CN103945405A - Management method and equipment of MDT trace session - Google Patents

Abstract

The invention discloses a management method and equipment of an MDT trace session. The method includes: when an MDT trace session is not activated currently, an MDT activation timer is started; when the MDT activation timer is overtime, whether to activate the MDT trace session or not is judged; if yes, the MDT trace session is activated, and if no, the MDT trace session is not activated; and/or, when the MDT trace session is already activated currently, an MDT deactivation timer is started; when the MDT deactivation timer is overtime, whether to deactivate the MDT trace session or not is judged; if yes, the MDT trace session is deactivated, and if not, the MDT trace session is not deactivated. In the embodiment of the invention, the MDT trace session can be activated when the MDT trace session is needed, and can be deactivated when the MDT trace session is not needed, thereby realizing activation management and deactivation management of the MDT trace session.

Description

A kind of management method of MDT trace session and equipment

Technical field

The present invention relates to communication technical field, especially relate to a kind of MDT(Minimization of DriveTests, minimum road test) management method and the equipment of trace session.

Background technology

Operator, in order to ensure network quality, need to be used drive test (Drive Tests) technology to carry out test network quality.Tradition drive test mode is: operator sets out special manpower, use special instrument to the signal quality of testing each place in real network, check network coverage problem with this, but this mode not only consumes a large amount of manpower and materials, and because the staff of drive test generally can not enter all places test network signal quality very easily, therefore traditional drive test mode actual effect is not fine.

In order to address this problem, third generation partner plans tissue and has proposed MDT technology, the feature of MDT technology is: directly use the UE(User Equipment in network, subscriber equipment) measure and report network coverage condition, thereby avoid a large amount of manpower and materials expense of operator, and the actual any place that can arrive of user in can overlay network, more effective than the coverage of traditional drive test mode.

In MDT technology, the minimum particle size of MDT measurement activity is MDT trace session (MDT TraceSession), and MDT trace session is generally by the NM(Network Manager in network management system, network management unit) initiate.From system architecture angle, MDT is divided into the MDT based on region and the MDT based on signaling; In the MDT based on region, MDT trace session can cause the UE in a panel region to carry out MDT measurement reporting process; In the MDT based on signaling, MDT trace session can cause a certain particular UE or a certain specific IMSI(International Mobile SubscriberIdentity, international mobile subscriber mark) place UE carries out MDT measurement and reports process.From MDT metering system angle, MDT is divided into formula MDT(Immediate MDT immediately) and recording MDT(Logged MDT); In Immediate MDT, MDT trace session need to just can be stopped by network management unit proactive notification; In Logged MDT, MDT trace session need to, by network management unit proactive notification, can not stop automatically.

In prior art, base station equipment is measured after (minimum particle size of MDT measurement activity is MDT trace session) to UE configuration MDT, and UE can collect MDT measurement data, and these MDT measurement data are reported to base station equipment; Base station equipment is being collected after MDT measurement data, these MDT measurement data can be reported to TCE(Trace Collection Entity, follows the tracks of and collects entity) focus on; TCE is receiving after MDT measurement data, can carry out certain processing to it, obtains the geographical location information at UE place in the time recording each MDT measurement data, has covering relevant issues thereby can judge which position.

Realizing in process of the present invention, inventor finds at least to exist in prior art following problem:

In prior art, do not have Activiation method and the anti-activating method of MDT trace session.

Summary of the invention

The invention provides a kind of management method and equipment of MDT trace session, in the time of needs MDT trace session, activate MDT trace session, deexcitation MDT trace session in the time not needing MDT trace session.

In order to achieve the above object, the embodiment of the present invention provides a kind of management method of minimum road test MDT trace session, comprising:

While not activating MDT trace session, start MDT Active Timer current; After described MDT Active Timer is overtime, judge whether to activate described MDT trace session; If so, activate described MDT trace session, if not, do not activate described MDT trace session; And/or,

While having activated MDT trace session, start MDT deexcitation timer current; After described MDT deexcitation timer expiry, judge whether MDT trace session described in deexcitation; If so, MDT trace session described in deexcitation, if not, MDT trace session described in not deexcitation.

The embodiment of the present invention provides a kind of management equipment of minimum road test MDT trace session, comprising:

Start module, for while not activating MDT trace session, starting MDT Active Timer current; And/or, while having activated MDT trace session, start MDT deexcitation timer current;

Judge module, for while not activating MDT trace session, after described MDT Active Timer is overtime, judging whether to activate described MDT trace session current; And/or,

Current while having activated MDT trace session, after described MDT deexcitation timer expiry, judge whether MDT trace session described in deexcitation;

Processing module, for current while not activating MDT trace session, when being, activates described MDT trace session in judged result, while being no, does not activate described MDT trace session in judged result; And/or, current while having activated MDT trace session, in judged result when being, MDT trace session described in deexcitation, in judged result while being no, MDT trace session described in not deexcitation.

Compared with prior art, the embodiment of the present invention at least has the following advantages: in the embodiment of the present invention, can in the time of needs MDT trace session, activate MDT trace session, and in the time not needing MDT trace session deexcitation MDT trace session, thereby realize the activation/deactivation management of MDT trace session.

Brief description of the drawings

In order to be illustrated more clearly in technical scheme of the present invention, below the accompanying drawing of required use during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the management method schematic flow sheet of the MDT trace session that provides of the embodiment of the present invention one;

Fig. 2 is the management method schematic flow sheet of the MDT trace session that provides of the embodiment of the present invention two;

Fig. 3 is the management method schematic flow sheet of the MDT trace session that provides of the embodiment of the present invention three;

Fig. 4 is the management equipment structural representation of the MDT trace session that provides of the embodiment of the present invention four.

Embodiment

Below in conjunction with the accompanying drawing in the present invention, the technical scheme in the present invention is clearly and completely described, obviously, described embodiment is only a part of embodiment of the present invention, instead of whole embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

Embodiment mono-

The embodiment of the present invention one provides a kind of management method of MDT trace session, for MDT trace session is activated to processing, its executive agent can be network management unit, and the activation of MDT trace session can be applied in the MDT trace session activation process of Logged MDT or Immediate MDT; Wherein, the process of network management unit initiation MDT trace session is known as and activates MDT trace session; As shown in Figure 1, this management method can comprise the following steps:

Step 101, while not activating MDT trace session, starts MDT Active Timer current.

In the embodiment of the present invention, the effect of this MDT Active Timer is: after MDT Active Timer is overtime, need to judge whether to activate MDT trace session.

In the time starting MDT Active Timer first, the duration of this MDT Active Timer can be set to Timer_Act_Init, and this Timer_Act_Init is by OAM(Operation and Maintenance, operation and maintenance) system is configured according to practical experience.

In the embodiment of the present invention, after MDT Active Timer starts, a situation arises also to need to collect each specified type event; Wherein, this specified type event is specially and occurs may causing event after covering problem, and specified type event specifically includes but not limited to one of following event or combination in any: Radio Link Failure, user's random access failure, user's handoff failure, customer complaint, connection are set up unsuccessfully.

Step 102, after MDT Active Timer is overtime, judges whether to activate MDT trace session; If so, perform step 103; If not, perform step 104.

In the embodiment of the present invention, judge whether to activate the process of MDT trace session, specifically include but not limited to: judge whether to activate MDT trace session according to the frequency of each specified type event in MDT Active Timer run duration.

Further, judge whether to activate MDT trace session according to the frequency of each specified type event in MDT Active Timer run duration, can comprise the steps:

A situation arises for step 1, each specified type event of collecting based on MDT Active Timer run duration, after MDT Active Timer is overtime, add up the frequency of each specified type event, suppose that each specified type event is respectively E1,, En, the frequency of each specified type event is respectively Num_E1,, Num_En; Wherein, n is the quantity of specified type event.

Step 2, judge whether the frequency of specified type event meets preset relation; If the frequency of specified type event meets preset relation, determine that the judged result of this specified type event is the first numerical value (if the first numerical value is 0); If the frequency of specified type event does not meet preset relation, determine that the judged result of this specified type event is second value (if second value is 1).

Concrete, this preset relation is: a_Ei × (Num_Ei) ^b_Ei/ TimerLength>Threshold_Ei; Wherein, TimerLength is the duration of MDT Active Timer, Threshold_Ei is the comparison threshold of the specified type event Ei of system configuration, Num_Ei is the frequency of specified type event Ei, a_Ei is the configuration parameter of the specified type event Ei of system configuration, the configuration parameter of the specified type event Ei that b_Ei is system configuration; It should be noted that, above-mentioned Threshold_Ei, a_Ei and b_Ei all can be configured according to practical experience value by OAM system, and concrete configuration mode repeats no more.

Step 3, judged result (as: the first numerical value 0 and second value 1) to each specified type event add up, if accumulation result is greater than preset configuration thresholding (being that OAM system is according to the threshold value of practical experience value configuration), judgement need to activate MDT trace session; If accumulation result is not more than preset configuration thresholding, judgement does not need to activate MDT trace session.

Step 103, activates MDT trace session (be that informing base station equipment is carried out corresponding MDT trace session, the correlation step of MDT trace session activation completes at this point), and process ends.

Step 104, does not activate MDT trace session, and forwards step 101 to.

In the embodiment of the present invention, after not activating MDT trace session, before forwarding step 101 to, can also reset the duration of MDT Active Timer, with detecting not out when problem, by suitable increasing sense cycle (increasing the duration of MDT Active Timer), reduce and detect the expense of bringing.

Concrete, the duration that resets MDT Active Timer is: min (a_Timer_Act × Timer_Act_Old+b_Timer_Act, Timer_Act_Max); Wherein, Timer_Act_Old is the current duration of MDT Active Timer, a_Timer_Act and b_Timer_Act be OAM system configuration for increasing the parameter of MDT Active Timer duration, Timer_Act_Max is the maximum duration of the MDT Active Timer of OAM system configuration, min (a, b) represents to get numerical value less in a and b.

In sum, in the embodiment of the present invention, can in the time of needs MDT trace session, activate MDT trace session, thereby realize the activation management of MDT trace session.

Embodiment bis-

The embodiment of the present invention two provides a kind of management method of MDT trace session, for MDT trace session is carried out to deexcitation processing, its executive agent can be network management unit, and the deactivation process of MDT trace session can be applied in the MDT trace session deactivation process of Immediate MDT; Wherein, the process that network management unit stops MDT trace session is known as deexcitation MDT trace session; As shown in Figure 2, this management method can comprise the following steps:

Step 201, while having activated MDT trace session, starts MDT deexcitation timer current.

In the embodiment of the present invention, the effect of this MDT deexcitation timer is: when after MDT deexcitation timer expiry, need to judge whether deexcitation MDT trace session.

In the time starting MDT deexcitation timer first, the duration of this MDT deexcitation timer can be set to Timer_Deact_Init, and Timer_Deact_Init is configured according to practical experience by OAM system.

In the embodiment of the present invention, the corresponding MDT deexcitation timer independently of the MDT trace session of each activation; After starting this MDT deexcitation timer, need to collect measurement data corresponding to this MDT trace session in this MDT deexcitation timer run duration.

Step 202, after MDT deexcitation timer expiry, judges whether deexcitation MDT trace session; If so, perform step 203; If not, perform step 204.

In the embodiment of the present invention, judge whether the process of deexcitation MDT trace session, specifically include but not limited to following mode: according to the measurement data of collecting in MDT deexcitation timer run duration, judge whether to need deexcitation MDT trace session.

Further, judge whether to need the process of deexcitation MDT trace session according to the measurement data of collecting in MDT deexcitation timer run duration, specifically include but not limited to following mode:

Mode one, after MDT deexcitation timer starts, collect measurement data corresponding to MDT trace session; After MDT deexcitation timer expiry, the measurement data of collecting in statistics MDT deexcitation timer run duration; If the measurement data of collecting is greater than default the first data threshold (can arrange according to practical experience value), judgement does not need deexcitation MDT trace session; If the measurement data of collecting is not more than default the first data threshold, judgement needs deexcitation MDT trace session.

Mode two, after MDT deexcitation timer starts, collect measurement data corresponding to MDT trace session; After MDT deexcitation timer expiry, the measurement data of collecting in statistics MDT deexcitation timer run duration; If the measurement data of collecting is greater than default the second data threshold (can arrange according to practical experience value), judgement does not need deexcitation MDT trace session, the value of counter (the corresponding counter independently of the MDT trace session of each activation, its initial value is 0) is reset to 0; If the measurement data of collecting is not more than default the second data threshold, the value of counter is added to one (being counter count=count+1); If the value of counter is greater than default value thresholding (being that OAM system is according to the numerical value of practical experience value configuration), judgement needs deexcitation MDT trace session.

Mode three, after MDT deexcitation timer starts, collect measurement data corresponding to MDT trace session; After MDT deexcitation timer expiry, the measurement data of collecting in statistics MDT deexcitation timer run duration; If the measurement data of collecting in run duration before the measurement data of collecting in this run duration of MDT deexcitation timer and this (being the measurement data that MDT deexcitation timer is collected after repeatedly overtime) sum is greater than default the 3rd data threshold (can arrange according to practical experience value), judgement needs deexcitation MDT trace session; Otherwise judgement does not need deexcitation MDT trace session, and continue to start MDT deexcitation timer.

For aforesaid way one, mode two and mode three, the measurement data of collecting in MDT deexcitation timer run duration is: from the geographical position of associated, with other data of originally receiving all from the data away from, and measurement data for collecting in unit interval unit are.

Step 203, deexcitation MDT trace session, and process ends.

Step 204, not deexcitation MDT trace session, and forward step 201 to.

In the embodiment of the present invention, after not deexcitation MDT trace session, before forwarding step 201 to, can also reset the duration of MDT deexcitation timer; While presetting the first data threshold or default the second data threshold to be greater than in the measurement data of collecting, by the duration of suitable increase MDT deexcitation timer, reduce and detect the expense of bringing; And in the time that the measurement data of collecting is not more than default the first data threshold or default the second data threshold, by the duration of suitable minimizing MDT deexcitation timer, finish as early as possible unnecessary MDT trace session.

In the time that the measurement data of collecting is greater than default the first data threshold or default the second data threshold, the duration that resets MDT deexcitation timer is: min (a_Timer_Deact × Timer_Deact_Old+b_Timer_Deact, Timer_Deact_Max); Wherein, Timer_Deact_Old is the current duration of MDT deexcitation timer, a_Timer_Deact and b_Timer_Deact be OAM system configuration for increasing the parameter of MDT deexcitation timer duration, Timer_Deact_Max is the maximum duration of the MDT deexcitation timer of OAM system configuration, max (a, b) represents to get value larger in a and b.

In the time that the measurement data of collecting is not more than default the first data threshold or default the second data threshold, the duration that resets MDT deexcitation timer is: max (c_Timer_Deact × Timer_Deact_Old ﹣ d_Timer_Deact, Timer_Deact_Min); Wherein, Timer_Deact_Old is the current duration of MDT deexcitation timer, c_Timer_Deact and d_Timer_Deact be OAM system configuration for reducing the parameter of MDT deexcitation timer duration, Timer_Deact_Min is the minimum duration of the MDT deexcitation timer of OAM system configuration, max (a, b) represents to get value larger in a and b.

In sum, in the embodiment of the present invention, can be in the time not needing MDT trace session deexcitation MDT trace session, thereby realize the deexcitation management of MDT trace session.

Embodiment tri-

The embodiment of the present invention three provides a kind of management method of MDT trace session, for MDT trace session is activated and is processed and deexcitation processing, its executive agent can be network management unit, and the activation of MDT trace session can be applied in the MDT trace session activation process of Logged MDT or Immediate MDT, the deactivation process of MDT trace session can be applied in the MDT trace session deactivation process of Immediate MDT; Wherein, the process of network management unit initiation MDT trace session is known as and activates MDT trace session; The process that network management unit stops MDT trace session is known as deexcitation MDT trace session; As shown in Figure 3, this management method can comprise the following steps:

Step 301, while not activating MDT trace session, starts MDT Active Timer current.

In the embodiment of the present invention, the effect of this MDT Active Timer is: after MDT Active Timer is overtime, need to judge whether to activate MDT trace session.

In the time starting MDT Active Timer first, the duration of this MDT Active Timer can be set to Timer_Act_Init, and this Timer_Act_Init is configured according to practical experience by OAM system.

In the embodiment of the present invention, after MDT Active Timer starts, a situation arises also to need to collect each specified type event; Wherein, this specified type event is specially and occurs may causing event after covering problem, and specified type event specifically includes but not limited to one of following event or combination in any: Radio Link Failure, user's random access failure, user's handoff failure, customer complaint, connection are set up unsuccessfully.

Step 302, after MDT Active Timer is overtime, judges whether to activate MDT trace session; If so, perform step 303; If not, perform step 304.

In the embodiment of the present invention, judge whether to activate the process of MDT trace session, specifically include but not limited to: judge whether to activate MDT trace session according to the frequency of each specified type event in MDT Active Timer run duration.

Further, judge whether to activate MDT trace session according to the frequency of each specified type event in MDT Active Timer run duration, can comprise the steps:

A situation arises for step 1, each specified type event of collecting based on MDT Active Timer run duration, after MDT Active Timer is overtime, add up the frequency of each specified type event, suppose that each specified type event is respectively E1,, En, the frequency of each specified type event is respectively Num_E1,, Num_En; Wherein, n is the quantity of specified type event.

Step 2, judge whether the frequency of specified type event meets preset relation; If the frequency of specified type event meets preset relation, determine that the judged result of this specified type event is the first numerical value (if the first numerical value is 0); If the frequency of specified type event does not meet preset relation, determine that the judged result of this specified type event is second value (if second value is 1).

Concrete, this preset relation is: a_Ei × (Num_Ei) ^b_Ei/ TimerLength>Threshold_Ei; Wherein, TimerLength is the duration of MDT Active Timer, Threshold_Ei is the comparison threshold of the specified type event Ei of system configuration, Num_Ei is the frequency of specified type event Ei, a_Ei is the configuration parameter of the specified type event Ei of system configuration, the configuration parameter of the specified type event Ei that b_Ei is system configuration; It should be noted that, above-mentioned Threshold_Ei, a_Ei and b_Ei all can be configured according to practical experience value by OAM system, and concrete configuration mode repeats no more.

Step 3, judged result (as: the first numerical value 0 and second value 1) to each specified type event add up, if accumulation result is greater than preset configuration thresholding (being that OAM system is according to the threshold value of practical experience value configuration), judgement need to activate MDT trace session; If accumulation result is not more than preset configuration thresholding, judgement does not need to activate MDT trace session.

Step 303, activates MDT trace session (be that informing base station equipment is carried out corresponding MDT trace session, the correlation step of MDT trace session activation completes at this point), and forwards step 305 to.

Step 304, does not activate MDT trace session, and forwards step 301 to.

In the embodiment of the present invention, after not activating MDT trace session, before forwarding step 301 to, can also reset the duration of MDT Active Timer, with detecting not out when problem, by suitable increasing sense cycle (increasing the duration of MDT Active Timer), reduce and detect the expense of bringing.

Concrete, the duration that resets MDT Active Timer is: min (a_Timer_Act × Timer_Act_Old+b_Timer_Act, Timer_Act_Max); Wherein, Timer_Act_Old is the current duration of MDT Active Timer, a_Timer_Act and b_Timer_Act be OAM system configuration for increasing the parameter of MDT Active Timer duration, Timer_Act_Max is the maximum duration of the MDT Active Timer of OAM system configuration, min (a, b) represents to get numerical value less in a and b.

Step 305, while having activated MDT trace session, starts MDT deexcitation timer current.

In the embodiment of the present invention, the effect of this MDT deexcitation timer is: when after MDT deexcitation timer expiry, need to judge whether deexcitation MDT trace session.

In the time starting MDT deexcitation timer first, the duration of this MDT deexcitation timer can be set to Timer_Deact_Init, and Timer_Deact_Init is configured according to practical experience by OAM system.

In the embodiment of the present invention, the corresponding MDT deexcitation timer independently of the MDT trace session of each activation; After starting this MDT deexcitation timer, need to collect measurement data corresponding to this MDT trace session in this MDT deexcitation timer run duration.

Step 306, after MDT deexcitation timer expiry, judges whether deexcitation MDT trace session; If so, perform step 307; If not, perform step 308.

In the embodiment of the present invention, judge whether the process of deexcitation MDT trace session, specifically include but not limited to following mode: according to the measurement data of collecting in MDT deexcitation timer run duration, judge whether to need deexcitation MDT trace session.

Further, judge whether to need the process of deexcitation MDT trace session according to the measurement data of collecting in MDT deexcitation timer run duration, specifically include but not limited to following mode:

Mode one, after MDT deexcitation timer starts, collect measurement data corresponding to MDT trace session; After MDT deexcitation timer expiry, the measurement data of collecting in statistics MDT deexcitation timer run duration; If the measurement data of collecting is greater than default the first data threshold (can arrange according to practical experience value), judgement does not need deexcitation MDT trace session; If the measurement data of collecting is not more than default the first data threshold, judgement needs deexcitation MDT trace session.

Mode two, after MDT deexcitation timer starts, collect measurement data corresponding to MDT trace session; After MDT deexcitation timer expiry, the measurement data of collecting in statistics MDT deexcitation timer run duration; If the measurement data of collecting is greater than default the second data threshold (can arrange according to practical experience value), judgement does not need deexcitation MDT trace session, the value of counter (the corresponding counter independently of the MDT trace session of each activation, its initial value is 0) is reset to 0; If the measurement data of collecting is not more than default the second data threshold, the value of counter is added to one (being counter count=count+1); If the value of counter is greater than default value thresholding (being that OAM system is according to the numerical value of practical experience value configuration), judgement needs deexcitation MDT trace session.

Mode three, after MDT deexcitation timer starts, collect measurement data corresponding to MDT trace session; After MDT deexcitation timer expiry, the measurement data of collecting in statistics MDT deexcitation timer run duration; If the measurement data of collecting in run duration before the measurement data of collecting in this run duration of MDT deexcitation timer and this (being the measurement data that MDT deexcitation timer is collected after repeatedly overtime) sum is greater than default the 3rd data threshold (can arrange according to practical experience value), judgement needs deexcitation MDT trace session; Otherwise judgement does not need deexcitation MDT trace session, and continue to start MDT deexcitation timer.

For aforesaid way one, mode two and mode three, the measurement data of collecting in MDT deexcitation timer run duration is: from the geographical position of associated, with other data of originally receiving all from the data away from, and measurement data for collecting in unit interval unit are.

Step 307, deexcitation MDT trace session, and forward step 301 to.

In the embodiment of the present invention, after deexcitation MDT trace session, before forwarding step 301 to, can also reset the duration of MDT Active Timer; Judge whether to exist covering problem according to the measurement data of collecting in this MDT deexcitation timer run duration, and according to whether existing covering problem to adjust the duration of MDT Active Timer.Concrete, if determine and have covering problem by the measurement data of collecting in MDT deexcitation timer run duration, can consider to reduce the duration of MDT Active Timer, whether also exist with the covering problem before judging faster; If determine and do not have covering problem by the measurement data of collecting in MDT deexcitation timer run duration, can consider to increase the duration of MDT Active Timer, detect the expense of bringing with minimizing system.

In order to reduce the duration of MDT Active Timer, corresponding manner specifically includes but not limited to:

Mode one, the duration of MDT Active Timer is made as to Timer_Act_Init, this Timer_Act_Init is the duration of the MDT Active Timer after reducing.

Mode two, the duration that resets MDT Active Timer are: max (c_Timer_Act × Timer_Act_Old ﹣ d_Timer_Act, Timer_Act_Min); Wherein, Timer_Act_Old is the current duration of MDT Active Timer, c_Timer_Act and d_Timer_Act be OAM system configuration for reducing the parameter of MDT Active Timer duration, Timer_Act_Min is the minimum value of the MDT Active Timer duration of OAM system configuration.

In order to increase the duration of MDT Active Timer, corresponding manner specifically includes but not limited to:

The duration that resets MDT Active Timer is: min (e_Timer_Act × Timer_Act_Old+f_Timer_Act, Timer_Act_Max); Wherein, Timer_Act_Old is the current duration of MDT Active Timer, e_Timer_Act and f_Timer_Act are the parameter of the increase MDT Active Timer duration of OAM system configuration, and Timer_Act_Max is the maximum of the MDT Active Timer duration of OAM system configuration.

Step 308, not deexcitation MDT trace session, and forward step 305 to.

In the embodiment of the present invention, after not deexcitation MDT trace session, before forwarding step 305 to, can also reset the duration of MDT deexcitation timer; While presetting the first data threshold or default the second data threshold to be greater than in the measurement data of collecting, by the duration of suitable increase MDT deexcitation timer, reduce and detect the expense of bringing; And in the time that the measurement data of collecting is not more than default the first data threshold or default the second data threshold, by the duration of suitable minimizing MDT deexcitation timer, finish as early as possible unnecessary MDT trace session.

In the time that the measurement data of collecting is greater than default the first data threshold or default the second data threshold, the duration that resets MDT deexcitation timer is: min (a_Timer_Deact × Timer_Deact_Old+b_Timer_Deact, Timer_Deact_Max); Wherein, Timer_Deact_Old is the current duration of MDT deexcitation timer, a_Timer_Deact and b_Timer_Deact be OAM system configuration for increasing the parameter of MDT deexcitation timer duration, Timer_Deact_Max is the maximum duration of the MDT deexcitation timer of OAM system configuration, max (a, b) represents to get value larger in a and b.

In the time that the measurement data of collecting is not more than default the first data threshold or default the second data threshold, the duration that resets MDT deexcitation timer is: max (c_Timer_Deact × Timer_Deact_Old ﹣ d_Timer_Deact, Timer_Deact_Min); Wherein, Timer_Deact_Old is the current duration of MDT deexcitation timer, c_Timer_Deact and d_Timer_Deact be OAM system configuration for reducing the parameter of MDT deexcitation timer duration, Timer_Deact_Min is the minimum duration of the MDT deexcitation timer of OAM system configuration, max (a, b) represents to get value larger in a and b.

In sum, in the embodiment of the present invention, can in the time of needs MDT trace session, activate MDT trace session, and in the time not needing MDT trace session deexcitation MDT trace session; Thereby realize activation management and the deexcitation management of MDT trace session.

Embodiment tetra-

Based on the inventive concept same with said method, a kind of management equipment of minimum road test MDT trace session is also provided in the embodiment of the present invention, as shown in Figure 4, this equipment comprises:

Start module 11, for while not activating MDT trace session, starting MDT Active Timer current; And/or, while having activated MDT trace session, start MDT deexcitation timer current;

Judge module 12, for while not activating MDT trace session, after described MDT Active Timer is overtime, judging whether to activate described MDT trace session current; And/or,

Current while having activated MDT trace session, after described MDT deexcitation timer expiry, judge whether MDT trace session described in deexcitation;

Processing module 13, for current while not activating MDT trace session, when being, activates described MDT trace session in judged result, while being no, does not activate described MDT trace session in judged result; And/or, current while having activated MDT trace session, in judged result when being, MDT trace session described in deexcitation, in judged result while being no, MDT trace session described in not deexcitation.

Described judge module 12, specifically for while not activating MDT trace session, judging whether need to activate described MDT trace session according to the frequency of each specified type event in described MDT Active Timer run duration current.

Described judge module 12, specifically for current while not activating MDT trace session, after described MDT Active Timer starts, a situation arises to collect each specified type event; After described MDT Active Timer is overtime, add up the frequency of described each specified type event, the frequency of each specified type event is respectively Num_E1 ..., Num_En, n is the quantity of specified type event;

If the frequency of specified type event meets preset relation, determine that the judged result of this specified type event is the first numerical value; If the frequency of specified type event does not meet preset relation, determine that the judged result of this specified type event is second value; Wherein, described preset relation is:

A_Ei × (Num_Ei) ^b_Ei/ TimerLength>Threshold_Ei; TimerLength is the duration of described MDT Active Timer, Threshold_Ei is the comparison threshold of the specified type event Ei of system configuration, Num_Ei is the frequency of specified type event Ei, a_Ei is the configuration parameter of the specified type event Ei of system configuration, the configuration parameter of the specified type event Ei that b_Ei is system configuration;

Judged result to described each specified type event adds up, if accumulation result is greater than preset configuration thresholding, judgement need to activate described MDT trace session; If accumulation result is not more than preset configuration thresholding, judgement does not need to activate described MDT trace session.

The described specified type event that described judge module 12 is collected comprises one of following event or combination in any: Radio Link Failure, user's random access failure, user's handoff failure, customer complaint, connection are set up unsuccessfully.

Described processing module 13, also for current while not activating MDT trace session, after not activating described MDT trace session, the duration that resets MDT Active Timer is: min (a_Timer_Act × Timer_Act_Old+b_Timer_Act, Timer_Act_Max); Wherein, Timer_Act_Old is the current duration of described MDT Active Timer, a_Timer_Act and b_Timer_Act be configuration for increasing the parameter of MDT Active Timer duration, Timer_Act_Max is the maximum duration of MDT Active Timer of configuration.

Described judge module 12, specifically for current while having activated MDT trace session, judges whether to need MDT trace session described in deexcitation according to the measurement data of collecting in described MDT deexcitation timer run duration.

Described judge module 12, specifically for while having activated MDT trace session, after described MDT deexcitation timer starts, collecting measurement data corresponding to described MDT trace session current; After described MDT deexcitation timer expiry, add up the measurement data of collecting in described MDT deexcitation timer run duration; If the measurement data of collecting is greater than default the first data threshold, judgement does not need MDT trace session described in deexcitation; If the measurement data of collecting is not more than default the first data threshold, judgement needs MDT trace session described in deexcitation.

Described judge module 12, specifically for while having activated MDT trace session, after described MDT deexcitation timer starts, collecting measurement data corresponding to described MDT trace session current; After described MDT deexcitation timer expiry, add up the measurement data of collecting in described MDT deexcitation timer run duration; If the measurement data of collecting is greater than default the second data threshold, judgement does not need MDT trace session described in deexcitation, and the value of counter is reset to 0; If the measurement data of collecting is not more than default the second data threshold, the value of counter is added to one; If the value of counter is greater than default value thresholding, judgement needs MDT trace session described in deexcitation.

Described judge module 12, specifically for while having activated MDT trace session, after described MDT deexcitation timer starts, collecting measurement data corresponding to described MDT trace session current; After described MDT deexcitation timer expiry, add up the measurement data of collecting in described MDT deexcitation timer run duration; If the measurement data sum of collecting in run duration before the measurement data of collecting in described this run duration of MDT deexcitation timer and this is greater than default the 3rd data threshold, judgement needs MDT trace session described in deexcitation; Otherwise judgement does not need MDT trace session described in deexcitation, and continue to start described MDT deexcitation timer.

Described processing module 13, also for current while having activated MDT trace session, after MDT trace session described in not deexcitation,

In the time that the measurement data of collecting is greater than default the first data threshold or default the second data threshold, the duration that resets described MDT deexcitation timer is: min (a_Timer_Deact × Timer_Deact_Old+b_Timer_Deact, Timer_Deact_Max); Wherein, Timer_Deact_Old is the current duration of described MDT deexcitation timer, a_Timer_Deact and b_Timer_Deact be configuration for increasing the parameter of MDT deexcitation timer duration, Timer_Deact_Max is the maximum duration of MDT deexcitation timer of configuration;

In the time that the measurement data of collecting is not more than default the first data threshold or default the second data threshold, the duration that resets described MDT deexcitation timer is: max (c_Timer_Deact × Timer_Deact_Old ﹣ d_Timer_Deact, Timer_Deact_Min); Wherein, Timer_Deact_Old is the current duration of described MDT deexcitation timer, c_Timer_Deact and d_Timer_Deact be configuration for reducing the parameter of MDT deexcitation timer duration, Timer_Deact_Min is the minimum duration of MDT deexcitation timer of configuration.

Described processing module 13, also for current while having activated MDT trace session, after MDT trace session described in deexcitation,

If determine and have covering problem by the measurement data of collecting in described MDT deexcitation timer run duration, reduce the duration of MDT Active Timer;

If determine and do not have covering problem by the measurement data of collecting in described MDT deexcitation timer run duration, increase the duration of MDT Active Timer.

In the embodiment of the present invention, in order to reduce the duration of MDT Active Timer, corresponding manner specifically includes but not limited to:

Mode one, the duration of MDT Active Timer is made as to Timer_Act_Init, this Timer_Act_Init is the duration of the MDT Active Timer after reducing.

Mode two, the duration that resets MDT Active Timer are: max (c_Timer_Act × Timer_Act_Old ﹣ d_Timer_Act, Timer_Act_Min); Wherein, Timer_Act_Old is the current duration of MDT Active Timer, c_Timer_Act and d_Timer_Act be OAM system configuration for reducing the parameter of MDT Active Timer duration, Timer_Act_Min is the minimum value of the MDT Active Timer duration of OAM system configuration.

In the embodiment of the present invention, in order to increase the duration of MDT Active Timer, corresponding manner specifically includes but not limited to:

The duration that resets MDT Active Timer is: min (e_Timer_Act × Timer_Act_Old+f_Timer_Act, Timer_Act_Max); Wherein, Timer_Act_Old is the current duration of MDT Active Timer, e_Timer_Act and f_Timer_Act are the parameter of the increase MDT Active Timer duration of OAM system configuration, and Timer_Act_Max is the maximum of the MDT Active Timer duration of OAM system configuration.

Wherein, the modules of apparatus of the present invention can be integrated in one, and also can separate deployment.Above-mentioned module can be merged into a module, also can further split into multiple submodules.

Through the above description of the embodiments, those skilled in the art can be well understood to the mode that the present invention can add essential general hardware platform by software and realize, and can certainly pass through hardware, but in a lot of situation, the former is better execution mode.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product is stored in a storage medium, comprise that some instructions (can be personal computers in order to make a computer equipment, server, or the network equipment etc.) carry out the method described in each embodiment of the present invention.

It will be appreciated by those skilled in the art that accompanying drawing is the schematic diagram of a preferred embodiment, the module in accompanying drawing or flow process might not be that enforcement the present invention is necessary.

It will be appreciated by those skilled in the art that the module in the device in embodiment can be distributed in the device of embodiment according to embodiment description, also can carry out respective change and be arranged in the one or more devices that are different from the present embodiment.The module of above-described embodiment can be merged into a module, also can further split into multiple submodules.

The invention described above embodiment sequence number, just to describing, does not represent the quality of embodiment.

Disclosed is above only several specific embodiment of the present invention, and still, the present invention is not limited thereto, and the changes that any person skilled in the art can think of all should fall into protection scope of the present invention.

Claims (22)

1. a management method for minimum road test MDT trace session, is characterized in that, comprising:

While not activating MDT trace session, start MDT Active Timer current; After described MDT Active Timer is overtime, judge whether to activate described MDT trace session; If so, activate described MDT trace session, if not, do not activate described MDT trace session; And/or,

While having activated MDT trace session, start MDT deexcitation timer current; After described MDT deexcitation timer expiry, judge whether MDT trace session described in deexcitation; If so, MDT trace session described in deexcitation, if not, MDT trace session described in not deexcitation.

2. the method for claim 1, is characterized in that, described in judge whether to activate described MDT trace session, comprising:

Judge whether to activate described MDT trace session according to the frequency of each specified type event in described MDT Active Timer run duration.

3. method as claimed in claim 2, is characterized in that, the described frequency according to each specified type event in described MDT Active Timer run duration judges whether to activate described MDT trace session, specifically comprises:

After described MDT Active Timer starts, a situation arises to collect each specified type event; After described MDT Active Timer is overtime, add up the frequency of described each specified type event, the frequency of each specified type event is respectively Num_E1 ..., Num_En, n is the quantity of specified type event;

If the frequency of specified type event meets preset relation, determine that the judged result of this specified type event is the first numerical value; If the frequency of specified type event does not meet preset relation, determine that the judged result of this specified type event is second value; Wherein, described preset relation is:

A_Ei × (Num_Ei) ^b_Ei/ TimerLength>Threshold_Ei; TimerLength is the duration of described MDT Active Timer, Threshold_Ei is the comparison threshold of the specified type event Ei of system configuration, Num_Ei is the frequency of specified type event Ei, a_Ei is the configuration parameter of the specified type event Ei of system configuration, the configuration parameter of the specified type event Ei that b_Ei is system configuration;

Judged result to described each specified type event adds up, if accumulation result is greater than preset configuration thresholding, judgement need to activate described MDT trace session; If accumulation result is not more than preset configuration thresholding, judgement does not need to activate described MDT trace session.

4. method as claimed in claim 2 or claim 3, is characterized in that,

Described specified type event comprises one of following event or combination in any: Radio Link Failure, user's random access failure, user's handoff failure, customer complaint, connection are set up unsuccessfully.

5. the method as described in claim 1 or 3, is characterized in that, described after not activating described MDT trace session, described method also comprises:

The duration that resets MDT Active Timer is: min (a_Timer_Act × Timer_Act_Old+b_Timer_Act, Timer_Act_Max); Wherein, Timer_Act_Old is the current duration of described MDT Active Timer, a_Timer_Act and b_Timer_Act be configuration for increasing the parameter of MDT Active Timer duration, Timer_Act_Max is the maximum duration of MDT Active Timer of configuration.

6. the method for claim 1, is characterized in that, described in judge whether MDT trace session described in deexcitation, comprising:

Judge whether to need MDT trace session described in deexcitation according to the measurement data of collecting in described MDT deexcitation timer run duration.

7. method as claimed in claim 6, is characterized in that, describedly judges whether to need MDT trace session described in deexcitation according to the measurement data of collecting in described MDT deexcitation timer run duration, specifically comprises:

After described MDT deexcitation timer starts, collect measurement data corresponding to described MDT trace session; After described MDT deexcitation timer expiry, add up the measurement data of collecting in described MDT deexcitation timer run duration; If the measurement data of collecting is greater than default the first data threshold, judgement does not need MDT trace session described in deexcitation; If the measurement data of collecting is not more than default the first data threshold, judgement needs MDT trace session described in deexcitation.

8. method as claimed in claim 6, is characterized in that, describedly judges whether to need MDT trace session described in deexcitation according to the measurement data of collecting in described MDT deexcitation timer run duration, specifically comprises:

After described MDT deexcitation timer starts, collect measurement data corresponding to described MDT trace session; After described MDT deexcitation timer expiry, add up the measurement data of collecting in described MDT deexcitation timer run duration; If the measurement data of collecting is greater than default the second data threshold, judgement does not need MDT trace session described in deexcitation, and the value of counter is reset to 0; If the measurement data of collecting is not more than default the second data threshold, the value of counter is added to one; If the value of counter is greater than default value thresholding, judgement needs MDT trace session described in deexcitation.

9. method as claimed in claim 6, is characterized in that, describedly judges whether to need MDT trace session described in deexcitation according to the measurement data of collecting in described MDT deexcitation timer run duration, specifically comprises:

After described MDT deexcitation timer starts, collect measurement data corresponding to described MDT trace session; After described MDT deexcitation timer expiry, add up the measurement data of collecting in described MDT deexcitation timer run duration; If the measurement data sum of collecting in run duration before the measurement data of collecting in described this run duration of MDT deexcitation timer and this is greater than default the 3rd data threshold, judgement needs MDT trace session described in deexcitation; Otherwise judgement does not need MDT trace session described in deexcitation, and continue to start described MDT deexcitation timer.

10. the method as described in claim 7-9 any one, is characterized in that, described after MDT trace session described in not deexcitation, described method also comprises:

In the time that the measurement data of collecting is greater than default the first data threshold or default the second data threshold, the duration that resets described MDT deexcitation timer is: min (a_Timer_Deact × Timer_Deact_Old+b_Timer_Deact, Timer_Deact_Max); Wherein, Timer_Deact_Old is the current duration of described MDT deexcitation timer, a_Timer_Deact and b_Timer_Deact be configuration for increasing the parameter of MDT deexcitation timer duration, Timer_Deact_Max is the maximum duration of MDT deexcitation timer of configuration;

In the time that the measurement data of collecting is not more than default the first data threshold or default the second data threshold, the duration that resets described MDT deexcitation timer is: max (c_Timer_Deact × Timer_Deact_Old ﹣ d_Timer_Deact, Timer_Deact_Min); Wherein, Timer_Deact_Old is the current duration of described MDT deexcitation timer, c_Timer_Deact and d_Timer_Deact be configuration for reducing the parameter of MDT deexcitation timer duration, Timer_Deact_Min is the minimum duration of MDT deexcitation timer of configuration.

11. methods as described in claim 1,7-9 any one, is characterized in that, described after MDT trace session described in deexcitation, described method also comprises:

If determine and have covering problem by the measurement data of collecting in described MDT deexcitation timer run duration, reduce the duration of MDT Active Timer;

If determine and do not have covering problem by the measurement data of collecting in described MDT deexcitation timer run duration, increase the duration of MDT Active Timer.

The management equipment of 12. 1 kinds of minimum road test MDT trace sessions, is characterized in that, comprising:

Start module, for while not activating MDT trace session, starting MDT Active Timer current; And/or, while having activated MDT trace session, start MDT deexcitation timer current;

Judge module, for while not activating MDT trace session, after described MDT Active Timer is overtime, judging whether to activate described MDT trace session current; And/or,

Current while having activated MDT trace session, after described MDT deexcitation timer expiry, judge whether MDT trace session described in deexcitation;

Processing module, for current while not activating MDT trace session, when being, activates described MDT trace session in judged result, while being no, does not activate described MDT trace session in judged result; And/or, current while having activated MDT trace session, in judged result when being, MDT trace session described in deexcitation, in judged result while being no, MDT trace session described in not deexcitation.

13. equipment as claimed in claim 12, is characterized in that,

Described judge module, specifically for while not activating MDT trace session, judging whether need to activate described MDT trace session according to the frequency of each specified type event in described MDT Active Timer run duration current.

14. equipment as claimed in claim 13, is characterized in that,

Described judge module, specifically for current while not activating MDT trace session, after described MDT Active Timer starts, a situation arises to collect each specified type event; After described MDT Active Timer is overtime, add up the frequency of described each specified type event, the frequency of each specified type event is respectively Num_E1 ..., Num_En, n is the quantity of specified type event;

If the frequency of specified type event meets preset relation, determine that the judged result of this specified type event is the first numerical value; If the frequency of specified type event does not meet preset relation, determine that the judged result of this specified type event is second value; Wherein, described preset relation is:

A_Ei × (Num_Ei) ^b_Ei/ TimerLength>Threshold_Ei; TimerLength is the duration of described MDT Active Timer, Threshold_Ei is the comparison threshold of the specified type event Ei of system configuration, Num_Ei is the frequency of specified type event Ei, a_Ei is the configuration parameter of the specified type event Ei of system configuration, the configuration parameter of the specified type event Ei that b_Ei is system configuration;

Judged result to described each specified type event adds up, if accumulation result is greater than preset configuration thresholding, judgement need to activate described MDT trace session; If accumulation result is not more than preset configuration thresholding, judgement does not need to activate described MDT trace session.

15. equipment as described in claim 13 or 14, it is characterized in that, the described specified type event that described judge module is collected comprises one of following event or combination in any: Radio Link Failure, user's random access failure, user's handoff failure, customer complaint, connection are set up unsuccessfully.

16. equipment as described in claim 12 or 14, is characterized in that,

Described processing module, also for current while not activating MDT trace session, after not activating described MDT trace session, the duration that resets MDT Active Timer is: min (a_Timer_Act × Timer_Act_Old+b_Timer_Act, Timer_Act_Max); Wherein, Timer_Act_Old is the current duration of described MDT Active Timer, a_Timer_Act and b_Timer_Act be configuration for increasing the parameter of MDT Active Timer duration, Timer_Act_Max is the maximum duration of MDT Active Timer of configuration.

17. equipment as claimed in claim 12, is characterized in that,

Described judge module, specifically for current while having activated MDT trace session, judges whether to need MDT trace session described in deexcitation according to the measurement data of collecting in described MDT deexcitation timer run duration.

18. equipment as claimed in claim 17, is characterized in that,

Described judge module, specifically for while having activated MDT trace session, after described MDT deexcitation timer starts, collecting measurement data corresponding to described MDT trace session current; After described MDT deexcitation timer expiry, add up the measurement data of collecting in described MDT deexcitation timer run duration; If the measurement data of collecting is greater than default the first data threshold, judgement does not need MDT trace session described in deexcitation; If the measurement data of collecting is not more than default the first data threshold, judgement needs MDT trace session described in deexcitation.

19. equipment as claimed in claim 17, is characterized in that,

Described judge module, specifically for while having activated MDT trace session, after described MDT deexcitation timer starts, collecting measurement data corresponding to described MDT trace session current; After described MDT deexcitation timer expiry, add up the measurement data of collecting in described MDT deexcitation timer run duration; If the measurement data of collecting is greater than default the second data threshold, judgement does not need MDT trace session described in deexcitation, and the value of counter is reset to 0; If the measurement data of collecting is not more than default the second data threshold, the value of counter is added to one; If the value of counter is greater than default value thresholding, judgement needs MDT trace session described in deexcitation.

20. equipment as claimed in claim 17, is characterized in that,

Described judge module, specifically for while having activated MDT trace session, after described MDT deexcitation timer starts, collecting measurement data corresponding to described MDT trace session current; After described MDT deexcitation timer expiry, add up the measurement data of collecting in described MDT deexcitation timer run duration; If the measurement data sum of collecting in run duration before the measurement data of collecting in described this run duration of MDT deexcitation timer and this is greater than default the 3rd data threshold, judgement needs MDT trace session described in deexcitation; Otherwise judgement does not need MDT trace session described in deexcitation, and continue to start described MDT deexcitation timer.

21. equipment as described in claim 18-20 any one, is characterized in that,

Described processing module, also for current while having activated MDT trace session, after MDT trace session described in not deexcitation,

In the time that the measurement data of collecting is greater than default the first data threshold or default the second data threshold, the duration that resets described MDT deexcitation timer is: min (a_Timer_Deact × Timer_Deact_Old+b_Timer_Deact, Timer_Deact_Max); Wherein, Timer_Deact_Old is the current duration of described MDT deexcitation timer, a_Timer_Deact and b_Timer_Deact be configuration for increasing the parameter of MDT deexcitation timer duration, Timer_Deact_Max is the maximum duration of MDT deexcitation timer of configuration;

In the time that the measurement data of collecting is not more than default the first data threshold or default the second data threshold, the duration that resets described MDT deexcitation timer is: max (c_Timer_Deact × Timer_Deact_Old ﹣ d_Timer_Deact, Timer_Deact_Min); Wherein, Timer_Deact_Old is the current duration of described MDT deexcitation timer, c_Timer_Deact and d_Timer_Deact be configuration for reducing the parameter of MDT deexcitation timer duration, Timer_Deact_Min is the minimum duration of MDT deexcitation timer of configuration.

22. equipment as described in claim 12,18-20 any one, is characterized in that,

Described processing module, also for current while having activated MDT trace session, after MDT trace session described in deexcitation,

If determine and have covering problem by the measurement data of collecting in described MDT deexcitation timer run duration, reduce the duration of MDT Active Timer;

If determine and do not have covering problem by the measurement data of collecting in described MDT deexcitation timer run duration, increase the duration of MDT Active Timer.