CN102572886A - Adaptive multi rate (AMR) monitoring method and device - Google Patents

Abstract

The invention discloses an adaptive multi rate (AMR) monitoring method and a device. The method comprises the following steps: creating a task of monitoring code rates adopting AMR technology in an operation and maintenance center; and receiving the code rates in the operation and maintenance center, wherein the code rates are reported to the operation and maintenance center after being monitored by corresponding network elements according to the task created in the operation and maintenance center. The method and the device have the following beneficial effects: utilization of the AMR is enriched; basis and data decision making basis can be provided for further optimizing the network and improving the communication network quality by monitoring the AMR to timely monitor the operation conditions of the radio communication network; and meanwhile, economic benefits are brought for the operators and equipment manufacturers.

Description

A kind of automatic many speed method for supervising and device

Technical field

The present invention relates to moving communicating field, particularly a kind of automatic many speed method for supervising and device.

Background technology

What AMR (Adaptive Multi Rate, automatic many speed) referred to when voice is encoded to use can self-adjusting code rate.AMR solves the rate allocation of chnnel coding with intelligent manner more, make Radio Resource configuration and utilize more flexibly with efficient, guarantee professional QoS (Quality of Service, service quality) with this.

The AMR coding can be divided into arrowband AMR coding (NB-AMR) and wideband A MR coding (WB-AMR) two types.ACS is the rate set of the activation of current phonetic algorithm AMR, and the speed of current use must be the ACS the inside.The ACS of AMR is general maximum to be provided with 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 4 kinds, such as 4.75kbps, 5.9kbps; 7.4kbps, 12.2kbps, AMR will carry out the speed adjustment according to the 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.

The automatic adjustment of AMR will bring a lot of benefits to communication system, such as: higher voice quality is provided, increases power system capacity, prolongs mobile phone service time.

The deficiency of prior art is: prior art only utilizes AMR to solve the problems such as rate-allocation of chnnel coding, with the exception of this, does not also have technical scheme can utilize AMR to solve other technical problem.

Summary of the invention

The technical problem that the present invention solved is to provide a kind of AMR method for supervising and device, in order to solve problem under-utilized to AMR in the prior art.

A kind of automatic many speed AMR method for supervising is provided in the embodiment of the invention, has comprised the steps:

Create the task that the code rate that adopts the AMR technology is monitored at the OMC of operation maintenance center;

In OMC received code speed, said code rate is respective network elements reports OMC after creating according to OMC of task is monitored code rate a code rate.

A kind of AMR supervising device is provided in the embodiment of the invention, has comprised:

The task creation module is used for creating the task that the code rate that adopts the AMR technology is monitored at OMC;

Receiver module is used in OMC received code speed, and said code rate is respective network elements reports OMC after creating according to OMC of task is monitored code rate a code rate.

Beneficial effect of the present invention is following:

The technical scheme that the embodiment of the invention provides; Enriched utilization to AMR; Can come the operation situation of the wireless network of monitoring communication in time through monitoring AMR; For further optimizing network, improving the communication network quality, basis and decision data foundation are provided, bring economic benefit to operator and equipment vendors simultaneously.

Description of drawings

Fig. 1 is the monitoring method for building up implementing procedure sketch map during AMR handles in the embodiment of the invention;

Fig. 2 is the supervising device structural representation that AMR changes in the embodiment of the invention;

Fig. 3 is the method for supervising implementing procedure sketch map during AMR handles in the embodiment of the invention;

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

Fig. 5 is the supervising device structural representation during AMR handles in the embodiment of the invention;

Fig. 6 issues schematic flow sheet for monitoring AMR task in the embodiment of the invention;

Fig. 7 is a monitoring AMR data report flow sketch map in the embodiment of the invention.

Embodiment

The inventor notices in the invention process:

In existing practical application, except utilize AMR solve chnnel coding rate-allocation and, as far as AMR, not other effects; Simultaneously and since the AMR dynamic adjustment process be recessive, be sightless for the network operation condition monitoring, therefore do not have the scheme of remote monitoring AMR adjustment yet.

But; The adjustment situation of AMR can provide data and true foundation for the network optimization and monitoring, and therefore, the technical scheme that the embodiment of the invention provides is to provide a kind of scheme of remote real-time monitoring AMR speed adjustment; In order to corresponding relation through tracking AMR speed and C/I; The reflection AMR the adjustment situation, thereby can be the dynamic real-time monitor wireless channel conditions, in time improve the communication network environment, improving network quality provides real-time decision-making foundation.

Further, the present invention also provides the concrete scheme that the code rate that has adopted the AMR technology is monitored.

Describe below in conjunction with the accompanying drawing specific embodiments of the invention.

In declarative procedure; Mentioned base stations control network element is meant the network element that can control the base station network element, for example: RNC (Radio Network Controller, radio network controller) or BSC (Base Station Controller; Base station controller); The base station network element is BTS (Base Transceiver Station, base transceiver station are called for short the base station) or NODEB.In the enforcement, AMR speed can be obtained from BTS, also can obtain from the BSC side, and the C/I value can only be obtained from the base station network element, therefore selects and can both from the network element of base station, obtain for AMR speed and C/I parameter.

One, the task creation of at first code rate that adopts the AMR technology being monitored describes.

Fig. 1 is for the monitoring method for building up implementing procedure sketch map in the AMR processing, and is as shown in the figure, can comprise the steps:

Step 101, create the task that the code rate that adopts the AMR technology is monitored at OMC (Operation & Maintenance Center, operation maintenance center);

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

Step 102, in OMC received code speed, the code rate of said code rate to be respective network elements report after creating according to OMC of task is monitored code rate OMC.

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

Receive C/I at OMC, said C/I is the code rate corresponding C/I that reports.

Also promptly in practical implementation, the pairing C/I of code rate that can also acquisition monitoring arrives.

In the enforcement, can further include:

Show the code rate that reports at OMC.

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

The purpose that shows at OMC is to demonstrate AMR adjustment curve in real time intuitively through visualization interface; Make the related personnel can follow the corresponding relation of C/I through the adjustment of monitoring AMR; Can in time monitor the operation situation of communication wireless network; For further optimizing network, improving the communication network quality, basis and decision data foundation are provided.

In the practical implementation, when monitoring AMR changes, can implement as follows:

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

Concrete, which monitor task is the speed that can identify each monitoring through task number belong to; The essence that the code rate that adopts the AMR technology is monitored is that a certain user's code rate is monitored, and therefore can comprise the distinguishing mark to monitored object; The monitoring granularity then is meant the frequency of monitoring, can confirm according to actual needs.

When B, base stations control network element detect the AMR variation, report information such as comprising task number, C/I to give OMC.

C, OMC write down and upgrade the information such as C/I of this reporting information task number correspondence according to the reporting information that receives, and adopt the adjustment relation of Visual Dynamic graphical display AMR and C/I simultaneously.

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

Concrete, when carrying out A, can comprise:

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

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

Concrete, when carrying out B, can comprise:

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

B2, base stations control network element detect corresponding monitored object, issue OMC to the AMR rate variation data of base station reported by network elements.

Wherein, in B1, issued by the monitor task number of base stations control network element control website, for different websites, the base stations control network element carries out the letter sorting of monitor command by the station period and issues.

Among the B2, base station reported by network elements AMR, C/I be to the base stations control network element, behind the base stations control network element coupling monitor task, carries corresponding task number and monitor data and be reported to OMC.

Concrete, when carrying out C, can comprise:

Corresponding task is found in C1, the tabulation of OMC traversal monitor task, preserves the monitor data that reports.

C2, dynamic real-time ground shows the graph of relation that AMR and C/I adjust in the monitoring window.

In force, can carry out alternately through binary order or MML (Man-Machine Language, man-machine language) between OMC and the base stations control network element.

For understanding the technical scheme that provides among the embodiment of the present invention embodiment how; The supervising device that following instance also provides a kind of AMR of monitoring to change, the supervising device structural representation that Fig. 2 changes for AMR, as shown in the figure; This device mainly comprises four modules, and is specific as follows:

Display module 201: be used for after receiving the monitor data that the base stations control network element sends, being responsible for the dynamic demonstration of corresponding monitor task AMR and C/I data.

Administration module 202: be used to manage the monitor task that OMC issues, the match management of AMR and C/I data variation.

Forwarding module 203: be used to transmit the monitor task that OMC issues, or after monitor task is set up successfully, when the reported by network elements monitor data of base station, obtain corresponding monitor task, send the monitor data of this monitor task to OMC from administration module.

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

In the enforcement, forwarding module can comprise: Link State judging unit and data and task retransmission unit.The Link State judging unit is used to judge the Link State between OMC and the base stations control network element, comprises chain rupture state and link setup state; Data and task retransmission unit are used for the AMR and the C/I data of forwarding task or variation.

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

Two, behind the monitor task of having set up by such scheme AMR, the monitoring scheme in the face of concrete AMR describes down.

Fig. 3 is for the method for supervising implementing procedure sketch map in the AMR processing, and is as shown in the figure, when monitoring, can comprise the steps:

Step 301, confirm the user that need monitor the code rate that adopts the AMR technology;

Step 302, confirm the time slot that this user's the code rate to adopting the AMR technology is monitored;

Step 303, the code rate on this user's the time slot is monitored.

In the enforcement, when confirming the time slot that AMR is monitored, can comprise:

Confirm 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 technological time slot of whole employing AMR is monitored;

When AMR is the AMR of half rate, the code rate that adopts the technological sub-slots of AMR to be monitored, a time slot comprises two sub-slots.

Concrete, can be in the enforcement with time slot as monitored object.

With time slot during as monitored object, key parameter can comprise website, sub-district, carrier frequency, time slot, sub-slots number.In issuing of monitor task and reporting in the process of data, basically with above said consistent, but to note the situation of considering that website restarts.When website re-powers successfully, by forwarding module corresponding site information is reported to administration module, need the monitor task under the corresponding website to be issued again by administration module.

For the sake of simplicity, also be in order to reduce the communication pressure of OMC and BSC, can to adopt the mode of direct input time slot parameter to issue the time slot task in the enforcement.Because the speed of AMR is divided into full rate and half rate, therefore corresponding time slot can be divided into whole time slot monitoring and monitors with sub-slots, and then OMC need distinguish following situation when issuing task:

1, monitoring sub-slots.

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

2, monitoring time slot.

Need two sub-slots be issued as two tasks simultaneously.

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

In the enforcement, when the time slot that the code rate to adopting the AMR technology of confirming this user is monitored, can comprise:

Confirm user's IMSI (International Mobile Subscriber Identity, international mobile subscriber identity);

The time slot that IMSI takies with it is bound;

Code rate on the time slot of this IMSI binding is monitored.

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

Confirm the time slot that takies after the user is switched according to user's IMSI;

Code rate on the time slot that takies after switching is monitored.

Concrete, can be with IMSI as monitored object.

IMSI is the unique international mobile subscriber identity that mobile system distributes for each user.Owing to follow the tracks of an IMSI, be the AMR rate variations situation of following the tracks of its shared time slot, so need take certain mode that its time slot with the place is bound together after all.According to general actual needs, can monitor the operating position of the AMR speed of this IMSI under one or more BSC.Generally speaking, in the system user maybe below several kinds of states:

(1) is in Idle state.At this moment having only little information and network element mutual, is not relate to the AMR rate variation;

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

(3) BSC intra.At this moment variation has taken place in its shared time slot, therefore just must upgrade its time slot of binding, and then will upgrade the task of its base station side;

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

(5) switch between MSC.

(5) this situation is complicated more; Can not consider according to present needs, still, if necessary; Still can through IMSI with and the time slot that takies monitor; Because switch howsoever, must know an IMSI and the time slot that takies thereof, thereby also can monitor.Like this, comprise under the situation of (2), (3), (4) in consideration.Especially, if under two BSC, monitor same time slot simultaneously, the switching between them also can be supported so for (4).

For (2), business module at this moment sends notice to administration module when getting access to the time slot that this IMSI takies, and administration module binds IMSI and the time slot that takies thereof after forwarding module sends to the base station.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 purpose time slot.For the source time slot, BTS can stop this task automatically, and the business module of BSC also can be reported the time slot change of IMSI to monitoring module simultaneously, and the latter need bind IMSI and purpose time slot.Afterwards, monitoring module issues the task on the purpose time slot to BTS.

In the enforcement, can further include:

The code rate of monitoring is reported OMC.

Concrete; For reporting of AMR monitor data; Monitor task finally is to be based upon on the DSP (Digital Signal Processing, digital signal processor), and DSP is according to time slot and monitoring period granularity; If there is not the change of task, time slot, will report monitor data endlessly according to the monitoring period granularity so.Through pilot process, finally present to the user with dynamical fashion in the OMC client.

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

When a monitored half rate AMR channel is transformed into a full speed channel; At this moment BTS reports the sub-slots of object need be filled to 0xFF; Become full speed channel by the channel of a half rate to identify monitored subchannel, report monitor data this moment is full rate.

Sometime, when full rate AMR channel became a half-rate channel again, this moment, corresponding BTS had two sub-slots monitored object; If corresponding sub-slots has monitor task, but do not have the AMR business association, then this sub-slots does not report monitor data; Otherwise, report monitor data.

After reporting; Can be in client control graphical display, client can show two monitoring pattern for each the road monitor data that reports up: one is C/I curve chart over time; Another is CMI (Codec Mode Indication; Change the speed indication) (branch up-downgoing), CMR (Codec Mode Request changes rate request), CMC (Codec Mode Command changes rate command) curve chart over time.The longitudinal axis of two figures is respectively: dB, kbit/s need carve all speed in the ACS rate set for a back figure longitudinal axis.Because the monitoring granularity is a second level, curvilinear figure will all be presented at and compare difficulty in the graphics field, so these two figures can consider that (1S, 3S 5S) are moved to the left, to show the dynamic change part in a period of time with monitoring period.For IMSI monitoring, a title text frame also need be set below figure come dynamically to show that the corresponding interface-free resources of current monitoring IMSI stops: the period of standing, cell id, carrier frequency number, timeslot number, sub-crack number.

In the practical implementation, ordinary circumstance, the client of the OMC that uses to the user all has a plurality of.For the situation that has multi-client, need handle the situation of multi-client as the administration module of core, for the sake of simplicity, can stipulate can only have a monitor task to same monitored object in the system.

Based on same inventive concept; Monitoring apparatus for establishing and the AMR of AMR in handling also is provided in the embodiment of the invention supervising device in handling; Because the principle that these equipment are dealt with problems is similar with monitoring method for building up and the method for supervising in the AMR processing during AMR handles; Therefore the enforcement of these equipment can repeat part and repeat no more referring to the enforcement of method.

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

Task creation module 401 is used for creating the task that the code rate that adopts the AMR technology is monitored at OMC;

Receiver module 402 is used in OMC received code speed, and said code rate is respective network elements reports OMC after creating according to OMC of task is monitored code rate a code rate.

In the enforcement, can further include in the device:

Display module 403 is used for showing the code rate that reports at OMC.

In the enforcement, receiver module can also be further used for when OMC received code speed, receives C/I at OMC, and said C/I is the code rate corresponding C/I that reports.

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

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

Fig. 5 is for the supervising device structural representation in the AMR processing, and is as shown in the figure, in device, can comprise:

User's determination module 501, being used for confirming need be to the user who adopts the technological code rate of AMR to monitor;

Time slot determination module 502 is used for confirming the time slot that this user's the code rate to adopting the AMR technology is monitored;

Monitoring module 503 is used for the code rate on this user's the time slot is monitored.

In the enforcement, in the time slot determination module, can comprise:

The user confirms the unit, is used for confirming user's IMSI;

Bind the unit, the time slot that is used for IMSI is taken with it is bound;

Time slot is confirmed the unit, and the code rate on the time slot that is used for confirming this IMSI is bound is monitored.

In the enforcement, time slot confirms that unit further is further used for when the user switches, and confirms the time slot that takies after the user is switched according to user's IMSI; Confirm the code rate on the time slot that takies after switching is monitored.

In the enforcement, monitoring module can also be further used for when the time slot that AMR is monitored, and confirms 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 technological time slot of whole employing AMR is monitored; When AMR is the AMR of half rate, the code rate that adopts the technological sub-slots of AMR to be monitored, a time slot comprises two sub-slots.

In the enforcement, can further include in the device:

Reporting module 504 is used for the code rate of monitoring is reported OMC.

For the convenience of describing, the each several part of the above device is divided into various modules with function or the unit is described respectively.Certainly, when embodiment of the present invention, can in same or a plurality of softwares or hardware, realize the function of each module or unit.

Enforcement is for a better understanding of the present invention done further explanation with instance again below in conjunction with device shown in Figure 2.

Embodiment one

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

Step 601, OMC creation task information, and it is issued.

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

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

Whether step 602, administration module verification mission bit stream be legal, is then to change step 603 over to, otherwise finish.

In this step, after the administration module of the OMS among the BSC is received above-mentioned mission bit stream, carry out the task verification, to the task of verification failure, directly return failure to OMC and reply, flow process stops; For successful verification, then change step 603 over to.

Step 603, administration module are preserved monitor task information.

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

Step 604, administration module are handed down to forwarding module with mission bit stream.

In this step, administration module takes out the monitor task kept, according to the task number of monitor task judge the concrete forwarding module that will send to number (1～N), issue forwarding module to the specific tasks information package then.

Step 605, forwarding module are transmitted to respective base station with mission bit stream.

In this step, after forwarding module is received above-mentioned mission bit stream, it is handed down to the base station of appointment.

Handle corresponding mission bit stream step 606, base station.

In this step, after the acquisition module on the base station is received above-mentioned mission bit stream, this monitor task is carried out handled.

Embodiment two

Fig. 7 is for monitoring AMR data report flow sketch map, and is as shown in the figure, can comprise:

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

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

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

Step 703, forwarding module judge through calling the administration module interface whether monitored object is legal, are then to change step 704 over to, otherwise finish.

In this step, forwarding module judges through calling administration module monitor task adaptation function whether monitored object is legal.If the legal step 704 that then changes over to; Otherwise stop.

Step 704, Link State judgment unit judges link-state information.

Whether normally and whether be Main Processing Unit step 705, judge the AM/BAM Link State, if link is normal and be Main Processing Unit, be then to change step 706 over to; Otherwise stop.

Step 706, forwarding module report monitor message.

In this step, forwarding module reports OMC with monitor message.

Step 707, OMC are with graphics mode display monitoring information.

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

Above two instances monitoring AMR method and the device that change be illustrated; They only are used to instruct specifically embodiment of the present invention how of those skilled in the art; But be not used in restriction the present invention; For one of ordinary skill in the art,, all can design according to thought of the present invention like TDRNC or WRNC.

Visible by the foregoing description; The technical scheme that adopts the embodiment of the invention to provide can demonstrate AMR adjustment curve, the corresponding relation of following C/I through the adjustment of monitoring AMR in real time intuitively through visualization interface; Can in time monitor the operation situation of communication wireless network; For further optimizing network, improving the 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 that embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of the embodiment of complete hardware embodiment, complete software implementation example or combination software and hardware aspect.And the present invention can be employed in the form that one or more computer-usable storage medium (including but not limited to magnetic disc store, CD-ROM, optical memory etc.) that wherein include computer usable program code go up the computer program of implementing.

The present invention is that reference is described according to the flow chart and/or the block diagram of method, equipment (system) and the computer program of the embodiment of the invention.Should understand can be by the flow process in each flow process in computer program instructions realization flow figure and/or the block diagram and/or square frame and flow chart and/or the block diagram and/or the combination of square frame.Can provide these computer program instructions to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, make the instruction of carrying out through the processor of computer or other programmable data processing device produce to be used for the device of the function that is implemented in flow process of flow chart or a plurality of flow process and/or square frame of block diagram or a plurality of square frame appointments.

These computer program instructions also can be stored in ability vectoring computer or the computer-readable memory of other programmable data processing device with ad hoc fashion work; Make the instruction that is stored in this computer-readable memory produce the manufacture that comprises command device, this command device is implemented in the function of appointment in flow process of flow chart or a plurality of flow process and/or square frame of block diagram or a plurality of square frame.

These computer program instructions also can be loaded on computer or other programmable data processing device; Make on computer or other programmable devices and to carry out the sequence of operations step producing computer implemented processing, thereby the instruction of on computer or other programmable devices, carrying out is provided for being implemented in the step of the function of appointment in flow process of flow chart or a plurality of flow process and/or square frame of block diagram or a plurality of square frame.

Although described the preferred embodiments of the present invention, in a single day those skilled in the art get the basic inventive concept could of cicada, then can make other change and modification to these embodiment.So accompanying claims is intended to be interpreted as all changes and the modification that comprises preferred embodiment and fall into the scope of the invention.

Obviously, those skilled in the art can carry out various changes and modification to the present invention and not break away from the spirit and scope of the present invention.Like this, belong within the scope of claim of the present invention and equivalent technologies thereof if of the present invention these are revised with modification, then the present invention also is intended to comprise these changes and modification interior.

Claims (10)

1. automatic many speed AMR method for supervising is characterized in that, comprises the steps:

Create the task that the code rate that adopts the AMR technology is monitored at the OMC of operation maintenance center;

In OMC received code speed, said code rate is respective network elements reports OMC after creating according to OMC of task is monitored code rate a code rate.

2. the method for claim 1 is characterized in that, further comprises:

Show the code rate that reports at OMC.

3. according to claim 1 or claim 2 method is characterized in that, when OMC received code speed, further comprises:

Receive carrier interference ratio C/I at OMC, said C/I is the code rate corresponding C/I that reports.

4. method as claimed in claim 3 is characterized in that,

Show the code rate report and the corresponding relation between corresponding C/I at OMC.

5. method as claimed in claim 4 is characterized in that, the related network elements that reports code rate is base station network element and/or network element that the base station network element is controlled, and the related network elements that reports C/I is the base station network element.

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

The task creation module is used for creating the task that the code rate that adopts the AMR technology is monitored at OMC;

Receiver module is used in OMC received code speed, and said code rate is respective network elements reports OMC after creating according to OMC of task is monitored code rate a code rate.

7. device as claimed in claim 6 is characterized in that, further comprises:

Display module is used for showing the code rate that reports at OMC.

8. like claim 6 or 7 described devices, it is characterized in that receiver module is further used for when OMC received code speed, receive C/I at OMC, said C/I is the code rate corresponding C/I that reports.

9. device as claimed in claim 8 is characterized in that, display module is further used for showing the code rate report and the corresponding relation between corresponding C/I at OMC.

10. device as claimed in claim 9 is characterized in that, receiver module is further used for receiving the base station network element and/or the code rate of reported by network elements that the base station network element is controlled, and the C/I that receives the base station reported by network elements.

Images