KR101485515B1 - Method of Operating Femto Cell Base Station using Wireless Communication Terminal - Google Patents

Abstract

A method for operating a femtocell base station using a wireless communication terminal, the method comprising the steps of: a) providing at least one wireless communication terminal Forming a femtocell base station by combining relay base stations performing heterogeneous network load balancing; b) establishing a radio zone call between the radio communication terminal and the macro base station and establishing a radio zone call between the radio communication terminal and an operation and maintenance (OAM) server for managing and operating the network; c) transmitting an overhead message to a user terminal in an area of the femtocell base station, the user terminal establishing an RRC connection with the femtocell base station, receiving the macro base station, EPC, Evolved Packet Core) performing call setup with the user terminal through the femtocell base station; And d) the core network establishes a session with the user terminal through the femtocell base station and processes the traffic after allocating resources. Therefore, the present invention can implement a femtocell function in a wireless communication environment, which can greatly reduce the cost of installing and maintaining a wired line.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of operating a femtocell base station using a wireless communication terminal,

The present invention relates to a method of operating a femtocell base station using a wireless communication terminal, and more particularly, to a method of operating a femtocell base station by combining a femtocell base station with a wireless communication terminal and a relay base station, And a method of operating the femtocell base station using the wireless communication terminal.

Femto refers to a very small unit of 10-15, and femtocell means a small / low power home / office indoor base station. It is used in the same sense as a pico cell, but it is used in a more advanced meaning. The femtocell is a small cellular base station connected to a broadband router. It connects the existing 2G and 3G voice and data to the backbone network of the mobile carrier through the DSL link.

Femtocell base stations are intended primarily for users belonging to a particular home or office. The femtocell base stations may be private access or public access. In femtocell base stations that are private access, access is restricted to only certain groups of registered users, e.g., family members or employees. In femtocell base stations with public access, other users may also use the femtocell base station subject to certain constraints to protect the Quality of Service received by registered users.

Meanwhile, an eNB defines a base station called an evolved NodeB (eNB) and a home evolved NodeB (eNB) defined in 3GPP Long Term Evolution (LTE). The eNB governs general macrocells, Is a femto base station that supervises a cell. In a wireless communication system including such an eNB and a home eNB, an eNB connects to a core network using an s1 interface.

Various technologies have been developed and applied to improve the transmission speed and the network delay time of the multimedia data in the LTE system, and the installation of the repeater and the heterogeneous base station is accelerating to expand the LTE service coverage.

However, the operation of RF repeaters and heterogeneous base stations is limited in a specific LTE service area. In other words, the RF repeater applied to the LTE system may experience low throughput or no connection at the mosque station due to its own delay, oscillation may occur, power consumption due to the reception of the mortgage station Is increased.

On the other hand, heterogeneous base stations applied to the LTE system have a limited installation area by using a wired network in a wireless access network (WAN) section. In the case of using a wired network, There is a problem that it takes a lot of maintenance cost.

According to the present invention, a femtocell base station is formed by combining at least one wireless communication terminal and a relay station according to a service environment, and a femtocell function can be implemented in a wireless communication environment by replacing a LAN (WAN) A method of operating a femtocell base station using a wireless communication terminal is provided.

In an exemplary embodiment of the present invention, a method of operating a femtocell base station using a wireless communication terminal includes the steps of:
a) forming a femtocell base station by combining at least one wireless communication terminal with a relay station performing load sharing between heterogeneous networks; b) establishing a radio zone call between the radio communication terminal and the macro base station and establishing a radio zone call between the radio communication terminal and an operation and maintenance (OAM) server for managing and operating the network; c) transmitting an overhead message to a user terminal in an area of the femtocell base station, the user terminal establishing an RRC connection with the femtocell base station, receiving the macro base station, EPC, Evolved Packet Core) performing call setup with the user terminal through the femtocell base station; And d) processing the traffic after the core network establishes a session with the user terminal through the femtocell base station and allocates resources, wherein the step of forming the femtocell base station in step a) comprises: 1) the wireless communication terminal performs a link configuration connection request to the relay base station, and the relay base station performs a response to the link configuration connection request of the wireless communication terminal; a-2) the relay base station re-executes a link configuration connection request to the wireless communication terminal, and the wireless communication terminal performs a response to the link configuration connection request of the relay base station; a-3) when the relay base station transmits a validation confirmation message to the wireless communication terminal, the wireless communication terminal transmits a validation response message using a security algorithm; And a-4) the relay base station compares the validity confirmation message with the validity response message, and when authentication is normally completed, transmits the authentication confirmation message to the wireless communication terminal, and the relay base station and the wireless communication terminal transmit the packet transmission Thereby forming a femtocell base station.

The step (a) may further include the step of dynamically allocating the number of connections of the wireless communication terminals according to a traffic condition of a user terminal connected to the femtocell base station.

In the step a), at least one repeater may be installed between the user terminal and the wireless communication terminal to increase the communication distance by amplifying the signal size.

delete

Meanwhile, a method of operating a femtocell base station using a wireless communication terminal includes the steps of: e) periodically reporting information on a resource consumption and a user terminal in traffic service to the OAM server; And f) reconfiguring resource allocation for the femtocell base station based on resource usage between the macro base station and the femtocell base station and information about a user terminal in traffic service.

Wherein the step a) comprises: providing a femtocell relay service application capable of forming a femtocell base station to the wireless communication terminal through coupling with the relay base station; And the wireless communication terminal stores the femtocell relay service application and is executed according to a coupling command with the relay base station and acquires a synchronization signal of the macro base station and converts the synchronization signal into a synchronization signal of the relay base station .

At this time, the femtocell relay service application is stored in a mobile storage medium or is stored in an internal memory of the wireless communication terminal.

Also, the femtocell relay service application may include an interface module that interfaces with a peripheral device including a multipurpose input / output port (GPIO), a USB port, and an Ethernet port (RJ45). A port driving module for controlling the GPIO port and outputting a control signal for determining an input / output direction when an Ethernet-based data output or data input is required; A modem driving module for driving the communication modem of the wireless communication terminal to connect to the Internet; And a management module connected to the port driving module and the modem driving module to generate an Ethernet based synchronization signal based on the synchronization signal acquired by the communication modem and transmit the generated synchronization signal to the relay base station.

When the femtocell base station uses the same frequency as the macro base station, the femtocell base station continuously monitors the radio signal of the macro base station and synchronizes with the best radio signal. The femtocell base station monitors the OAM server, The number of users, and the number of users.

When the femtocell base station uses a heterogeneous frequency with the macro base station, the femtocell base station sets a priority for the used frequency, checks the quality of the received signal of the macro base station, And the OAM server notifies a change to a new frequency based on the frequency information of the macro base station and the neighbor base station and transmits the changed frequency information to the macro base station and the neighbor base station, .

A method of operating a femtocell base station using a wireless communication terminal includes combining a femtocell base station by combining at least one wireless communication terminal and a relay base station according to a service environment and replacing a LAN (WAN) section of the femtocell base station with a wireless communication terminal The femtocell function can be implemented in a wireless communication environment. Therefore, it is possible to greatly reduce the cost of installing and maintaining the wired line.

In addition, the present invention can dynamically adjust a wireless communication terminal according to a traffic situation of a user terminal connected to a femtocell, convert the use frequency of the wireless communication terminal and the macro base station to the same frequency or different frequency, There is an effect that cell interference can be eliminated while combining the received signals to improve the transmission speed.

1 is a diagram illustrating a network configuration to which a method of operating a femtocell base station using a wireless communication terminal according to an embodiment of the present invention is applied.
2 is a view for explaining a configuration of the femtocell base station of FIG.
3 is a diagram for explaining the configuration of the network processing unit of FIG.
4 is a flowchart illustrating a process of connecting a wireless communication terminal and a relay station in the femtocell base station of FIG.
5 is a flowchart illustrating an operation method of a femtocell base station using a wireless communication terminal according to an embodiment of the present invention.
FIG. 6 is a view for explaining a frequency use state when the wireless communication terminal and the macro base station of FIG. 1 use the same frequency. FIG.
FIG. 7 is a view for explaining a frequency use state when the radio communication terminal and the macro base station of FIG. 1 use different frequencies. FIG.

The description of the present invention is merely an example for structural or functional explanation, and the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied and having various forms, so that the scope of the present invention should be understood to include equivalents capable of realizing technical ideas. Also, the purpose or effect of the present invention should not be construed as limiting the scope of the present invention, since it does not mean that a specific embodiment should include all or only such effect.

Meanwhile, the meaning of the terms described in the present invention should be understood as follows.

The terms "first "," second ", and the like are intended to distinguish one element from another, and the scope of the right should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

It is to be understood that when an element is referred to as being "connected" to another element, it may be directly connected to the other element, but there may be other elements in between. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that there are no other elements in between. On the other hand, other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

It should be understood that the singular " include "or" have "are to be construed as including a stated feature, number, step, operation, component, It is to be understood that the combination is intended to specify that it does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

In each step, the identification code (e.g., a, b, c, etc.) is used for convenience of explanation, the identification code does not describe the order of each step, Unless otherwise stated, it may occur differently from the stated order. That is, each step may occur in the same order as described, may be performed substantially concurrently, or may be performed in reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used predefined terms should be interpreted to be consistent with the meanings in the context of the related art and can not be interpreted as having ideal or overly formal meaning unless explicitly defined in the present invention.

1 is a diagram illustrating a network configuration to which a method of operating a femtocell base station using a wireless communication terminal according to an embodiment of the present invention is applied.

1, a network system to which a method of operating a femtocell base station using a wireless communication terminal is applied is configured such that a macro base station 150 relays a user terminal UE to an LTE system 100. The LTE system 100 includes an OAM (Operation and Maintenance) server 110, an EPC (Evolved Packet Core) 120, and a Sunnet gateway 130.

The OAM server 110 plays a role of configuration management and operation maintenance of the domain network, and the EPC 120 accommodates the macro base station 150. The macro base station 150 performs connection, accounting / authentication, and handover management between the user terminal UE and the SGW as an eNodeB.

Meanwhile, HetNET (Heterogeneous Network) deploys small cells such as remote radio equipment (RRH), pico base station, repeater, and femtocell base station according to the number of users and traffic demand in a specific area within a macro cell area, And improve the service quality of the UE located in the cell boundary region.

The EPC 120 includes a Serving GPRS Support Node (SGSN), a Mobility Management Entity (MME), a Serving Gateway (SGW), a Packet Data Network Gateway (PGW), a Home Subscriber Server (HSS), a Policy Charging Rules Policy Charging and Rules Function).

The SGSN performs call control of the user terminal UE connected to the 3G communication network and the MME performs the signal control and routing decision between the macro base station 150 and the SGW and the SGW performs the signaling and routing decision between the macro base station 150 and the 3GPP / E- The PGW performs terminal movement control between the LTE and the Non-3GPP network, and the HSS performs subscriber location information and subscriber authentication. PCR and PCRF allow wireless operators to optimize their network resources to increase profitability and provide integrated policy management.

The femtocell base station 200 includes a relay station 220 for relaying a signal between the macro base station 150 and the user terminal UE and distributing load between the wireless communication terminal 210 and the heterogeneous network.

2 is a view for explaining a configuration of the femtocell base station of FIG.

2, the femtocell base station 200 includes a wireless communication terminal 210, a relay station 220, an RF repeater 230, and a network processor 240.

The wireless communication terminal 210 includes a PDA, a smart phone, a tablet PC, a handheld PC, a notebook, a DMB terminal, and an LTE-based web terminal, which are built into the LTE modem 201, .

The relay base station 220 is connected to the wireless communication terminal 210 through an Ethernet supporting IEEE 1588.

At least one of the RF repeater 230 may be connected to the wireless communication terminal 210 so as to amplify the signal magnitude between the user terminal UE and the wireless communication terminal 210 to increase the communication distance. Therefore, the RF repeater 230 can improve the RF performance of the wireless communication terminal 210. [

The network processing unit 240 performs synchronization and connection functions in the femtocell base station 200 so that the wireless communication terminal 210 can replace the LAN section. The network processing unit 240 may be stored in the internal memory of the wireless communication terminal 210 as a femtocell relay service application and may be connected to the wireless communication terminal 210 through a moving storage medium such as a USB.

3 is a diagram for explaining the configuration of the network processing unit of FIG.

3, the network processing unit 240 includes an interface module 241, a port driving module 242, a modem driving module 243, and an LTE management module 244. [

The interface module 241 interfaces with a peripheral device including a GPIO, a USB port and an Ethernet port RJ45. The GPIO and the USB are connected to the LTE modem 201 and the RJ 45 is connected to the relay base station 220 ).

The port driving module 242 controls the GPIO port, and outputs a control signal for determining the input / output direction when data output to the Ethernet switch or data input is required.

The modem drive module 243 drives the LTE modem 201 to connect to the Internet via TCP / IP.

The management module 244 is connected to the port driving module 242 and the modem driving module 243 to perform synchronization and connection management. That is, when the synchronization signal of the macro base station 150 acquired by the LTE modem 201 is transmitted through the GPIO port, the management module 244 generates an IEEE 1588 signal based on the synchronization signal and transmits the signal to the relay station 220 do.

4 is a flowchart illustrating a process of connecting a wireless communication terminal and a relay station in the femtocell base station of FIG.

4, the wireless communication terminal 210 requests a link configuration request to the relay base station 220 (Link Configuration Request), and the relay base station 220 requests the link configuration connection request of the wireless communication terminal 210 (Link Configuration Ack).

The relay base station 220 re-executes the link configuration connection request to the wireless communication terminal 210 and the wireless communication terminal 210 performs a response to the link configuration connection request of the relay base station 220.

When the relay base station 220 transmits a challenge acknowledgment message (CHAP) / a password authentication protocol (PAP) to the wireless communication terminal 210, the wireless communication terminal 210 transmits a hash function or other security algorithm And transmits the calculated value to the relay station 220 using a validation response message (CHAP / PAP Response).

The relay base station 220 compares the authentication value sent through the validation confirmation message with the value calculated by the wireless communication terminal 210 through the validation response message, and transmits a CHAP / PAP Authentication OK message to the wireless communication terminal 210. [ And transmits the packet to the relay station 210 and the packet transmission between the relay station 220 and the wireless communication terminal 210, thereby forming the femtocell base station 200.

5 is a flowchart illustrating an operation method of a femtocell base station using a wireless communication terminal according to an embodiment of the present invention.

5, a method of operating a femtocell base station using a wireless communication terminal includes combining a wireless communication terminal 210 and a relay base station 220 to form a femtocell base station 200, (RRC) connection between the base stations 150. At this time, the Access Class Priority of the wireless communication terminal 210 to the macro base station 150 is set to a high priority, thereby distinguishing it from the general terminal.

The wireless communication terminal 210 sets up a call between the MMEs, and the PCRF sets a session based on the PCR information, and then allocates the AMBR and the ARP to the wireless communication terminal 210. The PGW allocates resources to the relay station 220. [ The OAM server 110 combines the macro base station 150 and the PCI of the adjacent relay station 220 to generate a PCI that does not collide with the reference signal and allocates the generated PCI to the relay station 220. The relay base station 220 transmits signals such as PSS, SSS, and PBCH.

The femtocell base station 200 transmits an overhead to a user terminal UE in an area of the femtocell base station 200. The user terminal UE establishes an RRC connection with the femtocell base station 200 for an LTE service, The terminal UE performs call setup between the MMEs.

The PCRF sets a session based on the PCR information, allocates the AMBR and the ARP to the user terminal (UE), and the PGW allocates resources to the user terminal (UE). At this time, the wireless communication terminal 210 transmits the wireless environment to the relay station 220.

The femtocell base station 200 periodically reports information on resource consumption and user terminals in traffic service to the OAM server 110. The OAM server reports resource usage and traffic service between the macro base station 150 and the femtocell base station 200 And resets the resource allocation to the femtocell base station 200 based on information on the number of UEs.

FIG. 6 is a view for explaining a frequency use state when the radio communication terminal of FIG. 1 and the macro base station use the same frequency, FIG. 7 is a view for explaining the frequency use state when the radio communication terminal and the macro base station of FIG. to be.

Referring to FIGS. 6 and 7, the wireless communication terminal 210 can dynamically adjust the number of connections according to traffic conditions of a user terminal (UE) connected to the femtocell base station 200 in about 1 to 4 modules in a module form The wireless communication terminal 210 may set the frequency of use with the macro base station 150 to the same frequency or different frequency so as to improve the transmission rate by combining signals received from other base stations, .

6, when the wireless communication terminal 210 uses the same frequency as that of the macro base station 150, the relay base station 220 continuously monitors the RF signal and synchronizes the signal of the best base station And periodically exchanges information about the OAM server 110, resource usage, and the number of user terminals. At this time, the OAM server 110 automatically adjusts the resource usage amount when the information on the resource usage and the number of the user terminals becomes higher than the standard.

Next, as shown in FIG. 7, when the wireless communication terminal 210 uses the heterogeneous frequency with the macro base station 150, the relay base station 220 sets the priority for the used frequency. The relay base station 220 confirms the quality of the reception signal of the base station and reports it to the OAM server 110 when the quality of the reception signal is lower than the reference value.

The OAM server 110 notifies the wireless communication terminal 210 of the change to the new frequency based on the frequency information of the macro base station 150 and the neighbor base station 150. The changed frequency information is transmitted to the OAM server and the neighbor base station, Off is normally performed.

The femtocell base station 200 according to an embodiment of the present invention may be installed indoors or outdoors in a building requiring a relay service.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

100: LTE system 110: OAM server
120: EPC 150: macro base station
200: femtocell base station 210: wireless communication terminal
220: Relay base station 230: RF repeater
240: Network processor

Claims (10)

A method for operating a femtocell base station using a wireless communication terminal that relays signals between a macro base station and a user terminal,
a) forming a femtocell base station by combining at least one wireless communication terminal with a relay station performing load sharing between heterogeneous networks; b) establishing a radio zone call between the radio communication terminal and the macro base station and establishing a radio zone call between the radio communication terminal and an operation and maintenance (OAM) server for managing and operating the network; c) transmitting an overhead message to a user terminal in an area of the femtocell base station, the user terminal establishing an RRC connection with the femtocell base station, receiving the macro base station, EPC, Evolved Packet Core) performing call setup with the user terminal through the femtocell base station; And d) the core network establishes a session with the user terminal through the femtocell base station, processes the traffic after allocating resources,
The step of forming the femtocell base station in the step a)
a-1) the wireless communication terminal performs a link configuration connection request to the relay base station, and the relay base station performs a response to the link configuration connection request of the wireless communication terminal;
a-2) the relay base station re-executes a link configuration connection request to the wireless communication terminal, and the wireless communication terminal performs a response to the link configuration connection request of the relay base station;
a-3) when the relay base station transmits a validation confirmation message to the wireless communication terminal, the wireless communication terminal transmits a validation response message using a security algorithm; And
The relay base station compares the validity confirmation message with the validity response message and transmits an authentication acknowledgment message to the wireless communication terminal when authentication is normally completed, and the relay base station and the wireless communication terminal perform packet transmission And forming a femtocell base station by using the femtocell base station.
The method according to claim 1,
Wherein the step (a) further includes the step of dynamically allocating the number of connections of the wireless communication terminals according to traffic conditions of a user terminal connected to the femtocell base station.
The method according to claim 1,
The method of claim 1, wherein the step (a) further comprises the step of amplifying a signal size between the user terminal and the wireless communication terminal to increase a communication distance, wherein at least one repeater can be installed in the femtocell base station .
delete The method according to claim 1,
e) the femtocell base station periodically reports resource consumption and information on a user terminal in traffic service to the OAM server; And
f) reconfiguring resource allocation for the femtocell base station based on resource usage between the macro base station and the femtocell base station and information about a user terminal in traffic service, the OAM server comprising: A method for operating a femtocell base station.
The method of claim 1, wherein the step a)
The OAM server providing a femtocell relay service application capable of forming a femtocell base station to the wireless communication terminal through coupling with the relay base station; And
The wireless communication terminal may further include a step of storing the femtocell relay service application, executing the command in association with the relay base station, acquiring a synchronization signal of the macro base station, and converting the synchronization signal into a synchronization signal of the relay base station Wherein the femtocell base station is a mobile station.
The method according to claim 6,
Wherein the femtocell relay service application is stored in a mobile storage medium or is stored in an internal memory of the wireless communication terminal.
The method according to claim 6,
The femtocell relay service application
An interface module that interfaces with peripheral devices including a multipurpose input / output port (GPIO), a USB port, and an Ethernet port (RJ45);
A port driving module for controlling the GPIO port and outputting a control signal for determining an input / output direction when an Ethernet-based data output or data input is required;
A modem driving module for driving the communication modem of the wireless communication terminal to connect to the Internet; And
And a management module connected to the port driving module and the modem driving module to generate an Ethernet-based synchronization signal based on the synchronization signal acquired by the communication modem and transmit the generated synchronization signal to the relay base station. A method of operating a base station.
The method of claim 1, wherein, when the femtocell base station uses the same frequency as the macro base station,
The femtocell base station continuously monitors the radio signal of the macro base station and synchronizes with the best radio signal and adjusts the resource usage by exchanging information on the number of user terminals in traffic service with the OAM server Wherein the femtocell base station comprises:
The method of claim 1, wherein, when the femtocell base station uses a heterogeneous frequency with the macro base station,
Wherein the femtocell base station sets a priority for the used frequency, checks the quality of the received signal of the macro base station, and transmits quality information of the received signal to the OAM server when the fidelity is below a reference value,
Wherein the OAM server notifies a change to a new frequency based on frequency information of the macro base station and a neighbor base station and the modified frequency information is transmitted to the macro base station and the neighbor base station to perform a handoff. A method of operating a femtocell base station using a communication terminal.

Images