CN1133343C - Systemic control method for distributed base stations - Google Patents

Systemic control method for distributed base stations Download PDF

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Publication number
CN1133343C
CN1133343C CN 00125622 CN00125622A CN1133343C CN 1133343 C CN1133343 C CN 1133343C CN 00125622 CN00125622 CN 00125622 CN 00125622 A CN00125622 A CN 00125622A CN 1133343 C CN1133343 C CN 1133343C
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far
control module
base station
end control
module
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CN1332586A (en
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沈建达
刘金
刘绍龙
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ZTE Corp
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ZTE Corp
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Abstract

The present invention discloses a system control method for a distributed base station in the field of wireless communication. The method comprises the steps of controlling the startup of the base station, controlling the regulation of the sate and processing failures, wherein the step of controlling the regulation of the sate also comprises the steps of withdrawing the base station, bringing the base station into service and restarting the base station. During the failure processing of the base station, both the near end control module and the far end control module can respectively process the same warning message at the far end at the same time and a warning message at the near end is processed by the near end control module. Therefore, the present invention guarantees the consistent and stable operation of the system as well as the synchronous working state of the near end part and the far end part of the distributed base station.

Description

The system control method of distributed base station
The present invention relates to wireless communication field, particularly the system control method of distributed base station.
The base station is the visual plant of cordless communication network, covers and certain telephone traffic requirement in order to reach signal, and the quantity of base station in wireless communication networks is often many, therefore requires the base station to have advantages of higher stability, reliability and maintainable preferably.So-called distributed base station is meant that each functional module of base station resides in respectively on the different hardware and software platforms, generally comprise proximal part and distal portions, connect by the wire communication link between these two parts, network side interface and air interface are provided respectively, and proximal part and distal portions co-ordination are to realize the various functions of base station.For distributed base station, its proximal part and distal portions all are relatively independent software and hardware systems, in startup, troubleshooting and the state adjustment process of whole base station, need respectively the work of each module of software and hardware of proximal part and distal portions is controlled and managed, to guarantee the operate as normal of base station system.System's control of distributed base station proximal part and distal portions was adopted usually the method for independent control in the past, be that proximal part and distal portions are all controlled separately by the control module of oneself respectively, the work of near-end control module and far-end control module is relatively independent, the harmony of this method is relatively poor, reliability is low, in start-up course, troubleshooting and the state adjustment process of base station, the operating state that is easy to cause proximal part and distal portions is asynchronous and make the base station cisco unity malfunction.
The purpose of this invention is to provide that a kind of harmony is good, reliability is high, can carry out the system control method of synchronous distributed base station the operating state of distributed base station proximal part and distal portions, be used for controlling and coordinate work between each module of software and hardware of distributed base station, distributed base station is reliablely and stablely moved.
To achieve these goals, the present invention proposes a kind of system control method of distributed base station, this method is divided into start-up control, state adjustment control and the troubleshooting three parts to the base station, wherein the state adjustment comprises withdrawing from operation, put into effect and restarting of base station, in the troubleshooting of base station, the same warning information that near-end control module and far-end control module can occur far-end is respectively simultaneously handled, and is then handled by the near-end control module for the warning information that near-end occurs.It is characterized in that:
In the start-up course of base station, after near-end and far-end are set up communication, the near-end control module is assigned the order that enters the Business Processing preparatory stage to the far-end control module, then the far-end control module carries out notifying the near-end control module after the initialization to the related hardware module, orders the service processing software module of near-end and far-end to carry out the Business Processing preparation then;
In the alarming processing process of base station near-end control module and far-end control module, after near-end control module and far-end control module are received high severity alarm message, at first judge whether it is that communication link interrupts, if communication link interrupts, then the far-end control module resets module of software and hardware, and the near-end control module then enters and starts setting up the communication stage of flow process; Interrupt if not communication link, then the far-end control module is controlled the control command that far-end enters suspended state and waits for the near-end control module, simultaneously the near-end control module judges that alarm that described communication link interrupts whether can be by the software and hardware recovery that resets, if could would order the appropriate section (near-end or far-end) of alarm to carry out software and hardware to reset that (software and hardware causes that communication link interrupts after resetting, then far-end control module and near-end control module detect to enter after the high severity alarm that this communication link interrupts and start setting up the communication stage of flow process), if could would order the appropriate section (near-end or far-end) of alarm to stop Business Processing, withdraw from operation;
Withdraw from the process of operation in the base station, the near-end control module is at first assigned the order that stops Business Processing to the far-end control module, then the far-end control module is notified the near-end control module after closing the related hardware module, and the service processing software module of near-end control module order near-end and far-end is hung up then;
In the process that the base station puts into effect, the near-end control module is at first assigned the order that recovers Business Processing to the far-end control module, then the far-end control module is notified the near-end control module after opening the related hardware module, and the service processing software module of near-end control module order near-end and far-end begins to recover Business Processing then;
In the process that the base station restarts, the near-end control module at first orders the service processing software module of near-end and far-end to stop Business Processing, order the far-end control module that module of software and hardware is resetted then, then near-end control module and far-end control module enter and start setting up the communication stage of flow process;
The concrete steps of described base station initiated process are as follows:
1. near-end and far-end module of software and hardware reset, and the back near-end is controlled mould and the far-end control module is carried out hardware check to near-end and far-end separately;
2. near-end and far-end are set up communication;
3. the near-end control module is assigned the order that enters the Business Processing preparatory stage to the far-end control module;
4. the far-end control module carries out notifying the near-end control module after the initialization to the related hardware module;
5. the service processing software module initialization of near-end and far-end;
6. near-end is to the far-end synchrodata;
7. the service processing software module of near-end and far-end begins to carry out Business Processing;
The concrete steps of described base station far-end control module alarming processing process are as follows:
1, the far-end control module is received alarm information;
2, judge whether it is high severity alarm;
3,, then do not do any processing if not high severity alarm;
4 if high severity alarm then judges whether it is interrupted communication link;
5 if communication link interrupts, and then the far-end control module resets module of software and hardware;
6, interrupt if not communication link, then the far-end control module is closed the related hardware module; Then far-end enters suspended state, waits for the control command of near-end control module.
The concrete steps of described base station near-end control module alarming processing process are as follows:
1, near-end control module receiving alarm message;
2, judge whether it is high severity alarm;
3,, then change step 15) if not high severity alarm;
4 if high severity alarm then judges whether it is interrupted communication link;
5, fruit is that communication link interrupts, and then enters setting up the communication stage of described base station initiated process;
6, interrupt if not communication link, then judge it is the alarm of near-end or the alarm of far-end;
7, fruit is the recovered alarm of near-end, then the near-end module of software and hardware is resetted, and changes step 15);
8, fruit is the irrecoverable alarm of near-end, then assigns the order that stops Business Processing to the far-end control module;
9, the far-end control module is closed the related hardware module;
10, far-end control module notice near-end control module;
11, the service processing software module of near-end control module order near-end and far-end is hung up, and operation is withdrawed from the base station, changes step 15);
12 if the recovered alarm of far-end then orders the service processing software module of near-end and far-end to stop Business Processing;
13, order far-end control module resets module of software and hardware, and near-end and far-end enter the communication stage of the setting up commentaries on classics step 15) that starts flow process;
14 if the irrecoverable alarm of far-end then orders the service processing software module of near-end and far-end to stop Business Processing, and operation is withdrawed from the base station.
15, finish.
The concrete steps that operation is withdrawed from described base station are as follows:
1. base station near-end control module in normal operation state is received from withdrawing from of webmaster and is runed order;
2. the near-end control module is assigned the order that stops Business Processing to the far-end control module;
3. the far-end control module is notified the near-end control module after closing the related hardware module;
4. the service processing software of near-end system control module order near-end and far-end is hung up, and operation is withdrawed from the base station.
The concrete steps that described base station puts into effect are as follows:
1. base station near-end control module in withdrawing from the state of operation is received the order that puts into effect from webmaster;
2. the near-end control module is assigned the order that recovers Business Processing to the far-end control module;
3. the far-end control module is opened related hardware module and notice near-end control module;
4. near-end is to the far-end synchrodata;
5. the service processing software module recovery Business Processing of near-end control module order near-end and far-end, the base station puts into effect.
The concrete steps that described base station restarts are as follows:
1. base station near-end control module in normal operation state is received the order that restarts from webmaster;
Near-end control module order near-end and far-end the service processing software module stop Business Processing;
3. near-end control module order far-end control module resets module of software and hardware;
4. near-end control module and far-end control module enter and start setting up the communication stage of flow process.
Because distributed management is adopted in system's control, the near-end control module of distributed base station system control module and far-end control module are controlled the module of software and hardware of proximal part and distal portions respectively, the start-up control that is used for the base station, state adjustment control and troubleshooting, the start-up control flow process of while far-end control module, state adjustment flow process and troubleshooting process are subjected to the commands for controlling of near-end control module, thereby the harmony and the stability of system's operation have been guaranteed, and can correctly carry out the manmachine command of webmaster reliably, avoid owing to distal portions and the inharmonious phenomenon that produces the working state of system confusion of proximal part state.The far-end that is also advantageous in that of described distributed management can in time respond failure message, carry out necessary state transition, because final processing is controlled according to the concrete condition of alarm by proximal part, increased harmony and the consistency of base station to troubleshooting, and can make webmaster can recognize far-end failure condition and in time deal with, thereby improved the maintainability of base station.In addition, the native system control method is supported the situation of the corresponding a plurality of far-ends of a near-end, the operation of each base station has independence, its operating state is independent of each other mutually, any one base station near-end that breaks down in the time of can't recovering can be controlled this base station separately and withdraws from operation, and can recover normal operating conditions voluntarily after the trouble shooting, increase the reliability of system widely; If in addition certain modification on the basis of native system control method can also be supported the working method of far-end binding preferably.
The present invention is further detailed explanation below in conjunction with the drawings and specific embodiments.
Fig. 1 is the embodiment that uses the system control method of distributed base station of the present invention---the composition of base station system control module and with the interface block diagram of other module.
Fig. 2 is a base station initiated flow chart embodiment illustrated in fig. 1.
Fig. 3 a is a base station far-end part alarming processing flow chart embodiment illustrated in fig. 1.
Fig. 3 b is a base station main control part alarming processing flow chart embodiment illustrated in fig. 1.
Fig. 4 is that the operation flow chart is withdrawed from base station embodiment illustrated in fig. 1.
Fig. 5 is the base station embodiment illustrated in fig. 1 flow chart that puts into effect.
Fig. 6 is that base station embodiment illustrated in fig. 1 restarts flow chart.
Fig. 1 is the embodiment that uses the system control method of distributed base station of the present invention---the composition of base station system control module and with the interface block diagram of other module.Described base station is a wireless telecommunication system based on the PHS standard, it is made up of the main control part and the distal portions of near-end, main control part is the base station master control borad that is placed on network side, distal portions comprises baseband board and rf board, connect with the U mouth between the baseband board of master control borad and far-end, a master control borad can be with four far-ends, forms four independently base stations.Module with the system control module interface in this base station system software module mainly contains Call Control Block, operating system module, operating maintenance module, database module, radio frequency control module.
Described base station system control module is divided into the main control module and the far-end control module of near-end, and main control module resides on the master control borad of base station, is made up of a master control process and four remote side administration processes; The far-end control module resides in the distal portions of base station, is made up of a far-end control process that resides on the baseband board.In conjunction with shown in Figure 1, the master control process be responsible for the power-up initializing of master control borad and transmit the remote side administration process and other software module between message, remote side administration process and distal portions are corresponding one by one, it mainly provides the management to the start-up course and the operating state of base station, according to manmachine command and failure condition each module of software and hardware of far-end is made corresponding state adjustment; The far-end control module is mainly finished module of software and hardware initialization to distal portions baseband board and rf board, carries out restarting and the state adjustment of distal portions under the control of main control module, the far-end control module can also be handled the fault of distal portions simultaneously, carry out the state adjustment according to failure condition, and under the commands for controlling of main control module, handle accordingly.
By the particular flow sheet of base station initiated process in the described embodiment of the invention of Fig. 2 as can be known, in the start-up course of base station, after setting up communication between the main control part of near-end and the distal portions, the remote side administration process of main control part is assigned the order that enters the Business Processing preparatory stage to far-end control process, then far-end control process is carried out after the initialization to remote side administration process reporting radio frequency control module operating state the radio frequency control module of far-end, and the service processing software module of order near-end of remote side administration process then and far-end is carried out Business Processing and prepared.
The detailed process of base station initiated flow process is in the described embodiment of the invention of Fig. 2: after the near-end of base station and far-end module of software and hardware reset, master control process and far-end control process are carried out hardware check to main control part and distal portions respectively, set up communication between main control part and the distal portions then; The remote side administration process of main control part was assigned the order that enters the Business Processing preparatory stage to far-end control process after communication was set up, then the radio frequency control module of far-end control process order far-end is carried out air frame synchronously and distribute the control channel time slot, then to remote side administration process reporting radio frequency control module operating state; The remote side administration process receives that this message post command Call Control Block carries out initialization, then the order data library module is to the far-end synchrodata, the order of remote side administration process then Call Control Block begins Business Processing, the order data library module is separated and is closed call resources, last remote side administration process reports operation state to webmaster, and the base station enters normal operation state.
According to above-mentioned base station initiated flow process, when resetting of main control part and distal portions is not to take place simultaneously or other situation when causing communication link to set up, remote side administration process far-end control process then rests on always to be set up the communication stage, set up up to communication link, whether remote side administration process then can continue to start flow process according to the actual conditions decision.If network side has fault, then remote side administration process can not issue to far-end control process and enter the order that Business Processing is prepared, and far-end control this moment process is in wait state always, just continues to start flow process after receiving orders.The startup flow process of far-end control process is subjected to the control of remote side administration process, thereby has improved the reliability and the harmony of base station initiated process.
Fig. 3 a and Fig. 3 b are respectively the particular flow sheet of part of base station far-end in the embodiment of the invention and main control part alarming processing, in conjunction with Fig. 3 a and Fig. 3 b as can be known, in the alarming processing process of main control part and distal portions, after the remote side administration process of near-end master control process and far-end control process are received high severity alarm message, at first judge whether it is that communication link interrupts, if communication link interrupts, then far-end control process resets module of software and hardware, and the remote side administration process then enters and starts setting up the communication stage of flow process; Interrupt if not communication link, then far-end control process is controlled the control command that far-end enters suspended state and waits for the remote side administration process, simultaneously the remote side administration process judges that alarm that described communication link interrupts whether can be by the software and hardware recovery that resets, if could would order the appropriate section (main control part or distal portions) of alarm to carry out module of software and hardware to reset and (cause behind the hardware reset that communication link interrupts, then remote side administration process and far-end control process detect to enter after the high severity alarm that this communication link interrupts and start setting up the communication stage of flow process), if could would order the appropriate section (main control part or distal portions) of alarm to stop Business Processing, withdraw from operation;
The detailed process of base station far-end part alarming processing is in the described embodiment of the invention of Fig. 3 a: after far-end control process in normal operation process is received alarm information from the far-end operation maintenance module, at first judge whether it is high severity alarm, if not high severity alarm, then do not do any processing; If high severity alarm, then judge whether it is that communication link interrupts, if communication link interrupts, then far-end control process resets the far-end module of software and hardware, (remote side administration this moment process is received the inaccessible call resources of high severity alarm post command database module that this communication link interrupts to enter the startup flow process, enter and start setting up the communication stage of flow process), so remote side administration process and far-end control process all can reenter the startup flow process immediately when communication link interruption alarm takes place, thereby have guaranteed the harmony and the consistency of main control part and distal portions state; Interrupt if not communication link, then far-end control process is closed radiofrequency emitting module, makes far-end enter suspended state, waits for after the remote side administration process is handled the high severity alarm of this communication link interruption far-end control process is issued an order.
The detailed process of base station near-end alarming processing is in the described embodiment of the invention of Fig. 3 b: after far-end control process in normal operation process is received alarm information from operating maintenance module, at first judge whether it is high severity alarm, if not high severity alarm, then do not do any processing; If high severity alarm then judges whether it is that communication link interrupts, if communication link interrupts, the inaccessible call resources of then remote side administration process order data library module enters setting up the communication stage of startup flow process then; Interrupt if not communication link, judge that then this alarm is from main control part or distal portions, if the recovered alarm of main control part, then directly main control part is resetted, thereby cause communication link to interrupt, far-end control process after receiving the alarm that this communication link interrupts resets the far-end module of software and hardware, guaranteed the consistency of main control part and distal portions state, if the irrecoverable alarm of main control part, then remote side administration process order far-end control process quits work, after receiving orders, far-end control process closes radiofrequency emitting module and with the state notifying remote side administration process of radio circuit, the order of remote side administration process then Call Control Block is hung up, then the inaccessible call resources of order data library module changes message to the webmaster uploaded state, and operation is withdrawed from the base station; If the recovered alarm of distal portions, then order Call Control Block to discharge ongoing calling, follow the inaccessible resource of order data library module, order far-end control process that the far-end module of software and hardware is resetted then, enter and start setting up the communication stage of flow process, because far-end causes after resetting communication link to interrupt, the far-end process is received also and then to enter after the alarm that this communication link interrupts and is started setting up the communication stage of flow process; If the irrecoverable alarm of distal portions, then remote side administration process order Call Control Block call release, the inaccessible resource of order data library module then changes message to the webmaster uploaded state then, and main control part and distal portions all entered and withdrawed from operation state this moment.
After warning information appearred in the base station, the same warning information that the remote side administration process of main control part and far-end control process can occur far-end was respectively simultaneously handled, and the warning information that main control part occurs is then handled by the remote side administration process of main control part.According to above-mentioned base station alarm troubleshooting process, when catastrophe failure that distal portions generation communication interrupts, far-end control process is not directly made final processing to fault, but make far-end enter suspended state, allow the remote side administration process deal with then, can improve controllability and the harmony of base station so greatly the far-end troubleshooting according to the concrete condition of fault.
The particular flow sheet that withdraws from the operation process by base station in the described embodiment of the invention of Fig. 4 as can be known, withdraw from the process of operation in the base station, the remote side administration process is at first assigned the order that stops Business Processing to far-end control process, then the far-end control module is closed radiofrequency emitting module and is notified the remote side administration process, and the service processing software module of order main control part of remote side administration process then and distal portions is hung up.
The base station is withdrawed from the detailed process of operation and is in the described embodiment of the invention of Fig. 4: when basic remote side administration process receiving under the situation of normal operation from webmaster withdraw from the operation order after, at first assign out-of-work order to far-end control process, then far-end control process is closed radiofrequency emitting module, operating state notice remote side administration process with radiofrequency emitting module, the order of remote side administration process then Call Control Block is hung up, the inaccessible call resources of order data library module, last remote side administration process is to the webmaster uploaded state, and the base station enters withdraws from operation state.
By base station in the described embodiment of the invention of Fig. 5 put into effect process particular flow sheet as can be known, in the process that the base station puts into effect, the remote side administration process is at first assigned the order that recovers Business Processing to far-end control process, then far-end control process is notified the remote side administration process after opening the related hardware module, and the service processing software module of order main control part of remote side administration process then and distal portions begins to recover Business Processing.
The base station is withdrawed from the detailed process of operation and is in the described embodiment of the invention of Fig. 5: withdrawing from the order that puts into effect of receiving under the state of operation from webmaster when the remote side administration process after, at first assign the order of resuming work to far-end control process, far-end control process order radio frequency control module is carried out air frame synchronously and carry out the control channel time slot allocation then, operating state to remote side administration process reporting radio frequency control module, then data sync is carried out to far-end in remote side administration process order data storehouse, order Call Control Block to begin to carry out work then, then the order data library module is separated and is closed resource, to the webmaster uploaded state, the base station enters normal operation state at last.
The particular flow sheet that restarts process by base station in the described embodiment of the invention of Fig. 6 as can be known, in the process that the base station restarts, the remote side administration process at first orders the service processing software module to stop Business Processing, order far-end control process that module of software and hardware is resetted then, then remote side administration process and far-end control process enter and start setting up the communication stage of flow process.
The detailed process that the base station restarts in the described embodiment of the invention of Fig. 6 is: when the remote side administration process under the state of normal operation, receive from webmaster restart order the time, at first order the Call Control Block call release, follow the inaccessible call resources of order data library module, order far-end control process that the far-end module of software and hardware is resetted then, then to the webmaster uploaded state, remote side administration process then enters and starts setting up the communication stage of flow process, simultaneously because far-end resets and caused the communication link interruption, far-end control process is received also to enter after the alarm that this communication link interrupts and is started setting up the communication stage of flow process.
Base station is from the above mentioned putting, is withdrawing from operation into effect and restarting in the flow process of control, the main control part of base station and the module of software and hardware of distal portions all will be operated accordingly, and these operations all are subjected to the control of the remote side administration process of main control module, can improve the base station so effectively and change the state consistency of main control part and far-end in flow processs, thereby guarantee that the base station executing state changes the reliability of order at these states.
In sum, the main control module and the far-end control module of described base station near-end are controlled main control part and distal portions respectively, the start-up control of far-end control module, state adjustment control and troubleshooting are subjected to the control of main control module, thereby the harmony and the stability of system's operation have been guaranteed, and distal portions of a remote side administration process control, separate between each remote side administration process, therefore main control module has independent control ability to remote end module, be same main control part with four base stations in, the state of any one base station changes the operating state that does not influence other base stations, when breaking down can't recover the time in certain base station, corresponding remote side administration process can be controlled this base station and withdraw from operation in the main control module, and can recover normal operating conditions voluntarily after the trouble shooting, increase the reliability of system widely.

Claims (9)

1, a kind of system control method of distributed base station comprises it is characterized in that start-up course, state adjustment process and three steps of fault treating procedure of base station:
In the start-up course of described base station, comprise system initialization, set up communication and Business Processing set-up procedure;
What described state adjustment process comprised the base station withdraws from operation, puts into effect and restarts three parts;
Described fault treating procedure comprises far-end control module alarming processing process and near-end control module alarming processing process;
In described far-end control module alarming processing process and described near-end control module alarming processing process, to judge at first whether communication link interrupts, enter different flow processs according to the result who judges then;
Withdraw from the process of operation in the base station, the near-end control module is at first assigned the order that stops Business Processing to the far-end control module, then the far-end control module is notified the near-end control module after closing the related hardware module, and the service processing software module of near-end control module order near-end and far-end is hung up then;
In the process that described base station puts into effect, by the near-end control module far-end control module is controlled, the far-end control module is opened the related hardware module and is controlled near-end and the service processing software module of far-end begins to recover Business Processing, thereby realizes the process that puts into effect of base station;
In the process that described base station restarts, reset by stopping Business Processing, module of software and hardware, step such as communication foundation realizes the process that restarts of base station.
2,, it is characterized in that described base station initiated process may further comprise the steps according to the system control method of the described distributed base station of claim 1:
1) near-end control module and far-end control module were carried out hardware check to near-end and far-end separately after near-end and far-end module of software and hardware resetted;
2) near-end and far-end are set up communication;
3) the near-end control module is assigned the order that enters the Business Processing preparatory stage to the far-end control module;
4) the far-end control module carries out notifying the near-end control module after the initialization to the related hardware module;
5) the service processing software module initialization of near-end and far-end;
6) near-end is to the far-end synchrodata;
7) the service processing software module of near-end and far-end begins to carry out Business Processing.
3,, it is characterized in that described base station far-end control module alarming processing process may further comprise the steps according to the system control method of claim 1 or 2 described distributed base stations:
1) far-end control module receiving alarm message;
2) judge whether it is high severity alarm;
3), then change step 8) if not high severity alarm;
4) if high severity alarm then judges whether it is interrupted communication link;
5) if communication link interrupts, then the far-end control module resets module of software and hardware, changes step 8);
6) interrupt if not communication link, then the far-end control module is closed the related hardware module;
7) far-end enters suspended state, waits for the control command of near-end control module;
8) finish.
4,, it is characterized in that described base station near-end control module alarming processing process may further comprise the steps according to the system control method of claim 1 or 2 described distributed base stations:
1) near-end control module receiving alarm message;
2) judge whether it is high severity alarm;
3), then change step 15) if not high severity alarm;
4) if high severity alarm then judges whether it is interrupted communication link;
5) if communication link interrupts, then return setting up the communication stage of described base station initiated process;
6) interrupt if not communication link, then judge it is the alarm of near-end or the alarm of far-end;
7), change step 15) if the recovered alarm of near-end then resets the near-end module of software and hardware;
8) if the irrecoverable alarm of near-end, then remote side administration process is assigned the order that stops Business Processing to the far-end control module;
9) the far-end control module is closed the related hardware module;
10) far-end control module notice near-end control module;
11) the service processing software module of near-end control module order near-end and far-end is hung up, and operation is withdrawed from the base station, changes step 15);
12) if the recovered alarm of far-end, the service processing software module of then remote side administration process order near-end and far-end stops Business Processing;
13) order far-end control module resets module of software and hardware, and near-end and far-end enter the communication stage of the setting up commentaries on classics step 15) that starts flow process;
14) if the irrecoverable alarm of far-end, the service processing software module of then remote side administration process order near-end and far-end stops Business Processing, and operation is withdrawed from the base station;
15) finish.
5, according to the system control method of claim 1 or 2 described distributed base stations, it is characterized in that described base station withdraw from the operation may further comprise the steps:
1) base station near-end control module in normal operation state is received from withdrawing from of webmaster and is runed order;
2) the near-end control module is assigned the order that stops Business Processing to the far-end control module;
3) the far-end control module is notified the near-end control module after closing the related hardware module;
4) service processing software of near-end system control module order near-end and far-end is hung up, and operation is withdrawed from the base station.
6,, it is characterized in that described base station puts into effect may further comprise the steps according to the system control method of claim 1 or 2 described distributed base stations:
1) base station near-end control module in withdrawing from the state of operation is received the order that puts into effect from webmaster;
2) the near-end control module is assigned the order that recovers Business Processing to the far-end control module;
3) the far-end control module is opened related hardware module and notice near-end control module;
4) near-end is to the far-end synchrodata;
5) the service processing software module recovery Business Processing of near-end control module order near-end and far-end, the base station puts into effect.
7,, it is characterized in that the described base station process of restarting may further comprise the steps according to the system control method of claim 1 or 2 described distributed base stations:
1) base station near-end control module in normal operation state is received the order that restarts from webmaster;
2) near-end control module order near-end and far-end the service processing software module stop Business Processing;
3) near-end control module order far-end control module resets module of software and hardware;
4) near-end control module and far-end control module enter and start setting up the communication stage of flow process.
4) near-end control module and far-end control module enter and start setting up the communication stage of flow process.
8, according to the system control method of the described distributed base station of claim 2, it is characterized in that described step 2) comprise when resetting of main control part and distal portions and be not to take place simultaneously or other situation when causing communication link to set up, remote side administration process far-end control process then rests on always to be set up the communication stage, sets up up to communication link.
9, according to the system control method of the described distributed base station of claim 2, it is characterized in that described step 3) comprises: when network side has fault, the remote side administration process does not issue to far-end control process and enters the order that Business Processing is prepared, and far-end control this moment process is in wait state always.
CN 00125622 2000-09-29 2000-09-29 Systemic control method for distributed base stations Expired - Fee Related CN1133343C (en)

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SE0302596D0 (en) * 2003-09-30 2003-09-30 Ericsson Telefon Ab L M Improvements in or relating to base stations
CN100531430C (en) * 2007-04-18 2009-08-19 中兴通讯股份有限公司 Method for the base band unit to reset the multi-level remote RF unit
CN101203017B (en) * 2007-11-28 2011-04-06 中兴通讯股份有限公司 Method of separable reset of communication and chain type far-end radio frequency unit business
CN101179336B (en) * 2007-12-14 2012-01-11 华为技术有限公司 Method for outdoor unit to communicate with indoor unit, and outdoor unit
CN101179780B (en) * 2007-12-17 2010-07-28 华为技术有限公司 Method and device for saving last-words information
US8495408B2 (en) 2009-01-23 2013-07-23 Alcatel Lucent Synchronization method and device for real-time distributed system wherein each module sets an indicator to signal whether it is currently able to operate synchronously with other modules and resets the indicator at a unified synchronization end time
CN113473513B (en) * 2021-09-02 2021-11-16 成都爱瑞无线科技有限公司 Link fault detection and processing method, device, system and storage medium

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