CN102572884B - A kind of multi tate method for supervising and device automatically - Google Patents

Abstract

The invention discloses a kind of multi tate method for supervising and device automatically, comprising: determine that needs are to the user adopting the code rate of automatic multi tate technology to monitor; Determine the time slot that the code rate of the automatic multi tate technology of employing is monitored of this user; Code rate on the time slot of this user is monitored.The present invention has enriched the utilization to automatic multi tate, the operation situation of communication wireless network can be monitored in time by monitoring automatic multi tate, for further optimized network, improve communication network quality, basis and decision data foundation are provided, bring economic benefit to operator and equipment vendors simultaneously.

Description

A kind of multi tate method for supervising and device automatically

Technical field

The present invention relates to moving communicating field, particularly the automatic multi tate method for supervising of one and device.

Background technology

What use when AMR (Adaptive Multi Rate, automatic multi tate) refers to encode to speech can self-adjusting code rate.AMR solves the rate allocation of chnnel coding in more intelligent mode, makes the configuration of Radio Resource and utilizes more flexibly with efficient, ensureing the QoS (Qualityof Service, service quality) of business with this.

AMR coding can be divided into arrowband AMR to encode (NB-AMR) and wideband A MR coding (WB-AMR) two type.ACS is the rate set of the activation of current phonetic algorithm AMR, and the speed of current use must be inside ACS.The ACS of AMR is generally maximum arranges 4 kinds, NB_AMR supports 8 kinds of speed (comprising 4.75kbps, 5.15kbps, 5.9kbps, 6.7kbps, 7.4kbps, 7.95kbps, 10.2kbps, 12.2kbps), and WB_AMR supports 9 kinds of speed (comprising 6.6kbps, 8.85kbps, 12.65kbps, 14.25kbps, 15.85kbps, 18.25kbps, 19.85kbps, 23.05kbps, 23.85kbps).In certain is 4 kinds, such as 4.75kbps, 5.9kbps, 7.4kbps, 12.2kbps, AMR will carry out speed adjustment according to wireless quality situation, if C/I (carrier-to-interference ratio, Carrier interference ratio/carrier/interface ratio) is relatively good, will adjust toward two-forty, if C/I is lower, will adjust toward low rate.

AMR automatically adjusts and will bring a lot of benefit to communication system, such as: provide higher voice quality, increase power system capacity, extending cell phone service time.

The deficiencies in the prior art are: prior art only utilizes AMR to solve the problems such as the rate-allocation of chnnel coding, with the exception of this, does not also have technical scheme that AMR can be utilized to solve other technical problem.

Summary of the invention

Technical problem solved by the invention there are provided a kind of AMR method for supervising and device, in order to solve the problem to AMR underutilization in prior art.

Provide a kind of multi tate AMR method for supervising automatically in the embodiment of the present invention, comprise the steps:

Determine to need the user to adopting the code rate of AMR technology to monitor;

Determine the time slot that the code rate of employing AMR technology is monitored of this user;

Determine that AMR is the AMR of full rate or the AMR of half rate;

When AMR is the AMR of full rate, the code rate of the time slot of whole employing AMR technology is monitored;

When AMR is the AMR of half rate, monitor the code rate of the sub-slots adopting AMR technology, a time slot comprises two sub-slots;

The code rate of monitoring and the carrier interference ratio C/I corresponding to described code rate are reported operation maintenance center OMC.

Provide a kind of AMR supervising device in the embodiment of the present invention, comprising:

User's determination module, needs the user to adopting the code rate of AMR technology to monitor for determining;

Time slot determination module, for determining the time slot monitored the code rate of employing AMR technology of this user;

Monitoring module, for determining that AMR is the AMR of full rate or the AMR of half rate;

When AMR is the AMR of full rate, the code rate of the time slot of whole employing AMR technology is monitored;

When AMR is the AMR of half rate, monitor the code rate of the sub-slots adopting AMR technology, a time slot comprises two sub-slots;

Reporting module, for reporting operation maintenance center OMC by the code rate of monitoring and carrier interference ratio C/I corresponding to described code rate.

Beneficial effect of the present invention is as follows:

The technical scheme that the embodiment of the present invention provides, enrich the utilization to AMR, the operation situation of communication wireless network can be monitored in time by monitoring AMR, for further optimized network, improve communication network quality, basis and decision data foundation are provided, bring economic benefit to operator and equipment vendors simultaneously.

Accompanying drawing explanation

Fig. 1 is the monitoring method for building up implementing procedure schematic diagram in the embodiment of the present invention in AMR process;

Fig. 2 is the supervising device structural representation of AMR change in the embodiment of the present invention;

Fig. 3 is the method for supervising implementing procedure schematic diagram in the embodiment of the present invention in AMR process;

Fig. 4 is the monitoring apparatus for establishing structural representation in the embodiment of the present invention in AMR process;

Fig. 5 is the supervising device structural representation in the embodiment of the present invention in AMR process;

Fig. 6 monitors AMR task to issue schematic flow sheet in the embodiment of the present invention;

Fig. 7 monitors AMR data report flow schematic diagram in the embodiment of the present invention.

Embodiment

Inventor notices in invention process:

In existing practical application, except utilize AMR solve chnnel coding rate-allocation and except, for AMR, not other effects; Meanwhile, due to AMR dynamic adjustment process be recessive, be sightless for network operation condition monitoring, therefore there is no the scheme that remote monitoring AMR adjusts yet.

But, the adjustment situation of AMR can provide data and fact basis for the network optimization and monitoring, therefore, the technical scheme that the embodiment of the present invention provides is the scheme providing a kind of remote real-time monitoring AMR speed to adjust, in order to the corresponding relation by following the tracks of AMR speed and C/I, the adjustment situation of reflection AMR, thus can be dynamic real-time monitor wireless channel conditions, for improving communications network environment in time, improving network quality provides Real-time Decision foundation.

Further, present invention also offers the concrete scheme that the code rate that have employed AMR technology is monitored.

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described.

In declarative procedure, mentioned base station control network element refers to the network element that can control base station network element, such as: RNC (Radio Network Controller, radio network controller) or BSC (Base StationController, base station controller), base station network element is BTS (Base Transceiver Station, base transceiver station are called for short base station) or NODEB.In enforcement, AMR speed can obtain from BTS, also can obtain from BSC side, and C/I value can only obtain from base station network element, therefore can obtain from the network element of base station for AMR speed and C/I Selecting parameter.

One, first the task creation adopting the code rate of AMR technology to monitor is described.

Fig. 1 is the monitoring method for building up implementing procedure schematic diagram in AMR process, as shown in the figure, can comprise the steps:

Step 101, monitoring in the code rate of OMC (Operation & Maintenance Center, operation maintenance center) establishment to employing AMR technology of task;

Wherein, OMC is the operation maintenance center of telecommunications network, be used for configuration, safeguard, the managing telecommunications network equipment and operation.

Step 102, in OMC received code speed, described code rate is the code rate that respective network elements reports OMC after creating according to OMC of task is monitored code rate.

In enforcement, when OMC received code speed, can further include:

Receiving C/I, described C/I at OMC is the corresponding C/I of code rate reported.

Also namely in concrete enforcement, can also the C/I corresponding to code rate that arrives of acquisition monitoring.

In enforcement, can further include:

The code rate reported is shown at OMC.

In enforcement, when respective network elements reports C/I, can also show at OMC the corresponding relation between code rate and corresponding C/I reported.

The object shown at OMC demonstrates AMR in real time intuitively by visualization interface to adjust curve, make related personnel can be followed the corresponding relation of C/I by the adjustment of monitoring AMR, the operation situation of communication wireless network can be monitored in time, for further optimized network, improve communication network quality, basis and decision data foundation are provided.

In concrete enforcement, when monitoring AMR change, can implement as follows:

A, OMC create monitor task, monitor task can comprise the information such as task number, monitored object, monitoring granularity.

Concrete, which monitor task is the speed that can be identified each monitoring by task number belong to; The essence monitored the code rate of employing AMR technology monitors the code rate of a certain user, therefore can comprise the distinguishing mark to monitored object; Monitor the frequency that granularity then refers to monitoring, can determine according to actual needs.

When B, base station control network element detect AMR change, report and comprise the information such as task number, C/I to OMC.

C, OMC, according to the reporting information received, record and upgrade the information such as C/I corresponding to this reporting information task number, adopt the adjustment relation of Visual Dynamic figure display AMR and C/I simultaneously.

D, OMC issue the order of deleting monitor task to base station control network element, base station control network element receives delete command, no longer reports monitor data, and OMC deletes monitor task and monitoring window.

Concrete, when performing A, can comprise:

A1, OMC issue the order of establishment monitor task to base station control network element, comprise monitor task number in this order, and monitoring granularity, monitored object identifies.

A2, OMC receive the establishment of the monitor task with the task number response message that base station control network element returns, and create monitor task and monitoring window according to response message success or not.

Concrete, when performing B, can comprise:

B1, base station control network element receive the monitor command that OMC issues, and pass through base station network element after go-on-go.

B2, base station control network element detect corresponding monitored object, and the AMR rate variation data of base station reported by network elements are issued OMC.

Wherein, in B1, the monitor task number being controlled website by base station control network element issues, and for different website, base station control network element carries out the sorting of monitor command by website number and issues.

In B2, base station reported by network elements AMR, C/I, to base station control network element, after base station control network element coupling monitor task, carry corresponding task number and monitor data is reported to OMC.

Concrete, when performing C, can comprise:

C1, OMC travel through monitor task list, find corresponding task, preserve the monitor data reported.

C2, monitoring window in dynamic realtime show AMR and C/I adjust graph of relation.

In force, can be undertaken alternately by binary order or MML (Man-Machine Language, man-machine language) between OMC and base station control network element.

For understanding the technical scheme how implementing to provide in the embodiment of the present invention, example below additionally provides a kind of supervising device monitoring AMR change, and Fig. 2 is the supervising device structural representation of AMR change, as shown in the figure, this device mainly comprises four modules, specific as follows:

Display module 201: for after receiving the monitor data that base station control network element sends, be responsible for the Dynamic Announce of corresponding monitor task AMR and C/I data.

Administration module 202: for managing the monitor task that OMC issues, the match management of AMR and C/I data variation.

Forwarding module 203: for forwarding the monitor task that OMC issues, or after monitor task is successfully established, when base station reported by network elements monitor data, obtains corresponding monitor task from administration module, send the monitor data of this monitor task to OMC.

Acquisition module 204: in network element side, base station according to the corresponding monitor data of monitor task collection, and send the data to forwarding module.

In enforcement, forwarding module can comprise: Link State judging unit and data and task retransmission unit.Link State judging unit, for judging the Link State between OMC and base station control network element, comprises chain rupture state and link setup state; Data and task retransmission unit, for forwarding AMR and the C/I data of task or change.

In enforcement, administration module can comprise: monitor task verification unit and monitor data matching unit.Monitor task verification unit, for verifying the legitimacy of monitor task; Monitor data matching unit, is used for the monitor data of legal monitor task matched base stations reported by network elements.

Two, after establish the monitor task to AMR by such scheme, below the monitoring scheme of concrete AMR is described.

Fig. 3 is the method for supervising implementing procedure schematic diagram in AMR process, as shown in the figure, can comprise the steps: when monitoring

Step 301, determine to need the user to adopting the code rate of AMR technology to monitor;

Step 302, determine this user to the time slot adopting the code rate of AMR technology to monitor;

Step 303, the code rate on the time slot of this user to be monitored.

In enforcement, when determining the time slot monitored AMR, can comprise:

Determine that AMR is the AMR of full rate or the AMR of half rate;

When AMR is the AMR of full rate, the code rate of the time slot of whole employing AMR technology is monitored;

When AMR is the AMR of half rate, monitor the code rate of the sub-slots adopting AMR technology, a time slot comprises two sub-slots.

Concrete, can using time slot as monitored object in enforcement.

Using time slot as monitored object time, key parameter can comprise website, community, carrier frequency, time slot, sub-slots number.Monitor task issue with data report in process, basic with described consistent above, but the situation that consideration website restarts will be noted.When website re-powers successfully, by forwarding module, corresponding site information is reported to administration module, by administration module, the monitor task under corresponding website need be re-issued.

For the sake of simplicity, being also the communication pressure in order to reduce OMC and BSC, the mode of direct input time slot parameter in enforcement, can be adopted to issue time slot task.That speed due to AMR is divided into full rate and half rate, therefore corresponding time slot can be divided into whole time slot to monitor and sub-slots is monitored, then OMC needs when issuing task to distinguish following situation:

1, sub-slots is monitored.

At this moment, except time slot object above, OMC will allow user select one from (sub-gap 0 and sub-slots 1) two sub-slots.Corresponding two the different monitoring tasks of two sub-slots of same time slot.

2, time slot is monitored.

Need two sub-slots to issue as two tasks simultaneously.

Sub-slots in enforcement is mainly associated with AMR half rate, a time slot can be divided into two sub-slots: sub-slots 0 and sub-slots 1, Mission Monitor based on sub-slots is needed to be sub-divided into sub-slots 0 and sub-slots 1, for the Mission Monitor of sub-slots, if association is AMR half rate, BTS then reports the adjustment data of AMR half rate, if association is AMR full rate, BTS then reports AMR full rate to adjust data.Timeslot-based Mission Monitor is needed sub-slots 0 and sub-slots 1 to be issued to BSC as two monitor tasks, so just can monitor AMR full rate and the various situation of half rate, and then provide monitor data accurately to user.

In enforcement, determine this user to the time slot adopting the code rate of AMR technology to monitor time, can comprise:

Determine the IMSI (International Mobile Subscriber Identity, international mobile subscriber identity) of user;

The time slot binding that IMSI is taken with it;

Code rate on the time slot bind this IMSI is monitored.

In enforcement, consider the problem of switching, when user switches, can further include:

The time slot taken after user switches is determined according to the IMSI of user;

Code rate on the time slot taken after switching is monitored.

Concrete, can using IMSI as monitored object.

IMSI to be mobile system be each user distributes a unique international mobile subscriber identity.Owing to following the tracks of an IMSI, be the situation of change of the AMR speed of the time slot followed the tracks of shared by it, so need to take certain mode to be bound together by the time slot at itself and place after all.According to general actual needs, the service condition of the AMR speed of this IMSI under one or more BSC can be monitored.Generally, in system user may below several state:

(1) Idle state is in.At this moment only having a small amount of information and network element alternately, is do not relate to AMR rate variation;

(2) active or passive connection phone.At this moment certain time slot of this CU, can relate to the change of AMR speed under certain condition;

(3) switch in BSC.At this moment shared by it, time slot there occurs change, therefore just must upgrade its time slot bound, and then will upgrade the task of its base station side;

(4) switch between BSC.At this moment the situation of (3) is not only related to, also more complicated;

(5) switch between MSC.

(5) this situation is more complicated, can not consider according to needing at present, but, if necessary, the time slot that still can be taken by IMSI and its is monitored, because switch howsoever, the time slot must known an IMSI and take, thus also can monitor.Like this, when considering to comprise (2), (3), (4).Especially, for (4) if monitor same time slot under two BSC simultaneously, the switching so between them also can be supported.

For (2), business module at this moment when getting the time slot that this IMSI takies, to administration module send notice, administration module by IMSI and take time slot binding after send to base station through forwarding module.Base station side reports monitor data according to time slot wherein.

For (3), business module at this moment can relate to source time slot and object time slot.For source time slot, BTS can stop this task automatically, and to monitoring module, the business module of BSC also can report that the time slot of IMSI changes simultaneously, and the latter needs IMSI and object time slot to bind.Afterwards, monitoring module issues the task on object time slot to BTS.

In enforcement, can further include:

The code rate of monitoring is reported OMC.

Concrete, for reporting of AMR monitor data, monitor task is finally be based upon DSP (DigitalSignal Processing, digital signal processor) on, DSP is according to time slot and monitoring period granularity, if there is no the change of task, time slot, so monitor data will be reported endlessly according to monitoring period granularity.Through pilot process, finally present to user in a dynamic fashion in OMC client.

Correspond to originally issuing of task, when the type (full rate and half rate) of present rate does not change, half rate reports according to corresponding sub-slots; Full rate can an only report sub-slots, also can report respectively by two sub-slots, but the value of sub-slots corresponding to whole time slot can be filled to 0xFF without exception.

When a monitored half rate AMR channel transitions becomes a full speed channel, at this moment BTS reports the sub-slots of object to need to be filled to 0xFF, become full speed channel by the channel of a half rate to identify monitored subchannel, now report monitor data to be full rate.

Sometime, when full rate AMR channel becomes again a half-rate channel, now corresponding BTS has two sub-slots monitored object, if corresponding sub-slots has monitor task, but do not have AMR business association, then this sub-slots does not report monitor data, otherwise, report monitor data.

After reporting, can show at client control figure, client is for each the road monitor data reported up, two monitoring pattern can be shown: one is C/I curve chart over time, another is CMI (Codec Mode Indication, change speed instruction) (point up-downgoing), CMR (Codec ModeRequest, change rate request), CMC (Codec Mode Command, change rate command) curve chart over time.The longitudinal axis of two figures is respectively: dB, kbit/s, need all speed carved in ACS rate set for a rear figure longitudinal axis.Because monitoring granularity is level second, curvilinear figure will all be presented in graphics field more difficult, and therefore these two figures can be considered to be moved to the left with monitoring period (1S, 3S, 5S), to show the dynamic change part in a period of time.For IMSI monitoring, also need to arrange below figure the interface-free resources that a title text frame carrys out Dynamic Announce current monitor IMSI corresponding and stop: website number, cell id, carrier frequency number, timeslot number, sub-gap number.

In concrete enforcement, ordinary circumstance, has multiple to the client of the OMC of user's use.For the situation that there is multi-client, the administration module as core needs the situation processing multi-client, for the sake of simplicity, can only have a monitor task in regulation system to same monitored object.

Based on same inventive concept, the monitoring apparatus for establishing in AMR process and the supervising device in AMR process is additionally provided in the embodiment of the present invention, the principle of dealing with problems due to these equipment is similar to the monitoring method for building up in AMR process and the method for supervising in AMR process, therefore the enforcement of these equipment see the enforcement of method, can repeat part and repeats no more.

Fig. 4 is the monitoring apparatus for establishing structural representation in AMR process, as shown in the figure, can comprise in a device:

Task creation module 401, for creating the task to adopting the code rate of AMR technology to monitor at OMC;

Receiver module 402, in OMC received code speed, described code rate is the code rate that respective network elements reports OMC after creating according to OMC of task is monitored code rate.

In enforcement, can further include in device:

Display module 403, for showing the code rate reported at OMC.

In enforcement, receiver module can also be further used for when OMC received code speed, and receiving C/I, described C/I at OMC is the corresponding C/I of code rate reported.

In enforcement, display module can also be further used for showing at OMC the corresponding relation between code rate and corresponding C/I reported.

In enforcement, receiver module can also be further used for receiving base station network element and/or the code rate to the reported by network elements that base station network element controls, and receives the C/I of base station reported by network elements.

Fig. 5 is the supervising device structural representation in AMR process, as shown in the figure, can comprise in a device:

User's determination module 501, needs the user to adopting the code rate of AMR technology to monitor for determining;

Time slot determination module 502, for determining the time slot monitored the code rate of employing AMR technology of this user;

Monitoring module 503, for monitoring the code rate on the time slot of this user.

In enforcement, can comprise in time slot determination module:

User's determining unit, for determining the IMSI of user;

Binding unit, for the time slot binding taken with it by IMSI;

Slot determining unit, for determining that the code rate on the time slot bound this IMSI is monitored.

In enforcement, Slot determining unit can also be further used for when user switches, and determines the time slot taken after user switches according to the IMSI of user; Determine to monitor the code rate on the time slot taken after switching.

In enforcement, monitoring module can also be further used for when the time slot monitored AMR, determines that AMR is the AMR of full rate or the AMR of half rate; When AMR is the AMR of full rate, the code rate of the time slot of whole employing AMR technology is monitored; When AMR is the AMR of half rate, monitor the code rate of the sub-slots adopting AMR technology, a time slot comprises two sub-slots.

In enforcement, can further include in device:

Reporting module 504, for reporting OMC by the code rate of monitoring.

For convenience of description, each several part of the above device is divided into various module or unit to describe respectively with function.Certainly, the function of each module or unit can be realized in same or multiple software or hardware when implementing of the present invention.

Enforcement for a better understanding of the present invention, is described further with example below in conjunction with the device shown in Fig. 2 again.

Embodiment one

Fig. 6 issues schematic flow sheet for monitoring AMR task, as shown in the figure, can comprise:

Step 601, OMC creation task information, and issued.

In this step, in OMC creation task information, and be handed down to BSC.

Concrete, OMC can issue the order of establishment monitor task to base station control network element, comprises monitor task number in this order, and monitoring granularity, monitored object identifies.Meanwhile, OMC receives the establishment of the monitor task with the task number response message that base station control network element returns, and creates monitor task and monitoring window according to response message success or not.

Whether step 602, administration module verification mission bit stream is legal, is proceed to step 603, otherwise terminates.

In this step, after the administration module of the OMS in BSC receives above-mentioned mission bit stream, carry out task verification, the task failed to verification, returns directly to OMC and unsuccessfully replys, Flow ends; For successful verification, then proceed to step 603.

Step 603, administration module preserve monitor task information.

In this step, to the monitor task of verification succeeds, BSC is responsible for monitor task to be kept in local task list.

Mission bit stream is handed down to forwarding module by step 604, administration module.

In this step, administration module takes out the monitor task kept, and judges the concrete forwarding module number (1 ~ N) that will be sent to, then specific tasks information package is issued forwarding module according to the task number of monitor task.

Mission bit stream is transmitted to respective base station by step 605, forwarding module.

In this step, after forwarding module receives above-mentioned mission bit stream, be handed down to the base station of specifying.

Step 606, base station process corresponding mission bit stream.

In this step, after the acquisition module on base station receives above-mentioned mission bit stream, respective handling is carried out to this monitor task.

Embodiment two

Fig. 7 is monitoring AMR data report flow schematic diagram, as shown in the figure, can comprise:

Step 701, acquisition module judge whether the timing granularity of monitor task arrives, and arrive and then proceed to step 701, otherwise continue to check.

Step 702, acquisition module report monitor message to arrive BSC.

In this step, acquisition module is reported to the forwarding module of BSC the monitor message collected, and monitor message can comprise monitored object and monitor data thereof.

By calling administration module interface, step 703, forwarding module judge that whether monitored object is legal, be proceed to step 704, otherwise terminate.

In this step, forwarding module, by calling administration module monitor task adaptation function, judges that whether monitored object is legal.If legal, proceed to step 704; Otherwise stop.

Step 704, Link State judging unit judge link-state information.

Step 705, whether judging AM/BAM Link State normally and whether be Main Processing Unit, if link is normal and be Main Processing Unit, is proceed to step 706; Otherwise stop.

Step 706, forwarding module report monitor message.

In this step, monitor message is reported OMC by forwarding module.

Step 707, OMC be display monitoring information to graphically.

In this step, OMC can by the corresponding relation of the adjustment of motion graphics mode display monitoring information: AMR with C/I.

Method and the device of two example monitoring AMR change are above illustrated, they are only for instructing those skilled in the art specifically how to implement the present invention, but be not used in restriction the present invention, for one of ordinary skill in the art, as TDRNC or WRNC, all can design according to thought of the present invention.

As seen from the above-described embodiment, adopt the technical scheme that the embodiment of the present invention provides, AMR can be demonstrated in real time intuitively by visualization interface and adjust curve, by monitoring the corresponding relation of adjustment with C/I of AMR, the operation situation of communication wireless network can be monitored in time, for further optimized network, improve communication network quality, basis and decision data foundation are provided, bring economic benefit to operator and equipment vendors simultaneously.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disc store, CD-ROM, optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the flow chart of the method for the embodiment of the present invention, equipment (system) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (6)

1. an automatic multi tate AMR method for supervising, is characterized in that, comprise the steps:

Determine to need the user to adopting the code rate of AMR technology to monitor;

Determine the time slot that the code rate of employing AMR technology is monitored of this user; Determine that AMR is the AMR of full rate or the AMR of half rate;

When AMR is the AMR of full rate, the code rate of the time slot of whole employing AMR technology is monitored;

When AMR is the AMR of half rate, monitor the code rate of the sub-slots adopting AMR technology, a time slot comprises two sub-slots;

The code rate of monitoring and the carrier interference ratio C/I corresponding to described code rate are reported operation maintenance center OMC.

2. the method for claim 1, is characterized in that, determines the time slot monitored the code rate of employing AMR technology of this user, comprising:

Determine the international mobile subscriber identity IMSI of user;

The time slot binding that IMSI is taken with it;

Code rate on the time slot bind this IMSI is monitored.

3. method as claimed in claim 2, is characterized in that, when user switches, comprise further:

The time slot taken after user switches is determined according to the IMSI of user;

Code rate on the time slot taken after switching is monitored.

4. an AMR supervising device, is characterized in that, comprising:

User's determination module, needs the user to adopting the code rate of AMR technology to monitor for determining;

Time slot determination module, for determining the time slot monitored the code rate of employing AMR technology of this user;

Monitoring module, for when the time slot monitored AMR, determines that AMR is the AMR of full rate or the AMR of half rate; When AMR is the AMR of full rate, the code rate of the time slot of whole employing AMR technology is monitored; When AMR is the AMR of half rate, monitor the code rate of the sub-slots adopting AMR technology, a time slot comprises two sub-slots;

Reporting module, for reporting operation maintenance center OMC by the code rate of monitoring and carrier interference ratio C/I corresponding to described code rate.

5. device as claimed in claim 4, it is characterized in that, time slot determination module comprises:

User's determining unit, for determining the IMSI of user;

Binding unit, for the time slot binding taken with it by IMSI;

Slot determining unit, for determining that the code rate on the time slot bound this IMSI is monitored.

6. device as claimed in claim 5, it is characterized in that, Slot determining unit is further used for when user switches, and determines the time slot taken after user switches according to the IMSI of user; Determine to monitor the code rate on the time slot taken after switching.