LTE
Auto Added by WPeMatico
Auto Added by WPeMatico
As 5G slowly moves from being a theoretical to an active part of the coverage map for the mobile industry — if not for consumers themselves — companies that are helping carriers make the migration less painful and less costly are seeing a boost of attention.
In the latest development, Cellwize, a startup that’s built a platform to automate and optimize data for carriers to run 5G networks within multi-vendor environments, has raised $32 million — funding that it will use to continue expanding its business into more geographies and investing in R&D to bring more capabilities to its flagship CHIME platform.
The funding is notable because of the list of strategic companies doing the investing, as well as because of the amount of traction that Cellwize has had to date.
The Series B round is being co-led Intel Capital and Qualcomm Ventures LLC, and Verizon Ventures (which is part of Verizon, which also owns TechCrunch by way of Verizon Media) and Samsung Next, with existing shareholders also participating. That list includes Deutsche Telekom and Sonae, a Portuguese conglomerate that owns multiple brands in retail, financial services, telecoms and more.
That backing underscores Cellwize’s growth. The company — which is based in Israel with operations also in Dallas and Singapore — says it currently provides services to some 40 carriers (including Verizon, Telefonica and more), covering 16 countries, 3 million cell sites, and 800 million subscribers.
Cellwize is not disclosing its valuation but it has raised $56.5 million from investors to date.
5G holds a lot of promise for carriers, their vendors, handset makers and others in the mobile ecosystem: the belief is that faster and more efficient speeds for wireless data will unlock a new wave of services and usage and revenues from services for consumers and business, covering not just people but IoT networks, too.
Notwithstanding the concerns some have had with health risks, despite much of that theory being debunked over the years, one of the technical issues with 5G has been implementing it.
Migrating can be costly and laborious, not least because carriers need to deploy more equipment at closer distances, and because they will likely be running hybrid systems in the Radio Access Network (RAN, which controls how devices interface with carriers’ networks); and they will be managing legacy networks (eg, 2G, 3G, 4G, LTE) alongside 5G, and working with multiple vendors within 5G itself.
Cellwize positions its CHIME platform — which works as an all-in-one tool that leverages AI and other tech in the cloud, and covers configuring new 5G networks, optimizing and monitoring data on them, and also providing APIs for third-party developers to integrate with it — as the bridge to letting carriers operate in the more open-shop approach that marks the move to 5G.
“While large companies have traditionally been more dominant in the RAN market, 5G is changing the landscape for how the entire mobile industry operates,” said Ofir Zemer, Cellwize’s CEO. “These traditional vendors usually offer solutions which plug into their own equipment, while not allowing third parties to connect, and this creates a closed and limited ecosystem. [But] the large operators also are not interested in being tied to one vendor: not technology-wise and not on the business side – as they identify this as an inhibitor to their own innovation.”
Cellwize provides an open platform that allows a carrier to plan, deploy and manage the RAN in that kind of multi-vendor ecosystem. “We have seen an extremely high demand for our solution and as 5G rollouts continue to increase globally, we expect the demand for our product will only continue to grow,” he added.
Previously, Zemer said that carriers would build their own products internally to manage data in the RAN, but these “struggle to support 5G.”
The competition element is not just lip service: the fact that both Intel and Qualcomm — competitors in key respects — are investing in this round underscores how Cellwize sees itself as a kind of Switzerland in mobile architecture. It also underscores that both view easy and deep integrations with its tech as something worth backing, given the priorities of each of their carrier customers.
“Over the last decade, Intel technologies have been instrumental in enabling the communications industry to transform networks with an agile and scalable infrastructure,” said David Flanagan, VP and senior MD at Intel Capital, in a statement. “With the challenges in managing the high complexity of radio access networks, we are encouraged by the opportunity in front of Cellwize to explore ways to utilize their AI-based automation capabilities as Intel brings the benefits of cloud architectures to service provider and private networks.”
“Qualcomm is at the forefront of 5G expansion, creating a robust ecosystem of technologies that will usher in the new era of connectivity,” added Merav Weinryb, Senior Director of Qualcomm Israel Ltd. and MD of Qualcomm Ventures Israel and Europe. “As a leader in RAN automation and orchestration, Cellwize plays an important role in 5G deployment. We are excited to support Cellwize through the Qualcomm Ventures’ 5G global ecosystem fund as they scale and expedite 5G adoption worldwide.”
And that is the key point. Right now there are precious few 5G deployments, and sometimes, when you read some the less shiny reports of 5G rollouts, you might be forgiven for feeling like it’s more marketing than reality at this point. But Zemer — who is not a co-founder (both of them have left the company) but has been with it since 2013, almost from the start — is sitting in on the meetings with carriers, and he believes that it won’t be long before all that tips.
“Within the next five years, approximately 75% of mobile connections will be powered by 5G, and 2.6 billion 5G mobile subscriptions will be serving 65% of the world’s population,” he said. “While 5G technology holds a tremendous amount of promise, the reality is that it is also hyper-complex, comprised of multiple technologies, architectures, bands, layers, and RAN/vRAN players. We are working with network operators around the world to help them overcome the challenges of rolling out and managing these next generation networks, by automating their entire RAN processes, allowing them to successfully deliver 5G to their customers.”
Powered by WPeMatico
Microsoft today announced the launch of Azure Edge Zones, which will allow Azure users to bring their applications to the company’s edge locations. The focus here is on enabling real-time low-latency 5G applications. The company is also launching a version of Edge Zones with carriers (starting with AT&T) in preview, which connects these zones directly to 5G networks in the carrier’s data center. And to round it all out, Azure is also getting Private Edge Zones for those who are deploying private 5G/LTE networks in combination with Azure Stack Edge.
In addition to partnering with carriers like AT&T, as well as Rogers, SK Telecom, Telstra and Vodafone, Microsoft is also launching new standalone Azure Edge Zones in more than 10 cities over the next year, starting with LA, Miami and New York later this summer.
“For the last few decades, carriers and operators have pioneered how we connect with each other, laying the foundation for telephony and cellular,” the company notes in today’s announcement. “With cloud and 5G, there are new possibilities by combining cloud services, like compute and AI with high bandwidth and ultra-low latency. Microsoft is partnering with them bring 5G to life in immersive applications built by organization and developers.”
This may all sound a bit familiar, and that’s because only a few weeks ago, Google launched Anthos for Telecom and its Global Mobile Edge Cloud, which at first glance offers a similar promise of bringing applications close to that cloud’s edge locations for 5G and telco usage. Microsoft argues that its offering is more comprehensive in terms of its partner ecosystem and geographic availability. But it’s clear that 5G is a trend all of the large cloud providers are trying to tap into. Microsoft’s own acquisition of 5G cloud specialist Affirmed Networks is yet another example of how it is looking to position itself in this market.
As far as the details of the various Edge Zone versions go, the focus of Edge Zones is mostly on IoT and AI workloads, while Microsoft notes that Edge Zones with Carriers is more about low-latency online gaming, remote meetings and events, as well as smart infrastructure. Private Edge Zones, which combine private carrier networks with Azure Stack Edge, is something only a small number of large enterprise companies would likely to look into, given the cost and complexity of rolling out a system like this.
Powered by WPeMatico
Boris Renski, the co-founder of Mirantis, one of the earliest and best-funded players in the OpenStack space a few years ago (which then mostly pivoted to Kubernetes and DevOps), has left his role as CMO to focus his efforts on a new startup: FreedomFi. The new company brings together open-source hardware and software to give enterprises a new way to leverage the newly opened 3.5 GHz band for private LTE and — later — 5G IoT deployments.
“There is a very broad opportunity for any enterprise building IoT solutions, which completely changes the dynamic of the whole market,” Renski told me when I asked him why he was leaving Mirantis. “This makes the whole space very interesting and fast-evolving. I felt that my background in open source and my existing understanding of the open-source landscape and the LTE space […] is an extremely compelling opportunity to dive into headfirst.”
Renski told me that a lot of the work the company is doing is still in its early stages, but the company recently hit a milestone when it used its prototype stack to send messages across its private network over a distance of around 2.7 miles.
Mirantis itself worked on bringing Magma, a Facebook-developed open-source tool for powering some of the features needed for building access networks, into production. FreedomFi is also working with the OpenAirInterface consortium, which aims to create an ecosystem for open-source software and hardware development around wireless innovation. Most, if not all, of the technology the company will develop over time will also be open source, as well.
Renski, of course, gets to leverage his existing connections in the enterprise and telco industry with this new venture, but he also told me that he plans to leverage the Mirantis playbook as he builds out the company.
“At Mirantis, our journey was that we started with basically offering end-to-end open-source cloud buildouts to a variety of enterprises back when OpenStack was essentially the only open-source cloud project out there,” he explained. “And we spent a whole bunch of time doing that, engaging with customers, getting customer revenue, learning where the bottlenecks are — and then kind of gradually evolving into more of a leveraged business model with a subscription offering around OpenStack and then MCP and now Kubernetes, Docker, etc. But the key was to be very kind of customer-centric, go get some customer wins first, give customers a services-centric offering that gets them to the result, and then figure out where the leveraged business model opportunities are.”
Currently, enterprises that want to attempt to build their own private LTE networks — and are willing to spend millions on it — have to go to the large telecom providers. Those companies, though, aren’t necessarily interested in working on these relatively small deployments (or at least “small” by the standards of a telco).
Renski and his team started the project about two months ago and for now, it remains self-funded. But the company already has five pilots lined up, including one with a company that produces large-scale events and another with a large real estate owner, and with some of the tech falling in place, Renski seems optimistic that this is a project worth focusing on. There are still some hurdles to overcome and Renski tells me the team is learning new things every day. The hardware, for example, remains hard to source and the software stack remains in flux. “We’re probably at least six months away from having solved all of the technology and business-related problems pertaining to delivering this kind of end-to-end private LTE network,” he said.
Powered by WPeMatico
Security vulnerabilities in LTE can allow hackers to “easily” spoof presidential alerts sent to mobile phones in the event of a national emergency.
Using off-the-shelf equipment and open-source software, a working exploit made it possible to send a simulated alert to every phone in a 50,000-seat football stadium with little effort, with the potential of causing “cascades of panic,” said researchers at the University of Colorado Boulder in a paper out this week.
Their attack worked in nine out of 10 tests, they said.
Last year the Federal Emergency Management Agency sent out the first “presidential alert” test using the Wireless Emergency Alert (WEA) system. It was part of an effort to test the new state-of-the-art system to allow any president to send out a message to the bulk of the U.S. population in the event of a disaster or civil emergency.
But the system — which also sends out weather warnings and AMBER alerts — isn’t perfect. Last year amid tensions between the U.S. and North Korea, an erroneous alert warned residents of Hawaii of an inbound ballistic missile threat. The message mistakenly said the alert was “not a drill.”
Although no system is completely secure, many of the issues over the years have been as a result of human error. But the researchers said the LTE network used to transmit the broadcast message is the biggest weak spot.
Because the system uses LTE to send the message and not a traditional text message, each cell tower blasts out an alert on a specific channel to all devices in range. A false alert can be sent to every device in range if that channel is identified.
Making matters worse, there’s no way for devices to verify the authenticity of received alerts.
The researchers said fixing the vulnerabilities would “require a large collaborative effort between carriers, government stakeholders and cell phone manufacturers.” They added that adding digital signatures to each broadcast alert is not a “magic solution,” but would make it far more difficult to send spoofed messages.
A similar vulnerability in LTE was discovered last year, allowing researchers to not only send emergency alerts but also eavesdrop on a victim’s text messages and track their location.
Powered by WPeMatico
After a recent update some AT&T phones now have a 5G E icon. This icon replaces the one indicated the phone is running on a 4G network. But here’s the thing: The phone is still on a 4G network. AT&T has played these games before, too.
This nonsense is a marketing ploy by AT&T. The so-called 5G E (5G Evolution) network is just a beefed-up 4G network and not true 5G, which is still far from being ready for general consumption. AT&T used the same deceptive tactics before launching its LTE network.
Right now only select phones in a few markets will see the change. The wireless carrier intends to roll out this madness to even more phones and even more markets throughout the year.
Disclosure: TechCrunch is a Verizon Media company.
Powered by WPeMatico
Qualcomm’s longstanding dominance in LTE chipsets for smartphones, and specifically with Apple’s iPhone, is getting a major hit today.
The European Commission today announced that it would be fining the company €997 million, or $1.23 billion, for abusing its market position between 2011 and 2016, related to its relationship with Apple. The figure works out to 4.9 percent of… Read More
Powered by WPeMatico
In a world where having internet connectivity is the lifeblood of just about every business, Cradlepoint helps customers deliver consistent networking services, even when there is a lousy cell signal. Today the company announced it had secured an $89 million Series C investment from TCV. TCV is the only investor this round, and as part of the deal TCV’s general partner Ted Coons and… Read More
Powered by WPeMatico
Facebook is clearly very serious about its mission to connect the world and in the process, it has launched solar-powered drones that use lasers to connect to each other and the ground, and more prosaic efforts like new antennas for covering both urban and rural areas. Today, Facebook is expanding this work with the launch of OpenCellular, a new open source hardware and software project that… Read More
Powered by WPeMatico