• 1
  • 2

No More Posts Available.

No more pages to load.

    • Source: Radio access network
    • A radio access network (RAN) is part of a mobile telecommunication system implementing a radio access technology (RAT). Conceptually, it resides between a device such as a mobile phone, a computer, or any remotely controlled machine and provides connection with its core network (CN). Depending on the standard, mobile phones and other wireless connected devices are varyingly known as user equipment (UE), terminal equipment, mobile station (MS), etc. RAN functionality is typically provided by a silicon chip residing in both the core network as well as the user equipment.
      See the following diagram:

      CN
      / ā§µ
      / ā§µ
      RAN RAN
      / ā§µ / ā§µ
      UE UE UE UE

      Examples of RAN types are:

      GRAN: GSM
      GERAN: essentially the same as GRAN but specifying the inclusion of EDGE packet radio services
      UTRAN: UMTS
      E-UTRAN: The Long Term Evolution (LTE) high speed and low latency
      It is also possible for a single handset/phone to be simultaneously connected to multiple RANs. Handsets capable of this are sometimes called dual-mode handsets. For instance it is common for handsets to support both GSM and UMTS (a.k.a. "3G") RATs. Such devices seamlessly transfer an ongoing call between different radio access networks without the user noticing any disruption in service.


      RAN in the United States


      According to research company New Street, mobile providers T-Mobile US and AT&T use Swedish communication company Ericsson as their primary RAN provider, while Verizon primarily uses South Korean provider Samsung. Nokia is the minority vendor for all major US wireless providers. According to EJL Wireless Research, Verizon is also using Ericsson.


      See also


      AirHop Communications
      IP connectivity access network
      C-RAN
      Access network
      Base transceiver station
      Remote radio head


      References

    Kata Kunci Pencarian: