BT installs public 5G network at University of Warwick

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BT and the University of Warwick have announced a collaboration on the UK’s first dedicated public 5G network for a connected campus.

Powered by its very own EE mobile network, British Telecom is supplying ultrafast 5G mobile coverage to 30,000 students and staff right across the 720-acre University site. What’s more, as this is a public network, it is also set to benefit visitors and the general public living and working in the area.

Already renowned as one of the UK’s leading research institutions, this new 5G network will further enhance the University of Warwick’s research capacity. This will include the rollout of Europe’s first Connected Autonomous Mobility (CAM) demonstration over a public 5G network, which will explore Vehicle to Vehicle (V2V) communication scenarios with two connected autonomous pods exchanging data.

The new 5G network will also enabled the University of Warwick’s School of Engineering to pioneer 5G use in medical technology, such as the ability for the health and social care sector to care for patients remotely and in real-time.

David Plumb, the University of Warwick’s Chief Innovation Officer said: “This powerful innovation alliance with BT gives Warwick the advantage of being an early adopter of 5G technology with a significant partner. Our public 5G connected campus will: support new areas of research; enable new teaching technologies; help us to support even more regional businesses; and it will add to students’ campus experience be it in teaching, esports or simply through an enhanced performance on mobile devices.”

 

Source: 5g.co.uk

Ericsson announces Cloud RAN portfolio for increased network flexibility

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Ericsson announces Cloud RAN portfolio for increased network flexibility

  • Cloud RAN offering for communications service providers will add more versatility to network buildouts to address a variety of 5G use cases
  • Cloud RAN by Ericsson is fully compatible with the Ericsson Radio System portfolio, and supports both 5G standalone and non-standalone
  • Planned in stages, the offering will enable service providers to incrementally add Cloud RAN capabilities as a complement to their existing purpose-built 5G networks

Ericsson have announced Cloud RAN (Radio Access Network), a new offering to enable communications service providers to add greater flexibility and versatility to their networks.

Cloud RAN by Ericsson is a cloud-native software solution handling compute functionality in the RAN. It will complement high-performing purpose-built baseband offerings in the Ericsson Radio System portfolio, giving service providers an optimal choice for any deployment scenario and need.

As the telecoms industry deploys 5G networks around the globe, technologies such as automation and virtualization, with Cloud RAN specifically, will play a key role in future network evolution. These technologies will be the catalyst for more openness in networks, with cloud technology offering new innovative alternatives for RAN deployment that complement existing tried and trusted solutions.

Cloud RAN by Ericsson will deliver network capabilities for both large-scale and centralized 5G deployments. It will allow service providers to address new business opportunities and diverse 5G use cases for indoor, industry, enterprise, stadiums and beyond.

Leveraging Ericsson’s experience in designing and deploying cloud core networks, as well as in service management and orchestration worldwide, the new offering opens the door for service providers to use web-scale technology and benefit from cloud-native design from application to infrastructure. This will bring greater scalability and faster time-to-market for developers and enterprises to innovate new services.

Fredrik Jejdling, Executive Vice President and Head of Business Area Networks, Ericsson, says: “5G is a platform for open innovation. By empowering a larger ecosystem of developers and industries, we can co-create and bring new cloud innovations to the 5G space. With Cloud RAN by Ericsson, we will help our customers evolve their networks with future-proof technology while maximizing their network investments today.”

Ericsson Cloud RAN will be released in stages, matching the service providers’ journey to complement their purpose-built 5G networks. The first stage will provide the foundation, offering a system-verified solution* for 5G low band that will enable an easy transition to a virtualized RAN using commercial off-the-shelf (COTS) hardware platforms.

The first stage includes Ericsson’s new Cloud RAN application software – Cloud RAN DU and Cloud RAN CU – enabling a highly capable and flexible 5G network architecture. It also includes new Radio Gateways, enabling a full utilization of the installed base of remote radios, making them fully compatible with Cloud RAN. These products set the foundation for future mid-band rollouts.

Ericsson Cloud RAN is fully compatible with the Ericsson Radio System portfolio, and supports Ericsson Spectrum Sharing and 5G standalone and non-standalone.

Joe Madden, Chief Analyst, Mobile Experts, says: “Ericsson is launching innovations in Cloud RAN technology, adding to its strong networks portfolio with open high-level APIs to enable improvements to customer experience and reductions in total cost of ownership related to network automation. Their release of the new Cloud RAN DU and Cloud RAN CU achieves a combination of high radio performance and flexibility.”

Virtualization and multi-domain orchestration will also create a foundation for future RAN openness. Cloud RAN by Ericsson is designed to support Service Management and Orchestration architecture including Non Real-Time RAN Intelligent Controller (Non-RT RIC), in line with O-RAN interfaces.

The first stage of Cloud RAN by Ericsson will be available in the fourth quarter of 2021.

 

Source: Ericsson

 

First public autonomous car trials begin in Oxford

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The public trials with a fleet of six autonomous cars will take place on roads in the UK city of Oxford.

City environments

The trials will demonstrate autonomous driving in a variety of urban and city environments and will develop engagement models with local authorities and communities to help them prepare for the future launch of autonomous vehicle services.

According to the consortium, the development brings the deployment of commercial autonomous vehicles in the UK one step closer.

The consortium, part-funded by the Centre for Connected and Autonomous Vehicles (CCAV) and delivered in partnership with Innovate UK, is using a combination of advanced simulations and on-road demonstrations to help accelerate and scale the deployment and adoption of autonomous vehicles.

The Government-backed R&D project will run until Autumn 2021 with live tests undertaken in three major UK cities.

A fleet of six Ford Mondeo vehicles, enabled by Oxbotica to be capable of Level 4 autonomous driving, will complete a nine-mile round trip from Oxford Parkway station to Oxford’s main train station. Trials will be run at all times of day and night, allowing Oxbotica’s autonomous vehicles to experience a range of traffic scenarios from morning commutes to school runs, in a range of weather conditions.

“The first live on-road public trials mark a key landmark for Project Endeavour as we work with local authorities and members of the public in London, Oxford and other major UK cities to shape the future of mobility”

Launched in September 2019, the project has brought together Oxbotica, a global leader in autonomous software, urban innovators DG Cities and Immense, a transport simulation company. Ahead of the public trials, three new consortium partners have joined Project Endeavour: the Transport Research Laboratory (TRL), the British Standards Institution (BSI) and Oxfordshire County Council.

“Trials of Level 4 vehicles are an important milestone, keeping the UK at the head of the field in bringing the benefits of this technology into mainstream use,” said Camilla Fowler, head of automation at TRL.

“These exciting trials, and what we learn about assuring safety and encouraging interoperability, will open up new opportunities for many more research demonstrations across the UK, which are the forerunners to the full-scale public trials so eagerly awaited.”

Safety assurance

The trio of new partners will focus on the development of a new safety assurance assessment scheme against PAS 1881 standard for public autonomous trials, helping inspire trust and define a consistent approach to safety that will enable future deployments to happen efficiently without slowing down the rate of innovation.

“The first live on-road public trials mark a key landmark for Project Endeavour as we work with local authorities and members of the public in London, Oxford and other major UK cities to shape the future of mobility,” added Dr Graeme Smith, senior vice president at Oxbotica and Project Endeavour consortium director.

“Alongside our valued partners, we’re making autonomous vehicle services an everyday reality, right here in the UK.”

Project Endeavour builds on the Driven consortium, which demonstrated the capabilities of a fleet of self-driving vehicles in Oxfordshire’s and London’s challenging and complex urban environment.

Source: Smart Cities World

KDDI and Orange connect over one million vehicles with connected IoT services

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KDDI partners with Orange Business Services to equip more than one million vehicles in Europe with connected IoT services

  • Automotive manufacturers Toyota and Mazda leverage connected car capabilities for improved customer experience
  • A seamless connected car platform covers 63 European countries/territories

KDDI, a Japanese telecommunications service provider, has selected Orange Business Services to provide a customized IoT platform for Japanese automotive manufacturers Toyota and Mazda. The platform will allow them to offer connected car capabilities in their vehicles sold across Europe.

The Orange solution will initially enable the Japanese automotive manufacturers to offer connected services across 63 European countries/territories, via Orange cellular connectivity.

The Orange Business Services connectivity management solution integrates directly into KDDI’s own platform and provides secure, reliable IoT connectivity for Toyota and Mazda to enhance the driver experience through advanced services. Cloud connections are made using Orange backbone networks, offering high-performance and secured interconnections between the parties’ platforms.

Enhancing the European driving experience

“Connected IoT services are paramount to enhance the drive experience for our customers. The bespoke Orange IoT platform provides new levels of convenience in terms of personalized services to Toyota and Mazda across Europe. This allows their drivers to benefit from the very best in safety, security and in-car experience,” says Mr. Ken Sakai, Managing Director of KDDI Europe, Ltd.

“Today’s most innovative car manufacturers are leveraging IoT to deliver on the drive experience consumers are demanding. Following extensive consultancy and a pilot with KDDI, we have delivered on a tailor-made IoT platform that will enable innovative connected services to provide drivers with enhanced levels of safety and convenience,” says Valerie Cussac, Senior Vice President, Smart Mobility Services, Orange Business Services.

Source: Orange Business Services

Cellnex and Everynet sign an agreement to roll-out IoT networks in Italy, the UK and Ireland

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Smart IoT networks, based on LoRaWAN technology powered by Everynet, will be deployed across Cellnex’s extensive network of telecommunications infrastructures
A large variety of IoT solutions will be deployed on these networks to drive enhanced connectivity in key sectors such as the utilities, agriculture, transportation and manufacturing, as well as Smart Cities

Telecommunications infrastructure operator Cellnex Telecom and Everynet, a leading provider of IoT connectivity services , have reached an agreement to jointly promote the roll-out of new Internet of Things (IoT) networks in Italy, the United Kingdom and Ireland. These IoT networks, based on LoRaWAN technology, will be deployed on Cellnex’s extensive telecommunications infrastructure networks in these three countries and will rely on Everynet carrier-grade and secure IoT network solution.

Multiple IoT solutions on the Cellnex infrastructure network will be deployed; Industry 4.0 for tracking or monitoring assets throughout their supply chain, Smart Cities, and  Smart Parking solutions to help digitise mobility and optimise the use of public highways and urban space, as well as creating a platform for trial and experimental uses that will allow the development of the ecosystem with new future applications. Outcomes can include Social and Facility Management or Environmental Management, which can foster the development of smart cities in these three countries and improve the well-being of their citizens. This will involve installing sensors and monitoring comfort levels and consumption across multiple environments, indoor and outdoor, in various types of building, and transmitting service and gathering data across wider territory networks. Moreover, Smart Utility for gathering data and monitoring resource consumption represents one of the projects with the highest potential. Services to Utilities are a big opportunity in terms of efficiency and cost savings both for the companies involved and final customers, not mentioning the savings coming from avoiding waste of resources. Smart IoT can help utilities save resources, reduce costs, and improve the impact on the environment. In managing the SmartGrid, electric utilities can leverage IoT to optimize their services to their customers.

Cellnex Global Commercial Director Oscar Pallarols highlighted that “this is an important step forward to embrace the very rapid deployment that new technologies are experiencing in response to the unprecedented changes that society and global economies are facing. A first class connectivity infrastructure at the service of new communication ecosystems that we strongly believe will enable renewed business models.

“We are looking forward to deploying these new IoT networks in Europe that enable  integrators, developers, and telecommunications companies rapidly launch a broad portfolio of IoT solutions in the market.  These networks are interoperable with existing national networks in France, The Netherlands, Germany, Spain, and Switzerland enabling EU wide roaming” said Lawrence Latham, CEO of Everynet .

To collect the data, Cellnex provides an integrated IoT platform for managing and providing real-time (and remote) diagnostics and the immediate ability to act either predictively or preventively, manually or automatically, with the provider responsible for managing this service resource. Everynet, on its part, provides and manages the LoRaWAN network infrastructure that will be deployed for Data Collection, granting a secure, fast and low-cost service to support real-time actions and decision-making.

Source: Cellnex

 

SHV Energy improves customer service with smart devices and IoT connectivity from Orange Business Services

SHV Energy improves customer service with smart devices and IoT connectivity from Orange Business Services

  • “Smart IoT” connectivity ensures a reliable and secure gas supply for its customers
  • Improved truck routing saves fuel costs and reduces carbon emissions

SHV Energy has chosen IoT connectivity from Orange Business Services to deploy smart telemetry and meters on its gas tanks across Europe and the US. The solution will provide an enhanced gas delivery service to its customers across the world. It will help SHV Energy to improve infrastructure management, customer satisfaction and supply security, while saving on fuel costs and reducing carbon emissions.

SHV Energy is a leading global distributor of off-grid energy such as LPG, LNG and is active in the area of biofuels and renewable energy solutions. It supplies gas under brands, including Calor Gas, Gaspol, Liquigas, Pinnacle, Primagas, and Primagaz across four continents.

The company will fit smart devices to both legacy and new gas tanks, along with an antennae and a magnet mechanism that measures the gas. Each of these smart telemetry devices includes an Orange global SIM, which transfers data to SHV Energy’s offices via the Orange global mobile network. There the data is collected and analyzed to ensure that a customer’s gas tank is never empty. SHV Energy is also alerted if the tank registers any malfunction or leak. The data is also used to optimize gas delivery routes to reduce the company’s carbon footprint.

“The move toward smart metering and the deployment of digital functionalities are critical in delivering the best possible service in supplying gas to our customer base. With this innovative IoT connectivity solution from Orange Business Services we can increase the flexibility, reliability and robustness of our network, and become greener in the process” , explains Marieke Schoningh, SHV Energy Management Board Member.

Orange’s global mobile network is enhanced by an alliance of operators and more than 500 roaming agreements. This ensures that data gets to the data platform at SHV Energy’s offices fast, efficiently and securely. In addition, Orange provides value-added services, such as service and implementation management, to accompany SHV throughout its entire IoT journey. Orange Business Services was positioned as a Leader in Gartner’s 2019 “Magic Quadrant for Managed IoT Connectivity Services, Worldwide.”

“Connectivity is a key enabler of IoT. SHV Energy’s smart monitoring deployment is an excellent example of how a company can use our IoT connectivity solution to connect devices safely and reliably to transport data for actionable business insight and build a successful IoT-enabled business”,says Fabrice de Windt, senior vice president, Europe, Orange Business Services.

Source: Orange Business Services

Utilise your customer services with a career at Co-Star

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Co-Star are a global supplier of 4G and 5G mobile connectivity products based near Harrogate.

Due to continued growth we are looking for someone to join us in our busy sales and marketing team.

The position is varied and includes taking and processing sales orders over the telephone, e-mail, and website. Informing customers of the progress of their order, booking international shipments and updating the companies websites.

Co-Star have have grown and developed over the years by offering outstanding levels of customer service and been responsive. If you are committed to working to a high standard and have the initiative to actively contribute to the future growth off the company and would like to utilise your customer services skills to the maximum  then we would love to hear from you.

The position is full time and the hours are 9 am to 5.30 pm Monday to Friday.

For more information please call Tim on: 01423 340066 or e-mail your CV to: tim@co-star.co.uk

Singapore tops smart city ranking for second year running

The 2020 Smart City Index measures citizens’ perceptions of the impact that technology has on their lives, surveying them on areas such as governance, health and safety, mobility and opportunities.

Singapore maintained its top place in the ranking
Singapore maintained its top place in the ranking.

 

Singapore has topped the Institute for Management Development (IMD) Smart City Index for the second consecutive year, followed by the Finnish capital Helsinki and Swiss city of Zurich.The ranking, launched last year, is based on citizens’ perception of the impact that technology has on their quality of lives as well as economic and technological data.

Covid considerations

This year, the IMD, in collaboration with Singapore University for Technology and Design (SUTD), has included key findings on how technology is playing a role in the Covid-19 era. The index shows that those cities with better technology are handling the pandemic better.

Citizens from 109 countries were surveyed in April and May 2020 for the index and asked questions on the technological provisions of their city across five key areas: health and safety, mobility, activities, opportunities and governance.

Auckland in New Zealand occupies fourth position, while the Norwegian capital of Oslo is ranked fifth. Copenhagen (6), Geneva (7), Taipei City (8), Amsterdam (9) and New York (10) make up the rest of the leading 10 cities.

Brisbane (14) is the highest ranked Australian city, ahead of Sydney (18) and Melbourne (20). After New York, Washington DC (12) is the highest placed US city with Los Angeles (26) and San Francisco (27) next.

This year saw many European cities drop in the rankings, including Vienna, which is down eight places to 25 and Prague, which dropped 25 places to 44.

“Smart cities closer to the top of the rankings seem to deal with unexpected challenges of the devastating pandemic with a better outcome”

It seems that cities have differing approaches to technology as managing the pandemic has become increasingly important in local politics.

IMD’s professor Arturo Bris, who led the work as the director of the World Competitiveness Centre at the Swiss management institute, said the impact of Covid-19 “cannot be ignored”.

“Those with better technology manage the pandemic better. Smart cities are not the solution, but technology helps,” he said.

The health crisis has also widened inequalities between the haves and the have-nots when it comes to connectivity, both among and within cities.

“Smart cities closer to the top of the rankings seem to deal with unexpected challenges of the devastating pandemic with a better outcome,” added professor Heng Chee Chan, chairperson of the Lee Kuan Yew Centre for Innovative Cities at SUTD.

Second cities

The index also demonstrates the ability of some countries to develop cities beyond their capital. For example, Bilbao (24) fares better than Madrid (45). In the UK, Birmingham (40) improved by 12 positions whereas London jumped just five to fifteenth.

“Look at France. The Paris region accounts for a sizeable part of the economic activity of the entire country,” said Bris. “But then look at the US, China, Australia or Taiwan, and second cities have become more important, sometimes more so than the capital.”

“The American city of Boston is a good example of how management of its city by its mayor makes a big difference”

“As a signal of a country’s development, it’s important to develop those cities,” he added, recommending that policy makers promote competitiveness of second cities to improve the overall economic health of a country.

City economies like Hong Kong and Singapore, and to some extent the UAE, may be at a disadvantage because they are less able to develop second cities, he said.

Economic conditions

In general smart cities help citizens more, the researchers concluded, but cities have widely different infrastructures to start with. For this reason, in cities that are already highly developed, such as Zurich or Amsterdam, technology plays a marginal role as there is little to improve. By contrast, in cities such as Bogota (92) or Mumbai (93), technology makes a big difference.

Therefore, the biggest changes in the ranking from year to year happen in the least developed economies as it doesn’t take much for citizens to perceive great improvement.

The researchers said African cities at the bottom of the raking such as Abuja (107), Nairobi (108) and Lagos (109), would do well to prioritise its implementation.

Major differences

Those who compiled the index also highlight that “smart” is a relative term. “Different cities use technology for different things. That might be preventing traffic, in the case of Paris, or improving citizen participation through offering free wi-fi in Ramallah,” said Bris.

Chicago (41) has an ambitious technology plan based on hyper-connectivity; Abu Dhabi (42) has an eco-friendly project and Birmingham is one of cities in the UK ranked best for mobility.

“Those with better technology manage the pandemic better. Smart cities are not the solution, but technology helps”

This is why we see vast differences in the smartness of cities within the same country. They differ in terms of their economies, inequality levels (for example, access to health) and policies.

“Countries are no longer economic units,” said Bris. “Mayors and local authorities increasingly have the power to improve the wellbeing of citizens by implementing technology.

“The American city of Boston (36) is a good example of how management of its city by its mayor makes a big difference.”

The index and full report can be downloaded at 2020 Smart City Index

Source; Smart Cities World

AT&T and Microsoft to Streamline Cloud Connectivity for IoT Devices Worldwide

Three UK strengthens Internet of Things with Low Power Wide Area Capability

AT&T and Microsoft to Streamline Cloud Connectivity for IoT Devices Worldwide

A new solution built on AT&T’s global cellular network and Microsoft Azure Sphere will enable secured and effortless deployment of the IoT worldwide

AT&T and Microsoft are teaming up to enable enterprises to seamlessly connect machines and equipment to the cloud with highly secure network connectivity across the globe. As part of the effort, AT&T is working with Microsoft to deliver an integrated IoT solution with Azure Sphere. This AT&T powered guardian device with Azure Sphere will help businesses transform their operations quickly through massive IoT deployments at scale.

The AT&T powered guardian device is the latest example of how the two companies are working together through a strategic alliance to improve how people live and work today and in the future.

The new solution combines the secured architecture of Azure Sphere, a comprehensive IoT security solution including hardware, OS and cloud services with Azure IoT services and the global and multi-layered security of AT&T’s core network.

The AT&T global SIM enables connectivity in more than 200 countries across 500 carriers. AT&T offers managed services to support day-to-day operations.

The guardian device is easy to install and provides an end-to-end solution for connecting machines and equipment to the cloud, bypassing the need for public Internet.

The solution provides fast and highly secure activation right out of the box. It enables enterprises to easily connect existing equipment to the cloud and to Azure IoT Central. With this, a wide variety of industries can rapidly deploy IoT applications relying on the combined security benefits of the AT&T cellular network with Azure Sphere device security.

Think of fast food restaurants, coffee shops, elevators, hospitals, manufacturing plants and the ability to retrofit existing equipment into “smart” devices that are digitally enabled through highly secure cellular connections. Customers can connect their devices and machines to their own cloud environment without the need to connect to a Wi-Fi through a third-party network connection that may not meet their high security standards.

“Our work with AT&T is a prime example of how the convergence of secure cloud computing and network technology helps businesses unlock new customer value and continuously simplify every aspect of our personal and professional lives,” said Corey Sanders, corporate vice president, Microsoft Solutions.

“AT&T and Microsoft share the belief that technology should serve people,” added Mo Katibeh, executive vice president and chief product and platform officer, AT&T Business.  “Working with Microsoft we can offer a truly global solution with strong security and data insights that can help a broad array of industries simplify operations, manage costs, and become more agile in any market.”

AT&T and Microsoft launched their extensive multi-year alliance last year.

One area of focus is aimed at enabling new 5G, cloud and edge computing solutions to drive enterprise capabilities for companies around the world.

Find more information about the AT&T powered guardian device here.

Source: AT&T

Ericsson Accelerates 5G for Enterprise with Acquisition of Cradlepoint

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Ericsson Accelerates 5G for Enterprise with Acquisition of Cradlepoint

Sept. 17, 2020 — Ericsson (NASDAQ: ERIC) has agreed to acquire Cradlepoint, the US-based market leader in Wireless Edge WAN 4G and 5G Enterprise solutions. The investment is key to Ericsson’s ongoing strategy of capturing market share in the rapidly expanding 5G Enterprise space. Cradlepoint complements Ericsson’s existing 5G Enterprise portfolio which includes Dedicated Networks and a global IoT platform.

The combined offering will create valuable new revenue streams for customers by supporting full 5G-enabled services for enterprise, and boost returns on investments in the network.

Cradlepoint will become a fully owned subsidiary of Ericsson while continuing to operate under its existing brand. Cradlepoint employees will remain within the company, headquartered in Boise, Idaho. It will be part of Ericsson’s Business Area Technologies & New Businesses.

The acquisition price amounts to an enterprise value of USD 1.1 b. with the transaction expected to close before the end of Q4 2020, subject to closing conditions. The purchase price, which is funded from Ericsson’s cash-in-hand, is paid in full on closing. Cradlepoint’s sales for 2019 were SEK 1.2 b. with a gross margin of 61%. Ericsson’s operating margins are expected to be negatively impacted by approximately 1% in 2021 and 2022 – where half is related to amortization of intangible assets which arise from the acquisition. Cradlepoint is expected to contribute to operating cash-flow starting in 2022. Ericsson’s 2022 group financial targets remain unchanged.

Wireless wide area network (wireless WAN) Edge solutions connect through 4G and 5G to deliver fast, secure, and flexible connectivity wherever and whenever it is needed for businesses, mobility and critical frontline emergency services. Cradlepoint is strongly positioned in a market with underlying growth of 25-30%.

Börje Ekholm, President and CEO Ericsson, says: “Portfolio-near acquisitions are an integral part of our earlier communicated strategy. The acquisition of Cradlepoint complements our existing offerings and is key to our strategy of helping customers grow the value of their 5G network investments. Ericsson is uniquely positioned to build on Cradlepoint’s leadership position in Wireless Edge and the wireless WAN market. Combining the scale of our market access and established relationships with the world’s biggest mobile operators we are making a strong investment to support our customers to grow in this exciting market. I would like to extend a very warm welcome to all Cradlepoint employees.”

George Mulhern, CEO and Chairman, Cradlepoint says: “We have led the way in bringing the power of cellular networks and technologies to enterprise and public sector customers – helping them connect beyond the limits of traditional wired WANs. Ericsson with its global 5G leadership is a great match for us and I am very excited to continue to scale and expand our business together.”

Founded in 2006, Cradlepoint has more than 650 employees, providing wireless WAN solutions that deliver enterprise-grade connectivity. In addition to the company headquarters in Boise, Idaho, USA, the company operates a research and development center in Silicon Valley, California, and new market offices in the United Kingdom and Australia.

Cradlepoint’s subscription model combines cloud-delivered software with hardware endpoints, support and training.

Ericsson’s long-standing collaboration with Cradlepoint dates back to the launch of 4G in the U.S. market more than a decade ago.

To find out more about the Cradlepoint range off 5G wireless routers and how it can bring your 5G IoT application to life please visit co-star