Verizon-Cisco collaboration advances autonomous vehicle tech

BASKING RIDGE, N.J.— Cisco and Verizon collaborated on a successful proof of concept demo in Las Vegas, showing that cellular and mobile edge compute (MEC) technology can enable autonomous driving solutions without the use of costly physical Roadside Units to extend radio signals.

The result paves a simpler and more efficient route to powering applications such as autonomous/unmanned last-mile delivery bots and robotaxis in cities like Las Vegas, where public MEC technologies exist. Additionally, cities and roadway operators could create safer roads with C-V2X applications including pedestrian protection, emergency and transit vehicle pre-emption, on and off-ramp protection (e.g., when a loaded truck needs autonomous guidance to merge or brake safely), and potentially others that involve vehicles approaching intersections with traffic signals.

Proof of concept

Autonomous features in connected vehicles have always relied on roadside radios to extend the signals vehicles use for low-latency communication with each other and surrounding connected infrastructure. The Cisco and Verizon test proved that Verizon’s LTE network and public 5G Edge with AWS Wavelength, together with Cisco Catalyst IR1101 routers in connected infrastructure, can meet the latency thresholds required for autonomous driving applications – replacing the costly roadside radios previously required to meet those needs.

By using LTE and edge compute to virtualize the role of the Roadside Units, C-V2X communications proved to be more streamlined – likely to result in improved efficiency and cost effectiveness for municipalities, infrastructure providers, and application developers working with autonomous vehicles. (C-V2X refers to a vehicle’s ability to communicate with other vehicles and connected infrastructure surrounding it.)

The result demonstrates that connected and autonomous vehicle applications can be deployed today using LTE networks, mobile edge compute, and in-vehicle interfaces deployed by OEMs. These capabilities could lead to safer, less congested roads with current connected and autonomous vehicles, with scalability for future applications hosted at the edge and using LTE and 5G connectivity.

Connected transportation – powered by cellular

Improving communication between vehicles and their surrounding infrastructure is essential for creating safer roadways and enabling the autonomous future of driving. Intersections must be securely connected and equipped with compute to allow applications at the edge to communicate and inform split-second decision making.

“This test is a huge milestone in proving that the future of connectivity for IoT applications can be powered by cellular,” said Krishna Iyer, Director of Systems Architecture, Verizon. “We’re marking the strength of mobile edge compute platforms for connected transportation innovation with much more streamlined architecture. Together with Cisco technologies, we’re setting the foundation potentially to realize a ubiquitous IoT in the connected and autonomous future of driving.”

“The future of autonomous vehicles cannot progress without reliable communication between vehicles and their surrounding environments,” said Mark Knellinger, Lead Transportation Solutions Architect, Cisco. “This is huge for roadway operators in that it relieves them of the massive expense of deploying and operating a dedicated V2X environment.”

— by Matt Conte, Verizon

A D V E R T I S E M E N T

Verizon’s 5G Ultra Wideband becomes world’s first commercial 5G network to work with 5G smartphones

NEW YORK – Verizon officially turned on its 5G Ultra Wideband network in select areas of Minneapolis and Chicago a week ahead of schedule. For the first time ever, customers can access a commercial 5G network with the world’s first commercially available 5G-enabled smartphone, the moto z3 combined with 5G moto mod. Customers using Verizon’s 5G Ultra Wideband network in Chicago or Minneapolis could see speeds of up to 1 Gbps.

“Verizon customers will be the first in the world to have the power of 5G in their hands,” said Hans Vestberg, Verizon’s chairman and chief executive officer. “This is the latest in our string of 5G firsts. Verizon launched the first commercial broadband 5G service last October, Verizon 5G Home, and now we’re lighting up our 5G Ultra Wideband network in Chicago and Minneapolis, providing the world’s first commercial 5G mobile service with a 5G-enabled smartphone.”

Starting today, consumers and businesses have a 5G network and a 5G-enabled smartphone that makes real-time a reality. Verizon’s 5G Ultra Wideband technology uses the global standard and new device hardware to deliver advanced capabilities to customers in real-time. While select areas of Chicago and Minneapolis will be the first to experience Verizon’s 5G Ultra Wideband mobility service, Verizon announced plans in February to launch its 5G service in more than 30 U.S. cities in 2019.

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Service and coverage areas

Early customers in Chicago and Minneapolis should expect typical download speeds of 450 Mbps, with peak speeds of nearly 1 Gbps, and latency less than 30 milliseconds. 5G is a new and rapidly evolving technology and Verizon expects regular improvement in 5G Ultra Wideband speed, latency and overall network performance as Verizon engineers, working with a number of technology partners, continue to upgrade the network. Customers can expect to see regular software updates pushed to their devices and see network advancements throughout the rest of the year.

BDPA Chicago

In Chicago, 5G coverage is concentrated in areas of the West Loop and the South Loop, around landmarks like Union Station, Willis Tower, The Art Institute of Chicago, Millennium Park and The Chicago Theatre. Customers also have 5G Ultra Wideband service in the Verizon store on The Magnificent Mile and throughout The Gold Coast, Old Town and River North.

BDPA Twin Cities

In Minneapolis, service is concentrated in the Downtown area, including Downtown West and Downtown East, as well as inside and around U.S. Bank Stadium, the site of this weekend’s NCAA men’s basketball Final Four. Verizon 5G Ultra Wideband service is also available around landmarks like the Minneapolis Convention Center, the Minneapolis Central Library, the Mill City Museum, Target Center and First Avenue venues, The Commons, areas of Elliot Park and in the Verizon store in The Mall of America.

When customers move outside Verizon’s 5G Ultra Wideband coverage area, the 5G moto mod hands off the signal to Verizon’s 4G LTE network, the nation’s best and most reliable 4G LTE network.

— Source and photo credits: Verizon
A  D  V  E  R  T  I  S  E  M  E  N  T

GLF19

Verizon to Buy XO’s Fiber-Optic Network

WASHINGTON—CNBC reports Verizon Communications, the No.1 U.S. wireless service provider, would buy Carl Icahn-owned XO Communications’ fiber-optic network business for about $1.8 billion.

Verizon said the deal will include XO’s fiber-based Internet protocol and Ethernet networks that will help serve its enterprise and wholesale customers.

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