The document discusses Huawei's fourth generation NodeB and its evolution. It provides details on Huawei's customer-oriented innovation and focus on meeting customer requirements. It then outlines Huawei's product portfolio evolution and the key features and benefits of its fourth generation NodeB, including high integration, capacity, performance, reliability and smooth evolution capabilities.
Digital transformation is at a critical juncture, with a diverse range of industries making changes that signifi-
cantly transform the way people live and work. These shifts have been driving advancements in the financial,
transportation, manufacturing, governmental, and many more sectors. Innovative mobile broadband technologies,
an underlying infrastructure, are a key driving force behind the digitalization of all walks of life. With
the rapid development of 5G, an increasing number of new applications and business models will reshape
the social and economic formation.
Such changes will stimulate strategic planning regarding industry opportunities, technical evolution,
network architecture, and other areas. Telecom operators are growing increasingly concerned with the
creation of a new target network to maximize return on investment (ROI) and achieve business success while
maintaining a competitive edge for the future. Global operators are promoting early deployment of 5G and
innovative business models through continuous 4G evolution. This has led to today's business achievements
and has laid a solid foundation for the huge potential of 5G.
With a gradual consensus being formed for the entire industry, all related players in the industry chain will
develop close collaboration to embrace a brighter future for the wireless network industry.
Continuous 4G evolution, a road to 5G!
Digital transformation is at a critical juncture, with a diverse range of industries making changes that signifi-
cantly transform the way people live and work. These shifts have been driving advancements in the financial,
transportation, manufacturing, governmental, and many more sectors. Innovative mobile broadband technologies,
an underlying infrastructure, are a key driving force behind the digitalization of all walks of life. With
the rapid development of 5G, an increasing number of new applications and business models will reshape
the social and economic formation.
Such changes will stimulate strategic planning regarding industry opportunities, technical evolution,
network architecture, and other areas. Telecom operators are growing increasingly concerned with the
creation of a new target network to maximize return on investment (ROI) and achieve business success while
maintaining a competitive edge for the future. Global operators are promoting early deployment of 5G and
innovative business models through continuous 4G evolution. This has led to today's business achievements
and has laid a solid foundation for the huge potential of 5G.
With a gradual consensus being formed for the entire industry, all related players in the industry chain will
develop close collaboration to embrace a brighter future for the wireless network industry.
Continuous 4G evolution, a road to 5G!
This presentation will give you a glance at NOKIA RNC solutions, RNC configuration,RNC cabinet mechanical structure,RNC architecture, RNC plug-in units (PIU)
,RNC function units (FUs), redundancy and PIUs configuration
RF Planning and Optimization in GSM and UMTS NetworksApurv Agrawal
The report covers various aspects involved in improving the network coverage as well as the parameters used in planning of new network sites for GSM and UMTS networks.
This presentation will give you a glance at NOKIA RNC solutions, RNC configuration,RNC cabinet mechanical structure,RNC architecture, RNC plug-in units (PIU)
,RNC function units (FUs), redundancy and PIUs configuration
RF Planning and Optimization in GSM and UMTS NetworksApurv Agrawal
The report covers various aspects involved in improving the network coverage as well as the parameters used in planning of new network sites for GSM and UMTS networks.
GSM is the globel system of organation . It consists of
M.S,BSC MSC ,OMC,FIXED Phone.Mobile station is carried by
the subscriber.and base station subsystem control the radio
link with mobile station . The main part of system is
mobile switching center perform switching of calls between
the mobile and fixed or mobile network use. and operational
and maintainence center oversees the proper operation and
set up of the network. The MS and BSC communicate across
the um link or air interface and BSC&MSC communicate across
A interface.
Prof. Andy Sutton: 5G RAN Architecture Evolution - Jan 20193G4G
This presentation explores the evolution of GSM, UMTS and LTE radio access network architectures before a detailed review of the RAN architecture options for 5G. The functional decomposition of the 5G radio access network presents the network designer with many challenges with regards placement of RU, DU and CU nodes, all of which are discussed. The presentation concludes with a review of BT UK plans for 5G launch with a fully distributed RAN in support of an EN-DC architecture.
Presented by Professor Andy Sutton CEng FIET, Principal Network Architect, Architecture & Strategy, BT Technology at IET 5G - the Advent conference on 30 January 2019 | IET London: Savoy Place
*** SHARED WITH PERMISSION ***
In the initial stage of 4G network construction, the indoor coverage network was mainly dominated by the passive DAS solution. It has the advantages of strong frequency band scalability and low network construction costs.
In the initial stage of 4G network construction, the indoor coverage network was mainly dominated by the passive DAS solution. It has the advantages of strong frequency band scalability and low network construction costs. However, most of them are single-channel systems with low network capacity and no visual operation. Peacekeeping and indoor positioning capabilities.
Evolving to an open C-RAN Architecture for 5Gkinsleyaniston
This white paper provides an assesment of the emerging C-RAN architecture with a focus on the practical evolitionary path that will take mobile operators from the distributed RANs of today to the fully-virtualized and open cloud RANs of future. For more details, please visit: https://www.fujitsu.com/us/products/network/products/smart-xhaul-solutions/index.html
EBBC is the BBU3806 board and used to support HSUPA Phase II. It can support uplink 6 cells, 384CEs and HSUPA 15M. It can support downlink 6 cells, 384 CEs and HSDPA 15M. Only one EBBC can insert in the extend slot in BBU3806. It can process the R6 baseband resources and use EIA interface to cascading the NG-BBU(BBU3900) in the furture. BBU3806 with EBBC can make the baseband resources pool with BBU3900. 3.EBBC also can be used to old NodeB expansion and extended function. 4. A: stack NodeB AE: integrative marco NodeB E: Enhanced NodeB C: Outdoor NodeB
This slide do not include the dual mode BTS3900 Node B and Module. The BTS3900C applies to the new outdoor 3G sites where no equipment room exists, hot spots, marginal networks, and blind spots such as tunnels. BTS3900C can support up to 1*3 configuration. The maximum capacity of the BTS3900C is up to UL 384 CEs and DL 384 CEs. The capacity can be expanded simply through additional modules or license upgrade. The step of license expansion is 16CEs according to the customer’s requirements.