Wednesday, March 4, 2015

5G PPP Aims to Put Europe back in Mobile Driving Seat

5G PPP, which is a public-private partnership between the European Commission and European industry and research community, outlined a vision to put Europe "back in the driving seat" mobile technology development.  The aim is to leverage 5G to create a single digital economy that connects people, things and services based on a plethora of innovation unseen before at such scale.

The 5G PPP alliance sees this next mobile technology cycle as more than an evolution of mobile broadband technology. It sees 5G as an enabler supporting all economic sectors as well as ever-growing consumer demand for new services. This is an opportunity for the European ICT sector, which contributes about 5% to Europe’s GDP, to expand its leadership position globally.

 The European Commission, with the approval of the European Parliament, has committed €700 million of public funds to support 5G PPP activities from 2014 to 2020.

At this week's Mobile World Congress, five EU-funded research projects are being showcased in areas such as new waveforms, cell densification, usage of spectrum above 6GHz and spectrum optimization.

Marvell Unveils 5-mode 4G LTE Release 10 Modem

Marvell unveiled a 5-mode 4G LTE Release 10 modem chipset supporting Carrier Aggregation.

The Marvell ARMADA Mobile PXA1826 extends the company's leadership in 64-bit quad-core and octa-core 4G LTE mobile processors for global markets.

Key features include:

  • Multi-mode LTE R10 CAT7 supporting TD-LTE, FDD-LTE, TD-SCDMA, WCDMA and GSM
  • Integrated Cortex A7, up to 1.2GHz
  • Support CSFB and VoLTE voice services
  • Includes Marvell’s LTE R10 RF transceiver

“I am very pleased to launch our industry-leading 5-mode 4G LTE Release 10 modem with carrier aggregation. Our leadership in 4G LTE technology and close collaboration with top global operators and tier-one OEMs have significantly accelerated the mass deployment of 4G LTE in China and around the world,” said Weili Dai, President and Co-Founder of Marvell. “Carrier aggregation is an important technology to increase capacity and enable new features in cellular communication.”

Intel Shows Low-Cost Atom Chipset, LTE-A Modem, Mobile Innovations

Intel unveiled several new mobile platforms at Mobile World Congress, including the company's new low-cost system-on-chip (SoC) for phones, phablets and tablets and a global LTE solution.

The Intel Atom x3 processor series (formerly code-named "SoFIA") is Intel's first integrated communications platform for entry and value devices.  It combines 64-bit multi-core Intel Atom processors together with 3G or 4G LTE connectivity.  The SoC combines the applications processor, image sensor processor, graphics, audio, connectivity and power management components in a single system chipset.

The rollout includes the Intel Atom x5 and x7 processor series (formally code-named "Cherry Trail") -- the first 14nm Intel Atom SoCs. These offer 64-bit support for Windows and Android, Intel Gen 8 graphics, and an option to pair with next-generation LTE Advanced connectivity.

Intel's third-generation LTE modem will support LTE Advanced Category 10 service. It offers 3x carrier aggregation and download speeds up to 450 Mbps. Intel also cited improvements in size and power efficiency.  At Mobile World Congress, the company also demonstrated a pre-5G concept system that combines LTE with 802.11ad to deliver speeds of more than 1 Gbps using Intel technology end-to-end.

Some other mobile innovations from Intel include "RealSense" depth sensing technology, wireless charging and "True Key" by Intel Security.

In addition, Intel highlighted joint efforts with Alcatel-Lucent, Ericsson and Huawei to address the demand for new telecommunications, cloud and data center services, improve network efficiencies, and accelerate the industry's move toward a software-defined infrastructure.

Docker Acquires SocketPlane for SDN Smarts

Docker announced its acquisition of SocketPlane, a start-up focused on Docker-native software defined networking. Financial terms were not disclosed.

SocketPlane, which was founded in Q4, 2014, has been an active participant in shaping the initial efforts around Docker’s open API for networking. The explicit focus of the SocketPlane team within Docker will be on collaborating with the partner community to complete a rich set of networking APIs that addresses the needs of application developers and network and system administrators alike. The company has six employees.
Docker brings networking to the application itself; all Docker containers can interact in concert as a distributed application securely over an IP infrastructure free from costly approaches like dedicated and proprietary application communication buses. 

“Networking is a critical part of the stack for distributed applications and has become an increasing area of focus within the Docker partner ecosystem due to the rapid growth in multi-container, multi-host applications,” said Solomon Hykes, chief architect of the Docker Project and founder and CTO of Docker, Inc. “To sustain the velocity of community advancements in open, modular and secure Docker networking, we felt we needed to support those efforts with a dedicated team. Given the SocketPlane team’s collective experience with virtually every open source SDN effort, we felt they were the right people to carry forward our ‘batteries included, but swappable’ approach to drive a thriving networking ecosystem.”

“We started SocketPlane with a goal of creating the best networking solution in the Docker ecosystem,” said Madhu Venugopal, CEO of SocketPlane. “We’re now excited to be broadening that vision to support and empower the partner ecosystem to create the best solutions possible for users. Given the myriad of networking use cases enabled by Docker, we believe strongly that we will be fostering broad opportunities for partners to build differentiated capabilities based upon Docker’s open standards.”

Telefónica and Ooredoo Enter Procurement Partnership

Telefónica and Ooredoo, a leading international telecommunications company operating across market in the Middle East, North Africa and Southeast Asia, announced a strategic partnership.

Under the terms of the Agreement, both companies have agreed to work together to capture synergies in Procurement, the main area of cooperation. Both groups will focus on leveraging the economies of scale and the broad experience in centralized procurement of Telefónica. The aim of this collaboration will be the optimization of Ooredoo’s affiliates purchasing costs in selected types of network and customer equipment.  Both groups will work towards coordinating selected purchases “end to end”, including technical alignment of specifications, selection of vendors and synchronized negotiations.

TELUS Deploys ALU’s Enterprise Small Cell

TELUS is the first carrier to deploy a Qualcomm chipset-powered Enterprise Small Cell from Alcatel-Lucent.

The small cell device, which extends LTE, 3G and Wi-Fi coverage into offices and other buildings, is the result of a strategic partnership between Alcatel-Lucent and Qualcomm Technologies.

The device can be deployed, on walls or office ceilings to optimize coverage. A Software Defined Radio is used on the Enterprise Small Cell to allow operators to configure support for 3G, LTE or a mix of technologies.

  • In July 2013, Alcatel-Lucent and Qualcomm agreed to collaborate on small cell base stations for residential and enterprise environments. Specifically, the companies will jointly invest in a strategic R&D program to develop the next generation of Alcatel-Lucent lightRadio Small Cell products featuring Qualcomm Technologies’ FSM9900 family of Small Cell chipsets. The investment would be shared by Alcatel-Lucent and Qualcomm Technologies.

GSMA to Develop Common Remote SIM Provisioning Spec

The GSMA is working with mobile network operators, mobile device manufacturers and SIM vendors to create a common and global specification for the remote over-the-air provisioning and management of connectivity to consumer devices.

“Currently there is no agreed industry solution for how consumers can remotely connect devices to a mobile network,” said Alex Sinclair, Chief Technology Officer, GSMA. “This announcement demonstrates that the industry is unified in working to create a common and interoperable specification that will reduce market fragmentation and maintain the experience of connecting devices in the future.”

The GSMA Consumer Remote SIM Provisioning initiative is leading and coordinating industry activities with a number of complementary “proofs of concept”, which together are contributing to the development of an end-to-end remote SIM solution. These have been designed to help shape the best technical specification for the mobile industry as well as for consumers. Participants will host a number of demonstrations at Mobile World Congress 2015 that will showcase the convenience and opportunity provided by remotely connecting new consumer mobile devices.

Results are expected in Q3 2015 with the delivery of a common specification for the remote provisioning of consumer devices anticipated by 2016.

Industry Support for Consumer Remote SIM Provisioning initiative
The GSMA Consumer Remote SIM Provisioning initiative has received strong industry support from mobile operators including AT&T, Deutsche Telekom, Etisalat, Hutchison Whampoa, KDDI, NTT DOCOMO, Orange, Ooredoo, Telefónica, TeliaSonera, Telstra, Turkcell and Vodafone.

Deutsche Telekom and Microsoft Enter Partnership for Mobility and Cloud

Deutsche Telekom and Microsoft announced a broad, strategic partnership at Mobile World Congress. The companies agreed to expand the Microsoft ecosystem to new consumer and business customers. The partnership includes a joint international marketing campaign spanning advertising, sales support and training, custom application development, and experiential activities, tailored by market. As part of the deal DT will promote Microsoft Lumia smartphones and online services. Deutsche Telekom will be a Windows 10 launch partner.

"Deutsche Telekom has been a Microsoft device partner since the beginning. Its trusted brand and network excellence in Germany and across key European markets will be a strong force to jointly deliver Microsoft devices and services to more consumers and businesses throughout Europe," said Florian Seiche, vice president, Europe Region, Mobile Device Sales, Microsoft.

Spirent Tests Voice over Wi-Fi to VoLTE Handovers

Spirent Communications announced support for testing Wi-Fi Access Points through an RF interface on its Landslide platform.  This enables mobile operators to validate subscriber experiences as they move between nationwide mobile networks, carrier Wi-Fi hot-spots and private wireless networks.

The Spirent Landslide tests the performance and scalability of the Wi-Fi access point, Wi-Fi offload gateway and the mobile core network, enabling authentication and handover scenarios to be verified, as well as providing quality of experience metrics, including network availability, call setup time, call drops and voice quality for Voice over Wi-Fi testing.

“Verifying that handover and service quality of experience between cellular and Wi-Fi networks is secure and efficient is a critical aspect of deploying services like Voice over Wi-Fi,” said John Baker, general manager, Mobility Infrastructure business unit at Spirent Communications. “Landslide has long been the de facto solution in the industry for testing mobile core and Wi-Fi offload. For the first time ever, carriers can now employ a single, integrated platform to fully verify network performance end-to-end—including the critical handoff from a cellular to a Wi-Fi network”

Broadcom Innovation Powers KT 4G LTE Small Cell Deployments

KT has deployed small cells based on Broadcom's system-on-chip (SoC) devices to enhance its high speed 4G LTE wireless broadband services.

KT completed deployment and verification of its Broadcom-enabled small cells for commercial outdoor environments this quarter and plans to expand services to indoor residential locations in the second quarter of 2015.

"With growing requirements on voice and video media services, mobile subscribers now require better coverage and higher-capacity networks," said Mr. Sang-hoon Park, KT Corporation Vice President. "By integrating Broadcom's high-performance small cell SoCs into our overall 4G LTE deployment strategy, we can quickly and cost effectively address increasing capacity demands while optimizing spectral efficiency."

Broadcom’s chipset supports concurrent LTE in the Frequency Division Duplexing (FDD) and Time Division Duplexing (TDD) modes as well as hosted Wi-Fi services.

Cavium Demos Cloud RAN on 48 Core 64-bit ARMv8-A ThunderX Chip

At this week’s Mobile World Congress, Cavium is showcasing its family of ThunderX ARMv8-A based processors for servers with support for full virtualization of base station functions in a Cloud RAN (Radio Access Network) environment.

The Cloud RAN implementation runs 3GPP LTE Release 9, with support for multiple radio heads across different frequencies. Cavium implements a "split MAC" architecture. It uses standard Ethernet unlike current C-RAN approaches that use CPRI and require dark fiber.

Cavium’s flagship ThunderX boasts up to 48 ARMv8-A (64-bit) cores in a highly integrated SoC.
"ThunderX is a highly competitive solution for CRAN and NFV applications delivering high performance with extremely attractive cost and power metrics," commented Raj Singh, Vice President and General Manager of Cavium's Wireless product lines. "This Cloud-RAN implementation demonstrates the raw performance of the ThunderX SoC, as well as the development advantages of a unified architecture."

In June 2014, Cavium introduced its line of "Project Thunder" 64-bit processors for next gen data centers, cloud and NFV applications. 

The new processors will pack up to 80 custom ARMv8 cores along with configurable/virtualized network and storage I/O options, and a set of configurable HW accelerators for different applications. 

Cavium will be offering four versions depending on the type of hardware accelerators on-board"  Compute ThunderX_CP, Networking ThunderX_NT, Storage ThunderX_ST and Security ThunderX_SC.  Sampling is expected in Q4 2014.

The new ARM-based devices will be implemented in 28nm technology.  Global Foundry is the fab.  Performance/Watt will be one of the key metrics that the ARM-devices will bring to the table. The company has commercially supported Linux OS partnerships lined-up with Canonical and MontaVista.  Cavium has also joined the Open Compute Foundation and said its ThunderX processors are well-suited for this architecture.

In the networking space, the ThunderX_NT processor is aimed at high-performance data plane applications, including NFV implementations, media servers and embedded applications. The devices will offer 10/40/100G I/O and full virtualization support.

Tuesday, March 3, 2015

#MWC15 @Gigamon Discusses the Triple Challenge

The triple challenge is about how operators are deploying three new technologies simultaneously, namely, 100 Gbps transport pipes, VoLTE, and carrier network virtualization.  Andy Huckridge discusses traffic visibility concerns in each of these areas.

Blueprint: Why the IoT is Forcing Mobile Operators to Redesign

by Frank Yue, Senior Technical Marketing Manager, F5 Networks

The Internet of Things (IoT) is composed of automated machine-to-machine (M2M) devices and is poised to be a huge boon for consumers everywhere. People and businesses will be able to access data from wearable exercise monitors, home automation and security—and pretty much any device imaginable. Manufacturers are connecting water meters, cars, and even crockpots to the Internet. Some estimates put the number of IoT devices at 16 billion in 2014, growing to over 40 billion by 2020. By comparison, there are predicted to be 8.3 billion non-M2M devices by 2019.

This surge in the number of automated devices connected to the Internet will significantly impact service provider networks. M2M and automated products behave very differently when compared to biologically driven devices. Mobile service providers must take a close look at how these devices function and how they interact with the Internet through their data connections as they continue to build and update their advanced LTE mobile networks.

Until now, consumer driven connections through mobile phones, tablets, and PCs have been the focus for the design and build of LTE networks. These devices and connections consume large amounts of data as everyone's hunger for more mobile content is sated. Although generally random, the connections are statistically predictable. Service providers are using this predictability to ensure that the networks they build can support the planned demand.

Not all connections are created equal

M2M devices have an extremely different connection profile from non-M2M devices. They are designed to send periodic updates with their current state and other data. Although the amount of content is small, there is a specific cadence to the process of delivering these updates. Currently, most service providers’ networks are not designed to handle this regular connectivity.

In the 3GPP LTE network architecture, there are approximately 26(!) steps for any user equipment (UE)—including IoT devices—to attach (register) to a mobile network. When a device is idle for a period of time, it goes to sleep and detaches itself from the network. The idle timer is usually fairly short since the device is tying up precious radio bandwidth as long as it is attached (registered). In order to re-attach, the device must go through those 26 steps again.

A typical M2M device will send updates on a periodic interval such as every minute, five minutes, or 15 minutes. In addition, these devices will often send more comprehensive updates on a larger interval, often hourly or daily. For instance, a wearable training device may send updates to the Internet every 5 minutes while a residential water meter will only send a daily message to update the home’s water consumption.

All of these updates means there will inevitably be surges of registrations and floods of small chunks of data on the mobile networks. The minute-by-minute updates may lead to only small surges, but the more comprehensive updates (such as hourly or daily) may cause far larger surges. So, the raw volume of data is not the main issue; it is the number of connections and reconnections and the number of devices that is the primary concern.

The mobile service provider is not ready to handle these “harmonic surges” in registrations and updates. When a device wants to send more data, it will need to register to the network again. These surges in registration messages can easily overload the Diameter signaling infrastructure.

Cloud technologies are not just for the cloud

To properly and efficiently handle the connection and data patterns that IoT creates, mobile service providers need networks that are agile and elastic in order to create on-demand infrastructures that can support these surges. At the same time, they want to avoid the expense of purchasing and maintaining equipment that is unused except during these surge periods.
This is where service providers can leverage virtualized and cloud technologies. Network Functions Virtualization (NFV) is the architecture that can transform today’s physical networks into flexible and dynamic infrastructures that run services in cloud environments. Cloud technologies are designed to deliver the on-demand resourcing, or elasticity, that is necessary to support traffic surges. This maps directly to the planned capabilities of NFV.
An unspoken goal of NFV is to transform the mobile service provider’s core network into a cloud-like environment with all the business and operational benefits of an agile and virtualized infrastructure. To support the demands created by the growth of IoT, the registration and policy infrastructure of the evolved packet core (EPC) must be virtualized.
Note, however, that virtualization, in and of itself, does not deliver the required elasticity. On-demand resourcing is only possible with the abstraction, programmability, and orchestration of these virtualized services. The detection of surge periods must be coordinated with the spinning up of the resources required to meet the expected demand. After the flood of connections pass, these resources must also be freed up to be available for other purposes.

“Harmony,” not “harmonics”

The potential for the IoT to overwhelm the mobile network infrastructure is very real. And with the number and types of connected devices growing exponentially, the hype for IoT continues unabated.  

When it comes to building their infrastructures, mobile service providers need to work closely with the key IoT standards bodies and manufacturers to find common ground. If they do not address this growing type of connectivity, service providers will experience a devastatingly similar situation to the harmonic convergence of wind speed that caused the Tacoma Narrows Bridge to collapse in 1940

About the Author

Frank Yue is the Senior Technical Marketing Manager for the Service Provider business at F5 Networks. In this role, Yue is responsible for evangelizing F5’s technologies and products before they come to market.

Prior to joining F5, Yue was sales engineer at BreakingPoint Systems, selling application aware traffic and security simulation solutions for the service provider market. Yue also worked at Cloudshield Technologies supporting customized DPI solutions, and at Foundry Networks as a global overlay for the ServerIron application delivery controller and traffic management product line. Yue has a degree in Biology from the University of Pennsylvania.

About F5 

 F5 (NASDAQ: FFIV) provides solutions for an application world. F5 helps organizations seamlessly scale cloud, data center, telecommunications, and software defined networking (SDN) deployments to successfully deliver applications and services to anyone, anywhere, at any time. F5 solutions broaden the reach of IT through an open, extensible framework and a rich partner ecosystem of leading technology and orchestration vendors. This approach lets customers pursue the infrastructure model that best fits their needs over time. The world’s largest businesses, service providers, government entities, and consumer brands rely on F5 to stay ahead of cloud, security, and mobility trends. For more information, go to

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Equinix Builds Programmable Network with Cisco Tail-f

Equinix is using Cisco's Tail-f Network Control System (NCS) as a foundational element for automating and programming the Equinix Cloud Exchange.

Specifically, the Equinix Programmable Network is using the NETCONF and YANG capabilities in the Tail-f NCS offering to provider multi-vendor service orchestration. This enables Equinix to provide multi-cloud services in an agile and vendor-agnostic way, simplifying and accelerating cloud access for the enterprise.

The Equinix Cloud Exchange provides direct access to leading cloud providers such as AWS, Cisco, Google Cloud Platform, Microsoft Azure, SoftLayer, and others.  Equinix said the use of NETCONF and YANG provides the automation and programmability needed for rapidly accessing and managing these cloud services.

"Our goal with the Equinix Cloud Exchange is to provide multi-cloud interconnectivity solutions that satisfy high-performance application needs in a secure environment. Tail-f NCS is a key part of our foundational programmable network and allows us to provide multi-cloud services in an agile and vendor-neutral way. Tail-f's support for YANG also allows us to quickly define new services without the burden of vendor-specific configuration protocols," stated Ihab Tarazi, chief technology officer, Equinix.

@Equinix's Ihab Tarazi on the Evolution of #SDN

Ihab Tarazi, CTO of Equinix, discusses the evolution of software-defined networking, in the emerging SDN2, OpenStack, Open Daylight, NetConf and YANG.

Nokia Leverages Real-time Network Data to Tailor Content Delivery

At this week’s Mobile World Congress, Nokia Networks is showcasing its Liquid Applications’ throughput guidance for heling content providers to optimize their transmission policy to reflect dynamically changing network resources in real-time. The goal is to improve resource utilization in mobile operator's network. YouTube has successfully conducted lab tests of the throughput guidance technology, with initial results showing improvement in network utilization and application quality of experience.

Congestion detection from Nokia’s Liquid Applications notifies upstream content providers and mobile device clients as to the most efficient time to fetch subscriber content based on real-time cell load information.

Nokia said Akamai is currently testing congestion detection as part of their Predictive Video over Cellular (PVoC) optimization solution for mobile networks. The company calculates that its smart location experience optimization service provides up to 50% increase in video streaming speeds for consumers based on insights on how applications utilize network resources.

“We are now able to provide completely new insights into the dynamically changing performance of mobile networks, to improve content delivery efficiency and increase network performance. It is important for operators and content providers to keep up with the increasing demand for localized, data-intensive content that users want to receive with the fastest possible speed to their devices,” stated Dirk Lindemeier, Head of Liquid Applications at Nokia Networks.

Alcatel-Lucent Demos NFV-based Virtualized Radio Access Network

At this week’s Mobile World Congress in Barcelona, Alcatel-Lucent is showcasing NFV-based virtualized radio access network technology in collaboration with Intel, China Mobile, and Telefónica.

Alcatel-Lucent said its vRAN solutions will be available for customer trials during 2015 and for commercial operation in 2016.  Over the past year, the company has announced the virtualization of a wide range of network functions, including evolved packet core, IMS, Content Delivery Network and service routing technologies. Its CloudBand NFV platform has been featured in over 30 customer projects and has an NFV ecosystem of over 60 members.

Alcatel-Lucent’s vRAN comprises a virtualized baseband unit (vBBU) that uses general purpose servers with Intel Xeon processors.

Alcatel-Lucent and China Mobile, which have a long-standing co-development agreement in place, are showing progress in the Cloud-RAN program.

Telefónica is also showing the Alcatel-Lucent vRAN solution on its booth as part as an ambitious example of an end-to-end fully virtualized network running at #MWC15.

“A virtualized RAN will allow operators to take a big step toward 5G and benefit from the advanced features and efficiencies enabled by LTE-A. By teaming on this technology, Alcatel-Lucent, Intel and China Mobile have been able to very quickly develop a comprehensive solution that will allow operators to evolve their networks more efficiently and effectively,” stated Glenn Booth Senior Vice President and General Manger of Alcatel-Lucent’s LTE Business Unit.

DT Launches Cloud-VPNs with Cisco's Tail-f

Deutsche Telekom (DT) launched a Cloud VPN (Virtual Private Network) Service for small and medium businesses that features a self-service online portal to give customers a simple way to select, subscribe to and activate highly secure and scalable Internet services. The service portfolio includes branch, site-to-site and remote access encrypted VPNs, as well as firewall and web security, all offered as a cloud-managed IT solution on a monthly subscription basis.

Customers have access to a management dashboard on which they can track the status and performance of services and upgrade their service package, such as increasing the number of users or the bandwidth, with a click of a mouse. Provisioning is automatic and done in real time from DT’s data centre.

DT is using the Tail-F NCS platform based on Netconf/YANG. The service is built on Cisco® virtual security appliances, combined with DT’s OpenStack solutions.

Alcatel-Lucent Pursues Wireless Unified Network Strategy

Alcatel-Lucent introduced a “Wireless Unified Networks” strategy which blends the upload and download capabilities of Wi-Fi and cellular technologies to enable higher capacity and give subscribers a more consistent and higher-quality mobile voice, data and video experience in high-traffic or low-signal locations.

As part of the new strategy, Alcatel-Lucent is introducing two separate capabilities: “Wi-Fi boost”, which uses cellular to enhance the performance of Wi-Fi networks; and “Cellular boost”, which uses unlicensed spectrum to enhance the performance of cellular. Combined, they maximize performance for subscribers across both access technologies.

Alcatel-Lucent’s Wi-Fi boost technology combines the downlink of Wi-Fi with the uplink of cellular. This capability requires an OS software update to existing user devices that are capable of both cellular and Wi-Fi transmission. It also requires software updates in the network to blend the Wi-Fi and cellular access networks into a unified network.  The company calculates that Wi-Fi boost can increase download speeds up to 70% and increase upload speeds by an order of magnitude or more (compared to standalone Wi-Fi at the cell edge), while also doubling the Wi-Fi range.  Commercial availability is expected in the second half of 2015.

Alcatel-Lucent will also add a cellular downlink to the Wi-Fi downlink of the Wi-Fi boost. This pre-standard LTE Wi-Fi Aggregation (LWA) implementation can more than double download speeds relative to standalone network capabilities.

Alcatel-Lucent’s Cellular boost leverages the unlicensed spectrum bands to enhance the capacity and performance of a cellular network. Plans include the introduction of new LTE-U and Licensed Assist Access (LAA) capable small cells.

“As an industry we have historically treated cellular and Wi-Fi as unique technologies. For example, the industry debates the merits of Voice/Data over Wi-Fi versus Voice/Data over LTE. From a consumer perspective, it should simply be Voice/Data over Wireless. With Wireless Unified Networks, we are excited to be taking the important steps to transform and greatly enhance the user’s wireless experience in the home, at work, and in dense venue networks by combining existing Wi-Fi and cellular networks into one high performance network,” stated Mike Schabel, Vice President of Small Cells in Alcatel-Lucent.

Alcatel-Lucent is also presenting its new multi-standard enterprise and residential small cells and compact metro cells at #MWC15. Other innovations on display include:
  • CloudBand management system, providing a fully integrated solution that orchestrates infrastructure, applications, and network in a single virtualized NFV platform.
  • Virtualized, massively scalable Mobile and Wi-Fi gateways, including enhanced evolved Packet Data Gateway (ePDG+) support and seamless concurrent use of cellular (licensed) and Wi-Fi (unlicensed) access connections to boost performance.
  • Virtualized IMS solutions that deliver a scalable and seamless communications experience across different access networks and devices.
  • Motive customer experience management and big network analytics that deliver a more consistent, high quality experience and provide insight into network, device and application performance across the network.

Cisco, Deutsche Telekom and Intel Launch Start-up Accelerator

Cisco, Deutsche Telekom and Intel are launching Challenge Up!, a joint Internet of Things (IoT) accelerator for start-ups from the Europe, Middle East and Africa (EMEA) region. The program aims at helping innovative IoT startups go-to-market faster through joint projects, mentoring, high-value networking and corporate assets. Selected companies may also recieve strategic investment and support commercializing their product or service for global markets.

“We are looking forward to the creative ideas for new products and services from across the region to improve how we live and work together. By giving startups access to the complimentary resources of our three global companies we can help them accelerate their ideas into commercial success,” said Christian Morales, Corporate Vice President and General Manager Europe, Middle East and Africa at Intel.

“With an expected 50 billion things connected to the Internet by 2020, the Internet of Everything opens up great opportunities. To help better address these opportunities, Challenge Up! brings together the best of the technology world in an ecosystem of open innovation,” said Mike Flannagan, Vice President of Data & Analytics at Cisco.