of people today talk about well IoT needs 5g to be meaningful. That actually couldn’t be further from the truth. In fact when you look at LTE networks and their capability to provide Cat-M functionality, narrowband IoT functionality, right, that is going to meet the needs of IoT use cases for the foreseeable future. Where it intersects with 5G though is when you have a pervasively connected society where you’re trying to accommodate say a million devices per square kilometer. That’s the last currency that I’d highlight and that bandwidth that’s available on the network in the context of IoT, a few years down the road as society kind of evolves its IoT framework, but that’s where those functions will intersect with 5G. 
Q: You mentioned what’s going on in your Chicago and Minneapolis markets–you know the speed tests are remarkable. I saw some that we’re getting up close to a gig and a half down but you mentioned kind of this long-term vision of 10 gigs, then there’s the IoT component, the network slicing component. So how do we get from where we are today to realizing this broader vision and unlocking that massive potential that’s there? 

A:What we focus on today is two-fold in the sense that we’ve you’ve got really an award-winning LTE network that is best-in-class and…you’re providing a phenomenal experience over 98% of the population in the United States. I think you have to ensure on day one for us is, as we roll out our 5G networks, we want to ensure very seamless experience between 4G and 5G for the consumer, continue to meet the broadband needs as the network evolves and the consumer experience shifts.

The next piece of that equation though is really finding where the traffic is, where the customer experiences need to be and then putting the bandwidth into the market to accommodate that. So certainly a 10 Gbps…target in the context of 5G is years down the road but just start with the gig. You’re gonna have connections that you’re seeing today, using Chicago as an example, we’ve started that deployment with only 400 megahertz of bandwidth and service and we have 800 megahertz of 28 GHz spectrum at our disposal.
Q: We’ve talked a little bit about wireless but you can’t have wireless without wires. I know you all are investing heavily in fiber construction right now so maybe you could just give us kind of an update on where you are in the markets where you’re building out. 

A: We’ve made a conscious effort to really pair our wireless engineering with a fiber engineering process and what that’s allowed us to do is pursue over 60 markets around the country. We’re going to actually be building fiber into the footprint and you know, truthfully, serving our own needs if you will from a frontal and backhaul perspective. That’s a very integrated engineering process that creates tremendous synergy on our end and allows for very rapid deployment. 

ABOUT AUTHOR

Sean Kinney, Editor in Chief
Sean Kinney, Editor in Chief
Sean focuses on multiple subject areas including 5G, Open RAN, hybrid cloud, edge computing, and Industry 4.0. He also hosts Arden Media's podcast Will 5G Change the World? Prior to his work at RCR, Sean studied journalism and literature at the University of Mississippi then spent six years based in Key West, Florida, working as a reporter for the Miami Herald Media Company. He currently lives in Fayetteville, Arkansas.