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LTE Case Studies & Reports

Oct 9, 2014: According to a new report by Allied Market Research, titled “Global Lawful Interception Market (Solutions, Components, Network Technology, Communication Technology, End User, and Geography)- Opportunity Analysis and Forecast-2013-2020”, the global lawful interception market is forecast to reach $2.1 billion by 2020, growi

Paris, 10 July 2014 – To mark the start of the 8th annual Assises du Très Haut Débit symposium, IDATE is releasing its ranking of countries that lead the way in ultra-fast fixed and mobile broadband subscriber numbers, in Europe and worldwide.

4G/LTE subscriptions will reach 85 percent in North America and 30 percent in Europe in 2019, according to latest Ericsson Mobility Report. Globally, LTE subscriptions are predicted to reach 2.6 billion by 2019, representing around 30 percent of total mobile subscriptions.

May 14, 2014 – According to a new report by Allied Market Research titled ” LTE Market (TDD, FDD, LTE Advance) – Global Opportunity Analysis and Forecast – 2012-2020″, the LTE market is to soar as high as $997 billion by 2020, experiencing a CAGR of 58.2% during 2013-2020.

While LMR systems have effectively support mission-critical voice and low-bandwidth data applications for many years, they fail to provide the high-speed data performance necessary to support the multimedia applications on which today’s Public Safety agencies increasingly rely upon. 

LTE Whitepapers

The capabilities of 5G wireless access must extend far beyond previous generations of mobile communication. Examples of these capabilities include very high data rates, very low latency, ultra-high reliability, energy efficiency and extreme device densities, and will be realized by the.

5G Network Transformationto outlines the new heights of innovation in transforming both the radio and core networks for 5G technologies and the work being done by numerous organizations worldwide. The network architecture for 4G is connection-oriented and based on centralized mobility anchor points.

5G Americas, the industry trade association and voice of 5G and LTE for the Americas, today announced the publication of 5G Services and Use Cases, an insightful industry report on 5G technology addressing new trends in a broad range of use case categories and business models with disparate technical requirements and mapping them to 5G capabilities.

The white paper focuses its analysis on industry reliance on 5G and industry value in the 5G era. According to the white paper, industries requires higher bandwidth and lower latency will be more reliant on 5G; and the larger the market space is, the more commercial value a service can deliver.

There are more than 7.2 billion wireless connections, including 1.45 billion LTE connections, around the world today that are operating with the technology standards developed by the 3rd Generation Partnership Project (3GPP) [Ovum].

LTE Tutorials

There is considerable pressure to define the key requirements of 5G, develop 5G standards, and perform technology trials as quickly as possible.
Normally, these activities are best done in series but there is a desire to complete these tasks in parallel so that commercial deployments of 5G can begin by 2020.

“Signalling in EPC/LTE” course focuses on signalling between EPS/LTE nodes within GPRS Tunnelling Protocol (GTP) based Evolved Packet Core (EPC)* network. During the course all protocols and signalling procedures on all interfaces (i.e.

Unlike previous 3GPP wireless technologies, LTE has no Circuit Switched (CS) bearer to support voice, so carrying voice over LTE requires a migration to a Voice over IP (VoIP) solution.

The 3GPP evolution for the 3G mobile system created the new base station system, called Evolved UMTS Terrestrial Radio Access Network (E-UTRAN) and a new core network, called Evolved Packet Core (EPC) as a result of two standardisation projects: Long Term Evolution (LTE) and System Architecture Evolution (SAE).

“Signalling in E-UTRAN/LTE” course focuses on signalling between EPS/LTE nodes within E-UTRAN. During the course all protocols and signalling procedures on all interfaces (i.e. Uu, X2 and S1) within E-UTRAN are presented in details. The course also describes overview of EPS architecture and system wide signalling procedures, including EPC – E-UTRAN interworking.