CN109076435A - A kind of position verification method and device - Google Patents

Abstract

The embodiment of the present invention provides a kind of position verification method and device, it is related to field of communication technology, it can be improved the precision of the position of verifying Home eNodeB, and without increasing cost, it include: that Home eNodeB obtains verification information, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, at the time of first moment is that the Home eNodeB obtains the verification information；The Home eNodeB sends the verification information to verifying node, the verification information is used to indicate the verifying node and is verified according to the first network topology information or the first identifier set to the position of the Home eNodeB, and this method is applied in the location verification scene of Home eNodeB.

Description

A kind of position verification method and device Technical field

The present invention relates to field of communication technology more particularly to a kind of position verification method and devices.

Background technique

Home eNodeB is a kind of base station for being deployed in family, office or the compact low power in other small coverage areas, including traditional Home eNodeB (English: Home Node B, HNB) and home evolved node B is (English: Home evolved Node B, HeNB), it can be improved the quality of indoor signal, and lower deployment cost is low, enables an operator to provide higher message transmission rate for user.In order to guarantee the safety of Home eNodeB, illegal user is avoided illegally to divert Home eNodeB, cause the economic loss of the owner of the Home eNodeB, when Home eNodeB starting, it needs by verifying node, such as gateway, network management or Operation Support System (English: Operation Support System, the equipment such as OSS), the position of the Home eNodeB is verified, determine whether the Home eNodeB is in effective position, for example, the owner family or the owner office.And operator only provides service to the Home eNodeB in active position.

At present, verifying to the position of Home eNodeB, usually by Home eNodeB by the neighboring BS information of macrocell where the mark of the bandwidth line attachment of the Home eNodeB, the Home eNodeB or by global positioning system (English: Global Positioning System, GPS) location information provided is sent to verifying node, so that verifying node verifies the position of the Home eNodeB.

However, in above-mentioned position verification method, bandwidth line attachment and the macrocell region very wide both for a coverage area, verifying node can only be according to the neighboring BS information of macrocell where the mark of bandwidth line attachment or the Home eNodeB, verify whether the Home eNodeB is moved to other than the region, and it can not accurately verify the Home eNodeB in the area and whether be in effective position, therefore, the method that the position of the Home eNodeB is verified by the neighboring BS information of macrocell where the mark of bandwidth line attachment or the Home eNodeB, verifying Precision is lower.And the position of Home eNodeB is verified by the location information that GPS is provided, although whether can accurately verify Home eNodeB is in effective position, needs dispose GPS device in Home eNodeB, increase cost.

Summary of the invention

The embodiment of the present invention provides a kind of position verification method and device, can be improved the precision of the position of verifying Home eNodeB, and without increasing cost.

In order to achieve the above objectives, the embodiment of the present invention adopts the following technical scheme that

In a first aspect, the embodiment of the present invention provides a kind of position verification method, comprising:

Home eNodeB obtains verification information, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of which is that the Home eNodeB obtains the verification information；The Home eNodeB sends the verification information to verifying node, which is used to indicate the verifying node and is verified according to the first network topology information or the first identifier set to the position of the Home eNodeB.

The embodiment of the present invention provides a kind of position verification method, and Home eNodeB, which passes through, is sent to verifying node using the Home eNodeB first network topology information or first identifier set as verification information, so that verifying node verifies the position of the Home eNodeB.Due to the first network topology information and first identifier set (set of the mark for the user equipment currently being connect with the Home eNodeB) of Home eNodeB, it can accurately reflect whether the Home eNodeB is in effective position, without disposing GPS device or other positioning devices, therefore, the position of Home eNodeB is verified by first network topology information or first identifier set, the precision for verifying the position of the Home eNodeB is improved, and without increasing cost.

Optionally, verification information includes first identifier set, Home eNodeB obtains before verification information, this method further include: Home eNodeB periodically obtains second identifier set, the second identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the second moment, at the time of which is that the Home eNodeB obtains the second identifier set；The Home eNodeB sends the second identifier set to verifying node, which is used for the verifying The determining mark with the user equipment of Home eNodeB binding of node；The Home eNodeB receives the notification message of verifying node transmission, which, which is used to indicate the Home eNodeB, stops sending the second identifier set to the verifying node；The Home eNodeB stops sending the second identifier set to the verifying node according to the notification message.

By the optional way, it can be realized and third logo collection is automatically determined by verifying node, carry out manual configuration without network O&M personnel.

Second aspect, the embodiment of the present invention provide a kind of position verification method, comprising:

It verifies node and receives the verification information that Home eNodeB is sent, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of which is that the Home eNodeB obtains the verification information；The verifying node verifies the first network topology information or the first identifier set according to the verification condition saved in the verifying node, is verified with the position to the Home eNodeB.

The embodiment of the present invention provides a kind of position verification method, and verifying node is verified by first network topology information to Home eNodeB or first identifier set, is verified with the position to the Home eNodeB.Due to the first network topology information and first identifier set (set of the mark for the user equipment currently being connect with the Home eNodeB) of Home eNodeB, it can accurately reflect whether the Home eNodeB is in effective position, without disposing GPS device or other positioning devices, therefore, the position of Home eNodeB is verified by first network topology information or first identifier set, the precision for verifying the position of the Home eNodeB is improved, and without increasing cost.

Optionally, verification information includes first network topology information, verification condition includes the second network topological information, verifying node verifies first network topology information or first identifier set according to the verification condition saved in verifying node, include: the verifying node determines whether the first network topology information is identical as second network topological information, wherein, if the first network topology information is identical as second network topology, then the verification information meets the verification condition, if the first network topology information and second network topology be not identical, the verifying Information is unsatisfactory for the verification condition.

Optionally, verification information includes first identifier set, verification condition includes third logo collection, the third logo collection is the set of the mark for the user equipment bound with the Home eNodeB, verifying node verifies first network topology information or first identifier set according to the verification condition saved in verifying node, it include: that the verifying node determines in the first identifier set with the presence or absence of at least one of third logo collection mark, wherein, if there are at least one of third logo collection marks in the first identifier set, then the verification information meets the verification condition, if there is no the marks in the third logo collection in the first identifier set, then the verification information is unsatisfactory for the verification condition.

Optionally, before the verification information for verifying node reception Home eNodeB transmission, this method further include: the verifying node receives the second identifier set that Home eNodeB is sent, the second identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the second moment, at the time of which is that the Home eNodeB obtains the second identifier set；The verifying node sends a notification message after receiving the preset time period after first second identifier set to the Home eNodeB, which, which is used to indicate the Home eNodeB, stops sending the second identifier set to the verifying node；The verifying node determines third logo collection from database, the database includes the accumulative receive number of the verifying node receives in the preset time period each different identification and each different identification, which is the set for adding up receive number in the database and being greater than the mark of preset receive number threshold value.

By the optional way, it can be realized and third logo collection is automatically determined by verifying node, carry out manual configuration without network O&M personnel.

The third aspect, the embodiment of the present invention provide a kind of Home eNodeB, comprising:

Acquiring unit, for obtaining verification information, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of which is that the Home eNodeB obtains the verification information；Transmission unit, for verifying node send the verification information, the verification information be used to indicate the verifying node according to The first network topology information or the first identifier set verify the position of the Home eNodeB.

The embodiment of the present invention provides a kind of Home eNodeB, which can be sent to verifying node using the first network topology information of the Home eNodeB or first identifier set as verification information, so that verifying node verifies the position of the Home eNodeB.Due to the first network topology information and first identifier set (set of the mark for the user equipment currently being connect with the Home eNodeB) of Home eNodeB, it can accurately reflect whether the Home eNodeB is in effective position, without disposing GPS device or other positioning devices, therefore, the position of Home eNodeB is verified by first network topology information or first identifier set, the precision for verifying the position of the Home eNodeB is improved, and without increasing cost.

Optionally, the verification information that acquiring unit obtains includes first identifier set, Home eNodeB further includes receiving unit, the acquiring unit, it is also used to before obtaining verification information, second identifier set is periodically obtained, which is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the second moment, at the time of which obtains the second identifier set for the acquiring unit；Transmission unit is also used to the Home eNodeB to verifying node and sends the second identifier set, and the second identifier set is for the determining mark with the user equipment of Home eNodeB binding of the verifying node；The receiving unit, for receiving the notification message of verifying node transmission, which, which is used to indicate the transmission unit, stops sending the second identifier set to the verifying node；The transmission unit, the notification message for being also used to be received according to the receiving unit stop sending the second identifier set to the verifying node.

Fourth aspect, the embodiment of the present invention provide a kind of verifying node, comprising:

Receiving unit, for receiving the verification information of Home eNodeB transmission, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of which is that the Home eNodeB obtains the verification information；The authentication unit, the verifying first network topology information or first identifier set for being received according to the verification condition saved in the verifying node to the receiving unit are verified, with The position of the Home eNodeB is verified.

The embodiment of the present invention provides a kind of verifying node, which can be verified by first network topology information to Home eNodeB or first identifier set, is verified with the position to the Home eNodeB.Due to the first network topology information and first identifier set (set of the mark for the user equipment currently being connect with the Home eNodeB) of Home eNodeB, it can accurately reflect whether the Home eNodeB is in effective position, without disposing GPS device or other positioning devices, therefore, the position of Home eNodeB is verified by first network topology information or first identifier set, the precision for verifying the position of the Home eNodeB is improved, and without increasing cost.

Optionally, the verification information that receiving unit receives includes first network topology information, verification condition includes the second network topological information, verify node, specifically for determining whether the first network topology information is identical as second network topological information, wherein, if the first network topology information is identical as second network topology, the verifying node then determines that the verification information meets the verification condition, if the first network topology information and second network topology be not identical, which determines that the verification information is unsatisfactory for the verification condition.

Optionally, the verification information that receiving unit receives includes first identifier set, verification condition includes third logo collection, the third logo collection is the set of the mark for the user equipment bound with Home eNodeB, verify node, specifically for determining in the first identifier set with the presence or absence of at least one of third logo collection mark, wherein, if there are at least one of third logo collection marks in the first identifier set, the verifying node then determines that the verification information meets the verification condition, if there is no the marks in the third logo collection in the first identifier set, the verifying node then determines that the verification information is unsatisfactory for the verification condition.

Optionally, verifying node further includes transmission unit and determination unit, receiving unit, it is also used to before receiving the verification information that Home eNodeB is sent, receive the second identifier set of Home eNodeB transmission, the second identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the second moment, at the time of which is that the Home eNodeB obtains the second identifier set；The transmission unit, for sending a notification message after the receiving unit receives the preset time period after first second identifier set to the Home eNodeB, which, which is used to indicate the Home eNodeB, stops sending the second identifier set to the verifying node；Really Order member, for determining third logo collection from database, the database includes the accumulative receive number of the receiving unit receives in the preset time period each different identification and each different identification, which is the set for adding up receive number in the database and being greater than the mark of preset receive number threshold value.

The technical effect of verifying node provided in an embodiment of the present invention may refer to the technical effect of the position verification method of above-mentioned second aspect and each optional way of second aspect, and details are not described herein again.

Wherein, in above-mentioned first aspect into fourth aspect, first order topological relation uses the mark of the Home eNodeB, the port numbers for the port that the Home eNodeB is connect with the level-one cascade device of the Home eNodeB, the port numbers for the port that the level-one cascade device is connect with the Home eNodeB, and the mark characterization of the level-one cascade device, M grades of topological relations use the mark of the M-1 grade cascade device of the Home eNodeB, the port numbers for the port that the M-1 grades of cascade device is connect with the M of Home eNodeB grade cascade device, the port numbers for the port that the M grades of cascade device is connect with the M-1 grades of cascade device, and the mark characterization of the M grades of cascade device, the level-one grade attached device is first cascade device connecting with the Home eNodeB, the M grades of cascade device is the cascade device connecting with the M-1 grades of cascade device, 2≤M ≤ N, M are integer.

Optionally, in above-mentioned first aspect into fourth aspect, verification information can also include in the first neighboring BS information of picocell where the first moment Home eNodeB, in the first moment mark (English: Service Set Identifier of first service collection for detecting of the Home eNodeB,) or the first neighboring BS information and the first SSID SSID.Corresponding verification condition is the second neighboring BS information, the 2nd SSID or the second neighboring BS information and the 2nd SSID.

In this optional way, picocell where Home eNodeB is the picocell that the Home eNodeB is covered, SSID is the title of WiFi, compared to macrocell and the corresponding region of broadband access route, the coverage area of picocell and the coverage area of WiFi are smaller, therefore, the position that Home eNodeB is verified by the first neighboring BS information and the first SSID can be improved the precision of the position of verifying Home eNodeB.

5th aspect, the embodiment of the present invention provide a kind of Home eNodeB, including processor, memory, system bus and communication interface；

For storing computer executed instructions, which passes through the memory with the memory System bus connection, when Home eNodeB operation, which executes the computer executed instructions of memory storage, so that the Home eNodeB executes the position verification method as described in any optional way of first aspect or first aspect.

6th aspect, the embodiment of the present invention provides a kind of storage medium, including computer executed instructions, when the processor of Home eNodeB executes the computer executed instructions, the Home eNodeB executes the position verification method as described in any one optional way of above-mentioned first aspect or first aspect.

7th aspect, the embodiment of the present invention provide a kind of verifying node, including processor, memory, system bus and communication interface；

The memory is for storing computer executed instructions, the processor is connect with the memory by the system bus, when verifying node operation, the processor executes the computer executed instructions of memory storage, so that the verifying node executes the position verification method as described in any optional way of second aspect or second aspect.

Eighth aspect, the embodiment of the present invention provides a kind of storage medium, including computer executed instructions, when the processor for verifying node executes the computer executed instructions, the verifying node executes the position verification method as described in any one optional way of above-mentioned second aspect or second aspect.

9th aspect, the embodiment of the present invention provides a kind of location verification system, including the Home eNodeB as described in the above-mentioned third aspect and the verifying node as described in above-mentioned fourth aspect；Alternatively, including the verifying node as described in terms of the Home eNodeB and the above-mentioned 7th as described in terms of the above-mentioned 5th.

The technical effect of Home eNodeB provided in an embodiment of the present invention may refer to the technical effect of the position verification method of above-mentioned first aspect and each optional way of first aspect, the technical effect of verifying node provided in an embodiment of the present invention may refer to the technical effect of the position verification method of above-mentioned second aspect and each optional way of second aspect, and details are not described herein again.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, the drawings to be used in the description of the embodiments or prior art will be briefly described below, It should be evident that drawings in the following description are only some embodiments of the invention, instead of all the embodiments.

Fig. 1 is a kind of schematic diagram of communication network provided in an embodiment of the present invention；

Fig. 2 is a kind of interaction figure of position verification method provided in an embodiment of the present invention；

Fig. 3 is a kind of structural schematic diagram one of Home eNodeB provided in an embodiment of the present invention；

Fig. 4 is a kind of structural schematic diagram two of Home eNodeB provided in an embodiment of the present invention；

Fig. 5 is a kind of structural schematic diagram one for verifying node provided in an embodiment of the present invention；

Fig. 6 is a kind of structural schematic diagram two for verifying node provided in an embodiment of the present invention；

Fig. 7 is a kind of hardware structural diagram of Home eNodeB provided in an embodiment of the present invention；

Fig. 8 is a kind of hardware structural diagram for verifying node provided in an embodiment of the present invention；

Fig. 9 is a kind of schematic diagram of location verification system provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

Currently, the verifying of the position to Home eNodeB, usually by the mark of the adjacent area of macrocell where the mark of the bandwidth line attachment to the Home eNodeB, the Home eNodeB, or is verified by the location information that GPS is provided and is realized.For the mark of bandwidth line attachment, bandwidth line attachment is usually to be directed to the very wide region of coverage area, therefore, node is verified according to the mark of bandwidth line attachment, it can only determine whether the Home eNodeB is moved out of the corresponding region of bandwidth line attachment, can not determine whether the Home eNodeB is in effective position in the area.For the mark of the adjacent area of macrocell where the Home eNodeB, the coverage area of macrocell is very wide where the Home eNodeB, the covering radius of usual macrocell is in 1 km between 25 kms, when Home eNodeB moves in the macrocell, the mark of the adjacent area for the macrocell that the Home eNodeB detects all is identical, therefore, verifying node not can determine that whether the Home eNodeB is in effective position in the macrocell according to the mark of the adjacent area of macrocell where the Home eNodeB.For the location information provided by GPS, verifying node can accurately verify whether Home eNodeB is in effective position according to the location information, But by method need in Home eNodeB deployment can environment is positioned indoors GPS device, cause the lower deployment cost of Home eNodeB to increase.

For this purpose, the embodiment of the present invention provides a kind of position verification method, without increasing GPS device, it also can determine that whether the position of Home eNodeB is in effective position.Position verification method provided in an embodiment of the present invention can be applied in any required communication network verified to the position of Home eNodeB.Illustratively, as shown in Figure 1, being a kind of communication network schematic diagram provided in an embodiment of the present invention, which includes Home eNodeB, interchanger, router, OSS and packet-based core networks (English: Evolved Packet Core, EPC) equipment.Wherein, EPC equipment may include the network element devices such as gateway, network management.In the communications network, verifying node can be OSS, or EPC equipment.

It should be noted that, in embodiments of the present invention, term " first ", " second ", " third " are used for description purposes only, for distinguishing different description objects, being not understood to indicate or imply relative importance or implicitly indicating the quantity of indicated technical characteristic.

Specifically, the position verification method that present example provides, as shown in Fig. 2, this method comprises:

S101, Home eNodeB obtain verification information, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of which is that the Home eNodeB obtains the verification information.

Specifically, in embodiments of the present invention, the first order topological relation of Home eNodeB uses the mark of the Home eNodeB, the port numbers for the port being connect in the Home eNodeB with the level-one cascade device of the Home eNodeB, the port numbers for the port being connect in the level-one cascade device with the Home eNodeB, and the mark characterization of the level-one cascade device, M grades of topological relations of the Home eNodeB can be using the mark of the M-1 grade cascade device of the Home eNodeB, the port numbers for the port being connect in the M-1 grades of cascade device with the M of Home eNodeB grade cascade device, the port numbers for the port being connect in the M grades of cascade device with the M-1 grades of cascade device, and the mark characterization of the M grades of cascade device, the level-one grade attached device is to be directly connected to the Home eNodeB Cascade device, the M grades of cascade device is the cascade device being directly connected to the M-1 grades of cascade device, and 2≤M≤N, M are integer.It is appreciated that two-level concatenation equipment is the cascade device being directly connected to level-one cascade device, three-stage cascade equipment is the cascade device being directly connected to two-level concatenation equipment, and so on.

Further, Home eNodeB is identified as the information for capableing of the unique identification Home eNodeB, such as, Electronic Serial Number (the English: Electronic Serial Number of the Home eNodeB, ESN), similarly, the mark of the N grade cascade device of the Home eNodeB or the ESN of the N grades of cascade device.

Illustratively, by taking Fig. 1 as an example, the level-one cascade device of Home eNodeB is interchanger, and second level grade attached device is router, and three-level grade attached device is OSS or EPC equipment.It is assumed that the port E0 of Home eNodeB is connected with the port E0/0 of interchanger, the port E0/1 of interchanger and the port E0/1 of router are connected, and the port E0/0 of router is connect with EPC equipment, and the port E0/2 of router and the port E0/2 of OSS connect.

So, in embodiments of the present invention, the available first order topological relation of Home eNodeB is as verification information, specifically, the verification information includes the port numbers E0/0 for the port connecting in the port numbers E0 for the port connecting in the ESN and the Home eNodeB of the Home eNodeB with interchanger and the ESN of interchanger and the interchanger with the Home eNodeB.If Home eNodeB also obtains second level topological relation, i.e. using the first order to second level topological relation as verification information, then the verification information further includes the port numbers E0/1 for the port connecting in the port numbers E0/1 for the port connecting in the ESN and the interchanger of the interchanger with router and the ESN of router and the router with the interchanger.Illustratively, first order topological relation can be expressed as " ESN+E0~interchanger ESN+E0/0 of the Home eNodeB ", and second level topological relation can be expressed as " ESN+E0/1~router ESN+E0/1 of interchanger ".

It should be noted that in embodiments of the present invention, Home eNodeB can be by Link Layer Discovery Protocol (English: Link Layer Discovery Protocol, LLDP), the first network topology information of network where obtaining Home eNodeB.Specific Home eNodeB may refer to associated description in the prior art, details are not described herein again by way of the network topological information of network where LLDP obtains the Home eNodeB.

Optionally, in embodiments of the present invention, verification information can also include first identifier collection It closes, which is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the first moment, at the time of which obtains the verification information for the Home eNodeB.It can be understood that, the first identifier collection is combined into the set of the mark for the user equipment currently connecting with the Home eNodeB, if including the mark of legitimate user equipment in the mark for the user equipment currently connecting with the Home eNodeB, illustrate that the Home eNodeB is still within effective position.

Optionally, in embodiments of the present invention, verification information can also be at the first moment, first neighboring BS information of picocell where the Home eNodeB, or the first SSID that the Home eNodeB is able to detect that, that is the title of WIFI that is able to detect that of the Home eNodeB or the first neighboring BS information and the first SSID.

Wherein, picocell where Home eNodeB is the cell that the Home eNodeB is covered, and when the position change of the Home eNodeB, the first neighboring BS information can also change.First SSID can be the title for the strongest WiFi of signal that the Home eNodeB is able to detect that.

S102, Home eNodeB send the verification information to verifying node, which is used to indicate verifying node and is verified according to the first network topology information or first identifier set to the position of the Home eNodeB.

Optionally, when verification information is the first neighboring BS information and/or a SSID, which is used to indicate verifying node and is verified according to the first neighboring BS information and/or the first SSID to the position of the Home eNodeB.

S103, verifying node receive the verification information of Home eNodeB transmission.

S104, verifying node verify first network topology information or first identifier set according to the verification condition saved in the verifying node, are verified with the position to the Home eNodeB.

Optionally, when verification information includes first network topology information, verification condition includes the second network topological information.Wherein, the second network topological information can be for when carrying out the network planning, for the network topology of Home eNodeB planning, and second network topological information is pre-stored in and is verified in node.Or, second network topological information may be that Home eNodeB is sent to verifying node, after Home eNodeB initial start-up, the current network topological information of the Home eNodeB is obtained by LLDP, and be sent to verifying node for the network topological information as the second network topological information.

Specifically, in embodiments of the present invention, verifying node includes: verifying node determines whether first network topology information is identical as the second network topological information according to the method that the verification condition saved in the verifying node verifies first network topology information or first identifier set.Wherein, if first network topology information is identical as the second network topology, it then verifies node and determines that the verification information meets the verification condition, if first network topology information and the second network topology be not identical, verify node and determine that the verification information is unsatisfactory for the verification condition.

It is understood that illustrating that the position of the Home eNodeB changes, which is likely to be at illegal position if first network topology information is different from the second network topological information.If first network topology information is identical as the second network topological information, illustrate that the Home eNodeB is still within effective position.

Illustratively, by taking a kind of possible application scenarios as an example, assuming that a companies deployment in the first office building has Home eNodeB A, network topological information when Home eNodeB A is deployed in the said firm is " ESN+E0~switch b ESN+E0/0 of Home eNodeB A ", and verifying the second network topological information saved in node is also " ESN+E0~switch b ESN+E0/0 of Home eNodeB A ".When Home eNodeB A is moved to other than active position, even if the level-one cascade device connecting with Home eNodeB A is still switch b, the port which connect with Home eNodeB A can also change.For example, network topological information may become " ESN+E0~switch b ESN+E0/1 of Home eNodeB A " when Home eNodeB A is moved to second office building adjacent with the first office building.Therefore, when Home eNodeB A is when the second office building is turned on, Home eNodeB A can send first network topology information " ESN+E0~switch b ESN+E0/1 of Home eNodeB A " to verifying node, verifying node verifies the first network topology information according to the second network topological information " ESN+E0~switch b ESN+E0/0 of Home eNodeB A ", determine that first network topology information is different from the second network topological information, i.e. Home eNodeB A current verification information is unsatisfactory for verification condition, illustrate that Home eNodeB A is not at active position, it can stop providing service to Home eNodeB A to verify node.

Optionally, when the verification information is first identifier set, which is third logo collection.The third logo collection is the set of the mark for the user equipment bound with the Home eNodeB.

Specifically, in embodiments of the present invention, verifying node includes: that verifying node determines in the first identifier set with the presence or absence of at least one of third logo collection mark according to the method that the verification condition saved in the verifying node verifies first network topology information or first identifier set.

Wherein, if there are at least one of third logo collection marks in the first identifier set, then the verification information meets the verification condition, if there is no the mark in the third logo collection in the first identifier set, which is unsatisfactory for the verification condition.

Illustratively, by taking a kind of possible application scenarios as an example, assuming that Home eNodeB C is deployed in the family of the first user, and first user phone number and the first user household phone number and Home eNodeB C bind, i.e., the third logo collection corresponding with Home eNodeB C that saves includes the phone number of the phone number of the first user and the household of the first user in verifying node.When Home eNodeB C is deployed in the family of the first user, if the household of the first user or the first user are when opening, restarting or reset Home eNodeB C, Home eNodeB C can then send the currently detected first identifier set of Home eNodeB C to verifying node, it is understood that the phone number of the household of phone number or the first user in the first identifier set including the first user.After verifying node receives first identifier set, it can determine that there are the mark in third logo collection in first identifier set, i.e. the verification information that Home eNodeB C is sent meets verification condition, so that verifying node can continue to provide service to Home eNodeB C.

If Home eNodeB C is moved to the place other than the family of the first user, such as, Home eNodeB C is moved to neighbour's, due to the barrier of wall or the limitation of distance, the mobile phone of the first user or the mobile phone of the household of the first user is caused to cannot connect on Home eNodeB C, when Home eNodeB C is when neighbour's is activated, do not include in the first identifier set that Home eNodeB C is detected the first user phone number or the first user household phone number, therefore, after verifying node receives first identifier set, it can determine that there is no the marks in third logo collection in first identifier set, that is the verification information that Home eNodeB C is sent is unsatisfactory for verification condition, service is provided to verify node and be rejected by for Home eNodeB C.

It should be noted that the selection of the number and mark that identify in third logo collection can be configured according to actual needs, such as, when family's base station deployment is in office, the phone number that can choose the office worker that the work hours are more stable, seldom go on business, when family's base When deployment of standing is stayed at home, the phone number of the household all to go home daily can choose.In this regard, the embodiment of the present invention is without limitation.

Further, in embodiments of the present invention, the third logo collection saved in verifying node can carry out manual configuration by network O&M personnel, including carrying out timely replacement according to the actual situation, such as, when office staff leaves office or replaces phone number, the third logo collection saved in verifying node can be updated.Or, in above-mentioned possible scene, if thering is friend or relative to live the family to the first user, in order to avoid the household of the first user and the first user stay out, the location verification of Home eNodeB C is caused to fail, the phone number of the friend of first user or relative, can be added in third logo collection by the case where verifying node refusal provides service for Home eNodeB C appearance by network O&M personnel.

It is understood that first identifier set can accurately reflect whether Home eNodeB is in active position, therefore, is verified by position of the first identifier set to Home eNodeB, can guarantee the precision for verifying the position of the Home eNodeB.

Optionally, in embodiments of the present invention, third logo collection be also possible to verify node according to Home eNodeB sends mark determination.

Illustratively, verifying node determines the specific method of third logo collection according to the mark that Home eNodeB is sent, and can be such that

S1, Home eNodeB periodically obtain second identifier set, which is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the second moment, at the time of which is that the Home eNodeB obtains the second identifier set.

S2, Home eNodeB send the second identifier set to verifying node, which is used to verify the determining mark with the user equipment of Home eNodeB binding of node.

In embodiments of the present invention, Home eNodeB can periodically obtain second identifier set after the completion of deployment, and send the second identifier set to verifying node after getting second identifier set every time.For example, the second identifier set of acquisition in Home eNodeB every 10 minutes, and sent to verifying node.

S3, verifying node receive the second identifier set that Home eNodeB is sent.

S4, verifying node after receiving the preset time period after first second identifier set, send a notification message to the Home eNodeB, the notification message be used to indicate Home eNodeB stop to The verifying node sends second identifier set.

Wherein, preset time period can be configured according to actual requirement of engineering.Assuming that the preset time period is 5 days, since verifying node receiving first second identifier set that the Home eNodeB is sent, after 5 days, verifying node can send a notification message to Home eNodeB, indicate that Home eNodeB stops sending second identifier set, in this 5 days, a second identifier set is sent to verifying node within Home eNodeB every 10 minutes.

S5, Home eNodeB receive the notification message that verifying node is sent.

S6, Home eNodeB stop sending second identifier set to the verifying node according to the notification message.

S7, verifying node determine third logo collection from database, the database includes the accumulative receive number of verifying node receives in the preset time period each different identification and each different identification, which is the set for adding up receive number in the database and being greater than the mark of preset receive number threshold value.

In embodiments of the present invention, node is verified since receiving first second identifier set, in the database by each identification record in each second identifier set received, and add up each number for identifying and receiving within a preset period of time, then the mark that receive number is greater than preset receive number threshold value is counted, determines third logo collection.

Optionally, when the verification information is the first neighboring BS information, which is the second neighboring BS information.After the completion of second neighboring BS information can be disposed for the first time for Home eNodeB, the neighboring BS information detected, Home eNodeB is sent to verifying node after detecting.

Specifically, verifying node can determine whether first neighboring BS information is identical as the second neighboring BS information in embodiments of the present invention.If the first neighboring BS information is identical as the second neighboring BS information, which meets the verification condition, if the first neighboring BS information and the second neighboring BS information be not identical, which is unsatisfactory for the verification condition.

It is understood that when the second neighboring BS information is that the Home eNodeB is in active position, the information of the adjacent area (cell i.e. adjacent with the cell that Home eNodeB is covered) for the cell which is covered.Since the first neighboring BS information can change with the change of the position of Home eNodeB, whether verifying node is identical as the second neighboring BS information by verifying the first neighboring BS information that the Home eNodeB is sent, and can determine whether the Home eNodeB is in effective position It sets, and compared to macrocell or the corresponding region of width line attachment, the range for the cell that the Home eNodeB is covered is very small (i.e. the mobile lesser distance of the Home eNodeB may will lead to its adjacent area change), therefore, the position that Home eNodeB is verified by the first neighboring BS information can be improved the precision of verifying home location.

Optionally, when the verification information is a SSID, which is the 2nd SSID, when the 2nd SSID is that Home eNodeB is in active position, the title of the WiFi of the signal being able to detect that most strong (such as signal strength is maximum).Verifying node can determine whether the first SSID and the 2nd SSID are identical in embodiments of the present invention.If the first SSID is identical as the 2nd SSID, which meets the verification condition, if the first SSID and the 2nd SSID be not identical, which is unsatisfactory for the verification condition.

It can be understood that, since the first SSID can change with the change of the position of Home eNodeB, therefore, it is whether identical by the first SSID and the 2nd SSID for verifying Home eNodeB transmission to verify node, it can determine whether the Home eNodeB is in effective position, and compared to macrocell or the corresponding region of width line attachment, the coverage area of WiFi is also very small (title that i.e. the mobile lesser distance of the Home eNodeB may will lead to the strongest WiFi of signal that it is detected changes), therefore, the position of Home eNodeB is verified by the first SSID, it can be improved the precision of verifying home location.

Optionally, in embodiments of the present invention, verification information may be the first neighboring BS information and the first SSID, and verification condition is the second neighboring BS information and the 2nd SSID.If the first neighboring BS information is identical as the second neighboring BS information, and the first SSID it is identical as the 2nd SSID, then the verification information meets the verification condition, if having second neighboring BS information of space and the 2nd SSID different in the first signaling information and the first SSID, which is unsatisfactory for the verification condition.

Position verification method provided in an embodiment of the present invention, without GPS device or other positioning devices, by being verified to first network topology information, first identifier set, the first neighboring BS information, the first SSID or the first neighboring BS information and the first SSID, it is verified with the position to the Home eNodeB, improves the precision of the position of verifying Home eNodeB.

As shown in figure 3, the embodiment of the present invention provides a kind of Home eNodeB, the Home eNodeB is used to execute step performed by the Home eNodeB in the above position verification method.The family Base station may include module corresponding to corresponding steps.Illustratively, the Home eNodeB includes:

Acquiring unit 10, for obtaining verification information, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of first moment is that the acquiring unit 10 obtains the verification information.

Transmission unit 11, for sending the verification information that the acquiring unit 10 obtains to verifying node, the verification information is used to indicate the verifying node and is verified according to the first network topology information or the first identifier set to the position of the Home eNodeB.

Optionally, the first order topological relation that the acquiring unit 10 obtains uses the mark of the Home eNodeB, the port numbers for the port being connect in the Home eNodeB with the level-one cascade device of the Home eNodeB, the port numbers for the port being connect in the level-one cascade device with the Home eNodeB, and the mark characterization of the level-one cascade device, M grades of topological relations use the mark of the M-1 grade cascade device of the Home eNodeB, the port numbers for the port being connect in the M-1 grades of cascade device with the M of Home eNodeB grade cascade device, the port numbers for the port being connect in the M grades of cascade device with the M-1 grades of cascade device, and the mark characterization of the M grades of cascade device, the level-one grade attached device is the cascade device being directly connected to the Home eNodeB, the M grades of cascade device be with it is described The cascade device that M-1 grades of cascade devices are directly connected to, 2≤M≤N, M are integer.

Optionally, the verification information that the acquiring unit 10 obtains includes first identifier set, in conjunction with Fig. 3, as shown in figure 4, the Home eNodeB further includes receiving unit 12.

The acquiring unit 10, it is also used to before obtaining verification information, periodically obtain second identifier set, the second identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the second moment, at the time of second moment is that the acquiring unit 10 obtains the second identifier set.

The transmission unit 11 is also used to the Home eNodeB to the verifying node and sends the second identifier set, and the second identifier set is for the determining mark with the user equipment of Home eNodeB binding of the verifying node.

The receiving unit 12, the notification message sent for receiving the verifying node, the notification message, which is used to indicate the transmission unit 11, to be stopped sending the second identifier set to the verifying node.

The transmission unit 11 is also used to the notification message received according to the receiving unit 12, stops sending the second identifier set to the verifying node.

It should be noted that, transmission unit can be the transmitter in Home eNodeB in embodiments of the present invention, receiving unit can be receiver in Home eNodeB or transmission unit and receiving unit can be the transceiver in Home eNodeB, and acquiring unit can be the processor in Home eNodeB.

The embodiment of the present invention provides a kind of Home eNodeB, which can be sent to verifying node using the first network topology information of the Home eNodeB or first identifier set as verification information, so that verifying node verifies the position of the Home eNodeB.Due to the first network topology information and first identifier set (set of the mark for the user equipment currently being connect with the Home eNodeB) of Home eNodeB, it can accurately reflect whether the Home eNodeB is in effective position, without disposing GPS device or other positioning devices, therefore, the position of Home eNodeB is verified by first network topology information or first identifier set, the precision for verifying the position of the Home eNodeB is improved, and without increasing cost.

As shown in figure 5, the embodiment of the present invention provides a kind of verifying node, the verifying node is used to execute step performed by the verifying node in the above position verification method.The verifying node may include module corresponding to corresponding steps.Illustratively, the verifying node may include:

Receiving unit 20, for receiving the verification information of Home eNodeB transmission, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at first moment, and the first network topology information includes The first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of first moment is that the Home eNodeB obtains the verification information, the verification information is used to indicate authentication unit 21 and is verified according to the first network topology information or the first identifier set to the position of the Home eNodeB.

The authentication unit 21, the first network topology information or the first identifier set for being received according to the verification condition that saves in the verifying node to the receiving unit 20 are verified, are verified with the position to the Home eNodeB.

Optionally, the verification information that the receiving unit 20 receives includes the first network topology information, and the verification condition includes the second network topological information.

The verifying node, it is whether identical as second network topological information specifically for the determination first network topology information, wherein, if the first network topology information is identical as second network topology, the verifying node then determines that the verification information meets the verification condition, if the first network topology information and second network topology be not identical, the authentication unit 21 determines that the verification information is unsatisfactory for the verification condition.

Optionally, the first order topological relation that the receiving unit 20 receives uses the mark of the Home eNodeB, the port numbers for the port being connect in the Home eNodeB with the level-one cascade device of the Home eNodeB, the port numbers for the port being connect in the level-one cascade device with the Home eNodeB, and the mark characterization of the level-one cascade device, M grades of topological relations use the mark of the M-1 grade cascade device of the Home eNodeB, the port numbers for the port being connect in the M-1 grades of cascade device with the M of Home eNodeB grade cascade device, the port numbers for the port being connect in the M grades of cascade device with the M-1 grades of cascade device, and the mark characterization of the M grades of cascade device, the level-one grade attached device is the cascade device being directly connected to the Home eNodeB, the M grades of cascade device for institute The cascade device that M-1 grades of cascade devices are directly connected to is stated, 2≤M≤N, M are integer.

Optionally, the verification information that the receiving unit 20 receives includes the first identifier set, and the verification condition includes third logo collection, and the first identifier collection is combined into the set with the mark of the user equipment of Home eNodeB binding.

The verifying node is specifically used for determining in the first identifier set with the presence or absence of institute State at least one of third logo collection mark, wherein, if there are at least one of described third logo collection marks in the first identifier set, the verifying node then determines that the verification information meets the verification condition, if there is no the mark in the third logo collection in the first identifier set, the verifying node determines that the verification information is unsatisfactory for the verification condition.

Optionally, in conjunction with Fig. 5, as shown in fig. 6, the verifying node further includes transmission unit 22 and determination unit 23.

The receiving unit 20, it is also used to before receiving the verification information that Home eNodeB is sent, receive the second identifier set that the Home eNodeB is sent, the second identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the second moment, at the time of second moment is that the Home eNodeB obtains the second identifier set.

The transmission unit 22, for after the receiving unit 20 receives the preset time period after first second identifier set, it sends a notification message to the Home eNodeB, the notification message, which is used to indicate the Home eNodeB, to be stopped sending the second identifier set to the verifying node.

The determination unit 23, for determining third logo collection from database, the database includes the accumulative receive number of each different identification that the receiving unit 20 receives in the preset time period and each different identification, and the third logo collection is the set for adding up receive number in the database and being greater than the mark of preset receive number threshold value.

Optionally, the determination unit 22 is also used to determine the location verification failure of the Home eNodeB when the authentication unit 21 determines that the verification information is unsatisfactory for the verification condition.

It should be noted that, in embodiments of the present invention, verifying node can be gateway or light pipe, transmission unit can be the transmitter in verifying node, receiving unit can be the receiver in verifying node, or transmission unit and receiving unit can be the transceiver in authentication unit, determination unit and authentication unit can be the processor in verifying node.

The embodiment of the present invention provides a kind of verifying node, which can be verified by first network topology information to Home eNodeB or first identifier set, is verified with the position to the Home eNodeB.Since the first network topology information of Home eNodeB and first are marked Know set (set of the mark for the user equipment currently connecting with the Home eNodeB), it can accurately reflect whether the Home eNodeB is in effective position, without disposing GPS device or other positioning devices, therefore, the position of Home eNodeB is verified by first network topology information or first identifier set, the precision for verifying the position of the Home eNodeB is improved, and without increasing cost.

As shown in fig. 7, the embodiment of the present invention provides a kind of Home eNodeB, which includes: processor 30, memory 31, system bus 32 and communication interface 33.

The memory 31 is for storing computer executed instructions, the processor 30 is connect with the memory 31 by the system bus 32, when Home eNodeB operation, the processor 30 executes the computer executed instructions that the memory 31 stores, so that the Home eNodeB executes position verification method as described in Figure 2.Specific position verification method can be found in the associated description in above-mentioned embodiment as shown in Figure 2, and details are not described herein again.

The processor 30 can be central processing unit (English: central processing unit, abbreviation: CPU).The processor 30 can also be other general processors, digital signal processor (English: digital signal processing, abbreviation DSP), specific integrated circuit (English: application specific integrated circuit, abbreviation ASIC), field programmable gate array (English: field-programmable gate array, abbreviation FPGA) either other programmable logic device, discrete gate or transistor logic, discrete hardware components etc..General processor can be microprocessor or the processor is also possible to any conventional processor etc..

The processor 30 can be application specific processor, which may include at least one of baseband processing chip, radio frequency processing chip etc..Further, which can also include the chip with other dedicated processes functions of Home eNodeB.

The memory 31 may include volatile memory (English: volatile memory), such as random access memory (English: random-access memory, abbreviation: RAM)；The memory 31 also may include nonvolatile memory (English: non-volatile memory), such as read-only memory (English: read-only memory, abbreviation: ROM), flash memory (English: flash memory), hard disk (English: hard disk drive Abbreviation: HDD) or solid state hard disk (English: solid-state drive, abbreviation: SSD)；The memory 31 can also include the combination of the memory of mentioned kind.

The system bus 32 may include data/address bus, power bus, control bus and signal condition bus etc..For clear explanation in the present embodiment, various buses are all illustrated as system bus 32 in Fig. 7.

The communication interface 33 specifically can be the transceiver on Home eNodeB.The transceiver can be wireless transceiver.For example, wireless transceiver can be the antenna etc. of Home eNodeB.The processor 30 is by the communication interface 33 and other equipment, such as pays out the transmitting-receiving that data are carried out between server.

The present embodiment also provides a kind of storage medium, including computer executed instructions, and when the processor of Home eNodeB executes the computer executed instructions, the Home eNodeB executes such as above-mentioned position verification method as described in Figure 2.The storage medium may include the memory 31.

During specific implementation, the computer executed instructions that each step in above-mentioned method flow as shown in Figure 2 can execute the software form stored in memory 31 by the processor 30 of example, in hardware are realized.To avoid repeating, details are not described herein again.

The embodiment of the present invention provides a kind of Home eNodeB, which can be sent to verifying node using the first network topology information of the Home eNodeB or first identifier set as verification information, so that verifying node verifies the position of the Home eNodeB.Due to the first network topology information and first identifier set (set of the mark for the user equipment currently being connect with the Home eNodeB) of Home eNodeB, it can accurately reflect whether the Home eNodeB is in effective position, without disposing GPS device or other positioning devices, therefore, the position of Home eNodeB is verified by first network topology information or first identifier set, the precision for verifying the position of the Home eNodeB is improved, and without increasing cost.

As shown in figure 8, the embodiment of the present invention provides a kind of verifying node, which includes: processor 40, memory 41, system bus 42 and communication interface 43.

The memory 41 is for storing computer executed instructions, the processor 40 is connect with the memory 41 by the system bus 42, when verifying node operation, the processor 40 executes the computer executed instructions that the memory 41 stores, with The verifying node is set to execute position verification method as described in Figure 2.Specific position verification method can be found in the associated description in above-mentioned embodiment as shown in Figure 2, and details are not described herein again.

The processor 40 can be CPU.The processor 40 can also be other general processors, DSP, ASIC, FPGA or other programmable logic device, discrete gate or transistor logic, discrete hardware components etc..General processor can be microprocessor or the processor is also possible to any conventional processor etc..

The memory 41 may include volatile memory, such as random access memory ram；The memory 41 also may include nonvolatile memory, such as read only memory ROM, flash memory, HDD or SSD；The memory 41 can also include the combination of the memory of mentioned kind.

The system bus 42 may include data/address bus, power bus, control bus and signal condition bus etc..For clear explanation in the present embodiment, various buses are all illustrated as system bus 42 in fig. 8.

The communication interface 43 specifically can be the transceiver on verifying node.The transceiver can be wireless transceiver.The transmitting-receiving that the processor 40 passes through progress data between the communication interface 43 and other equipment, such as terminal.

The present embodiment also provides a kind of storage medium, including computer executed instructions, and when the processor for verifying node executes the computer executed instructions, the verifying node executes such as above-mentioned position verification method as described in Figure 2.The storage medium may include the memory 41.

During specific implementation, the computer executed instructions that each step in above-mentioned method flow as shown in Figure 2 can execute the software form stored in memory 41 by the processor 40 of example, in hardware are realized.To avoid repeating, details are not described herein again.

The embodiment of the present invention provides a kind of verifying node, which can be verified by first network topology information to Home eNodeB or first identifier set, is verified with the position to the Home eNodeB.Due to the first network topology information and first identifier set (set of the mark for the user equipment currently being connect with the Home eNodeB) of Home eNodeB, it can accurately reflect whether the Home eNodeB is in effective position, without disposing GPS device or other positioning devices, therefore, the position of Home eNodeB is verified by first network topology information or first identifier set, improves the essence for verifying the position of the Home eNodeB Degree, and without increasing cost.

As shown in figure 9, the embodiment of the present invention provides a kind of location verification system, including Home eNodeB and verifying node.Wherein, Home eNodeB can be Home eNodeB as described in fig 3, and verifying node can be the verifying node as described in Fig. 5 or Fig. 6.Alternatively, the Home eNodeB may be Home eNodeB as described in Figure 7, which may be verifying node as described in Figure 8.

Wherein, the Home eNodeB in location verification system provided in an embodiment of the present invention and verifying node are able to carry out position verification method as described in Figure 2.Specific position verification method can be found in the associated description in above-mentioned embodiment as shown in Figure 2, and details are not described herein again.

Location verification system based on the embodiment of the present invention, the first network topology information or first identifier set for the Home eNodeB which can send Home eNodeB are verified, are verified with the position to the Home eNodeB.Due to the first network topology information and first identifier set (set of the mark for the user equipment currently being connect with the Home eNodeB) of Home eNodeB, it can accurately reflect whether the Home eNodeB is in effective position, therefore, the position of Home eNodeB is verified by first network topology information or first identifier set, the precision for verifying the position of the Home eNodeB is improved, and without increasing cost.

It is apparent to those skilled in the art that, for convenience and simplicity of description, only the example of the division of the above functional modules, in practical application, it can according to need and be completed by different functional modules above-mentioned function distribution, the internal structure of device is divided into different functional modules, to complete all or part of the functions described above.The specific work process of the system, apparatus, and unit of foregoing description, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.

In several embodiments provided herein, it should be understood that disclosed system, device and method may be implemented in other ways.Such as, the apparatus embodiments described above are merely exemplary, such as, the division of the module or unit, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components can be combined or can be integrated into another system or some features can neglect Slightly, it or does not execute.Another point, shown or discussed mutual coupling, direct-coupling or communication connection can be through some interfaces, the indirect coupling or communication connection of device or unit.

The unit as illustrated by the separation member may or may not be physically separated, and component shown as a unit may or may not be physical unit, it can and it is in one place, or may be distributed over multiple network units.It can some or all of the units may be selected to achieve the purpose of the solution of this embodiment according to the actual needs.

In addition, the functional units in various embodiments of the present invention may be integrated into one processing unit, it is also possible to each unit and physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated unit can be realized in the form of software functional units.

If the integrated unit is realized in the form of SFU software functional unit and when sold or used as an independent product, can store in a computer readable storage medium.Based on this understanding, the all or part of the technical solution can be embodied in the form of software products, the computer software product is stored in a storage medium, it uses including some instructions so that a computer equipment (can be personal computer, server or the network equipment etc.) or processor perform all or part of the steps of the method described in the various embodiments of the present invention.The storage medium is non-transitory (English: non-transitory) medium, comprising: the various media that can store program code such as flash memory, mobile hard disk, read-only memory, random access memory, magnetic or disk.

It is described above; only a specific embodiment of the invention, but scope of protection of the present invention is not limited thereto, and anyone skilled in the art is in the technical scope disclosed by the present invention; it can easily think of the change or the replacement, should be covered by the protection scope of the present invention.Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (19)

1. A kind of position verification method characterized by comprising

   Home eNodeB obtains verification information, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of first moment is that the Home eNodeB obtains the verification information；

   The Home eNodeB sends the verification information to verifying node, and the verification information is used to indicate the verifying node and is verified according to the first network topology information or the first identifier set to the position of the Home eNodeB.
2. The method according to claim 1, wherein

   The first order topological relation uses the mark of the Home eNodeB, the port numbers for the port being connect in the Home eNodeB with the level-one cascade device of the Home eNodeB, the port numbers for the port being connect in the level-one cascade device with the Home eNodeB, and the mark characterization of the level-one cascade device, M grades of topological relations use the mark of the M-1 grade cascade device of the Home eNodeB, the port numbers for the port being connect in the M-1 grades of cascade device with the M of Home eNodeB grade cascade device, the port numbers for the port being connect in the M grades of cascade device with the M-1 grades of cascade device, and the mark characterization of the M grades of cascade device, the level-one grade attached device is the cascade device being directly connected to the Home eNodeB, the M grades of cascade device is the cascade being directly connected to the M-1 grades of cascade device Equipment, 2≤M≤N, M are integer.
3. The method according to claim 1, wherein the verification information includes first identifier set, before the Home eNodeB obtains verification information, the method also includes:

   The Home eNodeB periodically obtains second identifier set, and the second identifier is the set of the mark for user equipment connect with the Home eNodeB at the second moment, at the time of second moment is the Home eNodeB acquisition second identifier set；

   The Home eNodeB sends the second identifier set to the verifying node, and the second identifier set is for the verifying node determination and the user equipment of Home eNodeB binding Mark；

   The Home eNodeB receives the notification message that the verifying node is sent, and the notification message, which is used to indicate the Home eNodeB, to be stopped sending the second identifier set to the verifying node；

   The Home eNodeB stops sending the second identifier set to the verifying node according to the notification message.
4. A kind of position verification method, which is characterized in that the described method includes:

   It verifies node and receives the verification information that Home eNodeB is sent, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of first moment is that the Home eNodeB obtains the verification information, the verification information is used to indicate the verifying node and is verified according to the first network topology information or the first identifier set to the position of the Home eNodeB；

   The verifying node verifies the first network topology information or the first identifier set according to the verification condition saved in the verifying node, is verified with the position to the Home eNodeB.
5. According to the method described in claim 4, the verification condition includes the second network topological information it is characterized in that, the verification information includes the first network topology information,

   The verifying node verifies the first network topology information or the first identifier set according to the verification condition saved in the verifying node, comprising:

   The verifying node determines whether the first network topology information is identical as second network topological information,

   Wherein, if the first network topology information is identical as second network topology, then the verification information meets the verification condition, if the first network topology information and second network topology be not identical, the verification information is unsatisfactory for the verification condition.
6. Method according to claim 4 or 5, which is characterized in that

   The first order topological relation uses the mark of the Home eNodeB, the port numbers for the port connecting in the Home eNodeB with the level-one cascade device of the Home eNodeB, the level-one cascade The port numbers for the port being connect in equipment with the Home eNodeB, and the mark characterization of the level-one cascade device, M grades of topological relations use the mark of the M-1 grade cascade device of the Home eNodeB, the port numbers for the port being connect in the M-1 grades of cascade device with the M of Home eNodeB grade cascade device, the port numbers for the port being connect in the M grades of cascade device with the M-1 grades of cascade device, and the mark characterization of the M grades of cascade device, the level-one grade attached device is the cascade device being directly connected to the Home eNodeB, the M grades of cascade device is the cascade device being directly connected to the M-1 grades of cascade device, 2≤M≤N, M is integer.
7. According to method described in claims 4, it is characterized in that, the verification information includes the first identifier set, the verification condition includes third logo collection, the first identifier collection is combined into the set with the mark of the user equipment of Home eNodeB binding

   The verifying node verifies the first network topology information or the first identifier set according to the verification condition saved in the verifying node, comprising:

   The verifying node, which determines, whether there is at least one of described third logo collection mark in the first identifier set,

   Wherein, if there are at least one of described third logo collection marks in the first identifier set, then the verification information meets the verification condition, if there is no the mark in the third logo collection in the first identifier set, the verification information is unsatisfactory for the verification condition.
8. The method according to claim 4 or 7, which is characterized in that before the verifying node receives the verification information that Home eNodeB is sent, the method also includes:

   The verifying node receives the second identifier set that the Home eNodeB is sent, the second identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the second moment, at the time of second moment is that the Home eNodeB obtains the second identifier set；

   After receiving the preset time period after first second identifier set, Xiang Suoshu Home eNodeB sends a notification message the verifying node, and the notification message, which is used to indicate the Home eNodeB, to be stopped sending the second identifier set to the verifying node；

   The verifying node determines third logo collection from database, and the database includes each different identification for receiving of verifying node and described each in the preset time period The accumulative receive number of different identification, the third logo collection are the set for adding up receive number in the database and being greater than the mark of preset receive number threshold value.
9. A kind of Home eNodeB characterized by comprising

   Acquiring unit, for obtaining verification information, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of first moment is that the acquiring unit obtains the verification information；

   Transmission unit, for sending the verification information that the acquiring unit obtains to verifying node, the verification information is used to indicate the verifying node and is verified according to the first network topology information or the first identifier set to the position of the Home eNodeB.
10. Home eNodeB according to claim 9, which is characterized in that

    The first order topological relation that the acquiring unit obtains uses the mark of the Home eNodeB, the port numbers for the port being connect in the Home eNodeB with the level-one cascade device of the Home eNodeB, the port numbers for the port being connect in the level-one cascade device with the Home eNodeB, and the mark characterization of the level-one cascade device, M grades of topological relations use the mark of the M-1 grade cascade device of the Home eNodeB, the port numbers for the port being connect in the M-1 grades of cascade device with the M of Home eNodeB grade cascade device, the port numbers for the port being connect in the M grades of cascade device with the M-1 grades of cascade device, and the mark characterization of the M grades of cascade device, the level-one grade attached device is the cascade device being directly connected to the Home eNodeB, the M grades of cascade device is to cascade with described M-1 grades The cascade device that equipment is directly connected to, 2≤M≤N, M are integer.
11. Home eNodeB according to claim 9, which is characterized in that the verification information that the acquiring unit obtains includes first identifier set, and the Home eNodeB further includes receiving unit,

    The acquiring unit, it is also used to before obtaining verification information, second identifier set is periodically obtained, the second identifier collection is combined into the set of the mark for user equipment connect with the Home eNodeB at the second moment, and second moment is that acquiring unit acquisition described second is marked At the time of knowing set；

    The transmission unit is also used to the Home eNodeB to the verifying node and sends the second identifier set, and the second identifier set is for the determining mark with the user equipment of Home eNodeB binding of the verifying node；

    The receiving unit, the notification message sent for receiving the verifying node, the notification message, which is used to indicate the transmission unit, to be stopped sending the second identifier set to the verifying node；

    The transmission unit is also used to the notification message received according to the receiving unit, stops sending the second identifier set to the verifying node.
12. A kind of verifying node characterized by comprising

    Receiving unit, for receiving the verification information of Home eNodeB transmission, the verification information was included in for the first moment, the first network topology information or first identifier set of network where the Home eNodeB, the first identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at first moment, the first network topology information includes the first order topological relation of the Home eNodeB, or the first order including the Home eNodeB is to N grades of topological relations, N >=2, N is integer, at the time of first moment is that the Home eNodeB obtains the verification information, the verification information is used to indicate authentication unit and is verified according to the first network topology information or the first identifier set to the position of the Home eNodeB；

    The authentication unit, the first network topology information or the first identifier set for being received according to the verification condition that saves in the verifying node to the receiving unit are verified, are verified with the position to the Home eNodeB.
13. Verifying node according to claim 12, which is characterized in that the verification information that the receiving unit receives includes the first network topology information, and the verification condition includes the second network topological information,

    The verifying node is specifically used for determining whether the first network topology information is identical as second network topological information,

    Wherein, if the first network topology information is identical as second network topology, the verifying node then determines that the verification information meets the verification condition, if the first network topology information and second network topology be not identical, the authentication unit determines the verifying letter Breath is unsatisfactory for the verification condition.
14. Verifying node according to claim 12 or 13, which is characterized in that

    The first order topological relation that the receiving unit receives uses the mark of the Home eNodeB, the port numbers for the port being connect in the Home eNodeB with the level-one cascade device of the Home eNodeB, the port numbers for the port being connect in the level-one cascade device with the Home eNodeB, and the mark characterization of the level-one cascade device, M grades of topological relations use the mark of the M-1 grade cascade device of the Home eNodeB, the port numbers for the port being connect in the M-1 grades of cascade device with the M of Home eNodeB grade cascade device, the port numbers for the port being connect in the M grades of cascade device with the M-1 grades of cascade device, and the mark characterization of the M grades of cascade device, the level-one grade attached device is the cascade device being directly connected to the Home eNodeB, the M grades of cascade device be and the M-1 grades of grade The cascade device that connection equipment is directly connected to, 2≤M≤N, M are integer.
15. According to verifying node described in claims 12, it is characterized in that, the verification information that the receiving unit receives includes the first identifier set, the verification condition includes third logo collection, the first identifier collection is combined into the set with the mark of the user equipment of Home eNodeB binding

    The verifying node is specifically used for determining in the first identifier set that whether there is at least one of described third logo collection identifies,

    Wherein, if there are at least one of described third logo collection marks in the first identifier set, the verifying node then determines that the verification information meets the verification condition, if there is no the mark in the third logo collection in the first identifier set, the verifying node determines that the verification information is unsatisfactory for the verification condition.
16. Verifying node described in 2 or 15 according to claim 1, which is characterized in that the verifying node further includes transmission unit and determination unit,

    The receiving unit, it is also used to before receiving the verification information that Home eNodeB is sent, receive the second identifier set that the Home eNodeB is sent, the second identifier collection is combined into the set of the mark for the user equipment being connect with the Home eNodeB at the second moment, at the time of second moment is that the Home eNodeB obtains the second identifier set；

    The transmission unit, for receiving first second identifier in the receiving unit After preset time period after set, Xiang Suoshu Home eNodeB sends a notification message, and the notification message, which is used to indicate the Home eNodeB, to be stopped sending the second identifier set to the verifying node；

    The determination unit, for determining third logo collection from database, the database includes the accumulative receive number of each different identification that the receiving unit receives in the preset time period and each different identification, and the third logo collection is the set for adding up receive number in the database and being greater than the mark of preset receive number threshold value.
17. A kind of Home eNodeB, which is characterized in that including processor, memory, system bus and communication interface；

    The memory is for storing computer executed instructions, the processor is connect with the memory by the system bus, when Home eNodeB operation, the processor executes the computer executed instructions of the memory storage, so that the Home eNodeB executes position verification method as described in any one of claims 1-3.
18. A kind of verifying node, which is characterized in that including processor, memory, system bus and communication interface；

    The memory is for storing computer executed instructions, the processor is connect with the memory by the system bus, when verifying node operation, the processor executes the computer executed instructions of the memory storage, so that the verifying node executes such as the described in any item position verification methods of claim 4-8.
19. A kind of location verification system characterized by comprising

    Such as the described in any item Home eNodeB of claim 9-11, and such as described in any item verifying nodes of claim 12-16；Alternatively,

    Home eNodeB as claimed in claim 17, and node is verified as claimed in claim 18.