CN1921703B - Method and system for cell ID binding in GPS information exchanging process - Google Patents

Abstract

The invention relates to a method for bonding region ID in GPS information exchange process. Wherein, it comprises: setting the GPS reference receiver bonded with NODEB; RND searches for the normal region of said NODEB; based on the search result, bonding said region ID with GPS reference receiver. The invention also provides a relative system, which comprises RNC, NODEB and GPS reference receiver, while the RNC is connected to the NODEB, to bond the normal region of NODEB with GPS reference receiver; the NODEB is connected to RNC and GPS reference receiver to exchange information between RNC and GPS; the GPS reference receiver provides the data needed in the GPS information exchange process. The invention can use RNC to continuously obtain the data of GPS reference receiver.

Description

The method and system of sub-district ID binding in the GPS information exchanging process

Technical field

The present invention relates to the mobile communication locating technology field, relate in particular to a kind of towards NODEB (base station) GP configuring S (Global Positioning System, global positioning system) reference receiver, the method and system of sub-district ID binding in the GPS information exchanging process.

Background technology

AGPS (Assisted Global Positioning System, agps system) technology is a kind of technology that portable terminal is positioned in conjunction with network base station information and GPS information, can be at GSM (Global System for Mobile communication, global system for mobile communications)/GPRS (GeneralPacket Radio Service, general packet radio service), WCDMA (Wideband Code DivisionMultiple Access, Wideband Code Division Multiple Access (WCDMA)) and in CDMA2000 (Code Division MultipleAccess2000, the CDMA 2000) network use.

At RNC (Radio Network Controller, radio network controller) handles CN (CoreNetwork, core net) in the Location Request process that issues, if adopt the AGPS location technology, then need to finish positioning flow from the data that the GPS reference receiver that is arranged on RNC or the NODEB obtains to be correlated with.

When the GPS reference receiver was arranged on the NODEB end, RNC need initiate to be based upon the GPS information exchanging process of Iub interface for the related data that obtains the GPS reference receiver.The GPS information exchanging process probably comprises step as shown in Figure 1:

Step (101), RNC send INFORMATION EXCHANGEINITIATION REQUEST (information exchange initial request) message to NODEB, and request NODEB replys the related data of GPS reference receiver;

Step (102), NODEB reply INFORMATION EXCHANGEINITIATION RESPONSE (information exchange initial communication) message to RNC, and the RNC information requested is replied.

When described RNC does not search the sub-district that is in normal condition under the NODEB of described GPS reference receiver binding, the failure of GPS information exchanging process.

8. according to the method for ID binding in sub-district in the described GPS information exchanging process of claim 1, it is characterized in that, also comprise after the described step C:

When the sub-district of the current binding of described GPS reference receiver was changed abnormal condition into, described RNC searched for the sub-district that is in normal condition again, and carried out the binding of sub-district ID.

9. a device of realizing ID binding in sub-district in the GPS information exchanging process is characterized in that, comprising:

Be used for by adding the module that the ID of the ID of global position system GPS reference receiver and base station NODEB is bound in order;

Be used for from the configuration information of the NODEB control sub-district that the RNC information memory cell of described RNC is stored, searching for the module that is in the sub-district of normal condition under the NODEB that binds with the GPS reference receiver;

Be used for when searching the sub-district that is in normal condition, with the module of this cell ID ID and the binding of this GPS reference receiver.

10. according to the described device of realizing ID binding in sub-district in the GPS information exchanging process of claim 9, it is characterized in that, before the configuration information of the NODEB control sub-district that is used for storing, searching for the module of the sub-district that is in normal condition under the NODEB that binds with the GPS reference receiver, also comprise from the RNC information memory cell of described RNC:

Be used to activate the module that described NODEB goes up the described GPS reference receiver that is provided with.

11. the device according to ID binding in sub-district in the described realization of the claim 9 GPS information exchanging process is characterized in that described configuration information comprises positional information and identification information.

12. the device according to ID binding in sub-district in the described realization of the claim 9 GPS information exchanging process is characterized in that, is being used for when searching the sub-district that is in normal condition, after the module with this cell ID ID and the binding of this GPS reference receiver, also comprises:

Be used for when the sub-district of the current binding of described GPS reference receiver is changed abnormal condition into, described RNC searches for the sub-district that is in normal condition again, and carries out the module of the binding of sub-district ID.

The corresponding relation of described GPS reference receiver and described NODEB is added in the list of application of GPS reference receiver.

Described step B specifically comprises step:

B1, described RNC inquire about the list of application of described GPS reference receiver;

B2, described RNC search for the sub-district under the described NODEB.

The sub-district that the described RNC of step B2 searches under the described NODEB is specially:

Described RNC carries out status poll according to the configuration information of described NODEB and NODEB control sub-district to the sub-district.

Described configuration information comprises positional information and identification information.

Described step C is specially:

When described RNC does not search the sub-district that is in normal condition under the NODEB of described GPS reference receiver binding, the failure of GPS information exchanging process.

Also comprise after the described step C:

When the sub-district of the current binding of described GPS reference receiver was changed abnormal condition into, described RNC searched for the sub-district that is in normal condition again, and carried out the binding of sub-district ID.

The present invention also provides the device of ID binding in sub-district in a kind of GPS of realization information exchanging process, it is characterized in that, comprising:

Be used for by adding the module that the ID of the ID of global position system GPS reference receiver and base station NODEB is bound in order;

Be used for from the configuration information of the NODEB control sub-district that the RNC information memory cell of described RNC is stored, searching for the module that is in the sub-district of normal condition under the NODEB that binds with the GPS reference receiver;

Be used for when searching the sub-district that is in normal condition, with the module of this cell ID ID and the binding of this GPS reference receiver.

The device of sub-district ID binding in the described realization GPS information exchanging process, before the configuration information of the NODEB control sub-district that is used for storing, searching for the module of the sub-district that is in normal condition under the NODEB that binds with the GPS reference receiver, also comprise: be used to activate the module that described NODEB goes up the described GPS reference receiver that is provided with from the RNC information memory cell of described RNC.

Described configuration information comprises positional information and identification information.

The device of sub-district ID binding in the described realization GPS information exchanging process, be used for when searching the sub-district that is in normal condition, after the module with this cell ID ID and the binding of this GPS reference receiver, also comprise: be used for when the sub-district of the current binding of described GPS reference receiver is changed abnormal condition into, described RNC searches for the sub-district that is in normal condition again, and carries out the module of the binding of sub-district ID.。

Compared with prior art, advantage of the present invention is:

Implement the present invention, in the GPS information exchanging process, RNC seeks the sub-district and the GPS reference receiver that are in normal condition under the NODEB arbitrarily and carries out the binding of sub-district ID; And when the sub-district that is used for the binding of GPS information exchanging process is in abnormal condition, RNC searches for the sub-district that is in normal condition under the NODEB again, and the sub-district that is in normal condition that searches carried out the binding of sub-district ID, realize that RNC obtains the related data of GPS reference receiver continuously.

Description of drawings

Fig. 1 is the schematic diagram of prior art GPS information exchanging process;

Fig. 2 is the schematic diagram of GP configuring S reference receiver of the present invention and NODEB binding;

Fig. 3 is the flow chart of the method for sub-district ID binding in the GPS information exchanging process of the present invention;

Fig. 3 A is the flow chart that is in the sub-district of normal condition under the NODEB that RNC search GPS reference receiver is bound among the present invention;

Fig. 3 B is the schematic diagram of GPS information exchange failure procedures among the present invention;

Fig. 4 is the schematic diagram of the system of sub-district ID binding in the GPS information exchanging process of the present invention.

Embodiment

The invention provides the method for the binding of sub-district ID in a kind of GPS information exchanging process, its based on principle be: go up the GPS reference receiver that is provided with for NODEB, when disposing this GPS reference receiver, dispose it and bind with NODEB on the RNC backstage.

Wherein, it is to finish in the instrument of the backstage of RNC that configuration NODEB goes up the GPS reference receiver and the NODEB binding that are provided with, as shown in Figure 2, backstage instrument by RNC sends the ID of ADD (interpolation) command binding GPS reference receiver and the ID of NODEB to the RNC information memory cell, order unit sends the ID of ADD (interpolation) command binding GPS reference receiver and the ID of NODEB, and command format is:

ADD?GPS?ID，NODEB?ID

Add in the list of application of GPS reference receiver by the corresponding relation of this order with GPS reference receiver and NODEB, the list of application of this GPS reference receiver is stored in the RNC information memory cell.

On the basis of above-mentioned principle, promptly on the basis of RNC backstage GP configuring S reference receiver and NODEB binding, the step of the method for sub-district ID binding comprises as shown in Figure 3 in complete GPS information exchanging process:

Step (301), activation NODEB go up the GPS reference receiver that is provided with, and the realization of this step is: start the GPS reference receiver in the instrument of the backstage of RNC, to carry out the GPS information exchanging process.

Step (302), RNC search for the sub-district that is in normal condition under the NODEB of this GPS reference receiver binding.

Step (303a), when RNC searches the sub-district that is in normal condition under the NODEB of this GPS reference receiver binding, obtain the sub-district ID of this sub-district, and, realize that by the GPS information exchanging process that is based upon Iub interface in the aforementioned prior art RNC obtains the related data of GPS reference receiver with this sub-district ID and the binding of GPS reference receiver.

Step (303b), when the sub-district of the current binding of GPS reference receiver is changed abnormal condition into, RNC searches for the sub-district that is in normal condition again, and the binding of carrying out sub-district ID is obtained the related data of GPS reference receiver continuously to realize RNC.

Step (303c), when RNC does not search the sub-district that is in normal condition under the NODEB of this GPS reference receiver binding, then in the message of GPS information exchanging process, can't be GPS reference receiver binding sub-district ID, the failure of this time GPS information exchanging process, and carry out GPS information exchange failure procedures.

As shown in Figure 3A, in the above-mentioned steps (302), the sub-district that is in normal condition under the NODEB of RNC search GPS reference receiver binding is specially:

The list of application of the GPS reference receiver of step (302-1), RNC inquiry RNC information memory cell.

Step (302-2), RNC be according to the corresponding relation of GPS reference receiver and NODEB in the list of application of GPS reference receiver, the sub-district under the search NODEB.

Wherein, the RNC search cell can adopt any way of search, the general mode that adopts all sub-districts of traversal, promptly inquire about all sub-districts successively, and according to each cell status generation cell status tabulation, because store the configuration information of NODEB and NODEB control sub-district in the RNC information memory cell of RNC, configuration information comprises the positional information of NODEB or sub-district and the identification information of NODEB or sub-district, and RNC carries out status poll according to those information to the sub-district.

The GPS information exchanging process of above-mentioned steps (303a) is specially:

Step (303a-1), RNC send INFORMATION EXCHANGEINITIATION REQUEST (information exchange initial request) message to NODEB, and request NODEB replys the related data of GPS reference receiver.

Step (303a-2), NODEB reply INFORMATION EXCHANGEINITIATION RESPONSE (information exchange initial communication) message to RNC, and the RNC information requested is replied.

Shown in Fig. 3 B, the GPS information exchange failure procedures of above-mentioned steps (303c) comprises that specifically step is as follows:

Step (303c-1), RNC send INFORMATION EXCHANGEINITIATION REQUEST (information exchange initial request) message to NODEB, and request NODEB replys the related data of GPS reference receiver.

Step (303c-2), NODEB reply INFORMATION EXCHANGEINITIATION FAILURE (information exchange is initially failed) message to RNC and represent the failure of this time GPS information exchanging process.

The present invention also provides the system of ID binding in sub-district in a kind of GPS information exchanging process, and as shown in Figure 4, this system mainly comprises RNC, NODEB and GPS reference receiver.

Have the RNC information memory cell among the RNC, the RNC information memory cell can be the database of RNC or the server of storage hardware resource allocation information, preserves the list of application of GPS reference receiver in the RNC information memory cell.RNC adds the corresponding relation of GPS reference receiver and NODEB in the list of application of GPS reference receiver to, and it is by realizing to the ID of RNC information memory cell transmission ADD (interpolation) command binding GPS reference receiver and the ID of NODEB.

Also store the configuration information of NODEB and NODEB control sub-district in the RNC information memory cell, configuration information comprises the positional information of NODEB and the positional information and the identification information of identification information and sub-district, and RNC carries out status poll by these configuration informations to NODEB control sub-district.

RNC searches the sub-district that is in normal condition under the NODEB of GPS reference receiver binding, obtain the sub-district ID of this sub-district, and, realize that by the GPS information exchanging process RNC obtains the related data of GPS reference receiver with this sub-district ID and the binding of GPS reference receiver.

When the sub-district of the current binding of GPS reference receiver was changed abnormal condition into, RNC searched for the sub-district that is in normal condition again, and the binding of carrying out sub-district ID is obtained the related data of GPS reference receiver continuously to realize RNC.

When RNC did not search the sub-district that is in normal condition under the NODEB of GPS reference receiver binding, GPS information exchange failure procedures was carried out in the failure of GPS information exchanging process between RNC and the NODEB.

The above; only for the preferable embodiment of the present invention, but protection scope of the present invention is not limited thereto, and anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.

Claims (12)

1. the method for sub-district ID binding in the GPS information exchanging process is characterized in that, comprises the steps:

A, radio network controller (RNC) are by the ID of interpolation command binding global position system GPS reference receiver and the ID binding of base station NODEB;

Be in the sub-district of normal condition under the configuration information search of the NODEB control sub-district of storing in B, described RNC the RNC information memory cell and the NODEB of GPS reference receiver binding according to RNC;

C, when searching the sub-district that is in normal condition, described RNC binds this cell ID ID and this GPS reference receiver.

2. according to the method for ID binding in sub-district in the described GPS information exchanging process of claim 1, it is characterized in that, also comprise before the described step B:

Activate described NODEB and go up the described GPS reference receiver that is provided with.

3. according to the method for ID binding in sub-district in the described GPS information exchanging process of claim 1, it is characterized in that described steps A is specially:

The corresponding relation of described GPS reference receiver and described NODEB is added in the list of application of GPS reference receiver.

4. according to the method for ID binding in sub-district in the described GPS information exchanging process of claim 3, it is characterized in that described step B specifically comprises step:

B1, described RNC inquire about the list of application of described GPS reference receiver;

B2, described RNC search for the sub-district under the described NODEB.

5. according to the method for ID binding in sub-district in the described GPS information exchanging process of claim 4, it is characterized in that the sub-district that the described RNC of step B2 searches under the described NODEB is specially:

Described RNC carries out status poll according to the configuration information of described NODEB and NODEB control sub-district to the sub-district.

6. according to the method for ID binding in sub-district in the described GPS information exchanging process of claim 5, it is characterized in that described configuration information comprises positional information and identification information.

7. according to the method for ID binding in sub-district in the described GPS information exchanging process of claim 1, it is characterized in that described step C is specially:

When described RNC does not search the sub-district that is in normal condition under the NODEB of described GPS reference receiver binding, the failure of GPS information exchanging process.

8. according to the method for ID binding in sub-district in the described GPS information exchanging process of claim 1, it is characterized in that, also comprise after the described step C:

When the sub-district of the current binding of described GPS reference receiver was changed abnormal condition into, described RNC searched for the sub-district that is in normal condition again, and carried out the binding of sub-district ID.

9. a device of realizing ID binding in sub-district in the GPS information exchanging process is characterized in that, comprising:

Be used for by adding the module that the ID of the ID of global position system GPS reference receiver and base station NODEB is bound in order;

Be used for from the configuration information of the NODEB control sub-district that the RNC information memory cell of described RNC is stored, searching for the module that is in the sub-district of normal condition under the NODEB that binds with the GPS reference receiver;

Be used for when searching the sub-district that is in normal condition, with the module of this cell ID ID and the binding of this GPS reference receiver.

10. according to the described device of realizing ID binding in sub-district in the GPS information exchanging process of claim 9, it is characterized in that, before the configuration information of the NODEB control sub-district that is used for storing, searching for the module of the sub-district that is in normal condition under the NODEB that binds with the GPS reference receiver, also comprise from the RNC information memory cell of described RNC:

Be used to activate the module that described NODEB goes up the described GPS reference receiver that is provided with.

11. the device according to ID binding in sub-district in the described realization of the claim 9 GPS information exchanging process is characterized in that described configuration information comprises positional information and identification information.

12. the device according to ID binding in sub-district in the described realization of the claim 9 GPS information exchanging process is characterized in that, is being used for when searching the sub-district that is in normal condition, after the module with this cell ID ID and the binding of this GPS reference receiver, also comprises:

Be used for when the sub-district of the current binding of described GPS reference receiver is changed abnormal condition into, described RNC searches for the sub-district that is in normal condition again, and carries out the module of the binding of sub-district ID.

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