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Home Node B
A Home Node B, or HNB, is the 3GPP's term for a 3G femtocell or Small Cell. A Node B is an element of a 3G macro Radio Access Network, or RAN. A femtocell performs many of the function of a Node B, but is optimized for deployment in the indoor premises and small coverage public hotspots. The femtocell concept was originally conceived for residential environment. However, it has evolved to include other usages such as enterprise and public hotspots. Home eNode B is an LTE counterpart of the HNB. Architecture Within an HNB Access Network there are three new network elements: the Home Node B (or femtocell), the Security Gateway (SeGW) and the Home Node B Gateway, or HNB-GW. Between the HNB and the HNB-GW is a new interface known as Iu-h. Home Node B (HNB) – Connected to an existing residential broadband service, an HNB provides 3G radio coverage for 3G handsets within a home. HNBs incorporate the capabilities of a standard Node B as well as the radio resource manageme ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Femtocell
In telecommunications, a femtocell is a small, low-power cellular base station, typically designed for use in a home or small business. A broader term which is more widespread in the industry is '' small cell'', with ''femtocell'' as a subset. It connects to the service provider's network via broadband (such as DSL or cable); current designs typically support four to eight simultaneously active mobile phones in a residential setting depending on version number and femtocell hardware, and eight to sixteen mobile phones in enterprise settings. A femtocell allows service providers to extend service coverage indoors or at the cell edge, especially where access would otherwise be limited or unavailable. Although much attention is focused on WCDMA, the concept is applicable to all standards, including GSM, CDMA2000, TD-SCDMA, WiMAX and LTE solutions. The use of femtocells allows network coverage in places where the signal to the main network cells might be too weak. Furthermore, fem ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Small Cell
Small cells are low-powered cellular radio access nodes that operate in licensed and unlicensed spectrum that have a range of 10 meters to a few kilometers. In other words, they are base stations with low power consumption and cheap cost that are operated in a licensed spectrum. They can provide high data rates by being deployed densely to achieve high spatial spectrum efficiency. Recent FCC orders have provided size and elevation guidelines to help more clearly define small cell equipment. They are "small" compared to a mobile macrocell, partly because they have a shorter range and partly because they typically handle fewer concurrent calls or sessions. As wireless carriers seek to 'densify' existing wireless networks to provide for the data capacity demands of "5G", small cells are currently viewed as a solution to allow re-using the same frequencies, and as an important method of increasing cellular network capacity, quality, and resilience with a growing focus using LTE Ad ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Node B
{{Unreferenced, date=May 2019, bot=noref (GreenC bot) Node B is the telecommunications node in particular mobile communication networks, namely those that adhere to the UMTS standard. The Node B provides the connection between mobile phones ( UEs) and the wider telephone network. UMTS is the dominating 3G standard. Node B corresponds to BTS (base transceiver station) in GSM. Functionality This is the hardware that is connected to the mobile phone network that communicates directly with mobile handsets. In contrast with GSM base stations, Node B uses WCDMA/TD-SCDMA as the air interface technology. As in all cellular systems, such as UMTS and GSM, the Node B contains radio frequency transmitter(s) and the receiver(s) used to communicate directly with mobile devices, which move freely around it. In this type of cellular network, the mobile devices cannot communicate directly with each other but have to communicate with the NodeB. Traditionally, the Node Bs have minimum functionali ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Radio Access Network
A radio access network (RAN) is part of a mobile telecommunication system. It implements a radio access technology. 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 / ⧵ / ⧵ RAN RAN / ⧵ / ⧵ UE UE UE UE Examples of radio access network types are: * GRAN: GSM radio access network * GERAN: essentially the same as GRAN but specifying the inclusion of EDGE packet radio services * UTRAN: UMTS radio access network * E-UTRAN: The Long Term Evolution (LTE) high speed and low latency radio access network It is also poss ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Home ENode B
A Home eNodeB, or HeNB, is the 3GPP's term for an LTE femtocell or Small Cell. An eNodeB is an element of an LTE Radio Access Network, or E-UTRAN. A HeNB performs the same function of an eNodeB, but is optimized for deployment for smaller coverage than macro eNodeB, such as indoor premises and public hotspots. Home Node B is 3G (UMTS) counterpart of the HeNB. Architecture Within an HeNB Access Network there are three new network elements: the Home eNodeB, the Security Gateway (SeGW) and the Home eNodeB Gateway, or HeNB-GW. Home eNodeB (HeNB) – A HeNB provides LTE radio coverage for LTE handsets. HeNBs incorporate the capabilities of a standard eNodeB. Security Gateway (SeGW) - Installed in an operator's network, the Security Gateway establishes IPsec tunnels with HeNBs using IKEv2 signaling for IPsec tunnel management. IPsec tunnels are responsible for delivering all voice, messaging and packet data services between HeNB and the core network. The SeGW forwards traffic to ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Radio Network Controller
The Radio Network Controller (RNC) is a governing element in the UMTS radio access network (UTRAN) and is responsible for controlling the Node Bs that are connected to it. The RNC carries out radio resource management, some of the mobility management functions and is the point where encryption is done before user data is sent to and from the mobile. The RNC connects to the Circuit Switched Core Network through Media Gateway ( MGW) and to the SGSN (Serving GPRS Support Node) in the Packet Switched Core Network. Interfaces The logical connections between the network elements are known as interfaces. The interface between the RNC and the Circuit Switched Core Network (CS-CN) is called Iu-CS and between the RNC and the Packet Switched Core Network is called Iu-PS. Other interfaces include Iub (between the RNC and the Node B) and Iur (between RNCs in the same network). Iu interfaces carry user traffic (such as voice or data) as well as control information (see ), and Iur interface is ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
HNBAP
HNBAP is a control protocol found in Home Node B networks on the Iu-h interface. The Home Node B Application Part (HNBAP) protocol provides the following functions: *Registration of HNB with the HNB-GW *Identification of the HNB *Registration of UE with the HNB-GW (through HNB) Standard The following 3GPP documents are available: 3GPP TR 25.469: HNBAP Technical Report- A technical report that looks at the UTRAN Iuh interface Home Node B (HNB) Application Part (HNBAP) signalling - A technical report that looks at the air interface and requirements for the protocols to link the Home NodeB to the core network - End to end architecture UTRAN architecture for 3G Home NodeB (HNB) Architecture Between the HNB and the HNB-GW is a new interface known as Iu-h. Iu-h Interface - Residing between an HNB and HNB-GW, the Iu-h interface defines the security architecture used to provide a secure, scalable communications over the Internet. The Iu-h interface also defines an efficient, reliable ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
TR-069
Technical Report 069 (TR-069) is a technical specification of the Broadband Forum that defines an application layer protocol for remote management and provisioning of customer-premises equipment (CPE) connected to an Internet Protocol (IP) network. TR-069 uses the CPE WAN Management Protocol (CWMP) which provides support functions for auto-configuration, software or firmware image management, software module management, status and performance managements, and diagnostics. The CPE WAN Management Protocol is a bidirectional SOAP- and HTTP-based protocol, and provides the communication between a CPE and auto configuration servers (ACS). The protocol addresses the growing number of different Internet access devices such as modems, routers, gateways, as well as end-user devices which connect to the Internet, such as set-top boxes, and VoIP-phones. TR-069 was first published in May 2004, with amendments in 2006, 2007, 2010, July 2011 (version 1.3), and November 2013 (version 1.4 am5 ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
TR-196
TR-196 (Technical Report 196) is a Broadband Forum technical specification. Its official title is "Femto Access Point Service Data Model." The purpose of this Technical Report is to specify the Data Model for the Femto Access Point (FAP) for remote management purposes using the TR-069 CWMP. FAP is a generic terminology that implies any Radio Access Technology (RAT). In 3GPP's terminology, Home Node B is the name for 3G (UMTS) and Home eNode B for LTE. Details There are two major releases ("Issue" in BBF terminology) of TR-196 data model. Issue 1 is the first publication which supports UMTS HNB only. It was later expanded to include LTE HeNB and CDMA2000 FAP, and was released as Issue 2. {, class="wikitable" style="text-align:center; font-size:96%;" , - !width=75, TR-196 Release!!width=75, 3GPP Release alignment!!width=75, UMTS!!width=75, LTE!!width=75, CDMA2000 , - , Issue1 (published in April 2009), , Release 8, , Supported, , Not supported, , Not supported , - , Issu ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Mobile Telecommunications
Mobile telephony is the provision of telephone services to phones which may move around freely rather than stay fixed in one location. Telephony is supposed to specifically point to a voice-only service or connection, though sometimes the line may blur. Mobile phones connect to a terrestrial cellular network of base stations (cell sites), whereas satellite phones connect to orbiting satellites. Both networks are interconnected to the public switched telephone network (PSTN) to allow any phone in the world to be dialed. In 2010 there were estimated to be five billion mobile cellular subscriptions in the world. History According to internal memos, American Telephone & Telegraph discussed developing a wireless phone in 1915, but were afraid that deployment of the technology could undermine its monopoly on wired service in the U.S. Public mobile phone systems were first introduced in the years after the Second World War and made use of technology developed before and d ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
