Thursday, August 10, 2017

Nokia Bell Labs to lead 5G NGPaaS platform project

Nokia Bell Labs will lead a consortium of vendors, operators, IT companies, small and medium-sized enterprises and European academic institutions in the development over the next 2 years of the Next Generation Platform-as-a-Service (NGPaaS) for the 5G era.

The NGPaaS consortium is part of the 5G Infrastructure Public-Private Partnership (5G-PPP), launched in 2014 as an initiative between the European Union and telecoms industry.

Nokia noted that the cloud is transforming many industries and services, leading to the need for innovations to be cloud-native in order to be successful, which necessitates the adoption of a model beyond the current telco Infrastructure-as-a-Service (IaaS): a Platform-as-a-service (PaaS) model.

Such a 5G cloud-native platform needs to offer two key features:

1.         To facilitate building, shipping and running of virtual network function (VNF) applications with telco-grade quality in terms of latency, reliability and capacity, in line with the requirements of 5G performance.
2.         The ability to combine all types of third-party applications with those VNFs to create more versatile and powerful cloud objects and break down silos between connectivity (for people, robots and sensors) and computing (machine learning, big data and video applications).

The NGPaaS consortium's goal is to enable adoption of the PaaS model to optimally support cloud-native 5G systems.

Industry and academic members of the consortium include: Nokia Bell Labs France; Nokia; ATOS (Spain); BT (UK); Orange (France); Virtual Open Systems (France); Vertical M2M (France); B-COM (France); ONAPP (UK); the University of Milano-Bicocca (Italy); Danmarks Tekniske Universitet (DTU); and IMEC (Belgium).

Nokia Bell Labs has been a key player in 5G research and industry collaboration, and views PaaS as an essential platform for service providers seeking to leverage the carrier cloud as they evolve their networks. In addition to leading the NGPaaS consortium, Nokia Bell Labs is also cooperating with academic partners and is participating in events such as ICC, MWC, OpenStack Summit and OPNFV to support efforts to achieve this goal.


SK Telecom Develops 5G Repeater

by James E. Carroll

SK Telecom has developed a 5G repeater that improves signals in blanket/shadow areas by amplifying 5G radio signals. The 5G repeater, which is currently in a field trial Gangnam Station in Seoul, could held reduce or elimiate shadow areas of network coverage.  It works by improving the propagation characteristics of radio signals at super-high/above-6GHz frequency bands.

SK Telecom said the Gangnam area in Seoul is one of the most difficult places to plan/build a network due to the presence of a large number of radio wave obstacles and high-density data traffic.

“SK Telecom is moving closer to launching a commercial 5G network by applying key 5G technologies to our 5G trial network in Gangnam, an area with the highest data traffic,” said Park Jin-hyo, Senior Vice President and Head of Network Technology R&D Center of SK Telecom.

http://www.sktelecom.com/en/press/detail.do?idx=1224

SK Telecom – setting the pace in the 5G race



SK Telecom, South Korea's leading mobile operator by market share, is one of the big players to watch on the global stage for early 5G commercialisation. In fact, a race is on with local rivals KT and LG Uplus to have the first 5G service running in time for the 2018 Winter Olympics, which will be hosted in Pyeongchang, South Korea in February 2018 - only seven months away. Of course, 5G standards are not complete and won't be in time for the Winter...

New Automotive Edge Computing Consortium Gets Underway

A new Automotive Edge Computing Consortium is being organized with a mission to develop an ecosystem for connected cars to support emerging services such as intelligent driving, the creation of maps with real-time data and driving assistance based on cloud computing.

Founding members include DENSO, Ericsson, Intel, Nippon Telegraph and Telephone Corporation (NTT), NTT DOCOMO, Toyota InfoTechnology Center Co., and Toyota Motor Corp.

The organizers said thet plan focus on increasing network capacity to accommodate automotive big data in a reasonable fashion between vehicles and the cloud by means of edge computing and more efficient network design.

The consortium will define requirements and develop use cases for emerging mobile devices with a particular focus on the automotive industry, bringing them to standards bodies, industry consortiums and solution providers. The consortium will also encourage the development of best practices for the distributed and layered computing approach recommended by the members.

https://www.ericsson.com/en/news/2017/8/consortium-for-automotive-big-data


Luna sells optical receivers business to MACOM for $29.5m

Luna Innovations, supplier of products for the aerospace, automotive, energy, defence and telecommunications markets, announced that MACOM Technology Solutions has agreed to buy the assets and operations related to its high-speed optical receivers (HSOR) business.

The purchase price includes $29.5 million to be paid in cash at closing and an additional $4.0 million to be held in escrow until December 15, 2018 for possible working capital adjustments to the purchase price and potential satisfaction of certain post-closing indemnification obligations.

The sale includes the operations associated with Luna’s development, manufacturing and sales of products including high-speed integrated coherent receivers and photodiodes. Luna originally acquired these operations as part of its merger with Advanced Photonix, Inc. (API), in May 2015. The assets and employees associated with Luna’s Terahertz operations are not being transferred as part of this transaction.

Through the transaction, employees associated with the company’s HSOR operations and administration in the company's location in Ann Arbor, Michigan, will transfer to MACOM. The Picometrix line of high-speed optical receivers and optical-to-electrical converters serve the global telecommunications, data centre and manufacturing testing industries.

Luna noted that it intends to use a portion of the proceeds from the transaction to invest in expanding its fibre optic sensing product offering.

Regarding the acquisition, John Croteau, MACOM president and CEO, said, "Similar to MACOM's high performance analogue and 25 Gbit/s laser products, Luna's high speed optical receiver products and technology are well-aligned with its previously-announced growth strategy in cloud data centres and other high-speed networking markets".



  • Earlier this year, Luna Innovations announced that its Picometrix unit had entered into a vendor managed inventory (VMI) agreement with a leading Chinese provider of telecoms equipment and network solutions, under which Picometrix was to maintain in Hong Kong a dedicated inventory of 100 Gbit/s integrated coherent receivers and other products. It also noted it had received a new order for coherent receivers for 100 Gbit/s transport network equipment valued at approximately $1.4 million.

F5 selects Anuta NCX intent-based orchestration

Silicon Valley-based Anuta Networks, a provider of network services orchestration solutions, announced that its NCX intent-based orchestration platform has been deployed within F5 Networks Silverline to automate network services.

The F5 Silverline DDoS Protection service is designed to keep customer businesses online when under DDoS attack with a reduced risk of downtime while providing enhanced visibility. To address the global demand and to offer on-demand provisioning, F5 Networks explored the use of network orchestration solutions.

Anuta NCX is a model-driven orchestration platform that enables devops for networking. The solution has been demonstrated with large enterprises and service providers to accelerate network services, reduce opex and support consistency among heterogeneous infrastructure. NCX enables orchestration of L2-L7 physical and virtual appliances from more than 35 vendors and features a comprehensive REST API to integrate with multiple northbound ticketing systems and OSS/BSS.

Anuta Networks enables multi-vendor network orchestration for branch, campus, data centre and service provider-managed enterprise networks. Its NCX network orchestration platform allows customers to automate and accelerate network services. NCX offers lifecycle service orchestration of physical, virtual and hybrid networks, allowing customers to leverage existing investments in infrastructure and transition to the software-defined networking (SDN)/network functions virtualisation (NFV) environments.

Commenting on the agreement, Mike Lechner, manager, product development for Silverline at F5 Networks, said, “When F5 explored multiple orchestration solutions, it evaluated based on breadth of multi-vendor coverage, scalability, support for open APIs, extensibility and multi-tenancy… Anuta's Yang model-based NCX platform allows applications to describe intent to the network without worrying about underlying physical infrastructure… NCX enabled its devops teams to focus on the service workflow instead of learning complex CLIs".


Israel's Partner Comm to expand fibre network nationwide

Partner Communications Company, an Israeli communications operator, announced that following a pilot stage it is commencing the commercial phase and accelerated roll-out of its fibre optic network.

Following the company's report of June 2016 covering the deployment of an independent fixed-line infrastructure based on fibre optics, Partner is announcing that over the past few months it has significantly increased its deployment of fibre infrastructure in multiple cities across the country. The company is estimated to have connected around 30,000 homes in 20 cities, mainly is the centre of Israel.

To date, the operator has reached tens of thousands of households as it expands the existing deployment that includes thousands of kilometres of fibre and a presence in business centres and a number of cities throughout the country. As part of the accelerated deployment plan, Partner intends to double its reach in terms of households passed by the end of the year.

Partner's investment in the fibre network is part of its strategy to maintain its position in the market. The fibre network is designed to enable the company to offer higher internet speeds in Israel as well as advanced services such as quality TV services. Partner Communications is a major provider in Israel of telecoms services including cellular, fixed-line telephony, Internet and TV.


Dell'Oro forecasts double-digit growth for 100 GBE ports

Dell’Oro Group finds in its latest Router & Carrier Ethernet Switch 5-year Forecast Report that worldwide demand for edge routers and Carrier Ethernet switches will drive modest growth in the overall service provider (SP) and Carrier Ethernet switch market over the period to 2021.

Dell'Oro notes that over the 5-year period the SP core router market is expected to decline slightly.

Highlights of Dell'Oro's router and Carrier Ethernet switch report include:

1.         The SP core router market will continue to grow in 2017 driven by demand in China, while from 2018 the market will decline as projects in China are completed and IP traffic patterns continue to shift to more localised data sources.

2.         100 Gigabit Ethernet port shipments will experience double-digit growth each year over the forecast period, with 400 Gigabit Ethernet port shipments are expected to begin in 2019.

Regarding the report, Alam Tamboli, senior analyst at Dell’Oro Group, commented, "In the near term, operators will increase capacity of their IP router and switch networks to accommodate traffic from fixed broadband access networks, however, in 2019, there will be increased demand for mobile backhaul networks as operators actively build out their 5G networks… higher capacity and topology changes required for 5G will lead to an upgrade cycle of mobile backhaul networks".

http://www.delloro.com/news/service-provider-edge-routers-drive-market-growth-2021-according-delloro-group

Tata teams with CoreSite to support enterprise digital transformation

CoreSite Realty, a provider of data centre and interconnection solutions across the U.S., announced that it has partnered with Tata Communications, a global provider of network, cloud, security and mobility services, to support the digital transformation.

Under the agreement, Tata Communications and its global communications and technology teams will have access to CoreSite's data centre and interconnection solutions across the U.S. Tata noted that the expansion of its cloud and managed hosting services in the U.S. through CoreSite is part of its strategy designed to facilitate customers' digital transformation initiatives without increasing costs.

Through the new relationship, CoreSite's data centre solutions teams will become extensions of Tata Communications' team to support its managed hosting and IZO cloud enablement platform in the U.S. As part of the partnership, Tata Communications has deployed a new IZO private cloud node in CoreSite's NY2 data centre in New Jersey to support U.S. enterprise adoption of hybrid cloud securely and flexibly.

The fully-managed IZO private cloud offering gives CIOs control over all their applications by creating a hybrid, high-performance IT infrastructure in which different cloud, colocation and managed hosting environments work together as a whole. In addition, via IZO private cloud, U.S. enterprises also gain access to IZO cloud storage for unlimited volumes of data in an always available and secure environment.

By working with CoreSite, Tata Communications will expand its data centre capacity by a total of 2.2 million sq feet spread across eight of the largest data centre markets in the U.S.

As part of the agreement, Tata Communications has become a member of the CoreSite Marketplace, which provides a dynamic web-enabled interface that provides customers with information about other service providers and support for their IT strategies.

Wednesday, August 9, 2017

Top Reasons to Attend MEF17 - November 13-16, Orlando



Kevin Vachon, COO, MEF shares top reasons why industry professionals will want to attend the MEF17 (MEF17.com) global networking event to be held on 13-16 November 2017 in Orlando, Florida.

Highlights include:

More than 1,000 attendees from 275+ companies and 35 countries
Leading service and technology executive speakers
15+ live Proof of Concept demonstrations
5th LSO Hackathon
Onsite professional training courses & certification exams for MEF Carrier Ethernet Certified Professionals & MEF Third Network Foundations
Global Media Hub with 50+ press & analysts

See video: https://youtu.be/SnmbIJgQ3JQ



NTT demos 118 Tbit/s transmission on multi-core fibre

NTT, together with six partners, KDDI Research, Sumitomo Electric Industries, Fujikura, Furukawa Electric, NEC and Chiba Institute of Technology (CIT), announced a demonstration of what is claimed as the highest transmission capacity of 118.5 Tbit/s using a multi-core fibre with four optical paths within the same diameter as currently used fibre.

NTT noted that a conventional glass diameter of 125 µm in accordance with the international standard enables the use of existing fibre fabrication and optical connector technologies. The demonstration is designed to validate the concept of multi-core fibre-based long-haul and high capacity transmission system comprising multiple vendor technologies and advance the application of multi-core fibre technology.

In the new fibre, 4-5 cores can be arranged within a 125 µm diameter while maintaining the same transmission quality as current optical fibre, with a 316 km multi-core transmission line realised with a 0.21 dB/km average loss, concatenating standard diameter multi-core fibre with 4 cores fabricated by multiple vendors.

As part of the new design, Sumitomo Electric, Fujikura and Furukawa each fabricated a multi-core fibre with 4 cores and more than 100 km length. All multi-core fibres can be used in the 1260 to 1625 nm wavelength region and provide similar transmission properties to current SMF with mode filed diameter at 1550 nm of 9-10 µm).

The fabricated multi-core fibres were divided into a 20-40 km sections and three transmission spans with a length of 104-107 km were re-constructed by splicing the multi-core fibres provided by different vendors. A satisfactory low loss comparable to conventional SMF was achieved, with average loss of four cores in each span 0.22 dB/km or less, including splicing losses.

In addition, three multi-core optical amplifiers fabricated by NEC, KDDI Research, NTT and Furukawa were inserted at each end of three spans to compensate the signal attenuation. Cladding pumping type multi-core optical amplifiers designed to reduce power consumption were used, enabling a 16% improvement in power usage.

To confirm the performance of the constructed multi-core transmission line to beyond 100 Tbit/s transmission, 16QAM-based 116-wavelength signals were prepared and the output signal quality over 316 km transmission was examined.

Additionally, Fan-In/Fan-Out devices developed by NTT and Furukawa were used to input/output signals to and from each core of the multi-core fibre. Pluggable optical connectors with existing MU-type or SC-type interfaces from CIT and NTT were used to connect the input/output end of the multi-core transmission lines and Fan-In/Fan-Out devices.

The work was partially based on work commissioned by the National Institute of Information and Communications Technology (NICT), and the companies stated that they aim to introduce the standard diameter multi-core fibre by the early 2020s. The achievement was reported in early August as a post deadline paper at the Opto Electronics and Communications Conference (OECC 2017) in Singapore.


GSMA report evaluates wholesale open access networks

The GSMA, which represents mobile operators worldwide, has announced the results of its new report, Wholesale Open Access Networks, which explores the performance of the wholesale open access network (WOAN) model (also termed single wholesale network, or SWN) in five markets worldwide, namely: Kenya, Mexico, Russia, Rwanda and South Africa.

The new report, which follows a previous 2014 study that assessed the potential economic case for the wholesale network model, found that in the five countries examined only one network was rolled out, in Rwanda, with deployments in the other markets hindered by slow progress and delayed or cancelled network launches.

The GSMA believes that the projects in these five countries can serve as examples for other countries considering this network rollout model, and highlight the challenges of implementing SWN/WOANs for regulators that view this as an alternative to traditional approaches to network deployment.

The association believes that a more effective path to delivering comprehensive network coverage is for governments, regulators and mobile operators to collaborate on long-term solutions, with the basic building blocks for enabling this as follows:

  • Cost effective access to low frequency spectrum.
  • Support for spectrum re-farming.
  • Support for all forms of voluntary infrastructure sharing.
  • The elimination of sector-specific taxation on operators, vendors and consumers.
  • Non-discriminatory access to public infrastructure.
  • Streamlined planning and administrative processes.
  • The relaxation of quality of service requirements.
  • A context-appropriate competition policy, particularly relating to market structure.
  • Support for multi-sided business models, such as zero rating and sponsored data.
The GSMA notes that for several decades, policymakers have favoured a competitive network structure with licensing of network usage to a limited number of competing mobile network operators, usually under private ownership. Through this approach, there has been rapid growth and development in mobile services, with more than 5 billion people currently connected globally, including 3.8 billion in developing countries, and providing access to tools and applications that can potentially help to address a range of socioeconomic challenges.

To continue to expand network coverage, mobile operators are now evaluating ways to balance competition with cooperation in terms of infrastructure investment by entering voluntarily into infrastructure sharing agreements. Operators are also exploring new business models with third parties that will enable sharing of the cost and risk of investment in networks in rural and remote locations.

The GSMA believes that the benefits of network competition go beyond coverage, with innovation a key factor in delivering consumer value at the national level, and noted that this occurs where there is competition amongst networks, as well as in the delivery of services and the launch of devices in a market.

The full GSMA report, Wholesale Open Access Networks, is available for downloaded here: https://www.gsma.com/spectrum/woan-report/.


Germany's 1&1 Versatel selects Coriant mTera for national backbone

Coriant announced that 1&1 Versatel, a major provider of data, Internet and voice services in Germany, has deployed the Coriant mTera universal switching and transport solution to increase the capacity and enhance the bandwidth management capabilities of its nationwide high-speed optical backbone network.

The Coriant solution, which includes advanced OTN switching and end-to-end network management functionality, is designed to enable 1&1 Versatel to cost-effectively meet increasing customer demand for network bandwidth while enhancing service delivery across the country.

The 1&1 Versatel high-capacity national fibre backbone network extends over more than 42,000 km, the second largest network in Germany, and supports a range of business and residential communications services via support for high-speed data transfer at speeds of up to 100 Gbit/s, upgradeable to 200 Gbit/s.

To maximise utilisation of its fibre assets and enhance the resiliency, scalability and flexibility of its broadband services, 1&1 Versatel has deployed Coriant's mTera platform in major backbone sites across Germany, and is currently extending the deployment to its regional fibre networks.

Designed to enable network modernisation, the Coriant mTera solution will enable 1&1 Versatel to aggregate, groom and transport diverse traffic types, while supporting the cost-effective migration of legacy traffic, including SDH. mTera is a flexible multi-service transport solution that offers support for software-defined universal switching, including OTN, Carrier Ethernet, MPLS-TP and SONET/SDH in a single system architecture.

The mTera platform supports 7 Tbit/s of universal switching capacity per shelf, with up to 12 Tbit/s of total switching capacity per rack.

In addition, provisioning and management of service capacity in 1&1 Versatel's backbone will be provided by the Coriant Transport Network Management System (TNMS), which helps to reduce operating expenses and improve service resiliency leveraging end-to-end network control, automated provisioning features and advanced planning capabilities.

Imagine to deploy Huawei WTTx broadband in rural Ireland

Huawei and Imagine Communications Group, a service provider based in Dublin, Ireland, have announced the formation of a strategic partnership under which Ireland will become the first country to see the deployment of a national wireless-to the-x (WTTx) network.

Utilising the latest released LTE technologies optimised to provide a fixed access network, Imagine will use Huawei's WTTx solution to deliver superfast broadband offering speeds of 200 Mbit/s and higher across Ireland to help address the digital divide between urban and rural areas.

Leveraging the latest 4.5G technologies including massive MIMO and massive Carrier Aggregation (CA), the solution is capable of delivering a downlink speed of over 1 Gbit/s, as well as providing a roadmap to 5G, using advanced CPE to connect premises to a fibre link at a mobile mast is faster.

Huawei noted that deployment of the technology has significantly lower cost compared to conventional fibre access solutions, with WTTx emerging as a strategic alternative to FTTx infrastructure for quickly extending high speed broadband availability.

Huawei added that Ireland is a country where there is a significant difference between urban and rural areas in term of network infrastructure. While in urban areas cable availability offers an alternative to limited FTTx networks, it often fails to meet the advertised speeds of up to 100 Mbit/s, and cannot meet demand for above 100 Mbit/s services. In addition, around 61% of the market in regional and rural areas is served with xDSL services delivering speeds as low as 3 Mbit/s.

Ireland initiated a national broadband plan in 2012 designed to make 30 Mbit/s broadband services available to every home by 2020. With FTTP as the only alternative and the difficulties and high cost of deploying FTTP, to date only an estimated 12,000 premises have been connected.

Huawei stated that in a limited commercial trial of the Imagine LTE fixed wireless access network in selected rural areas which offers 70 Mbit/s service, 16,000 customers have been connected, while over 100,000 customers have applied for the service. With the 3.6 GHz 5G licenses secured in the recent spectrum award, Imagine aims to be the first operator to provide 100 Mbit/s-plus services in rural areas.


Imagine plans to commence the rollout of its WTTx network in October this year, with the objective of achieving 85% market coverage by 2019.

California's CENIC extends fibre lease with Level 3 to 2040

CENIC (Corporation for Education Network Initiatives in California), the organisation that provides global connectivity for education and research institutions in California, announced an agreement to extend its fibre leases, called indefeasible rights of use (IRUs), with Level 3 Communications on more than 8,000 miles of dark fibre until 2040.
Through the collaboration, Level 3 provides CENIC with access to its extensive fibre network to serve the organisation's 11,000-member institutions, including universities, schools, libraries and other cultural, scientific and arts organisations across California.

Regarding the renewed lease agreement, Louis Fox, president and CEO of CENIC, noted, "CENIC's next generation terabit network, CENIC 2.0, will have even greater user control and visibility, automation and software capacities for security, computation, and storage".



  • In December 2016, the University of California Agriculture and Natural Resources Division (UC ANR) and CENIC announced they had connected key UC ANR facilities to CENIC's 100 Gbit/s research and education network, extending ultra-broadband capacity to UC researchers in rural sites across California.
  • UC ANR operates nine Research and Extension Centers (RECS), plus 57 local UC Cooperative Extension offices, in locations ranging from the Oregon border in the north, through the Sierra foothills and Central Valley, along the Pacific Coast and south to the Mexican border.
  • CENIC is a non-profit organisation that operates the California Research and Education Network (CalREN) high-capacity network that connects over 20 million users, including most K-20 students, with educators, researchers and other public institutions. It also provides connectivity to leading institutions and industry research organisations worldwide.

Ireland's ESB Telecoms teams with Silver Spring on IoT

Silver Spring Networks, a provider of connectivity for the Internet of Things (IoT), announced that it is working with ESB Telecoms, a subsidiary of electric utility ESB and operator of a national open access wholesale network, to develop a national IoT network across Ireland.

The planned network is designed to serve as a catalyst for municipal, commercial and industrial customers to connect IoT and smart city applications and devices. Once the IoT network is deployed, Silver Spring's Starfish platform-as-a-service (PaaS) will augment ESB Telecoms' infrastructure and services nationwide. Starfish PaaS offers service level agreements and is based on Silver Spring's proven, secure Wi-SUN standards-based mesh technology that complies with the IEEE 802.15.4g specification.

As mesh-connected devices communicate with neighbouring devices, these networks are designed to deliver the robust and reliable connectivity that IoT networks require. With more than 26.7 million enabled devices delivered, Silver Spring noted that it has deployed its technology in Bristol, Chicago, Copenhagen, Dubai, Glasgow, Kolkata, London, Melbourne, Mexico City, Paris, San Francisco, Sao Paulo, Singapore and Washington DC.

ESB Telecoms owns and operates Ireland's National Telecommunications Fibre Optic Network as well as 450 telecommunication towers and sites on which all major Irish telcos have substantial installations. Customers of ESB Telecoms include all mobile operators, Irish government bodies, licensed FM operators and wireless Internet services providers.



  • Separately, Silver Spring announced that it will deploy its Starfish PaaS across the City of London and the London borough of Barking and Dagenham, expanding the previously announced London deployment in the City of Westminster. Through urbancontrol, Starfish is expected to connect around 12,000 smart street lights in the City of London and 15,500 smart street lights in Barking and Dagenham.

Dell'Oro forecasts G.fast revenue growth of 600% in '19

According to its latest Broadband Access 5-year Forecast Report from Dell’Oro Group, G.fast revenue growth is set to increase by almost 600% in 2019 as operators complete testing and trials of G.fast amendment 3 chipsets and systems.

While the market for G.fast has been slow to develop initially, Dell'Oro predicts that 2019 will be the year when G.fast sees significant adoption, which will then have a knock-on effect on the future development of broadband access markets worldwide, including based on PON, DSL and cable/coax technology.

Dell'oro expects that momentum in the G.fast market will continue through the 5-year forecast period, and anticipates that G.fast revenue will account for more than a third of the overall DSL market by 2021.


Commenting on the report, Alam Tamboli, senior analyst at Dell’Oro, said, "Operators are holding off on massive deployments throughout their networks until they have more hands-on time with amendment 3 chipsets and systems, which will be available in early 2018… furthermore, many operators that wish to deploy G.fast into larger buildings via FTTB architectures are waiting for 32 or higher port-count units to be tested more thoroughly".

BlueJeans Network Names Quentin Gallivan as CEO

BlueJeans Network announced the appointment of Quentin Gallivan as its new CEO, replacing Krish Ramakrishnan, who continues on at the company as Innovation and Strategy and Executive Chairman.

Gallivan is a four-time CEO with deep experience guiding numerous industry-leading enterprise platform and cloud companies.
He was a founding executive at Verisign, and helped grow the company from a $20M revenue cloud security company serving the mid-market to a $1.5B revenue global cloud infrastructure player. He served as CEO of Postini, which grew to more than 35,000 customers and over 10 million users in 25 countries before its acquisition by Google. More recently, he was CEO of Pentaho, an open source business intelligence (BI) platform company which was acquired by Hitachi in 2015.

"BlueJeans is leading a once-in-a-generation transformation of the collaboration, meetings, and enterprise application spaces by building a world-class enterprise video platform delivered in the cloud," said Gallivan. "Krish and his team have done a phenomenal job in creating this new and exciting space while simultaneously building a company of significant scale with an impressive roster of large global enterprises. I'm excited to join this special company, helping to lead the organization in its next phase of expansion and growth. I look forward to partnering with Krish as he continues to drive innovation and strategic market development for BlueJeans."

https://www.bluejeans.com/


Tuesday, August 8, 2017

Singtel to rollout nationwide Cat-M1 + NB-IoT

Singtel of Singapore announced that it plans to roll out its nationwide cellular IoT network by the end of September this year with the aim of helping enterprises achieve operational and cost efficiencies through the use of low-power IoT devices.

The Singtel network will support Cat-M1 and NB-IoT technologies and will provide businesses with access to a network offering low-power consumption, extensive coverage and multiple connections. Singtel will also leverage its cyber security expertise to support businesses in implementing secure and reliable IoT solutions, and so address security concerns when deploying remote sensors and IoT devices.

Singtel noted that cellular IoT network can support devices with a battery life of up to 10 years through the use of both low-band and mid-band frequencies. A key feature of the operator's cellular IoT-over-Cat-M1 network is that it will enable businesses to make VoLTE calls in future using small, power-efficient portable devices such as wearables and trackers with voice capability.

Singtel stated that it has been exploring the use of IoT with local companies and large corporations across a diverse range of applications since 2016. Potential applications include environmental sensing, asset tracking, waste management and monitoring of medicine consumption.

In tandem with the deployment, Singtel will be inviting businesses and technology partners to try out and develop IoT solutions at the IoT Innovation Lab. Set up in collaboration with Ericsson, the Iab allows businesses to experience new IoT applications first-hand and develop business models.
* At Mobile World Congress 2017, Singtel and Ericsson presented their Assured+ Consumer Connected Device Solution (Assured+) IoT technology and showcased an IoT ecosystem for operators, networks and devices.

Jointly developed by Singtel and Ericsson, Assured+ is an integrated IoT solution designed to support connected cars and other emerging IoT applications for consumers.

Assured+ enables devices to connect across existing 3G/4G networks, NB-IoT and LTE Cat-M and is designed to support the adoption of such networks while speeding time-to-market for the launch of new services.

* Earlier in the year, Singtel and Ericsson announced a pilot of massive MIMO and cloud RAN technology on Singtel's 4G LTE network as part of the evolution towards 5G.

See also