Displaying items by tag: Network
Ericsson and Panasonic Avionics Corporation (Panasonic) have announced that Ericsson’s Core Network as a Service solution is now live, supporting connectivity services across multiple markets served by Panasonic.
Ericsson’s Core Network as a Service solution will help Panasonic and its subsidiary AeroMobile, a global GSMA telecoms operator, provide data, voice and messaging services to the millions of airline passengers that use these services in-flight. The collaboration between Ericsson, Panasonic and AeroMobile started in 2016. It is now fully operational and delivers services to Panasonic customers worldwide.
As part of Panasonic’s initiative to bring a superior connected experience onboard commercial aircraft, Panasonic and Ericsson have seamlessly migrated the existing service operating across a global fleet of aircraft onto the core network, delivered as a service, while maintaining network performance and customer experience.
Every passenger whose mobile service provider has a roaming agreement with AeroMobile can use the service, which is supported by mobile operators across the globe and delivered inflight on board more than 20 of Panasonic’s global commercial airline customers.
The geo-redundant solution is delivered through Ericsson’s ground-breaking Core Network as a Service and includes virtualized network applications such as packet core, unified data management, mediation, and mobile switching delivered on Ericsson Network Functions Virtualization (NFV) Infrastructure. The core network solution is part of Ericsson’s as a Service offering to service providers globally, and is able to support 5G services to the passenger and airline.
Kevin Rogers, Chief Executive Officer, AeroMobile, says: “Our partnership with Ericsson, and the technology provided, will allow us to better serve the communications needs of our passenger and airline customers. Furthermore, the solution enables us to grow our footprint and expand into other services offering a richer experience for the passenger and operational efficiencies for our airline customers. We are looking forward to continuing our exciting collaboration with Ericsson”.
Marielle Lindgren, Head of Customer Unit UK and Ireland, Ericsson, says: “Panasonic Avionics is the first customer on Ericsson’s newly introduced Core Network as a Service solution, which aims to bring Ericsson’s leadership and expertise to a wide range of service providers. We’re proud to have initially been chosen as Panasonic Avionics’ supplier for a 5G-ready core network, and pleased that the project is now live.”
The two companies will explore other services to address further market segments and opportunities, while ensuring service continuity and the constant evolution of the live network, including exploring new 5G use cases.
Oscilloquartz, an ADVA Optical Networking company, announced today that T-Mobile Netherlands has deployed and fully implemented its OSA 5420 Series, enabling the nationwide rollout of TD-LTE services.
The upgrade empowers T-Mobile Netherlands to meet skyrocketing levels of data demand and also equip its synchronization network in readiness for LTE Advanced Pro, eLTE and 5G.
The OSA 5420 Series grandmaster clocks provide the sub-microsecond accuracy required for next-generation mobile applications as well as an unprecedented level of robustness and scalability. The new solution, which also delivers assisted partial timing support functionality, enables T-Mobile Netherlands to smoothly transition from legacy synchronization technologies.
"Deploying Oscilloquartz's complete sync solution is key to evolving our network. Their unique technology enables us to seamlessly enhance our existing infrastructure and gives us the phenomenally precise frequency and phase synchronization we need as we roll out LTE-TDD, LTE-A and eventually 5G mobile services," said Muzaffer Erdem, transport network solution engineer, T-Mobile Netherlands. "With our customers increasingly demanding advanced voice, video and data applications, high-quality timing in the packet backhaul network becomes paramount.
Leveraging the OSA 5420 Series is the ideal response. It's a highly scalable solution that effectively removes the need for upgrade cycles. It also easily integrated with our existing equipment and proved simple to install. What's more, at every stage in the process, we've been hugely impressed with the excellent support we've received from the Oscilloquartz team."
In order to meet mobile backhaul requirements both now and in the future, T-Mobile Netherlands has deployed the OSA 5420 Series in its core network and at metro aggregation points. By harnessing the latest IEEE 1588v2 Precision Time Protocol (PTP) technology, the solution enables accurate phase synchronization throughout the national infrastructure. This makes emerging technologies possible such as coordinated multipoint transmission for enhanced data availability. Despite its small footprint, the OSA 5420 Series also delivers the highest level of holdover performance available on the market, giving T-Mobile Netherlands the ultimate protection from GNSS outages. For even greater levels of availability and resiliency, the OSA 5420 Series comprehensively supports all major GNSS constellations.
"T-Mobile Netherlands is one of the leading mobile operators in the country, committed to providing the best available services for its customers. Harnessing our synchronization technology for unprecedented levels of precision and reliability enables them to meet soaring demand and offer the most advanced services," said Gil Biran, general manager, Oscilloquartz. "Optimized for edge deployment, our OSA 5420 has enabled T-Mobile Netherlands to push precise synchronization to metro locations where it's most crucial. What's more, our solution supports both legacy interfaces and the latest PTP innovation for a unified network timing architecture. That means T-Mobile Netherlands can ensure a smooth transition to LTE Advanced Pro, while also laying the foundation for 5G and future-proofing the network against further growth in data demand."
US technology firm Cisco Systems has announced that its technologies will be used to help roll-out free public Wi-Fi in London. Last week, London Mayor, Sadiq Khan vowed to make London the ‘smartest city’ in the world - and one way of ensuring that vision is to enhance ‘connectivity’.
In a statement released by the US conglomerate which is headquartered in San Jose, California, it said Cisco hardware is set to underpin O2 and Vodafone in an effort to implement free public Wi-Fi across the city. It was further disclosed that the new network will use Cisco’s outdoor access point, the Aironet 1560 series, to provide high bandwidth connectivity points in the square mile area.
In addition to this, Cisco’s technology will sit in passive physical infrastructure provided by O2’s joint-venture with Vodafone, Cornerstone Telecommunications Infrastructure, while 02 will provide the network core. The new network will replace the existing service entitled ‘The Cloud’ which is provided by Sky. The new roll-out is expected to be complete by autumn - and users will be able to access the network for free after completing a one-time registration process.
Chief Operating Officer for O2, Derek McManus emphasized the importance of continuous investment in new infrastructure and digital technologies. McManus said, “Continued investment in infrastructure is essential to maintain the UK’s reputation as a digital leader and we needed a partner that would be able to provide cutting-edge technology to help us realize this." McManus also expressed his delight that they were able to broker an agreement with Cisco, and said the organization’s technology was robust, fast and seamless.
According to Cisco SVP, Global Service provider, Peter Karlstromer access to free Wi-Fi and enhanced connectivity is now a basic requirement for any city looking to drive ‘innovation’. He said, “Free Wi-Fi connectivity is now a pre-requisite for any city looking to drive innovation and compete on a globe scale."
The multi-million pound contract with the City of London was announced in April, and it aims to improve the city’s ‘smart infrastructure’. 4G connected cells will be implemented in street furniture such as street signs, lamp posts and buildings in an attempt to make London ‘connected’. It’s also been reported that Cornerstone Telecommunications Infrastructure Limited will offer all ‘smart infrastructure’ on a wholesale basis to all UK operators, as part of a collective effort to enhance mobile coverage in the area.
In May, O2 said it would invest £80m to install 1,400 small cells in London in a collaboration agreement with Cisco in order to improve mobile coverage for its own subscribers.
India's 4G telecommunications operator Reliance Jio have agreed to extend its partnership with South Korean colossus Samsung. The announcement between the two organizations was made at Mobile World Congress, in Barcelona. It was disclosed that the pair plan to collaborate in order to enhance the operator's LTE network in rural parts of India. Both parties are confident that if they can successfully implement this project it will take coverage to 90% of the Indian population by the end of 2017.
In September, 2016, the Indian 4G upstart launched India's first nationwide LTE network - and that subsequently led to the company signing up more than 100 million 4G subscribers in just a six month period. South Korean conglomerate Samsung is the operator's sole LTE network provider.
President of Reliance Jio, Jyotindra Thacker revealed that India now has the largest data market globally and that its daily data volumes are 50% higher than that of China. Incredibly, India was ranked 150th in worldwide data volumes prior to Jio entering the market. He said, "We've taken the country from data shortage to data abundance, and we aim to become the fifth largest operator in the world."
Tareq Amin, SVP of Reliance Jio, indicated that it will work closely with Samsung representatives in order to continue development on its network - and in addition to this disclosed that both organizations were keen to improve infrastructure in urban and rural blackspots. He refused to disclose how many new base stations it plans to add in 2017 - but stated that improving coverage is not just a matter of adding more sites. He said, "We'll improve efficiency in the RAN as well as the core, but improving overall network coverage is not just about more sites, it is more complex than that."
Reliance also boldly claimed that it has more than twice as many 4G sites as all of its competitors combined. The announcement comes just days after Bharti Airtel revealed its plans to scrap domestic roaming charges and called for the operators to come together in order to remove international roaming charges and tariffs. The Indian telecommunications sector is one of the most competitive in the world.
New Zealand’s leading communications service provider Spark has deployed the country’s first 200G per wavelength production fiber link by using Nokia’s Optical Transport Network (OTN). Spark has become the first in New Zealand to offer 200Gb/s (Gigabits-per-second) on a single wavelength thanks to Nokia technology.
The Nokia optical solution effectively doubles capacity while reducing cost per bit on the Spark fiber network. As a result, Spark is able to deliver more value and a better experience to its enterprise, retail mobile and broadband customers without the need for major investment in fiber optic cables and other CAPEX/OPEX-related costs.
The powerful yet flexible hardware and software allow customers to optimize their networks by balancing capacity and distance for individual wavelengths. Nokia's 200G channel can also co-exist with Spark's 10G and 100G channels, protecting the original network investment.
Spark's new 200Gbps network link connects its core network with the global gateway, and enables the service provider to stay ahead of the data demand curve for both residential and enterprise customers. It will help meet continuing strong business and consumer demand for data bandwidth, utilizing existing systems to efficiently boost capacity for current usage and future growth.200G provides a compelling business case for any operator looking to lower their total cost of ownership while still deploying extra speed and capacity in their existing 1830 PSS networks.
General Manager of Networks at Spark, Colin Brown, called the new technology a digital revolution and said Nokia had helped Spark reach a new milestone. He said: "Today's digital revolution is driving massive growth in data traffic, with businesses and consumers needing to instantly access and share information anytime, anywhere, doing so quickly, efficiently and securely. Nokia has helped Spark NZ reach a new milestone with our world-class Optical Transport Network, achieving our vision of a data-driven future for New Zealand and underpinning an integrated network including fiber, 3G, 4G, 4.5G, wireless broadband and Wi-Fi."
Head of Oceania at Nokia, Ray Owen said: “Like many operators, Spark has faced relentless growth in bandwidth demand, largely driven by an increase in video streaming by business and consumer users. By taking a flexible approach to this challenge with New Zealand's first 200Gbps fiber link, together with Nokia, Spark is well placed to meet continued demand growth while meeting existing user expectations.”
Japanese telco Softbank has announced plans to launch a LoRaWAN low powered wide area radio network for IoT in the current 2016 fiscal year and offer end-to-end IoT solutions, ranging from device and application support to consulting.
Softbank says that, by using its comprehensive network lineup that includes 3G/LTE, WiFi and fixed-line, it will be able to offer IoT solutions that meet differing customer preferences.
In anticipation of the coming full-fledged IoT era, SoftBank says it will aim to deploy the full set of LPWA networks, including LoRaWAN, Cat-M1 and NB-IoT, to ensure that it can efficiently comply with differing environments.
For its LoRaWAN network it is partnering with LoRaWAN networking company Actility, Hon Hai Precision Industry company, the world’s largest electronics manufacturing services provider, according to Softbank, and Semtech Corporation, a pioneer of LoRaWAN technology.
“SoftBank will work to realize an IoT environment for industry sectors that require low cost and low power network construction: equipment monitoring/control at commercial facilities, buildings, warehouses and other facilities, automated gas and water meter reading, senior citizen and child monitoring, infrastructure monitoring (roads, tunnels, rail tracks, etc.) and logistics and fleet management (cars, trucks and buses),” the company said.
Zain Iraq and Ericsson announced on August 29 that they have signed a three-year extension of their network and IT operation and optimization managed services agreement. Under the extended agreement, Ericsson will continue to optimize, transform and manage network and IT operations for Zain’s nationwide 3G mobile network in Iraq, which currently includes over 4,200 sites across the country. This agreement will allow Zain to focus on expanding its network and offer appealing voice and highly demanded data services to meet customer needs, especially in the corporate sector.
The deal will result in Zain ramping up its offer to deliver best quality of service and experience to its 11.2 million customers using Ericsson’s managed services capabilities. The agreement also sees Zain benefit from a reduction in operating costs (OPEX) while offering customers improved data service quality and availability, given the pent-up demand for mobile broadband in the country.
Furthermore, Zain will be able to increase its focus on its core customer-facing business activities such as managing customer relationships and offering a shorter time-to-market for the delivery of new services and technologies.
“Through this agreement, Zain Iraq will be better positioned to support the evolution and growth of the telecommunication industry in the country and ensure that all Iraqis receive urgently-needed quality mobile telecommunication services,” said Scott Gegenheimer, Zain Group Chief Executive Officer.
“Social volatility has led to network instability in this huge and significant market for Zain, and as we strive to continue providing connectivity for our valued customers, our close relationship with Ericsson enables us to maintain vital mobile services and further contribute to the economic and social development of Iraq’s economy.”
Rafiah Ibrahim, Head of Middle East and East Africa at Ericsson, said: "Today’s announcement is another testimony of our long-term partnership with Zain in Iraq and across other markets. Throughout the years, we helped Zain in Iraq to provide a differentiated experience to its customers and we look forward to continuing our partnership and transform Zain’s network with our experience centric managed services offerings."
Australian carrier Telstra has announced plans to increase capital investment by $A3 billion ($US2.3) over the next three years with the investment going into its network, digitization and customer experiences.
The move represents a significant increase on Telstra’s current capex levels: expenditure for the year to 30 June 2016 was $4.0 billion. The announcement was made along with Telstra results announcement for the year to 30 June 2016 and follows a series of large-scale and highly embarrassing outages of Telstra’s mobile network in recent months.
CEO Andrew Penn said details of the investment program would be progressively confirmed during FY17 to FY19 and would be aimed at maintaining strategic advantage by ensuring continued technological leadership and by significantly improving customer experiences in a heavily competitive environment.
He said the move would deliver business benefits such as capital efficiency, reduced operating costs and increased revenue, and reinforce Telstra’s market differentiation “Our customers and our networks are our biggest assets. We must invest to set new standards and deliver excellent experiences for our customers.”
He added: “The opportunity is clear as average monthly data consumption on our networks increased seven-fold over the past five years, with mobile traffic growing almost nine-fold in the same period. We are now accommodating and anticipating growth in the number of connected sensors and devices as well as specialized applications and services.”
He said Telstra would retire legacy systems and invest in evolution of the network with a set of architectural advances such as virtualization and increased automation to build a dynamic and programmable next generation network around the virtualization of functions across network domains.
“Telstra will further boost capacity in key networks to cater for increasing demand for core services and undertake an ongoing evolution of 4G network capabilities as foundations were laid for the 5G network,” he said. “The work will have distinct streams to support consumer and enterprise customers, recognizing the often unique needs of larger business partners.”
Telstra said mobile focus areas would include building on the success of the 4G network evolution and readiness for 5G, LTE-broadcast, voice over LTE and the Internet of Things.
“Telstra will make strategic investments in its fixed network services, taking into account the ongoing National Broadband Network rollout, particularly in ADSL service areas. This reflects rapid increases in data consumption in recent years with home and business users.”
Penn said investing in digitization was also a critical component of the additional funding, building on work in recent years to remove manual processes. The digitization program will include expanding digitally-enabled sales and service channels so that customers can interact with Telstra on their terms, as well as introducing capability to better pre-empt issues faced by customers.
“Telstra will develop a flexible, software-defined network architecture, so new capabilities of the network investment are fully integrated with sales and service channels,” the company said.
“A simpler product architecture which is easy for customers to understand would improve the way in which products are delivered, meaning all new products would be ‘born digital’.”
Alfa, the first Lebanese mobile operator managed by Orascom Telecom, and Nokia have launched Lebanon’s first 4G LTE-Advanced network, as part of an agreement signed between the two companies. The network enables Alfa to offer its subscribers significantly higher download speeds of up to 262.5 Mbits/sec for accessing high-definition video and other data-intensive applications.
The 4G LTE-A network implementation is enabled by carrier aggregation technology, which combines two frequencies in order to significantly improve throughput and spectral efficiency. For Alfa, Nokia combined 20 MHz on the 1800 MHz frequency band with 15 MHz on the 800 MHz band.
With data subscribers exceeding 74 percent of Alfa's subscriber base, the deployment of Nokia's carrier aggregation technology will allow the operator to offer innovative and high-definition services.
"This deployment lets Alfa provide a high-quality enhanced mobile broadband experience over its LTE network,” said Roger Ghorayeb, Nokia's customer team head for growth west ME. “We are excited about the foundation this builds for Nokia and Alfa, and the opportunities for future work with our partner as it evolves its network for 5G and IoT capabilities in smart Lebanese cities."
This deployment is a crucial step that will also help Alfa take advantage of opportunities emerging from 5G and IoT technology. The two companies earlier signed a Memorandum of Understanding (MoU) on 5G to explore possibilities for the Alfa network and pave the way for Alfa to install its first 5G site in Lebanon in 2018. These agreements are part of the Lebanese Ministry of Telecommunications' National 2020 Digital Telecom Vision to upgrade the country's Internet infrastructure and deploy 4G LTE-A across the Lebanese territory.
Alfa Chairman and CEO Marwan Hayek, said: "With the unprecedented surge in data traffic over the Alfa network to 15,000 terabytes per year, the deployment of 4G LTE-A across Lebanon will not only advance the quality of our 4G network but will also help us quickly move toward next-generation technologies like 5G, which is a top priority for us to maintain our technology innovation leadership. We are extremely satisfied with Nokia's efficient implementation of the project."
UK-based mobile operator Three, was recently chosen as the latest network partner for Google’s Project Fi network, a U.S.-based wireless service allowing customers to switch between 3G/4G and Wi-Fi networks to get the best possible connectivity available. Three is the first European mobile operator to be chosen as a roaming partner for the project, after T-Mobile U.S., Sprint, and U.S. Wireless.
But even though Three has been chosen by Google for the project, it does not mean that Google is taking the mobile virtual network operator (MVNO) service to Europe beyond roaming for U.S. subscribers just yet. Wired reported that Project Fi has allowed its subscribers to use their phones in over 120 destinations worldwide without worrying about hefty bills mounting up for data usage. However, Project Fi previously caped data usage at 2G speeds.
With the addition of Three, not only will data speeds not be capped, but it adds a further 15 countries to the total number of destinations to 135, meaning that subscribers will benefit from 3G or 4G speeds abroad depending on the country. That’s because Three currently operates in a number of European countries including the UK, Ireland, Italy, Sweden, Austria and Denmark, as well as Hong Kong.
In a blog post, Google said: “We're now able to deliver speeds 10 to 20 times faster than before. And, just as before, there are no extra fees for using data internationally -- you pay the same $10 (€9) per GB that you do at home…Fi customers now have access to high-speed data in over 97 percent of the places Americans travel internationally."
Project Fi is able to determine whether to connect to 4G or Wi-Fi for the best speeds by analyzing speeds from each network and predicting which network is the fastest at a user's location. Google first unveiled the project in April 2015.