RU2010120033A - METHOD FOR DEPLOYING A WIRELESS LOCAL SCALABLE RADIO NETWORK FOR ACCESS AND RELAY ON THE FBS FACILITY AND METHOD FOR MANAGING THIS NETWORK - Google Patents

Abstract

 1. A method for deploying a system of a wireless local scalable radio access network and relay based on FBS containing the following elements:! - femtocell relay network made using WLAN, BPL and / or ethemet connections between two or more FBS; ! - access nodes and / or a network of access nodes of femtocell base stations, including Node B devices or femtocells, as well as any other devices that are separate IP-bound BS operating in 2G, 3G, 3.5G and 4G standards, which are interconnected FBS and 802.11'x 'standard WLAN transceivers, or combined devices in which WLAN transceivers are integrated in FBS, connected together to a macrocell network via IP connection, for example, through DSL, ADSL, HDSL, VDSL and other similar types connection es carrying IP-TV cable traffic, BPL or other connection method; ! - a gateway, which is a cellular traffic control device and connected to the FBS via an IP connection through an IP server directly or via the Internet; ! - equipment and devices of the user or users,! characterized in that FBS can also be connected via cellular data over the UMTS TDD spectrum, or via WIFI technology of the 802.11'x 'standard, including 802.11a, b, g, n, over the UMTS TDD spectrum, as well as through a combination of the above wired and wireless communication mechanisms or using similar technologies, including WiMax standard technology, which allows the femtocell relay network to provide FBS with low interference and low power costs for providing benefits

Claims (9)

1. The method of deployment of a wireless local scalable radio access network and relay based on FBS, containing the following elements: - femtocell relay network made using WLAN, BPL and / or ethemet connections between two or more FBS; - access nodes and / or a network of access nodes of femtocell base stations, including Node B devices or femtocells, as well as any other devices that are separate IP-bound BS operating in 2G, 3G, 3.5G and 4G standards, which are interconnected FBS and 802.11'x 'standard WLAN transceivers, or combined devices in which WLAN transceivers are integrated in FBS, connected together to a macrocell network via IP connection, for example, through DSL, ADSL, HDSL, VDSL and other similar types connection es carrying IP-TV cable traffic, BPL or other connection method; - a gateway, which is a cellular traffic control device and connected to the FBS via an IP connection through an IP server directly or via the Internet; - equipment and devices of the user or users, characterized in that FBS can also be connected via cellular data over the UMTS TDD spectrum, or via WIFI technology of the 802.11'x 'standard, including 802.11a, b, g, n, over the UMTS TDD spectrum, as well as through a combination of the above wired and wireless communication mechanisms or using similar technologies, including WiMax standard technology, which allows a femtocell relay network to provide FBS with low interference and low power costs for providing benefits access to the cellular network via two or more FBS, as well as providing directly or via IP connection an interface between the user's mobile devices connected to the FBS nodes and the macrocell network, including the networks of a mobile telephone operator, mobile operator or any other standard network a communication network or a private network that does not meet current standards and uses CDMA and WCDMA technologies, thereby ensuring the relaying of part of the traffic of the user's mobile devices to the macrocell network, including using algorithms for dynamically changing traffic routing paths, voice, multimedia and other data, which can be algorithms that fall under the 802.11'x 'standard or the 802.16'x' standard, or that is any similar solution in the field of self-organizing adaptive multi-node mesh networks consisting of clusters of a homogeneous and / or heterogeneous infrastructure, with support for multiple transit transmissions from one FBS, and the access nodes and / or the network of access nodes provide a connection between IP and a cellular network directly or via the Internet, thus providing access to cellular networks to a user's mobile device and routing traffic to a macrocell network via an IP connection, which can alternatively be performed at the physical level using FBS permanently connected to power lines and using in this way the possibilities provided by the BPL, including through network nodes with a built-in PLC modem, and the IP connection can also be a satellite IP connection, etc. and which the Earth’s orbiting satellite provides an interface to the IP data network, a FBS or similar devices can also contain a UMA client and VPN client, as well as a radio network controller that prioritizes FBS cellular traffic that performs relay functions by redistributing cellular traffic other FBS connected to the relay network and reporting packet data to a gateway that contains a GANC controller and / or virtual private network controller and / or UMA controller and / or cellular traffic aggregator and / and and a subscriber servicing server and which is connected to remote controls for controlling power, overview, speed, FBS frequencies, support for simultaneous sessions, SIP support, monitoring of connection parameters, including congestion, number of devices served by FBS, and the share of spectrum involved, interference and power signal, hand-off and control of other parameters, including those necessary for compiling a map of cellular traffic transmission connections, and has built-in mechanisms for monitoring remote elements control, the above-mentioned controls can be physically integrated into the relay network between FBS A and FBS B, and / or into a radio network controller, and / or into a user's mobile device, which may include PDA, PDAs, cell phones, SIP phones, handheld devices with wireless access or other processor devices connected to a wireless modem or similar device that provides wireless communication with this processor device, as well as other mobile devices communication using standards and GSM cellular technology, CDMA, WCDMA and WiMax and located within range of the base stations and femtoyacheechnyh interacting with VPN-network and / or Internet network. 2. The method according to claim 1, characterized in that the system comprises a separate device for scheduling packet data transmission, containing a radio network controller (RNC) for receiving information from user equipment, which determines the optimal values of the transmission parameters from user equipment to the FBS node: power, overview , speed, FBS frequencies, support for simultaneous sessions, SIP support, monitoring of connection parameters, including congestion. 3. A method for controlling a system of a wireless local scalable access and relay radio network based on FBS, which comprises a router with a built-in VPN client connected to the FBS for the rapid exchange of information and packet data with this router, thereby providing interactive communication between the equipment and user devices in within the FBS coverage area and providing interactive communication between this FBS, this built-in router and this user equipment, on the one hand, and VPN server, IP network and macrocellular network, on the other hand, this user equipment is operatively connected and exchanges packet data with this VPN network via this IP network, and this VPN server is able to quickly transmit cellular traffic of the macrocell network. 4. A method for providing FBS nodes and a network of these nodes with a relay network in order to provide an interface between all kinds of mobile devices of a user and a macrocell network, including: - the formation of communication between one of the various mobile devices of the user and the first FBS; - the formation of communication between the first FBS and the neighboring FBS; - routing at least part of the cellular traffic associated with this communication connection to the address of the macrocell network through the neighboring FBS. 5. The method according to claim 4, characterized in that the neighboring FBS is designed to route cellular traffic between one of various mobile devices of the user and the macrocell network; the first FBS provides the most optimal simultaneous transmission power and / or interference characteristics for communication compared to direct communication between this mobile device and the neighboring FBS. 6. The method according to claim 4, characterized in that it also includes at least one of the following functions: routing part of the traffic associated with communication with the macrocell network via the Internet; and / or compensation to the owner of the first FBS for at least part of the time and / or width of the spectrum involved, necessary for routing at least part of the traffic to the macrocell network, through at least the first FBS. 7. The method according to claim 4, characterized in that it also includes receiving at least the rest of the cellular traffic associated with communication directly in the neighboring FBS; directing the rest of the traffic to the macrocell network via a DSL line, and / or IP cable connection, and / or BPL broadband connection, designed to transfer cellular traffic to the address of the mobile device. 8. The method according to claim 4, characterized in that it also includes routing part of the traffic associated with communication to the address of the macrocell network through one or more additional FBS. 9. The method according to claim 4, characterized in that it also includes determining a connection map and traffic transmission routes between the first FBS and the neighboring FBS, and then providing this card associated with the first FBS to one of the RNC controllers.