CN1204762C - Redundant disaster method for realizing adscription of location registers throuth mobile communication operating system - Google Patents

Abstract

The present invention discloses a redundant disaster method for realizing a home location register through a mobile communication operating system. In the present invention, corresponding to a plurality of active home location registers which requires to carry out data backup and business backup, a home location register of a disaster tolerance center is established in a centralization mode; an operating system periodically and synchronously transmits operating instructions which modify subscriber information to the home location register of a disaster tolerance center by using respective active home location register. The present invention has the advantages of strong operability, small effect on the existing system, low demands to transmission line, low cost, and better compatibility and expandability.

Description

Realize the attaching position register redundant disaster method by the mobile communication operating system

Technical field

The present invention relates to mobile communication system, more specifically refer to a kind of by mobile communication operating system realization attaching position register redundant disaster method.

Background technology

Along with mobile subscriber's the quick increase and the continuous development of mechanics of communication, the single-machine capacity of attaching position register (HLR) is hundreds of thousands even more often.Since home location register stores mobile subscriber's CAMEL-Subscription-Information; in case shut down owing to cause the attaching position register chromic trouble such as unpredictable reasons such as outage, fire, earthquake, thunderbolts; all contracted users' mobile service will be interrupted; so, provide long-range superfluous calamity to become the task of top priority to attaching position register.

The superfluous calamity of attaching position register comprises the content of two aspects, one is the superfluous calamity of data that is used for backing up user data merely, another one is a professional superfluous calamity on this basis, when promptly the master breaks down with attaching position register, superfluous calamity attaching position register can be taken over its business, guarantees the uninterrupted of call business to greatest extent.

According to whether being under the jurisdiction of same manufacturer, superfluous calamity can be further divided into compatible superfluous calamity and the superfluous calamity of incompatibility by backup attaching position register, superfluous calamity center attaching position register.Because current domestic attaching position register supply of equipment producer is many, different attaching position registers are all inequality to storage format, the processing mode of user data, so the compatible scheme scope of application is more extensive.

Each equipment supplier has realized the superfluous calamity of local data of attaching position register at present substantially, promptly realize the schedule backup of user data by magnetic tape station or disk, but professional superfluous calamity is not widely used as yet.

The superfluous calamity of teledata is divided into two kinds on topological structure, a kind of is the superfluous calamity scheme of 1+1, and a kind of is the N+1 scheme.Clearer and more definite scheme has 1+1 expansion MAP (MAP) protocol signaling scheme and the synchronous subscription data scheme of N+1 at present, is introduced respectively below:

1+1 expansion MAP protocol signaling solution (is seen Fig. 1, STP is a Signalling Transfer Point among Fig. 1): generally be the mutual backup between two attaching position registers (HLR), its core content is to carry all kinds of operational orders by the signalling system No.7 of expanding, and realizes the consistency of data.At first, each attaching position register is not only preserved home subscriber information, also keeps the user profile of Another Place To Fall location register simultaneously, and these user profile use " main/attached " sign position to identify respectively in attaching position register inside.Each attaching position register is when sending to the standard signaling (operational order) of oneself according to normal flow reception, processing, the MAP protocol message that the user data that also this signaling (operational order) will be caused changes by expansion is notified to corresponding backup attaching position register, carry out data synchronization updating by backup attaching position register, thereby realize data sync.The MAP protocol message of expansion comprises modification, newly-increased and deletion action.

The synchronous subscription data scheme of N+1: simultaneously a plurality of attaching position registers are carried out superfluous calamity by an attaching position register, claim that superfluous calamity attaching position register is superfluous calamity center this moment.Its core content is all CAMEL-Subscription-Information of user that CAMEL-Subscription-Information changes to be outputed in the text with the agreement form with attaching position register by main, submits to superfluous calamity center by special line and loaded, thus the unanimity of realization both sides data.

Though the network configuration of above-mentioned 1+1 expansion MAP protocol signaling solution is more succinct, has following problem:

1) cost height: apparent, for a large amount of attaching position registers of online operation respectively are equipped with a cover disaster tolerant system, cost is very high, especially under the very little situation of attaching position register probability of malfunction; Even adopt the 1+1 superfluous calamity mode that circulates, though need not to increase the quantity of attaching position register, owing to require each attaching position register all will back up the user data of other attaching position register, so the upgrade cost of equipment is still very high;

2) technical difficulty is bigger, implementation cycle is long: the attaching position register in this scheme not only will be given the other side's attaching position register with the change notification of self attaching position register user data according to the standard signaling method, but also to receive, handle the user data synchronization message that the other side sends, the change demand of attaching position register software systems is bigger;

3) difficult management owing to held other attaching position register user data in the attaching position register, makes existing management mode cause difficulty;

4) clear and definite solution is not proposed compatibility, especially to the backup problem of the self-defining characteristic service data of each manufacturer.

5) existing signaling system there is bigger impact: owing to daily mass data is transmitted by No.7 nation-wide Network synchronously fully, so signaling traffic load is multiplied.

Though and the synchronous subscription data scheme of N+1 has been avoided the defective of the superfluous calamity scheme of 1+1, but still there is following problem:

1) performance to existing attaching position register has very big influence: because each of corresponding CAMEL-Subscription-Information changes, the master must be exported all CAMEL-Subscription-Information of this user with attaching position register; Loaded down with trivial details cancellation, account-opening also will be done accordingly in superfluous calamity center, and the MAP protocol message disposal ability of system is had very big influence;

2) transformation to existing net equipment is bigger, scheme can be implemented lower: exported with attaching position register by main because all user data change all, so in order to support superfluous calamity characteristic, survey is upgraded, transferred to requirement to all masters with attaching position register, quantities is huge, and exploitativeness is lower.

Summary of the invention

At the problem that existing attaching position register data redundant disaster method in the background technology exists, the present invention proposes a kind of by mobile communication operating system realization attaching position register redundant disaster method.

In order to address the above problem, the present invention adopts following technical scheme,

Realize that by the mobile communication operating system attaching position register redundant disaster method may further comprise the steps:

A, the master who carries out superfluous calamity corresponding to a plurality of needs concentrates with home location register and sets up a superfluous calamity center attaching position register;

B uses increase operational order translation module on the attaching position register business system leading of the superfluous calamity of needs;

C sets up wide area network and is connected between main business system with attaching position register and superfluous calamity center, dispose the hand off signaling of the peripheral network element of attaching position register according to standard method;

D arrives superfluous calamity center with main with the user data synchronization in the attaching position register, promptly sets up the data baseline at superfluous calamity center;

E, instruct according to the form output increment of arranging between superfluous calamity center and the business hall main business hall with attaching position register side, is carried out synchronously by superfluous calamity center, realizes the consistency of incremental data;

F, after the master broke down with attaching position register, the signaling that triggers peripheral network element was switched, thereby realized professional the switching;

G carries out service switchback again after the master eliminates with the attaching position register fault.

Setting up superfluous calamity center among the described step a is on general attaching position register basis, in the attaching position register main frame, increased a standard operating instruction loading interface, be used for loading, resolve, carry out every standard operating instruction, in the attaching position register main frame, increase the file transfer protocol (FTP) communication module, regularly from other N master with obtaining the standard operating instruction of depositing with text mode the attaching position register business system, and be loaded in the attaching position register main frame by loading interface.

Described step b is meant each main using increases an operational order translation software on the original business system of attaching position register, the operational order of revising user signing contract information when being used to of sending by business system by main with the attaching position register correct execution after, the operational order translation software converts the operational order of these internal forms to disaster tolerant system desired standard operating instruction, and is kept at this locality with text mode.

Connected mode among the described step c comprises DDN or X.25 or one of three kinds of modes of E1.

In the described steps d, the data baseline of setting up superfluous calamity center is meant when system's initial start-up, each master manually is synchronized in the attaching position register of superfluous calamity center with the data in the attaching position register, to set up initial user data baseline and system data baseline, wherein the user data baseline is meant the signing service data of user class, system's base-line data is meant the information of system level, comprises the template data of opening an account, IN service template data, system level set parameter.

Among the described step e, the incremental data of normal operating phase is meant at normal operating phase synchronously, each is main is instructed the business hall operational order that be translated into reference format with all by business hall successful execution, that be used to revise user contracting data according to consolidation form with the attaching position register business system, and store in the text under the local assigned catalogue, superfluous calamity center attaching position register is main with getting access to these texts the attaching position register from each by the file transfer protocol (FTP) server, and is loaded in the attaching position register main frame of superfluous calamity center.

Business among the described step f after the fault is switched the data configuration that utilizes the hand off signaling that has set on mobile switching centre, Signalling Transfer Point, gives superfluous calamity center attaching position register with the forwards that originally is sent to the fault attaching position register.

It is by recovering the signaling configuration of mobile switching centre, Signalling Transfer Point, signaling being redirected to the main attaching position register of using from superfluous calamity attaching position register that business after fault is eliminated in the described step g is switched.

The present invention compares with traditional redundant disaster method owing to adopted technique scheme, and the present invention has the following advantages:

1) smaller to the influence of existing system, has very strong operability:, handle the attaching position register main frame of MAP protocol signaling almost without any influence to being responsible for because all operational orders all are by the business system output that is in the attaching position register periphery; And, can not cause load impact to existing signaling system owing to transmitted by special line by synchronous operational order yet.

2) require lower to transmission line: N master is with only transmitting the operational order that those cause user signing contract information to change between attaching position register and the superfluous calamity center, row requires lower to line speed for the N+1 scheme of all CAMEL-Subscription-Information that at every turn all will transmit a user.For one 1,000,000 attaching position register, a 64K transmission line can satisfy daily data sync.

3) cost is lower: for being used attaching position register by the master of superfluous calamity, its business system just simply will be stored in the local text with the agreement form by the operational order of successful execution, so need not the hardware of system is done any upgrading, the scheme cost is lower.

4) support compatible superfluous calamity: because superfluous calamity center and each main using between the attaching position register are only set up contact by standard operating instruction, so as long as main with the attaching position register business system can outputting standard operational order, just can bring in this disaster tolerant system, so the compatibility of scheme, extensibility are relatively good.

Description of drawings

Fig. 1 is for realizing the schematic diagram of the superfluous calamity of 1+1 loop-around data by expansion MAP signaling.

Fig. 2 utilizes the inventive method to realize the networking structure figure of the superfluous calamity of N+1.

Embodiment

In the method for the invention, please in conjunction with shown in Figure 2, in the figure, the right square frame is illustrated as superfluous calamity center, and n main business system (HLR1, HLR2 with attaching position register have been illustrated to have in the left side ... HLRn), they constitute a disaster tolerant system jointly.All have main in each business system with attaching position register and communication machine.The corresponding a plurality of needs of keeper carry out the main attaching position register of using of superfluous calamity, concentrate and to set up a superfluous calamity center attaching position register, each is main is responsible for those operational orders that is used to revise user signing contract information regularly are synchronized to the operating system of attaching position register and is transferred to superfluous calamity center attaching position register.

For domestic attaching position register, the data maintenance of attaching position register comprises two parts: the maintenance of the user data that is undertaken by business system and the system data maintenance of being undertaken by the host computer system terminal, and the former frequency of maintenance will be far longer than the latter.On cost, performance and the basis of the completeness of taking all factors into consideration superfluous calamity data, disaster tolerant system, determined to realize the compatible superfluous calamity solution of N+1 of active and standby attaching position register user data consistence by synchronous business system operational order to attaching position register main frame influence degree.

Comparatively specifically, this method at first makes each main with attaching position register operational order interpretative function software of increase on existing business system, the operational order of revising user signing contract information when being used to of sending by business system by main with the attaching position register correct execution after, this operational order translation software converts the operational order of these internal forms to superfluous calamity center desired standard operating instruction, and is kept at this locality with text mode;

Then, superfluous calamity center is regularly main with obtaining these operational order files the attaching position register business system from each by file transfer protocol (FTP) mechanism, and is loaded into successively in the attaching position register main frame of superfluous calamity center, with realization both sides data synchronization;

For can not be by the operational order of superfluous calamity center attaching position register correct execution, error log will be preserved in superfluous calamity center, be made regular check on, will be confirmed by the disaster tolerant system keeper.

Backing up all static signing data of N the attaching position register that is moving in this territory, superfluous disaster area in the attaching position register of superfluous calamity center.The N that is a moving attaching position register, if one of them breaks down, superfluous calamity attaching position register can use the Backup Data of this fault attaching position register on this machine, switches by signaling, and the business of roaming and calling etc. is provided for the user in this fault attaching position register; And the service take-over with attaching position register to a plurality of fault masters is also supported at the superfluous calamity center in this scheme.

Redundant disaster method of the present invention may further comprise the steps particularly:

A, the master who carries out superfluous calamity corresponding to a plurality of needs concentrates with home location register and sets up a superfluous calamity center attaching position register;

B uses increase operational order translation module on the attaching position register business system leading of the superfluous calamity of needs;

C sets up wide area network and is connected between main business system with attaching position register and superfluous calamity center, dispose the hand off signaling of the peripheral network element of attaching position register according to standard method;

D arrives superfluous calamity center with main with the user data synchronization in the attaching position register, promptly sets up the data baseline at superfluous calamity center;

E, main business hall with attaching position register side is carried out by superfluous calamity center synchronously according to by the instruction of the agreement form output increment between cosmos calamity center and the business hall, realizes the consistency of incremental data;

F, after the master broke down with attaching position register, the signaling that triggers peripheral network element was switched, thereby realized professional the switching;

G carries out service switchback again after the master eliminates with the attaching position register fault.

In above-mentioned steps a,

Following content has been expanded in superfluous calamity center on general attaching position register basis, at first, increased a standard operating instruction loading interface in the attaching position register main frame, is used for loading, resolves, carries out every standard operating instruction; Secondly, in the attaching position register main frame, increased the file transfer protocol (FTP) communication module, adopt the industry method in common regularly from other n master with obtaining the standard operating instruction of depositing with text mode the attaching position register business system, and be loaded in the attaching position register main frame by loading interface.

Among the step b,

On original business system, increase an operational order translation software module at each main attaching position register of using, the operational order of revising user signing contract information when being used to of sending by business system by main with the attaching position register correct execution after, this software module is responsible for the operational order of these internal forms is converted to the desired standard operating instruction of disaster tolerant system, and is kept at this locality with text mode.

Similar with business system operational order commonly used in the mobile engineering, the operational order of this standard can but be not limited to the ASCII character format description, specifically comprise opening an account/cancellation/change card/each service condition of change user etc.

Example please see the following form:

Command name: MOD-ODBPARA

Functional description: the locking class parameter of revising the Virtual network operator decision

The parameter meaning:

Parameter name	Parameter type	Parameter area	The Chinese meaning	English meaning	Remarks
						imsi	Character string type	15	The IMSI number		Imsi, isd n must and can only select one
isdn	Character string type	8~6	Mobile Subscriber International ISDN Number
					odbf	Boolean's class	true，f	Whether use ODB		Optional

	Type	alse
						odbss	Enumeration type		Whether Operator Determined Barring-Operator-Determined Barring-Barring of Supplementary Services Access inserts	odbss	Optional
	Enumerate title	Enumerated value
						nobss	0	Operator-Determined Barring-Barring of Supplementary Services Access is not provided
	bss	1	Operator-Determined Barring-Barring of Supplementary Services Access is provided
						odbic	Enumeration type		Operator Determined Barring-Barring of All Incoming Calls	OdbIncomingCal ls	Optional
	Enumerate title	Enumerated value
						nobic	0	Operator-Determined Barring-Barring of Incoming Calls not	Nobarringofinc omingcalls
	bic	1	Barring of All Incoming Calls	Barringofallin comingcalls
						bicro	2	All roam out locking Home PLMN country and go into to call out	Barringofallin comingcallswhe nroamingoutsid ethehomePLMNco untry
	odboc	Enumeration type		Operator Determined Barring-Barring of All Outgoing Calls	OdbOutgoingCal ls						Optional

							Enumerate title	Enumerated value
noboc	0	Not locking goes out to call out	Nobarringofout goingcalls
					boc		1	Barring of All Outgoing Calls	Barringofallou tgoingcalls
boic	2	Barring of Outgoing International Calls	Barringofallou tgoinginternat ionalcalls
					boiceh		3	Locking all worlds except that home country go out to call out	Barringofallou tgoinginternat ionalcallsexce ptthosedirecte dtothehomePLMN country
boicwr	4	All roam out locking Home PLMN country and go out to call out	Barringofallou tgoingcallswhe nroamingoutsid ethehomePLMNco untry
					odbpb1		Boolean type	true，f alse	The specific latching-type 1 of Operator Determined Barring-PLMN (going out to call out for locking is long-distance at present)	OdbPlmnBar1	Optional
odbpb2	Boolean's class	true，f	Operator Determined Barring	OdbPlmnBar2		Optional

	Type	alse	The specific latching-type 2 of business-PLMN
						odbpb3	Boolean type	true，f alse	The specific latching-type 3 of Operator Determined Barring-PLMN	OdbPlmnBar3	Optional
odbpb4	Boolean type	true，f alse	The specific latching-type 4 of Operator Determined Barring-PLMN	OdbPlmnBar4	Optional
						odboe	Boolean type	true，f alse	Operator Determined Barring-locking great number rate entertainment service goes out to call out	OdbOutgoingEnt ertainment	Optional
odboi	Boolean type	true，f alse	Operator Determined Barring-locking great number rate voice-guide service goes out to call out	OdbOutgoingInf ormation	Optional
						odbr	Enumeration type		Operator Determined Barring-roaming restriction	OdbRoaming	Optional
	Enumerate title	Enumerated value
						noa	0	Do not limit	NotActive
	broh	1	Locking goes out the Home PLMN roaming	Barringofroami ngoutsidetheho mePLMN
						brohc	2	Locking goes out the roaming of Home PLMN country	Barringofroami ngoutsidetheho mePLMNCountry

Example:

(1)MOD-ODBPARA：isdn＝″8613902700001″，odbf＝false；

(2)MOD-ODBPARA：isdn＝″8613902700001″，odbf＝true，odboc＝boc；

Among the step c, connected mode comprises DDN or X.25 or one of three kinds of modes of E1.On the peripheral network element of attaching position register, comprise STP (Signalling Transfer Point), MSC (mobile switching centre), respectively active and standby HLR is configured to mutually redundant subsystem.

Set up the data baseline at superfluous calamity center in the steps d, main to realize with the data consistency between attaching position register and the superfluous calamity attaching position register.

When system's initial start-up, each master manually need be synchronized in the attaching position register of superfluous calamity center with the data in the attaching position register, to set up initial data baseline.Specifically be divided into and set up the user data baseline and set up system data baseline two parts.Wherein the attaching position register method for cutting over that the baseline of user data is set up and industry is general is identical, is not giving unnecessary details; And the user data baseline is meant the signing service data of user class, and system's base-line data is meant the information of system level, comprises the template data of opening an account, IN service template data, system level set parameter.

Owing to relate to the corresponding relation of template between active and standby attaching position register, be further described below:

Each is main separate with attaching position register, the code name of template in different attaching position registers that content is identical may have nothing in common with each other, so the keeper of disaster tolerant system must safeguard the template and N the main corresponding relation of using the template of attaching position register at superfluous calamity center, and, require main business system must write down this corresponding relation, to guarantee the correct operational order that the local operation instruction is converted into standard with attaching position register.Such as: master with No. 1 of attaching position register No. 10 templates of opening an account at superfluous calamity center of having opened an account the template correspondence, so when this is main when opening an account with No. 1 template in native system inside with the attaching position register business hall, the operational order of submitting to superfluous calamity center must be to translate to the instruction of opening an account with No. 10 templates.

Step e mainly is the incremental data of synchronous normal operating phase, at normal operating phase, each main according to consolidation form all instruction by business hall successful execution, that be used to revise user contracting data with the attaching position register business system is translated into the business hall operational order of reference format, and stores in the text under the local assigned catalogue; Superfluous calamity center attaching position register is main with getting access to these texts the attaching position register from each by the file transfer protocol (FTP) server, and is loaded in the attaching position register main frame of superfluous calamity center.

For step f, after the master breaks down with attaching position register, by taking the general measure of industry to revise the hand off signaling data configuration that has set on corresponding mobile switching centre, the Signalling Transfer Point, handle to superfluous calamity center attaching position register the forwards that is sent to the fault attaching position register originally.And for step g, after the master eliminates with the attaching position register fault, by recovering the signaling configuration of mobile switching centre, Signalling Transfer Point, signaling is redirected to the master from superfluous calamity attaching position register uses attaching position register.

More than, those of ordinary skill in the art will be appreciated that, above embodiment is used for illustrating method of the present invention, and be not the qualification that is used as it, as long as in connotation scope of the present invention, all should drop in the scope of the inventive method the variation of the above embodiment.

Claims (8)

1, a kind of by mobile communication operating system realization attaching position register redundant disaster method, it is characterized in that this redundant disaster method may further comprise the steps:

A, the master who carries out superfluous calamity corresponding to a plurality of needs concentrates with home location register and sets up a superfluous calamity center attaching position register;

B uses increase operational order translation module on the attaching position register business system leading of the superfluous calamity of needs;

C sets up wide area network and is connected between main business system with attaching position register and superfluous calamity center, dispose the hand off signaling of the peripheral network element of attaching position register according to standard method;

D arrives superfluous calamity center with main with the user data synchronization in the attaching position register, promptly sets up the data baseline at superfluous calamity center;

E, main business hall with attaching position register side is carried out by superfluous calamity center synchronously according to by the form output increment instruction of arranging between superfluous calamity center and the business hall, realizes the consistency of incremental data;

F, after the master broke down with attaching position register, the signaling that triggers peripheral network element was switched, thereby realized professional the switching;

G carries out service switchback again after the master eliminates with the attaching position register fault.

2, as claimed in claim 1 by mobile communication operating system realization attaching position register redundant disaster method, it is characterized in that: setting up superfluous calamity center among the described step a is on general attaching position register basis, in the attaching position register main frame, increased a standard operating instruction loading interface, be used for loading, resolve, carry out every standard operating instruction, in the attaching position register main frame, increase the file transfer protocol (FTP) communication module, regularly from other N master with obtaining the standard operating instruction of depositing with text mode the attaching position register business system, and be loaded in the attaching position register main frame by loading interface.

3, as claimed in claim 1 by mobile communication operating system realization attaching position register redundant disaster method, it is characterized in that: described step b is meant each main using increases an operational order translation software on the original business system of attaching position register, the operational order of revising user signing contract information when being used to of sending by business system by main with the attaching position register correct execution after, the operational order translation software converts the operational order of these internal forms to disaster tolerant system desired standard operating instruction, and is kept at this locality with text mode.

4, as claimed in claim 1ly realize the attaching position register redundant disaster method by the mobile communication operating system, it is characterized in that: the connected mode among the described step c comprises DDN or X.25 or one of three kinds of modes of E1.

5, as claimed in claim 1 by mobile communication operating system realization attaching position register redundant disaster method, it is characterized in that: in the described steps d, the data baseline of setting up superfluous calamity center is meant when system's initial start-up, each master manually is synchronized in the attaching position register of superfluous calamity center with the data in the attaching position register, to set up initial user data baseline and system data baseline, wherein the user data baseline is meant the signing service data of user class, system's base-line data is meant the information of system level, comprises the template data of opening an account, the IN service template data, the system level set parameter.

6, as claimed in claim 1 by mobile communication operating system realization attaching position register redundant disaster method, it is characterized in that: among the described step e, the incremental data of normal operating phase is meant at normal operating phase synchronously, each main with attaching position register business system according to consolidation form with all by successful execution, the business hall instruction that is used to revise user contracting data is translated into the business hall operational order of reference format, and store in the text under the local assigned catalogue, superfluous calamity center attaching position register is main with getting access to these texts the attaching position register from each by the file transfer protocol (FTP) server, and is loaded in the attaching position register main frame of superfluous calamity center.

7, as claimed in claim 1 by mobile communication operating system realization attaching position register redundant disaster method, it is characterized in that: the business among the described step f after the fault is switched the hand off signaling data configuration that utilization has set on mobile switching centre, Signalling Transfer Point, gives superfluous calamity center attaching position register with the forwards that originally is sent to the fault attaching position register.

8, as claimed in claim 1 by mobile communication operating system realization attaching position register redundant disaster method, it is characterized in that: it is by recovering the signaling configuration of mobile switching centre, Signalling Transfer Point, signaling being redirected to the main attaching position register of using from superfluous calamity attaching position register that the business after fault is eliminated in the described step g is switched.

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