Our mission continues to be the creation of the Mobile Broadband Standard, with an increasing emphasis towards connecting the internet of things – whether the need is for ultra-reliable low latency communications at one end of the scale or for energy efficient low-cost, low-power sensors and devices at the other.
First Name | Last Name | Countries | Capitals |
Marry | Chan | China | Beijing |
Roger | Morison | Sweden | Stockholm |
Roger | Morison | Sweden | Stockholm |
Ronald | Curiel | USA | Washington, D.C. |
Luca | Jane | Russia | Moscow |
The 5G and LTE-Advanced ecosystem will allow for global network evolution, at the appropriate pace for the market need and the local state of readiness. The 3GPP model is one that maximises on its compatibility with legacy 3GPP infrastructure and equipment, delivering the promise of a ubiquitous end-to-end ecosystem that can support a growing number of use cases.
First Name | Last Name | Countries | Capitals |
---|---|---|---|
Ronald | Curiel | USA | Washington, D.C. |
Roger | Morison | Sweden | Stockholm |
Luca | Jane | Russia | Moscow |
Marry | Chan | China |
The original scope of 3GPP (1998) was to produce Technical Specifications and Technical Reports for a 3G Mobile System based on evolved GSM core networks and the radio access technologies that they support (i.e.,Universal Terrestrial Radio Access (UTRA) both Frequency Division Duplex (FDD) and Time Division Duplex(TDD) modes).
The scope was subsequently amended to include the maintenance and development of the Technical Specifications and Technical Reports for evolved 3GPP technologies, beyond 3G.
Important updates to the scope and structure of 3GPP are documented in the annexes of the latest version of the Project Agreement.