Displaying items by tag: Nokia
Nokia has announced that it has expanded the 4G footprint of the Azerbaijan-based mobile operator, Azercell Telecom, with the installation of its AirScale 4G base stations at more than 1,400 sites across the country.
Nokia’s AirScale Radio Access solutions will provide Azercell with high-speed mobile connectivity to cater for increased demand as well as providing a clear migration path in the future. Nokia is the sole supplier in this deal and will replace the former 4G provider and develop the network further.
The deal will be the first large-scale regional deployment of 4G services outside of the capital city of Baku. Azercell will utilize Nokia’s Single RAN solution, which is an industry-first commercial end-to-end solution that offers huge capacity scaling and market-leading latency. It will reduce complexity, increase cost efficiencies, and enable a smooth upgrade path in the future via a software update.
Azercell will also utilize Nokia Software’s NetAct Cloud network management system, which is cloud-agnostic and meets customer demands for software-only delivery. It is deployed on the same data center platforms as other IT and telco systems for increased agility and lower operational costs. NetAct manages both radio and core networks and provides applications for fault management, configuration management, network and administration management, performance management, and security management.
The deal includes Nokia’s services for network design, deployment, and optimization. Installation began at the end of 2018 and was completed in July 2020.
Azercell is the largest operator in Azerbaijan and has prioritized increasing the geographic coverage of 4G with plans to roll out across the whole country including semi-urban and rural regions. Azercell is also planning to deploy low-power, wide-area NB-IoT services.
Marat Hamidov, Director of Network Technology Department at Azercell, said, “With more than 5 million customers, Azercell has improved and expanded its 4G network across the country with Nokia to provide its population with equal technological opportunities and the latest innovations through its high-speed Internet. It is worth mentioning that a European benchmarking test, conducted by “Systemics” in Azerbaijan, confirmed that Azercell provided the highest quality of 4G services in all the regions of the country. We look forward to a long partnership with Nokia.”
Mikko Lavanti, Market Unit Head, Central East and Central Asia at Nokia, said, “We are delighted to support Azercell in their efforts to deploy nationwide 4G connectivity. A high-performing 4G network is absolutely fundamental, and with our AirScale solution, we also offer a simple upgrade to the next technological era when Azercell is ready. I look forward to developing a long-standing and close-working partnership with Azercell and helping in its continued efforts to deliver best-in-class connectivity to subscribers across the country.”
Nokia has announced that it has digitalized 100 percent of its 5G network deployments around the world, bringing high-quality, agility and transparency to customers globally.
Through the use of digitalization, machine learning and automation, Nokia is simplifying the deployment of the network infrastructure, accelerating both time-to-market and return on the 5G investment (ROI) for operators.
Traditional network deployments rely on combinations of both paper-based and digital documentation that can often lead to errors and inefficiencies. With digital project orchestration and data inventories, Nokia is enabling network rollouts to be carried out swiftly and cost-effectively, matching the agility demands from customers and helping them to bring new services to market faster.
This is leading to reductions in site visits (30 percent), as well as improvements in installation quality (30 percent), back office transactions (30 percent) and cycle times (25 percent).
By completely digitalizing its 5G network deployments, Nokia is enabling a simpler, faster, more efficient and higher-quality delivery of services. Nokia’s industry-first digital deployment services have helped over 100 customers around the world1 by bringing transparency to every phase of a project.
The digital deployment offering enables CSPs to easily and comprehensively manage their assets by providing a digital database of network assets that can be used to remotely and virtually access sites, making it much easier to upgrade and expand their estate. Additionally, it makes deployments more sustainable as it minimizes the CO2 footprint by reducing truck rolls and eliminating paper, saving an estimated 1,500 trees a year.
Key digital deployment services include:
- Automated workflow orchestration to deploy the right crews, with the right equipment, at the right time and place
- Site digital database for faster technology evolution and upgrades as sites can be accessed remotely and CSPs can get a 360 virtual view
- Artificial intelligence and machine learning-powered tools to identify defects in real-time through automated analysis.
- Real-time project dashboards for greater transparency and project management effectiveness
- Drone-led site visits to ensure site builds are completed ‘first time right’ with material inventory down to a one-inch accuracy
Nokia’s digital deployments are continuously evolving to take advantage of the power of AI-based innovations, to further improve efficiencies at scale. Intelligent defect recognition will use powerful machine learning-based algorithms to identify defects in real-time through automated analyses of pre/post implementation pictures or video content.
The system will also intelligently provide feedback on space availability to place specific equipment, without the need of a site visit.
Sanjay Goel, President of Global Services, Nokia, said, “Today, many operators suffer from a fragmented way in how their next-gen 5G networks are designed, built and managed. The adoption of automation, AI and the digitalization of assets are vital steps in a CSP’s digital transformation journey to capture the full potential of 5G. We are extremely proud to be the first to have reached this milestone of 100 percent digital deployments so customers around the world can benefit from a faster, more sustainable and higher quality network deployment process.”
Chris Antlitz, Principal Analyst, TBR said, “Nokia’s ability to provide digitalized network deployment services spanning the full workflow of site development exemplifies the company’s commitment to and progress with its digital transformation journey. Nokia’s customers will greatly benefit from digital-related innovations in infrastructure deployment services as these will help improve quality and speed KPIs and lower TCO pertaining to rolling out 5G networks.”
Omdia and Nokia’s “Why 5G in Latin America” report finds 5G will come to Latin America, sooner rather than later. The region lags its peers in productivity and economic growth, both of which will be enhanced by digital transformation. This, in turn, requires significantly enhanced broadband communications, and that leads to 5G which could add $3.3 trillion of value by 2035 and a $9 trillion improvement in productivity.
HMD Global, the maker of Nokia brand phones, announced it has raised USD 280 million in new financing from investors including Google, Qualcomm and Nokia. The money will go to strengthening its product offering, including 5G devices and new services, and expanding in new markets, such as Brazil, India and Africa.
The company announced four areas where it plans to invest. First, is affordable 5G smartphones, "with an emphasis on strong partnerships with US carriers".
Second, HMD Global will further transition to digital-first offerings as part of a new post-COVID reality, as well as more consumers buying their phones from internet sellers.
Third, the company plans to expand its presence in key growth markets. This includes the recently introduced operations in Brazil, as well as Africa and India.
Fourth, the investment will help the business strengthen its position beyond hardware and into a "holistic mobile service provider".
This year alone, HMD Global launched its international data roaming service HMD Connect, enhanced its mobile cybersecurity capabilities with the acquisition of Valona Labs assets, and started developing its own software, security and services with a new research and development centre in Tampere, Finland.
It last raised external funds with a USD 100 million round in mid-2018. HMD first started selling Nokia phones in 2016 and has since expanded to 91 markets and shipped over 240 million phones.
Nokia has announced it has partnered with Vivo to provide private wireless services for Vale’s Carajás mine in Brazil.
The service will be part of an Industry 4.0 project by Vale to deploy autonomous drill platforms and trucks. The project will increase productivity at the mine and improve worker safety. The network will be also used for mine-wide communications between workers. Vale plans to expand the technology to other mines currently using older WiMax solutions.
Nokia is currently working with several mining operators worldwide to deploy private wireless networks based on LTE, with plans to migrate to 5G in the future.
Autonomous ore trucks have been shown to increase productivity by 15% and reduce fuel and maintenance costs by 10%. Nokia’s LTE and 5G, being mobile technologies, provide more reliable support than WiMax or Wi-Fi for operating and controlling trucks and drills on the move.
Nokia’s private industrial-grade wireless solutions are enabling many new applications in the mining field, including support for environmental monitoring, video-assisted remote operations and improved worker monitoring and safety. Nokia is partnering with key solution providers in the mining industry, including Komatsu and Sandvik.
Vale is also currently operating 13 autonomous trucks on a WiMax network at its Brucutu mine in Minas Gerais, Brazil, with the intention to also replace it with a private LTE network for improved performance and reliability. Other applications being considered include an IoT application connecting dam monitoring instruments using LTE.
The advantage of LTE is its ability to adjust performance characteristics to each individual application and to provide a single mine-wide wireless platform that can support any kind of critical communication requirement.
Gustavo Vieira, CIO of Vale, said, “This new generation of wireless technology — LTE and, eventually, 5G — is enabling us to explore many new applications and use cases for remote and autonomous operations. This will help to make our mining operations more efficient, sustainable and safe for our workers.”
Alex Salgado, Vivo’s B2B Vice-President, said, “The private wireless service we are implementing at Vale’s Carajás mine is one of many deployments that we expect to see in the next few years. Forward-thinking customers such as Vale are embracing Industry 4.0 technologies, fostering digital solutions at the heart of their businesses, whether in agriculture, transportation or mining. We are excited to be leading this transformation.”
Luiz Tonisi, Head of Market Unit Brazil at Nokia, said, “Nokia is making a lot of impact in the mining sector right now, and this project with Vale is a very important beginning here in Brazil. Our industrial-grade private LTE wireless solution is ideal for supporting the industry’s embrace of autonomous technologies. It solves a lot of issues that past wireless technologies have struggled with and opens the way for many new and exciting use cases for mines of the future.”
Nokia today announced the availability of a software based upgrade that will enable its 4G/LTE radios to be migrated seamlessly to 5G/NR.
These features will have a high value to Nokia’s customers as they provide immediate support for approximately one million radios, reaching 3.1 million by the end of the year and over 5 million in 2021. By upgrading existing radio elements via software, Nokia is helping to streamline the process of refarming 4G/LTE spectrum into 5G/NR. The move will also support existing customers and the installed base by offering a seamless and cost-effective upgrade path to 5G/NR.
Most of the 5G/NR deployments to date have been performed with TDD cmWave and TDD mmWave deployment but the next big wave of 5G/NR rollouts will be delivered by refarming existing FDD bands to 5G/NR. TDD spectrum benefits from enlarged coverage and capacity when combined with already deployed FDD network infrastructure and spectrum bands via TDD/FDD Carrier Aggregation.
The ability to upgrade 4G/LTE radios via a software update will significantly smooth out the deployment of 5G/NR FDD, avoiding costly and disruptive site visits. Nokia has a vast customer base of 359 4G/LTE customers with deployed FDD RF units most of which are possible to upgrade. This will provide a new and smoother way for operators to build 5G/NR coverage in lower bands via spectrum refarming. Nokia’s 4G/LTE radios are market leading and outperform all vendors according to independent testing.
Nokia also has Dynamic Spectrum Sharing (DSS) already in live networks covering 2G/GSM-3G/WCDMA-4G/LTE and recently introduced DSS for 4G/LTE-5G/NR. This capability completes a DSS solution, covering all access technologies and making the radio frequency refarming to 5G/NR a simple and efficient process.
In a typical case DSS will be introduced to one or few 4G/LTE bands which are then combined with carrier aggregation between other bands running pure 4G/LTE or 5G/NR. Nokia has the market leading DSS solution covering all radio access technologies from 2G/GSM to 5G/NR.
Nokia estimates that this solution will save the telecommunications industry potentially tens of billions of euros in site engineering and re-visit costs as communication service providers are able to upgrade their networks to 5G/NR on FDD with software.
Chris Nicoll, Principal Analyst at ACG Research, said, "While Open RAN promises software upgradability to ease transitions between ‘Gs’ and add new features, Nokia’s Flexi and AirScale portfolio shows it is ahead of the game by providing a software upgrade to transition over 5 million 4G radios to 5G. Efficient FDD spectrum refarming is critical for fast, broad and deep 5G deployments. With Nokia supplying the majority of the world’s top 4G operators, supporting key advanced features such as DSS helps those operators lead with 5G.”
“We already provide market- leading LTE radios to hundreds of customers around the world. This is an important solution because it will help our customers, quickly and efficiently upgrade their existing LTE radios so that they are 5G ready saving them time and money.”
Nokia today announced its WaveFabric Elements portfolio of photonic chips, devices and subsystems, including its fifth generation coherent digital signal processor family, the Photonic Service Engine V (PSE-V).
The explosion in video and mobile bandwidth demand over the past decade has been met through the continual advancement of optical and silicon technology. But as fundamental limits of transmission capacity and processing power are approached, network operators will need new ways to continue to scale their networks to meet the surging demands of 5G and cloud networking, while containing cost. Key to this transition is 400 Gigabit Ethernet (400G) technology.
Set to become the pervasive network interface across IP, optical and data center networks, 400G marks the first common data rate since the introduction of 100G approximately 10 years ago.
As the foundational technology for high bandwidth transport, the critical task of electro-optics in the coming years will be to transport 400G services at the lowest cost across a wide range of networking applications, each with distinct size, power, and performance requirements.
Nokia’s WaveFabric Elements portfolio combines digital signal processing (DSP) and optics technologies focused on emerging end-to-end 400G applications, allowing Nokia to optimize the entire electro-optic engine that powers today’s networks and the transformational upgrades to come.
This high degree of vertical integration ensures that Nokia’s optical solutions will meet the unique economic and technical requirements of data center, metro, long haul, and subsea networks.
Nokia’s fifth generation coherent DSP family, comprising the high-performance Nokia PSE-Vs (super coherent) and the low power PSE-Vc (compact), continues Nokia’s history of developing multiple DSPs optimized for different optical networking applications, form factors, and platforms.
The new DSPs are complemented by the CSTAR portfolio of coherent optical engines brought to Nokia via its recent acquisition of Elenion Technologies, a pioneer in silicon photonics. A new family of pluggable transceiver modules allows Nokia to address their critical and expanding role in data center, IP and optical networks, as well as emerging markets and applications highly dependent upon low-cost optical connectivity, such as access and mobile networking.
Sam Bucci, Head of Optical Networks at Nokia, said, "Networks are truly at an inflection point, and 400G will be a catalyst for a significant transformation. With our WaveFabric Elements portfolio, Nokia is committed to supplying the 400G optical ecosystem with components, subsystems and design services, as well as continuing to build the highest performing optical transport solutions for the 400G era and beyond."
Scott Wilkinson, Lead Analyst at Cignal AI, said, "Nokia is one of a select few companies with the experience of building five generations of DSPs. The company’s expertise in vertical integration is a key competitive advantage in the battle for next generation coherent solutions. The focus on 400G transport in the PSE-V is well-positioned for market needs."
The CSTAR family of optical engines is currently shipping to customers. PSE-V-based platforms and pluggables will be available beginning in Q4 2020.
The Nokia WaveFabric Elements portfolio addresses the demanding power, performance, and cost-per-bit requirements of 400G networking across data center, metro, core and subsea applications.
The PSE-Vs, which can run up to 90 Gbaud, employs the second generation of the industry’s only field-proven implementation of Nokia Bell Labs-pioneered probabilistic constellation shaping (PCS). Combining refined algorithms with the enhanced capabilities of a new generation of silicon, it is capable of transporting up to 800G, while providing 60% greater reach, 40% lower power per bit, and 15% greater spectral efficiency than previous DSP generations.
The PSE-Vc enables programmable capacity from 100G to 400G with metro to long haul capability. Its extremely low power enables integration into a variety of pluggable transceiver modules.
The Nokia CSTAR family of optical engines leverages state-of-the-art silicon photonics and packaging technology, and addresses applications, including intra-data center, metro DCI and long-reach optical transport. Paired with PSE-V DSPs within Nokia platforms, they are also available independently to industry partners for integration into pluggable transceiver modules available to the broader market.
Nokia’s 400G pluggable coherent transceiver modules are optimized to address a range of platforms and applications, including Nokia’s broad portfolio of optical transport, IP, fixed access and mobile solutions. The portfolio includes 400G ZR/ZR+ capabilities in the QSFP-DD form-factor and a higher performance, more feature rich 400G multi-haul variant in a CFP2-DCO form-factor.
Nokia, along with leading operators Telenor and Telia, announced that it has deployed the world’s most advanced shared wireless network supporting a Multi-Operator Core Network (MOCN) feature, enabled for wireless technologies spanning 2G to 5G.
The 5G MOCN feature was deployed on a trial network in Denmark and verified with successful end-to-end test calls. MOCN, the most advanced network architecture model allowing for network sharing, enables distinct mobile operators with their own core network to share a common radio access network infrastructure as well as spectrum resources.
This is the first network to include live MOCN capabilities for 2G, 3G, 4G and 5G simultaneously. The live trial utilized Nokia’s end-to-end 5G technology, including 5G RAN and 5G cloud core.
Network sharing is an efficient and cost-effective way for two or more mobile operators to build and roll out a network at scale without having to duplicate efforts. It is an important strategic consideration for operators that helps them to quickly deploy 5G networks to consumers and businesses while keeping costs to a minimum. As 5G networks require a higher density of radio equipment, such as small cells, to deliver the right performance and coverage, network sharing results in overall lower power consumption compared to individual networks.
Tommi Uitto, President of Mobile Networks at Nokia, said: “Deploying 5G networks independently can be an expensive undertaking for mobile operators in the most competitive markets. This trial highlights that through network sharing, operators can drive efficiencies, lower costs and bring the myriad benefits of 5G to businesses and consumers quickly. We hope that this trial demonstrates to operators around the world that there are multiple options open to them to get their 5G networks up and running quickly and at the lowest possible cost.”
Georg Svendsen CTO at Telenor, said: “Network sharing is a clear strategic priority for Telenor to continuously deliver one of the best mobile networks in the world, supporting safe and reliable connectivity to our private and business users.”
Henrik Kofod CTO at Telia Denmark, said: “This is a major step on our 5G journey, and I really look forward to start testing with real customers and understanding how 5G can provide true value for them. I hope this will inspire other operators in the Danish market to move in the same direction. Network sharing is a great choice when it comes to building sustainable 5G networks. When we maximize our resource utilization, we lower our carbon footprint and optimize our investments.”
Nokia announced the launch of new end-to-end slicing network functionality for 4G and 5G New Radio (NR) – the first vendor to offer this capability. The solution will support connectivity from 4G and 5G devices over the sliced network to applications running in private and public clouds and will be available this summer.
Nokia’s new solution enables operators to start building their network slicing business today with LTE and 5G NR. The slicing capability can be deployed via a software upgrade into existing LTE and 5G non-standalone (NSA) networks and subsequently 5G standalone (SA) networks. The slicing continuity between LTE and 5G NR allows operators to maximize their network coverage for new mobile connectivity services.
The solution provides sliced mobile broadband connectivity from device to radio, transport, core, all the way to applications in private and public networks and the cloud. The user and service-aware slicing functionality has been introduced to Nokia radio access products for the first time and is also supported in Nokia transport and core products with control, management and assurance systems. Solution supports all 4G and 5G devices and works in a multi-vendor environment.
Nokia’s slicing solution is being developed in collaboration with leading operators A1 and Telia. It delivers new value and business opportunities for enterprises, as well as for the Internet of Things, fixed wireless access, applications and content related services. It enables new mobile end-to-end services with logical connections, security, quality and traffic management with a seamless service continuity across 4G and 5G networks. Private wireless slicing also opens up new network functionalities for different applications, such as surveillance and automation.
Nokia is already trialing live 4G/5G slicing use cases with customers powered by a unique Software Defined Network (SDN) radio slice controller as well as a transport slice controller. The trial includes a Nokia cloud packet core slice orchestrator to support network deployment automation as well as an SD-WAN software solution providing a managed 4G/5G network slice to private and public cloud services. Nokia assurance systems are used to verify per slice KPIs as a part of Nokia’s E2E service orchestration.
Tommi Uitto, President of Mobile Networks, Nokia, said, “Working closely with our customers to develop new technologies and business opportunities is hugely important to Nokia. 4G/5G slicing enables multiple new use cases which operators can start building now to create new revenue streams.”
US Attorney general Bill Barr has called for The United States and its allies to take controlling stakes in Nokia, Ericsson or both to battle Chinese telecoms giant Huawei's dominance of the 5G market.