US20110030035A1

US20110030035A1 - Method of managing authorization of private node b in a wireless communication system and related device

Info

Publication number: US20110030035A1
Application number: US12/533,007
Authority: US
Inventors: Chih-Hsiang Wu
Original assignee: HTC Corp
Current assignee: HTC Corp
Priority date: 2009-07-31
Filing date: 2009-07-31
Publication date: 2011-02-03
Also published as: US20120210400A1; CN101990278A; US20140010164A1; US9191816B2; CN101990278B; TW201105150A; TWI543643B

Abstract

A method of managing authorization of a private node-B for a packet core network terminal of a wireless communication system includes determining authorization validity of the private node-B according to network information and licensed band coverage of the private node-B, and then rejecting the authorization of the private node-B when the network information of the private node-B is out of the licensed band coverage of the private node-B.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention
The present invention relates to methods and devices utilized in a wireless communication system, and more particularly, to methods and devices utilized in the wireless communication system for controlling selection for home cells.
2. Description of the Prior Art
A System Architecture Evolution (SAE) system, set forth by 3GPP (3rd Generation Partnership Project) is a packet core network architecture for UMTS (Universal Mobile Telecommunications System), addressing cost-efficient deployment and operations for mass-market usage of IP services. The main network evolutions include meeting the targets for a radio-interface of a long term evolution (LTE) system, simplified network architecture, an AII-IP Network, only packet switched means for all services, no circuit switching, and support for mobility and service continuity between heterogeneous access networks, such as between 2G/3G, LTE, non-3GPP access systems.
The SAE core network, or an evolved packet system (EPS) core network, includes an MME (Mobility Management Entity), an S-GW (Serving Gateway) and a P-GW (PDN gateway). The MME is a control plane entity that manages the attachment to the network, the authentication of the user equipment (UE), and interfaces an E-RAN (evolved radio access network) for the creation of relevant radio bearers. The S-GW is a user plane entity handling packet forwarding uplink and downlink between the PDN gateway and the radio environment (e.g. E-RAN). The S-GW is always located in the network where the UE is camping.
Functions of the SAE include the Non-Access-Stratum (NAS) functions to be performed by the UE in idle mode, the NAS signaling procedures between the UE and an evolved packet core network (EPC) via an E-UTRAN (evolved UMTS radio access network) including eNBs (evolved Node-Bs), and layer 3 signaling procedures between the UE and the EPC via non-3GPP access networks.
Under NAS functions, home cell deployments are defined as a single eNB used in a building or a small group of cells, e.g. in a campus deployment. Access to home cells is restricted to particular subscribers. In home cell deployments, a CSG (closed subscriber group) cell as part of the PLMN (public land mobile network) is only suitable for a UE if an id of the CSG cell is in a whitelist of the UE. The whitelist is a list of CSG cell ids where the UE is allowed to camp.
In the home cell deployments, a CSG area is defined as a tracking area (TA) that consists of a cell or group of cells to which access is restricted to a defined group of users. An eNB, which belongs to a CSG area, sends the CSG cell area identity to the MME whenever authorization needs to be checked in the MME.
A private node-B usually owned by an individual is normally deployed in the home network to provide services for CSG subscribers. In provision of CSG business, a user attempting to be a CSG subscriber goes to an operator's store to subscribe the CSG services and thereby gets a private node-B. The user can use the private node B at home via Internet. The private node-B is set to communicate to the operator's EPS core network via IP connection. The private node B and the EPS core network (i.e. the MME or the Serving Gateway) authorize each other.
However, the user possibly takes the private node B out of the home network coverage, and the prior art does not specify how the private node-B and the EPS deal with this situation. AS a result, the private node B used in unauthorized area works in the same way as in home network coverage. In this situation, the private node-B may use a frequency band that belongs to other operators for data transmission. This is an illegal usage and makes interference to frequency bands licensed for other operators.

SUMMARY OF THE INVENTION

The present invention therefore provides a method and related communication device of controlling managing authorization of a private node-B of a wireless communication system that can avoid an illegal usage of the private node-B in an unauthorized area.
The present invention discloses a method of managing authorization of a private node-B for a packet core network terminal of a wireless communication system. The method includes determining authorization validity of the private node-B according to network information of the private node-B and licensed band coverage of the private node-B, and then rejecting the authorization of the private node-B when the network information of the private node-B is out of the licensed band coverage of the private node-B.
The present invention further discloses a communication device of a wireless communication system for managing authorization of a private node-B to avoid illegal usage of the private node-B. The communication device includes a processor, a communication interfacing unit, a control unit, a computer readable recording medium. The processor is used for processing storage data. The communication interfacing unit is used for exchanging signals with the private node-B. The control unit is coupled to the processor and communication interfacing unit and used for controlling the communication interfacing unit and the communication device according to processing results of the processor. The computer readable recording medium is coupled to the processor and used for storing the storage data. The storage data includes program code for determining authorization validity of the private node-B according to network information of the private node-B and licensed band coverage of the private node-B, and program code for rejecting the authorization of the private node-B when the network information of the private node-B is out of the licensed band coverage of the private node-B.
The present invention further discloses a method of managing authorization of a private node-B coupled to a packet core network terminal in a wireless communication system. The method includes performing positioning measurement for the private node-B to generate a position information of the private node-B, providing the position information for the packet core network terminal, determining authorization validity of the private node-B according to the position information and home network coverage of the private node-B, and then rejecting the authorization of the private node-B when the position information indicates that the private node-B is located out of the home network coverage.
The present invention further discloses a communication device of a wireless communication system for managing authorization of a private node-B to avoid illegal usage of the private node-B. The communication device includes a processor, a communication interfacing unit, a control unit and a computer readable recording medium. The processor is used for processing storage data. The communication interfacing unit is used for exchanging signals with a peer communication device. The control unit is coupled to the processor and communication interfacing unit, and used for controlling the communication interfacing unit and the communication device according to processing results of the processor. The computer readable recording medium is coupled to the processor and used for storing the storage data. The storage data includes program code for performing positioning measurement for the private node-B to generate a position information of the private node-B, program code for providing the position information for the packet core network terminal, program code for determining authorization validity of the private node-B according to the position information and home network coverage of the private node-B, and program code for rejecting the authorization of the private node-B when the position information indicates that the private node-B is located out of the home network coverage.
The present invention further discloses a method of managing authorization of a private node-B in a wireless communication system. The method includes performing cell searching, when a cell is found, reading system information corresponding to the cell, and then determining authorization validity of the private node-B according to the system information and licensed band area corresponding to the private node-B.
The present invention further discloses a communication device of a wireless communication system for managing authorization of a private node-B to avoid illegal usage of the private node-B. The communication device includes a processor, a communication interfacing unit, a control unit and a computer readable recording medium. The processor is used for processing storage data. The communication interfacing unit is used for exchanging signals with a peer communication device. The control unit is coupled to the processor and communication interfacing unit, and used for controlling the communication interfacing unit and the communication device according to processing results of the processor. The computer readable recording medium is coupled to the processor and used for storing the storage data. The storage data includes program code for performing cell searching, program code for, when a cell is found, reading system information corresponding to the cell, and program code for determining authorization validity of the private node-B according to the system information and licensed band area corresponding to the private node-B.
These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of a communication device according to embodiments of the present invention.

FIG. 2 is a flowchart of a process according to an embodiment of the present invention.

FIG. 3 is a flowchart of a process according to an embodiment of the present invention.

FIG. 4 is a flowchart of a process according to an embodiment of the present invention.

FIG. 5 is a flowchart of a process according to an embodiment of the present invention.

FIG. 6 is a flowchart of a process according to an embodiment of the present invention.

DETAILED DESCRIPTION

Please refer to FIG. 1, which illustrates a schematic diagram of a communication device 10 according to embodiments of the present invention. The communication device 10 is preferably used in wireless communication system employing a system architecture evolution (SAE) core network and includes a processor 100, a computer readable recording medium 110, a communication interfacing unit 120 and a control unit 130. The computer readable recording medium 110 is any data storage device that stores storage data 112, including program code and related parameters, and the storage data 112 is thereafter read and processed by the processor 100. Examples of the computer readable recording medium 110 include read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tapes, hard disks, optical data storage devices, and carrier waves (such as data transmission through the Internet). The control unit 130 controls the communication interfacing unit 120 and related operations and states of the communication device 10 according to processed results of the process 100. The communication interfacing unit 120 is responsible for exchanging signals with a peer communication device which represents a communication device performs functions of a peer communication protocol.
The communication device 10 can be used in an EPS (evolved packet system) network device, such as an MME (Mobility Management Entity) or an S-GW (Serving Gateway), a Node-B in a UTRAN (UMTS radio access network), or an evolved Node-B in an E-UTRAN (evolved UTRAN). When the communication device 10 is used in the core network device, the communication device 10 exchanges signals from a NB (Node-B) or an eNB (evolved Node-B) with the communication interfacing unit 120 via cable, xDSL, or other IP access technologies. When the communication device 10 is used in the NB or eNB, a radio interface function is provided in the communication interfacing unit 120 for wireless signal exchange in addition to signal exchange with the core network device.
Please refer to FIG. 2, which illustrates a flowchart of a process 20 according to an embodiment of the present invention. The process 20 is applied to an EPS network for managing authorization of a private node-B. The process 20 can be compiled into the program code of the storage data 112 of FIG. 1 and includes the following steps:
Step 200: Start.
Step 202: Determine authorization validity of the private node-B according to network information and the licensed band coverage of the private node-B.
Step 204: Reject the authorization of the private node-B when the network information of the private node-B is out of the licensed band coverage of the private node-B.
Step 206: End.
According to the process 20, the EPS network knows the network information of the private node-B when the private node-B connects to the EPS network via a cable, xDSL or other IP (Internet Protocol) access technologies. Then, the EPS network determines the authorization validity of the private node-B according to network information and licensed band coverage. When the network information is determined to be out of the licensed band coverage, the EPS network rejects the authorization of the private node-B. On the contrary, when the network information is determined to be in the licensed band coverage, the EPS network accepts the authorization of the private node-B. Preferably, the network information used for the determination of authorization is an IP address of the private node-B, and the licensed band coverage includes a valid range of IP addresses for the private node-B.
Therefore, through the process 20, the EPS network can prevent the user from using the private node-B in an unauthorized area with the IP address.
Please refer to FIG. 3, which illustrates a flowchart of a process 30 according to an embodiment of the present invention. The process 30 is utilized for managing authorization of a private node-B coupled to an EPS network terminal that stores home network coverage indicating valid accessible geographical coverage of the private node-B. The process 30 can be compiled into the program code of the storage data 112 of FIG. 1 and includes the following steps:
Step 300: Start.
Step 302: The private node-B performs positioning measurement to generate position information of the private node-B.
Step 304: The private node-B provides the position information for the EPS network terminal.
Step 306: The EPS network terminal determines authorization validity of the private node-B according to the position information and the home network coverage of the private node-B.
Step 308: The EPS network terminal rejects the authorization of the private node-B when the position information indicates that the private node-B is located out of the home network coverage.
Step 310: End.
According to the process 30, the private node-B provides the EPS network with its position information revealing geographical information of the private node-B. After receiving the position information, the EPS network terminal determines authorization validity of the private node-B according to the position information and the home network coverage. When the position information indicates that the private node-B is located out of the home network coverage, the EPS network terminal rejects the authorization of the private node-B. Preferably, the Node-B performs positioning measurement by means of a GPS (global positioning) system.
Therefore, the process 30 utilizes the geographical information of the private node-B to determine whether to grant authorization to the private node-B.
Please refer to FIG. 4, which illustrates a flowchart of a process 40 according to an embodiment of the present invention. The process 40 is utilized for a private node-B including predetermined licensed band area to manage its authorization. The process 40 can be compiled into the program code of the storage data 112 of FIG. 1 and includes the following steps:
Step 400: Start.
Step 402: Perform cell searching in a radio access network.
Step 404: When a cell is found in the radio access network, read system information corresponding to the cell.
Step 406: Determine authorization validity according to the system information and licensed band area corresponding to the private node-B.
Step 408: End.
According to the process 40, the private node-B performs cell searching in the radio access network when powering on. When any cell is found, the private node-B reads the system information of the cell and then determines its authorization validity according to the system information and the licensed band area.
Preferably, the private node-B stops performing cell searching and reading the system information when the system information of the found cell indicates that the private node-B is located in the licensed band area. On the contrary, when the system information indicates that the private node-B is out of the licensed band area, this means that the private node-B is used in the unauthorized area. In this situation, the private node-B keeps its transmitting functions deactivated. In other words, the private node-B does not perform any data transmission. Alternatively, the private node-B uses a license-free band, which does not make interference to frequency bands of other operators, for data transmission.
Preferably, the cell is a macro cell in a GSM EDGE radio access network (GERAN), a UMTS radio access network (UTRAN) or an evolved UMTS radio access network (E-UTRAN). When the cell is a GERAN or UTRAN cell, the read system information is a public land mobile network (PLMN) identity, a location area code (LAC) or a routing area code (RAC). When the cell is an E-UTRAN cell, the read system information is corresponding PLMN identity or Tracking Area Code (TAC).
Please refer to FIG. 5, which illustrates a flowchart of a process 50 according to an embodiment of the present invention. The process 50 is utilized for managing authorization of a private node-B coupled to EPS network including predetermined licensed band area of the private node-B. The process 50 can be compiled into the program code of the storage data 112 of FIG. 1 and includes the following steps:
Step 500: Start.
Step 502: The private node-B performs cell searching in a radio access network.
Step 504: When a cell is found, the private node-B reads system information including a PLMN identity of the cell.
Step 506: The private node-B sends the PLMN identity to the EPS network.
Step 508: The EPS network rejects the authorization of the private node-B when the PLMN identity indicates that the private node-B is out of the licensed band area.
Step 510: End.
According to the process 50, the private node-B reads the PLMN identity from the found cell, which is preferably a GERAN, UTRAN, or E-UTRAN cell, and further sends the PLMN identity to the EPS network. After receiving the PLMN identity, the EPS network examines the PLMN identity according to the licensed band area and thereby rejects the authorization of the private node-B when the PLMN identity indicates that the private node-B is out of the licensed band area.
Therefore, the process 50 utilizes the PLMN identity of the cell found by the private node-B to determine whether to grant authorization to the private node-B.
Please refer to FIG. 6, which illustrates a flowchart of a process 60 according to an embodiment of the present invention. The process 60 is utilized for managing authorization of a private node-B coupled to EPS network including predetermined licensed band area of the private node-B. The process 60 can be compiled into the program code of the storage data 112 of FIG. 1 and includes the following steps:
Step 600: Start.
Step 602: The private node-B performs cell searching in a radio access network.
Step 604: When a cell is found, the private node-B reads system information including a PLMN identity, LAC, RAC or TAC of the cell.
Step 606: The private node-B sends the PLMN identity, LAC, RAC or TAC to the EPS network.
Step 608: The EPS network indicates the private node-B to use a license-free band for data transmission when the public land mobile network identity indicates that the private node-B is out of the licensed band area.
Step 610: End.
In the process 60, Steps 600-606, 610 are executed in the same way as Steps 500-506, 510 respectively. Instead of rejecting all possible transmissions of the private node-B in Step 508, the EPS network executing Step 608 allows the private node-B to perform data transmission via the license-free band when the private node-B is used in the unauthorized area. The cell is a GERAN, UTRAN, or E-UTRAN cell.
In conclusion, the embodiments of the present invention avoid the private node B from being used in an unauthorized area by determining the authorization of the private node-B according to network, geographical or cell system information.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention.

Claims

1. A method of managing authorization of a private node-B for a packet core network terminal of a wireless communication system, the method comprising:

determining authorization validity of the private node-B according to network information of the private node-B and licensed band coverage of the private node-B; and

rejecting the authorization of the private node-B when the network information of the private node-B is out of the licensed band coverage of the private node-B.

2. The method of claim 1, wherein the network information of the private node-B comprises an Internet protocol address of the private node-B.

3. The method of claim 2, wherein the licensed band coverage of the private node-B comprises a range of Internet protocol addresses.

4. A communication device of a wireless communication system for managing authorization of a private node-B to avoid illegal usage of the private node-B, the communication device comprising:

a processor for processing storage data;

a communication interfacing unit for exchanging signals with the private node-B;

a control unit coupled to the processor and communication interfacing unit, for controlling the communication interfacing unit and the communication device according to processing results of the processor; and

a computer readable recording medium coupled to the processor, for storing the storage data;

wherein the storage data comprises:

program code for determining authorization validity of the private node-B according to network information of the private node-B and licensed band coverage of the private node-B; and

program code for rejecting the authorization of the private node-B when the network information of the private node-B is out of the licensed band coverage of the private node-B.

5. The communication device of claim 4, wherein the network information of the private node-B comprises an Internet protocol address of the private node-B.

6. The communication device of claim 5, wherein the licensed band coverage of the private node-B comprises a range of Internet protocol addresses.

7. A method of managing authorization of a private node-B coupled to a packet core network terminal in a wireless communication system, the method comprising:

performing positioning measurement for the private node-B to generate position information of the private node-B;

providing the position information for the packet core network terminal;

determining authorization validity of the private node-B according to the position information and home network coverage of the private node-B; and

rejecting the authorization of the private node-B when the position information indicates that the private node-B is located out of the home network coverage.

8. The method of claim 7, wherein the private node-B performing positioning measurement to generate the position information comprises the private node-B performing positioning measurement by means of a global positioning system to generate the position information.

9. A communication device of a wireless communication system for managing authorization of a private node-B to avoid illegal usage of the private node-B, the communication device comprising:

a processor for processing storage data;

a communication interfacing unit for exchanging signals with a peer communication device;

wherein the storage data comprises:

program code for performing positioning measurement for the private node-B to generate position information of the private node-B;

program code for providing the position information for the packet core network terminal;

program code for determining authorization validity of the private node-B according to the position information and home network coverage of the private node-B; and

program code for rejecting the authorization of the private node-B when the position information indicates that the private node-B is located out of the home network coverage.

10. The communication device of claim 9, wherein the program code for the private node-B performing positioning measurement to generate the position information comprises the private node-B performing positioning measurement by means of a global positioning system to generate the position information.

11. A method of managing authorization of a private node-B in a wireless communication system, the method comprising:

performing cell searching;

when a cell is found, reading system information corresponding to the cell; and

determining authorization validity of the private node-B according to the system information and licensed band area corresponding to the private node-B.

12. The method of claim 11, wherein the cell is a macro cell.

13. The method of claim 11 further comprising stopping performing cell searching and reading corresponding system information when the system information indicates that the private node-B is located in the licensed band area.

14. The method of claim 11, wherein the cell belongs to a GSM EDGE radio access network or a UMTS radio access network.

15. The method of claim 14, wherein, when the cell is found, reading the system information corresponding to the cell comprising reading a public land mobile network identity included in the system information corresponding to the cell when the cell is found.

16. The method of claim 15, wherein determining authorization validity of the private node-B according to the system information and the licensed band area corresponding to the private node-B comprises:

coupling the private node-B with a packet core network of the wireless communication system;

sending the public land mobile network identity to the packet core network; and

rejecting the authorization of the private node-B when the public land mobile network identity indicates that the private node-B is out of the licensed band area.

17. The method of claim 15, wherein determining authorization validity of the private node-B according to the system information and the licensed band area corresponding to the private node-B comprises:

sending the public land mobile network identity to the packet core network; and

indicating the private node-B to use a license-free band for data transmission when the public land mobile network identity indicates that the private node-B is out of the licensed band area.

18. The method of claim 14, wherein, when the cell is found, reading the system information corresponding to the cell comprising reading a location area code included in the system information corresponding to the cell when the cell is found.

19. The method of claim 14, wherein, when the cell is found, reading the system information corresponding to the cell comprising reading a routing area code included in the system information corresponding to the cell when the cell is found.

20. The method of claim 11, wherein the cell belongs to an evolved UMTS radio access network.

21. The method of claim 20, wherein, when the cell is found, reading the system information corresponding to the cell comprises reading a public land mobile network identity included in the system information corresponding to the cell when the cell is found.

22. The method of claim 21, wherein determining authorization validity of the private node-B according to the system information and the licensed band area corresponding to the private node-B comprises:

sending the public land mobile network identity to the packet core network; and

23. The method of claim 21, wherein determining authorization validity of the private node-B according to the system information and the licensed band area corresponding to the private node-B comprises:

sending the public land mobile network identity to the packet core network; and

24. The method of claim 20, wherein when the cell is found reading the system information corresponding to the cell comprises reading a tracking area code included in the system information corresponding to the cell when the cell is found.

25. The method of claim 11 further comprising keeping transmitting functions of the private node B deactivated when the system information indicates that the private node-B is out of the licensed band area.

26. The method of claim 11 further comprising using a license-free band for data transmission of the private node B when the system information indicates that the private node-B is out of the licensed band area.

27. A communication device of a wireless communication system for managing authorization of a private node-B to avoid illegal usage of the private node-B, the communication device comprising:

a processor for processing storage data;

wherein the storage data comprises:

program code for performing cell searching;

program code for, when a cell is found, reading system information corresponding to the cell; and

program code for determining authorization validity of the private node-B according to the system information and licensed band area corresponding to the private node-B.

28. The communication device of claim 27, wherein the cell is a macro cell.

29. The communication device of claim 27, wherein the storage data further comprises program code for stopping performing cell searching and reading corresponding system information when the system information indicates that the private node-B is located in the licensed band area.

30. The communication device of claim 27, wherein the cell belongs to a GSM EDGE radio access network or a UMTS radio access network.

31. The communication device of claim 30, wherein the program code for, when the cell is found, reading the system information corresponding to the cell comprises reading a public land mobile network identity included in the system information corresponding to the cell when the cell is found.

32. The communication device of claim 31, wherein the program code for determining authorization validity of the private node-B according to the system information and the licensed band area corresponding to the private node-B comprises:

sending the public land mobile network identity to the packet core network; and

33. The communication device of claim 31, wherein the program code for determining authorization validity of the private node-B according to the system information and the licensed band area corresponding to the private node-B comprises:

sending the public land mobile network identity to the packet core network; and

34. The communication device of claim 30, wherein the program code for, when the cell is found, reading the system information corresponding to the cell comprises reading a location area code included in the system information corresponding to the cell when the cell is found.

35. The communication device of claim 30, wherein the program code for, when the cell is found, reading the system information corresponding to the cell comprises reading a routing area code included in the system information corresponding to the cell when the cell is found.

36. The communication device of claim 27, wherein the cell belongs to an evolved UMTS radio access network.

37. The communication device of claim 36, wherein, when the cell is found, reading the system information corresponding to the cell comprising reading a public land mobile network identity included in the system information corresponding to the cell when the cell is found.

38. The communication device of claim 37, wherein the program code for determining authorization validity of the private node-B according to the system information and the licensed band area corresponding to the private node-B comprises:

sending the public land mobile network identity to the packet core network; and

39. The communication device of claim 37, wherein the program code for determining authorization validity of the private node-B according to the system information and the licensed band area corresponding to the private node-B comprises:

sending the public land mobile network identity to the packet core network; and

40. The communication device of claim 36, wherein the program code for, when the cell is found, reading the system information corresponding to the cell comprises reading a tracking area code included in the system information corresponding to the cell when the cell is found.

41. The communication device of claim 27, wherein the storage data further comprises program code for keeping transmitting functions of the private node B deactivated when the system information indicates that the private node-B is out of the licensed band area.

42. The communication device of claim 27, wherein the storage data further comprises program code for using a license-free band for data transmission of the private node B when the system information indicates that the private node-B is out of the licensed band area.