CN102892132A - Neighbor measurement control method, system and equipment - Google Patents

Abstract

The embodiment of the invention provides a neighbor measurement control method, system and equipment. The neighbor measurement control method comprises the following steps of: judging whether a terminal is at a power-on state and has received an MDT configuration message sent by a base station, and forcing the terminal to always perform neighbor measurement in an MDT measuring process when the terminal is at a power-on state and has received the MDT configuration message sent by the base station. By adopting the technical scheme provided by the embodiment of the invention, complete neighbor measurement information can be acquired, and therefore accurate performance assessment for surrounding cells neighboring the current serving cell according to the complete neighbor measurement information in the follow-up process.

Description

The control method of nearby region measurement and system, equipment

Technical field

The embodiment of the invention relates to communication technical field, relates in particular to a kind of control method of nearby region measurement and system, equipment.

Background technology

Minimum road test (Minimization of Drive-Tests; Hereinafter to be referred as MDT) be Long Term Evolution (Long Term Evolution; Hereinafter to be referred as LTE) network and universal grounding land Access Network (Universal Terrestrial Radio Access Network; Hereinafter to be referred as UTRAN) in a kind of common metering system.The MDT measurement comprises connection (Immediate) MDT and two kinds of metering systems of login (Logged) MDT.Wherein Immediate MDT is the metering system that terminal is carried out in connection (connected) attitude.Logged MDT is the metering system that terminal is carried out in idle (idle) attitude.

Comprise terminal to the measurement of adjacent area during MDT measures, with the signal strength signal intensity of the peripheral adjacent area that obtains terminal place Serving cell and the information realization such as signal quality measured Performance Evaluation is carried out in peripheral adjacent area.Wherein this adjacent area comprises homogeneous-frequency adjacent-domain, alien frequencies adjacent area and the different system adjacent area of current service cell.Generally, for the consideration of power saving, no matter under terminal Idle state or under the Connected state, terminal only in the position of current service cell dtr signal for example the marginal position of current service cell just can carry out the nearby region measurement of MDT in measuring.For example the incoming level of the current service cell that usually detects in current location of terminal is less than the predetermined threshold value of correspondence, perhaps just can start simultaneously to carry out the nearby region measurement of MDT in measuring when detecting the quality of reception less than the predetermined threshold value of correspondence.

In realizing process of the present invention, the inventor finds that there are the following problems at least in the prior art: some zone that is in current service cell when terminal, especially the central area of current service cell, the quality of Serving cell is better, and terminal can't be carried out nearby region measurement in MDT measures.

Summary of the invention

The embodiment of the invention provides the defective of a kind of control method of nearby region measurement and system, equipment, in order to solve some zone that is in current service cell in the prior art when terminal, especially the central area of current service cell, terminal can't be carried out the defective of nearby region measurement in MDT measures.

The embodiment of the invention provides a kind of control method of nearby region measurement, comprising:

Judging whether terminal is in powers on open state and whether has received the minimum road test configuration messages that the base station sends;

When described terminal is in when powering on open state and having received the described minimum road test configuration messages that described base station sends, force described terminal in carrying out the minimum road test measuring process, to carry out all the time nearby region measurement; Described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement.

The embodiment of the invention provides a kind of control method of nearby region measurement, comprising:

Configuring adjacent cell is measured start-up parameter, and described nearby region measurement start-up parameter can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process nearby region measurement under the open state that powers on;

Send the trace session activation message of carrying described nearby region measurement start-up parameter to the base station, carry the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation for described base station, and described minimum road test configuration messages sent to terminal, under powering on open state, described terminal carries out carrying out all the time in the minimum road test measuring process nearby region measurement for described terminal according to the described nearby region measurement start-up parameter in the described minimum road test configuration messages.

The embodiment of the invention provides a kind of control method of nearby region measurement, comprising:

Receive the trace session activation message of carrying the nearby region measurement start-up parameter that the operation management maintain center sends; Described nearby region measurement start-up parameter is described operation management maintain center configuration, carries out carrying out all the time in the minimum road test measuring process nearby region measurement in order to guarantee terminal under the open state that powers on;

Carry the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation;

Send described minimum road test configuration messages to described terminal, under the described open state that powers on, carry out carrying out all the time in the minimum road test measuring process nearby region measurement for described terminal according to the described nearby region measurement start-up parameter in the described minimum road test configuration messages.

The embodiment of the invention provides a kind of control method of nearby region measurement, comprising:

Under terminal powers on open state, receive the minimum road test configuration messages that carries the nearby region measurement start-up parameter that the base station sends; The described minimum road test configuration messages that carries the nearby region measurement start-up parameter is described base station according to receiving the trace session activation message generation that carries described nearby region measurement start-up parameter that the operation management maintain center sends; Described nearby region measurement start-up parameter is described operation management maintain center configuration;

According to the described nearby region measurement start-up parameter in the described minimum road test configuration messages, control described terminal and under the open state that powers on, carry out carrying out all the time in the minimum road test measuring process nearby region measurement.

The embodiment of the invention provides a kind of control appliance of nearby region measurement, comprising:

Judge module powers on open state and whether has received the minimum road test configuration messages that the base station sends for judging whether terminal is in;

Enforcement module is used for being in when powering on open state and having received the described minimum road test configuration messages of described base station transmission when described terminal, forces described terminal to carry out all the time nearby region measurement in carrying out the minimum road test measuring process; Described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement.

The embodiment of the invention provides a kind of operation management maintain central apparatus, comprising:

Configuration module is used for configuring adjacent cell and measures start-up parameter, and described nearby region measurement start-up parameter can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process nearby region measurement under the open state that powers on;

Sending module, be used for carrying to the base station transmission trace session activation message of described nearby region measurement start-up parameter, carry the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation for described base station, and described minimum road test configuration messages sent to terminal, under powering on open state, described terminal carries out carrying out all the time in the minimum road test measuring process nearby region measurement for described terminal according to the described nearby region measurement start-up parameter in the described minimum road test configuration messages.

The embodiment of the invention provides a kind of base station equipment, comprising:

Receiver module is used for receiving the trace session activation message of carrying the nearby region measurement start-up parameter that the operation management maintain center sends; Described nearby region measurement start-up parameter is described operation management maintain center configuration, carries out carrying out all the time in the minimum road test measuring process nearby region measurement in order to guarantee terminal under the open state that powers on;

Generation module is used for carrying the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation;

Sending module, be used for sending described minimum road test configuration messages to described terminal, under the described open state that powers on, carry out carrying out all the time in the minimum road test measuring process nearby region measurement for described terminal according to the described nearby region measurement start-up parameter in the described minimum road test configuration messages.

The embodiment of the invention provides a kind of terminal, comprising:

Receiver module is used for receiving the minimum road test configuration messages that carries the nearby region measurement start-up parameter that the base station sends under the open state that powers on; The described minimum road test configuration messages that carries the nearby region measurement start-up parameter is described base station according to receiving the trace session activation message generation that carries described nearby region measurement start-up parameter that the operation management maintain center sends; Described nearby region measurement start-up parameter is described operation management maintain center configuration;

Control module is used for the described nearby region measurement start-up parameter according to described minimum road test configuration messages, controls described terminal and carry out carrying out all the time in the minimum road test measuring process nearby region measurement under the open state that powers on.

The embodiment of the invention also provides a kind of control system of nearby region measurement, comprising: operation management maintain center, base station and terminal;

Described operation management maintain center is used for configuring adjacent cell and measures start-up parameter, and sends the trace session activation message of carrying described nearby region measurement start-up parameter to the base station;

Described base station is used for receiving the trace session activation message of carrying the nearby region measurement start-up parameter that described operation management maintain center sends; And carry the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation; Send described minimum road test configuration messages to described terminal;

Described terminal is used for receiving the minimum road test configuration messages that carries the nearby region measurement start-up parameter that described base station sends under the open state that powers on; According to the described nearby region measurement start-up parameter in the described minimum road test configuration messages, control described terminal equipment and under the open state that powers on, carry out carrying out all the time in the minimum road test measuring process nearby region measurement.

The control method of the nearby region measurement of the embodiment of the invention and system, equipment, by adopting technique scheme, terminal can be under the open state that powers on, and receives after the minimum road test configuration messages that the base station sends, and carries out all the time nearby region measurement in carrying out the minimum road test measuring process; Thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, the below will do one to the accompanying drawing of required use in embodiment or the description of the Prior Art and introduce simply, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The flow chart of the control method of the nearby region measurement that Fig. 1 provides for one embodiment of the invention.

The flow chart of the control method of the nearby region measurement that Fig. 2 provides for another embodiment of the present invention.

The flow chart of the control method of the nearby region measurement that Fig. 3 provides for yet another embodiment of the invention.

The flow chart of the control method of the nearby region measurement that Fig. 4 provides for further embodiment of this invention.

The present invention's signaling diagram of the control method of the nearby region measurement that provides of another embodiment again is provided Fig. 5.

The present invention's signaling diagram of the control method of the nearby region measurement that provides of another embodiment again is provided Fig. 6.

The structural representation of the control appliance of the nearby region measurement that Fig. 7 provides for the embodiment of the invention.

The structural representation of the OAM equipment that Fig. 8 provides for the embodiment of the invention.

The structural representation of the base station equipment that Fig. 9 provides for the embodiment of the invention.

The structural representation of the terminal that Figure 10 provides for the embodiment of the invention.

The structural representation of the control system of the nearby region measurement that Figure 11 provides for the embodiment of the invention.

Embodiment

For the purpose, technical scheme and the advantage that make the embodiment of the invention clearer, below in conjunction with the accompanying drawing in the embodiment of the invention, technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that obtains under the creative work prerequisite.

The flow chart of the control method of the nearby region measurement that Fig. 1 provides for one embodiment of the invention.The executive agent of the control method of the nearby region measurement of the present embodiment can be for the control appliance of a nearby region measurement, as shown in Figure 1, the control method of the nearby region measurement of the present embodiment specifically can comprise as follows:

100, judging whether terminal is in powers on open state and whether has received the MDT configuration messages that the base station sends;

101, be in when powering on open state and having received the MDT configuration messages that the base station sends when terminal, force terminal in carrying out the MDT measuring process, to carry out all the time nearby region measurement.

Nearby region measurement in the present embodiment comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement.

The control method of the nearby region measurement of the present embodiment powers on open state and whether has received the MDT configuration messages that the base station sends by judging whether terminal is in; And be in when powering on open state and having received the MDT configuration messages that the base station sends when terminal, force terminal in carrying out the MDT measuring process, to carry out all the time nearby region measurement, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.

And in the prior art in the MDT measuring process, go back obtaining and reporting of supporting location, if terminal can get access to GLONASS (Global Navigation Satellite System) (Global Navigation Satellite System; Hereinafter to be referred as GNSS) information, just report GNSS information, this GNSS information comprises latitude and longitude information and height above sea level.If terminal can't be obtained GNSS information, terminal to report less radio-frequency fingerprint (Radio Frequency fingerprint then; Hereinafter to be referred as RF fingerprint) information.But RF fingerprint information is by the main scrambler of maximum six co-frequency neighbor cells of current service cell periphery (Primary Scrambling Code; Hereinafter to be referred as PSC)/received signal code power (Received Signal Code Power; Hereinafter to be referred as RSCP) or Physical Cell Identifier (Physical Cell Identity; Hereinafter to be referred as PCI)/Reference Signal Received Power (Reference Signal Receiving Power; Hereinafter to be referred as RSRP) form, in order to characterize the position of portable terminal in current service cell.PSC/RSCP is illustrated in UMTS, and PCI/RSRP is illustrated in the LTE system.When terminal can not get access to GNSS information, when some of current service cell can't be carried out nearby region measurement regional, terminal was just obtained the position less than self again.Adopt the technical scheme of the present embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

Alternatively, the open state that powers in above-described embodiment comprises Idle attitude or Connected attitude.

Further alternatively, when terminal is in the Idle attitude, also comprise: control terminal is kept at the measurement result of carrying out the nearby region measurement that carries out all the time in the MDT measuring process.

And when terminal transferred the Connected attitude to by the Idle attitude, the measurement result of the nearby region measurement that control terminal will be preserved under the Idle attitude reported the base station.

Further alternatively, when terminal was in the Connected attitude, control terminal carried out the measurement result of nearby region measurement under the Connected attitude to the base station reporting terminal according to the MDT configuration messages.

For example, when terminal is in the Connected attitude, the base station sends in the MDT configuration messages of base station can comprise that the requirement base station reports the upper time signal machine of the measurement result of carrying out nearby region measurement under the Connected attitude, and terminal can be according to the measurement result of carrying out nearby region measurement opportunity to the base station reporting terminal under the Connected attitude that requires in the MDT configuration messages to report like this.

Need to prove, in above-described embodiment, when terminal is in the Idle attitude, the MDT configuration messages can be corresponding Idle state in the LTE system measure configuration (Logged Measurement Configuration) message.The Idle state of MDT configuration messages in can corresponding UMTS measured configuration (Logged Measurement Configuration) message.When terminal was in the Connected attitude, for example in the LTE system, this MDT configuration messages can be controlled (Radio Resource Control by multiplexing existing Radio Resource; Hereinafter to be referred as RRC) connection reprovision (Connection Reconfiguration) message.For example in UMTS, this MDT configuration messages can multiplexing existing measurement control (Measurement Control) message.

Need to prove, the control appliance of the nearby region measurement of operating procedure can be set together with terminal in above-described embodiment of carrying out, for example can be arranged on terminal inner for the ease of realizing, to realize forcing terminal in carrying out the minimum road test measuring process, to carry out all the time nearby region measurement.

The flow chart of the control method of the nearby region measurement that Fig. 2 provides for another embodiment of the present invention.The executive agent of the control method of the nearby region measurement of the present embodiment is operation management maintain center (Operation Administration Maintenance; Hereinafter to be referred as OAM), as shown in Figure 2, the control method of the nearby region measurement of the present embodiment specifically can comprise as follows:

200, configuring adjacent cell is measured start-up parameter;

Wherein this nearby region measurement start-up parameter can guarantee that terminal carries out carrying out all the time in the MDT measuring process nearby region measurement under the open state that powers on.

201, send the trace session activation message (Trace Session Activation) of carrying the nearby region measurement start-up parameter to the base station, carry MDT configuration (Configuration) message of nearby region measurement start-up parameter according to the trace session activation message generation for the base station, and the MDT configuration messages sent to terminal, under powering on open state, terminal carries out carrying out all the time in the MDT measuring process nearby region measurement for terminal according to the nearby region measurement start-up parameter in the MDT configuration messages.

The control method of the nearby region measurement of the present embodiment, OAM measures start-up parameter by configuring adjacent cell, send the trace session activation message of carrying the nearby region measurement start-up parameter to the base station, carry the MDT configuration messages of nearby region measurement start-up parameter according to the trace session activation message generation for the base station, and the MDT configuration messages sent to terminal, under powering on open state, terminal carries out carrying out all the time in the MDT measuring process nearby region measurement for terminal according to the nearby region measurement start-up parameter in the MDT configuration messages.Adopt the technical scheme of the present embodiment, can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing the present embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in the LTE system, wherein 201 send the trace session activation message carry the nearby region measurement start-up parameter to the base station, specifically comprise: by user attaching server (Home Subscriber Server; Hereinafter to be referred as HSS) and Mobility Management Entity (Mobility Management Entity; Hereinafter to be referred as MME) send the trace session activation message carry the nearby region measurement start-up parameter to the base station.

When in UMTS, wherein 201 send the trace session activation message carry the nearby region measurement start-up parameter to the base station, specifically comprise: by (the Mobile Switch Cente of mobile switching centre; Hereinafter to be referred as MSC) and professional general switch node (Service General Switch Node; Hereinafter to be referred as SGSN) send the trace session activation message carry the nearby region measurement start-up parameter to the base station.

Alternatively, on the basis of the technical scheme of above-described embodiment, the open state that powers on of terminal comprises Idle attitude or Connected attitude.

Alternatively, the technical scheme of above-described embodiment can be applied to LTE system or UMTS.When in the LTE system, the nearby region measurement in above-described embodiment comprises that homogeneous-frequency adjacent-domain is measured, alien frequencies nearby region measurement and different system nearby region measurement.When in UMTS, because among the UMTS, terminal can be carried out the measurement of homogeneous-frequency adjacent-domain, so in UMTS, nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement all the time carrying out MDT when measuring.

Further, on the basis of the technical scheme of above-described embodiment, when in the LTE system, when terminal was in the Idle attitude, the nearby region measurement start-up parameter comprised Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value." configuring adjacent cell measurement start-up parameter " in above-described embodiment 200 specifically comprises configuration Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value at this moment; This Idle attitude nearby region measurement incoming level threshold value and this Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process nearby region measurement under the Idle attitude.The nearby region measurement here namely comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement.

For example in the LTE system of prior art, consider for power saving, under terminal Idle attitude, the incoming level of the current service cell that terminal detects in current location is during less than default Idle attitude nearby region measurement incoming level threshold value, and the quality of reception of current service cell just can start during less than default Idle attitude nearby region measurement quality of reception threshold value and carries out the nearby region measurement of MDT in measuring.Like this, in the technical scheme of the invention described above, what Idle attitude nearby region measurement incoming level threshold value and this Idle attitude nearby region measurement quality of reception threshold value can be arranged is enough large, can guarantee that terminal is under the Idle attitude, the incoming level that detects current service cell is all the time less than the Idle attitude nearby region measurement incoming level threshold value of OAM configuration, and the quality of reception that detects current service cell is all the time less than the Idle attitude nearby region measurement quality of reception threshold value of OAM configuration.Can guarantee that so just terminal carries out nearby region measurement all the time in carrying out the MDT measuring process.

Further, on the basis of the technical scheme of above-described embodiment, when in the LTE system, when terminal was in the Connected attitude, the nearby region measurement start-up parameter comprised that Connected attitude homogeneous-frequency adjacent-domain measures incoming level threshold value and the first event enabling gate limit value." configuring adjacent cell measurement start-up parameter " in this moment 200 in above-described embodiment comprises that specifically configuration Connected attitude homogeneous-frequency adjacent-domain measures incoming level threshold value and the first event enabling gate limit value, and this Connected attitude nearby region measurement incoming level threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process homogeneous-frequency adjacent-domain and measure under the Connected attitude; The first event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

For example in the LTE system of prior art, consider for power saving, when terminal is in the Connected attitude, when the incoming level of the current service cell that terminal detects in current location is measured the incoming level threshold value less than default Connected attitude homogeneous-frequency adjacent-domain, just can start and carry out the homogeneous-frequency adjacent-domain of MDT in measuring and measure; When terminal detected satisfied the first event enabling gate limit value of current state, terminal just can start the alien frequencies nearby region measurement that carries out in the MDT measurement; When terminal detected current state and satisfies second event enabling gate limit value, terminal just can start carried out the different system nearby region measurement of MDT in measuring.Like this, in the technical scheme of the invention described above, what Connected attitude nearby region measurement incoming level threshold value can be arranged is enough large, can guarantee that terminal is under the Connected attitude, the incoming level that detects current service cell is all the time less than the Connected attitude nearby region measurement incoming level threshold value of OAM configuration, can guarantee that so just terminal carries out all the time homogeneous-frequency adjacent-domain and measure in carrying out the MDT measuring process.The first event enabling gate limit value threshold is arranged suitably to guarantee that terminal can carry out alien frequencies nearby region measurement and different system nearby region measurement all the time in the Connected attitude is carried out process that MDT measures.In the practical application, this first event enabling gate limit value can enter thresholding for one, also can go out thresholding for one.

Further, on the basis of the technical scheme of above-described embodiment, when in UMTS, when terminal was in the Idle attitude, " the configuring adjacent cell measurement start-up parameter " in 200 in above-described embodiment specifically comprised configuration Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value at this moment.This Idle attitude alien frequencies nearby region measurement incoming level threshold value and Idle attitude alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement under the Idle attitude.This different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process different system nearby region measurement under the Idle attitude.

Further, on the basis of the technical scheme of above-described embodiment, when in UMTS, when terminal was in the Connected attitude, " configuring adjacent cell measurement start-up parameter " in 200 in this moment above-described embodiment specifically comprised configuration second event enabling gate limit value.This second event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.In the practical application, identical with arranging of the first event enabling gate limit value, this second event enabling gate limit value can enter thresholding for one, also can go out thresholding for one.

Because in UMTS, no matter in the Idle attitude or in the Connected attitude, terminal all can be carried out homogeneous-frequency adjacent-domain always and be measured in the MDT measuring process, but can not assurance can carry out the measurement of alien frequencies adjacent area or different system adjacent area always, measure start-up parameter by adopting above-described embodiment configuring adjacent cell in UMTS, can guarantee that terminal carrying out the MDT measuring process, carry out all the time the measurement of alien frequencies adjacent area and different system adjacent area.

The flow chart of the control method of the nearby region measurement that Fig. 3 provides for yet another embodiment of the invention.The executive agent of the control method of the nearby region measurement of the present embodiment is the base station, for example is specifically as follows evolution base station (the Evolution NodeB of LTE system; Hereinafter to be referred as eNB), also can be the base station NodeB of UMTS.As shown in Figure 3, the control method of the nearby region measurement of the present embodiment specifically can comprise as follows:

300, receive the trace session activation message of carrying the nearby region measurement start-up parameter that OAM sends;

Wherein this nearby region measurement start-up parameter is the OAM configuration, carries out carrying out all the time in the MDT measuring process nearby region measurement in order to guarantee terminal under the open state that powers on.

301, carry the MDT configuration messages of nearby region measurement start-up parameter according to the trace session activation message generation;

302, send the MDT configuration messages to terminal, under the open state that powers on, carry out carrying out all the time in the MDT measuring process nearby region measurement for terminal according to the nearby region measurement start-up parameter in the MDT configuration messages.

The control method of the nearby region measurement of the present embodiment, the trace session activation message of carrying the nearby region measurement start-up parameter that the base station sends by receiving OAM; And carry the MDT configuration messages of nearby region measurement start-up parameter according to the trace session activation message generation; Send the MDT configuration messages to terminal again, under the open state that powers on, carry out carrying out all the time in the MDT measuring process nearby region measurement for terminal according to the nearby region measurement start-up parameter in the MDT configuration messages.Adopt the technical scheme of the present embodiment, can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing the present embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

Alternatively, on the basis of the technical scheme of above-described embodiment, when this base station was in the LTE system, " receiving the trace session activation message of carrying the nearby region measurement start-up parameter that OAM sends " in 300 specifically comprised: receive the trace session activation message of carrying the nearby region measurement start-up parameter that OAM sends by HSS and MME.

When this base station was in UMTS, " receiving the trace session activation message of carrying the nearby region measurement start-up parameter that OAM sends " in 300 specifically comprised: receive the trace session activation message of carrying the nearby region measurement start-up parameter that OAM sends by MSC and SGSN.

Alternatively, on the basis of the technical scheme of above-described embodiment, the open state that powers on of terminal comprises Idle attitude or Connected attitude.

Alternatively, the technical scheme of above-described embodiment can be applied to LTE system or UMTS.When in the LTE system, the nearby region measurement in above-described embodiment comprises that homogeneous-frequency adjacent-domain is measured, alien frequencies nearby region measurement and different system nearby region measurement.When in UMTS, because among the UMTS, terminal can be carried out the measurement of homogeneous-frequency adjacent-domain, so in UMTS, nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement all the time carrying out MDT when measuring.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in the LTE system, when terminal was in the Idle attitude, the nearby region measurement start-up parameter comprised Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value; Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process nearby region measurement under the Idle attitude.Further alternatively, in the LTE system, when terminal is in the Idle attitude,, 301 in above-described embodiment " carries the MDT configuration messages of nearby region measurement start-up parameter " and specifically comprises according to the trace session activation message generation as follows:

(1) according to trace session activation message generation MDT configuration messages; (2) in the MDT configuration messages that generates, increase field, and in increasing field, carry Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value, obtain carrying the MDT configuration messages of nearby region measurement start-up parameter.

" according to trace session activation message generation MDT configuration messages " in this technical scheme can be realized with reference to prior art.The MDT configuration messages can corresponding Logged Measurement Configuration message.Because when terminal is in the Idle attitude, in the LTE system of prior art, there is not to carry the field of Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value in the Logged Measurement Configuration message of base station according to the trace session activation message generation, therefore can in the Logged Measurement Configuration message that generates, increase field in the present embodiment, in the field that increases, to carry Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in the LTE system, when terminal was in the Connected attitude, the nearby region measurement start-up parameter comprised that Connected attitude homogeneous-frequency adjacent-domain measures incoming level threshold value and the first event enabling gate limit value.Connected attitude homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process homogeneous-frequency adjacent-domain and measure under the Connected attitude; This first event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

Need to prove, in the LTE system, when terminal was in the Connected attitude, MDT configuration messages correspondence can be RRC Connection Reconfiguration message, and a switch level thresholding (S-Measure) field is arranged in the MeasConfig cell in this message.Can in the S-Measure field, carry Connected attitude homogeneous-frequency adjacent-domain and measure the incoming level threshold value.And in the LTE system, when terminal was in the Connected attitude, RRC Connection Reconfiguration message was provided with the field of event, can carry the first event enabling gate limit value in this existing field about event.Can with reference to related art, not repeat them here in detail.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in UMTS, when terminal was in the Idle attitude, the nearby region measurement start-up parameter comprised Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value.Idle attitude alien frequencies nearby region measurement incoming level threshold value and Idle attitude alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement under the Idle attitude; The different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process different system nearby region measurement under the Idle attitude.

Further alternatively, when in UMTS, when terminal was in the Idle attitude, 301 in above-described embodiment " carried the MDT configuration messages of nearby region measurement start-up parameter " and specifically comprises according to the trace session activation message generation as follows:

(a) according to trace session activation message generation MDT configuration messages;

(b) in the MDT configuration messages that generates, increase field, and in increasing field, carry Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value, obtain carrying the MDT configuration messages of nearby region measurement start-up parameter.

" according to trace session activation message generation MDT configuration messages " in this technical scheme can be realized with reference to prior art.The MDT configuration messages can corresponding Logged Measurement Configuration message.Because when terminal is in the Idle attitude, among the UMTS of prior art, there is not to carry Idle attitude alien frequencies nearby region measurement incoming level threshold value in the Logged Measurement Configuration message of base station according to the trace session activation message generation, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the field of the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value, therefore can in the Logged Measurement Configuration message that generates, increase field in the present embodiment, in the field that increases, to carry Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in UMTS, when terminal was in the Connected attitude, the nearby region measurement start-up parameter comprised second event enabling gate limit value.This two events enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

Need to prove, in UMTS, when terminal is in the Connected attitude, be provided with the field of event in the MDT configuration messages, can in this existing field about event, carry second event enabling gate limit value.Can with reference to related art, not repeat them here in detail.

Alternatively, on the basis of the technical scheme of above-described embodiment, no matter at LTE system or UMTS, when terminal is in the Idle attitude, also comprise following content:

(i) when terminal transfers the Connected attitude to by the Idle attitude, the measurement result of under the Idle attitude, carrying out nearby region measurement that the base station receiving terminal sends;

(ii) base station and send the measurement result of carrying out nearby region measurement under the Idle attitude to follow the tracks of gathering entity, receiving after the measurement result of nearby region measurement under the Idle attitude for follow the tracks of gathering entity, just can realize according to the measurement result of terminal nearby region measurement under the Idle attitude carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell.

Further alternatively, on the basis of the technical scheme of above-described embodiment, no matter at LTE system or UMTS, when terminal is in the Connected attitude, also comprise following content:

(1) the base station receiving terminal is according to the measurement result of carrying out nearby region measurement under the Connected attitude of MDT configuration messages transmission;

Particularly, can carry in the MDT configuration messages and require terminal to send the condition of carrying out the measurement result of nearby region measurement under the Connected attitude, transmitting time for example in detail can be with reference to prior art.

(2) base station and send the measurement result of carrying out nearby region measurement under the Connected attitude to follow the tracks of gathering entity, receiving after the measurement result of nearby region measurement under the Connected attitude for follow the tracks of gathering entity, just can realize according to the measurement result of terminal nearby region measurement under the Connected attitude carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell.

The difference of technical scheme of the described embodiment of the technical scheme of above-described embodiment and Fig. 2 and expansion embodiment only is, the technical scheme of the described embodiment of Fig. 2 and expansion embodiment is to describe the technical scheme of the embodiment of the invention in the OAM side.And technical scheme embodiment illustrated in fig. 3 and expansion embodiment is to describe the technical scheme of the embodiment of the invention in base station side.Therefore, technical scheme embodiment illustrated in fig. 3 and expansion embodiment can with reference to the record of above-mentioned expansion embodiment embodiment illustrated in fig. 2 and corresponding, not repeat them here in detail.

The flow chart of the control method of the nearby region measurement that Fig. 4 provides for further embodiment of this invention.The executive agent of the control method of the nearby region measurement of the present embodiment is terminal.As shown in Figure 4, the control method of the nearby region measurement of the present embodiment specifically can comprise as follows:

400, under terminal powers on open state, receive the MDT configuration messages that carries the nearby region measurement start-up parameter that the base station sends;

This MDT configuration messages that carries the nearby region measurement start-up parameter is that the base station is according to the trace session activation message generation that carries the nearby region measurement start-up parameter that receives the OAM transmission; The nearby region measurement start-up parameter is the OAM configuration;

401, according to the nearby region measurement start-up parameter in the MDT configuration messages, under the open state that powers on, carry out carrying out all the time in the MDT measuring process nearby region measurement.

The control method of the nearby region measurement of the present embodiment, under terminal powered on open state, terminal received the MDT configuration messages that carries the nearby region measurement start-up parameter that the base station sends; The MDT configuration messages that carries the nearby region measurement start-up parameter is that the base station is according to the trace session activation message generation that carries the nearby region measurement start-up parameter that receives the OAM transmission; This nearby region measurement start-up parameter is the OAM configuration; Terminal carries out carrying out all the time in the MDT measuring process nearby region measurement according to the nearby region measurement start-up parameter in the MDT configuration messages under the open state that powers on.Adopt the technical scheme of the present embodiment, can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing the present embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

Alternatively, on the basis of the technical scheme of above-described embodiment, the open state that powers on of terminal comprises Idle attitude or Connected attitude.

Alternatively, the technical scheme of above-described embodiment can be applied to LTE system or UMTS.When in the LTE system, the nearby region measurement in above-described embodiment comprises that homogeneous-frequency adjacent-domain is measured, alien frequencies nearby region measurement and different system nearby region measurement.When in UMTS, because among the UMTS, terminal can be carried out the measurement of homogeneous-frequency adjacent-domain, so in UMTS, nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement all the time carrying out MDT when measuring.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in the LTE system, when terminal was in the Idle attitude, the nearby region measurement start-up parameter comprised Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value; Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process nearby region measurement under the Idle attitude.And Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value can be carried in the field that newly increases in the MDT configuration messages.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in the LTE system, when terminal was in the Connected attitude, the nearby region measurement start-up parameter comprised that Connected attitude homogeneous-frequency adjacent-domain measures incoming level threshold value and the first event enabling gate limit value.Connected attitude homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process homogeneous-frequency adjacent-domain and measure under the Connected attitude; This first event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in UMTS, when terminal was in the Idle attitude, the nearby region measurement start-up parameter comprised Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value.Idle attitude alien frequencies nearby region measurement incoming level threshold value and Idle attitude alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement under the Idle attitude; The different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process different system nearby region measurement under the Idle attitude.Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value are carried in the field that newly increases in the MDT of the institute configuration messages.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in UMTS, when terminal was in the Connected attitude, the nearby region measurement start-up parameter comprised second event enabling gate limit value.This second event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

Alternatively, on the basis of the technical scheme of above-described embodiment, no matter at LTE system or UMTS, when terminal is in the Idle attitude, also comprise following content:

When terminal transfers the Connected attitude to by the Idle attitude, terminal sends the measurement result of carrying out nearby region measurement under the Idle attitude to the base station, gather the measurement result of carrying out nearby region measurement under the entity transmission Idle attitude for the base station to following the tracks of, receiving after the measurement result of nearby region measurement under the Idle attitude for follow the tracks of gathering entity, just can realize according to the measurement result of terminal nearby region measurement under the Idle attitude carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell.

Alternatively, on the basis of the technical scheme of above-described embodiment, no matter at LTE system or UMTS, when terminal is in the Connected attitude, also comprise following content:

Terminal sends the measurement result of carrying out nearby region measurement under the Connected attitude according to the MDT configuration messages to the base station, gather the measurement result of carrying out nearby region measurement under the entity transmission Connected attitude for the base station to following the tracks of, receiving after the measurement result of nearby region measurement under the Connected attitude for follow the tracks of gathering entity, just can realize according to the measurement result of terminal nearby region measurement under the Connected attitude carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell.

Particularly, can carry in the MDT configuration messages and require terminal to send the condition of carrying out the measurement result of nearby region measurement under the Connected attitude, transmitting time for example in detail can be with reference to prior art.

The difference of technical scheme of the described embodiment of the technical scheme of above-described embodiment and Fig. 2 or Fig. 3 and expansion embodiment only is, the technical scheme of the described embodiment of Fig. 2 and expansion embodiment is to describe the technical scheme of the embodiment of the invention in the OAM side; Technical scheme embodiment illustrated in fig. 3 and expansion embodiment is to describe the technical scheme of the embodiment of the invention in base station side.And technical scheme embodiment illustrated in fig. 4 and expansion embodiment is to describe the technical scheme of the embodiment of the invention in end side.Therefore, technical scheme embodiment illustrated in fig. 4 and expansion embodiment can with reference to the record of above-mentioned Fig. 2 or expansion embodiment embodiment illustrated in fig. 3 and corresponding, not repeat them here in detail.

The present invention's signaling diagram of the control method of the nearby region measurement that provides of another embodiment again is provided Fig. 5.The control method of the nearby region measurement of the present embodiment under the Idle attitude, is example with terminal in the LTE system.As shown in Figure 5, the control method of the nearby region measurement of the present embodiment specifically can comprise as follows:

500, OAM configuration Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value;

This Idle attitude nearby region measurement incoming level threshold value and this Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process nearby region measurement under the Idle attitude.The nearby region measurement here namely comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement.

501, OAM sends the trace session activation message of carrying this Idle attitude nearby region measurement incoming level threshold value and this Idle attitude nearby region measurement quality of reception threshold value by HSS and MME to the base station;

502, the base station receives the trace session activation message of carrying this Idle attitude nearby region measurement incoming level threshold value and this Idle attitude nearby region measurement quality of reception threshold value that OAM sends, and carries the MDT configuration messages of this Idle attitude nearby region measurement incoming level threshold value and this Idle attitude nearby region measurement quality of reception threshold value according to this trace session activation message generation;

503, the base station sends to terminal and carries the MDT configuration messages of this Idle attitude nearby region measurement incoming level threshold value and this Idle attitude nearby region measurement quality of reception threshold value;

504, terminal receives the MDT configuration messages that carries this Idle attitude nearby region measurement incoming level threshold value and this Idle attitude nearby region measurement quality of reception threshold value that the base station sends, and according to this Idle attitude nearby region measurement incoming level threshold value in the MDT configuration messages and this Idle attitude nearby region measurement quality of reception threshold value, under terminal Idle attitude, carry out carrying out all the time in the MDT measuring process nearby region measurement; And preserve the measurement result of nearby region measurement;

505, when terminal transfers the Connected attitude to by the Idle attitude, terminal reports the measurement result of nearby region measurement under the Idle attitude to the base station;

The measurement result of nearby region measurement is this base station record and preserves under the Idle attitude.

506, the measurement result of nearby region measurement under the Idle attitude that reports of base station receiving terminal; And to following the tracks of the measurement result that gathers nearby region measurement under the entity transmission Idle attitude.

Follow the tracks of the collection entity and receive after the measurement result of nearby region measurement under the Idle attitude, just can realize according to the measurement result of terminal nearby region measurement under the Idle attitude carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell.

In the technical scheme of the present embodiment, terminal can also report to the base station positional information of current terminal in 505.And follow-up being sent to again by the base station follow the tracks of to gather entity, gathers entity and can realize current service cell is carried out performance evaluation, Performance Evaluation and Design of Performance etc. according to the positional information of all terminal to report of current service cell by following the tracks of.

The technical scheme of the terminal Idle attitude of this enforcement also can be applied to UMTS alternatively.Because in UMTS, terminal is to carry out all the time the measurement of homogeneous-frequency adjacent-domain carrying out the MDT measurement.At this moment, the nearby region measurement start-up parameter of OAM configuration can be Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value in 500.This Idle attitude alien frequencies nearby region measurement incoming level threshold value and Idle attitude alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement under the Idle attitude.This different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process different system nearby region measurement under the Idle attitude.And need accordingly to get final product 501 being revised as " OAM sends the trace session activation message of carrying this Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value by MSC and SGSN to the base station ".

The control method of the nearby region measurement of the present embodiment, can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing the present embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

The present invention's signaling diagram of the control method of the nearby region measurement that provides of another embodiment again is provided Fig. 6.The control method of the nearby region measurement of the present embodiment take terminal under the Connected attitude, in UMTS as example.As shown in Figure 6, the control method of the nearby region measurement of the present embodiment specifically can comprise as follows:

600, OAM configuration second event enabling gate limit value;

This second event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

601, OAM sends the trace session activation message of carrying this Connected attitude nearby region measurement incoming level threshold value by MSC and SGSN to the base station;

602, the base station receives the trace session activation message of carrying second event enabling gate limit value that OAM sends, and carries the MDT configuration messages of this second event enabling gate limit value according to this trace session activation message generation;

603, the base station sends the MDT configuration messages that carries second event enabling gate limit value to terminal;

604, terminal receives the MDT configuration messages that carries second event enabling gate limit value that the base station sends, and according to the second event enabling gate limit value in the MDT configuration messages, under terminal Connected attitude, carry out carrying out all the time in the MDT measuring process alien frequencies adjacent area and different system nearby region measurement.

605, terminal sends the measurement result of carrying out alien frequencies adjacent area and different system nearby region measurement under the Connected attitude according to the MDT configuration messages to terminal;

606, carry out the measurement result of alien frequencies adjacent area and different system nearby region measurement under the Connected attitude of base station receiving terminal according to the transmission of MDT configuration messages; And to following the tracks of the measurement result of carrying out alien frequencies adjacent area and different system nearby region measurement under the collection entity transmission Connected attitude.

Follow the tracks of to gather after the measurement result that entity receives alien frequencies adjacent area and different system nearby region measurement under the Connected attitude, just can realize accurately Performance Evaluation is carried out in the peripheral adjacent area of current service cell according to the measurement result of terminal alien frequencies adjacent area and different system nearby region measurement under the Connected attitude and in conjunction with the measurement result that the homogeneous-frequency adjacent-domain that terminal is carried out is all the time measured.

In the technical scheme of the present embodiment, terminal can also report to the base station positional information of current terminal in 605.And follow-up being sent to again by the base station follow the tracks of to gather entity, gathers entity and can realize current service cell is carried out performance evaluation, Performance Evaluation and performance network optimal design etc. according to the positional information of all terminal to report of current service cell by following the tracks of.

Need to prove, terminal can be carried out the homogeneous-frequency adjacent-domain measurement all the time under the UMTS in MDT measures, and the measurement result that reports homogeneous-frequency adjacent-domain to measure, and repeats no more in the present embodiment.

The technical scheme of the terminal Connected attitude of this enforcement also can be applied to the LTE system alternatively, in this moment 600, the nearby region measurement start-up parameter of corresponding OAM configuration specifically comprises Connected attitude homogeneous-frequency adjacent-domain measurement incoming level threshold value and the first event enabling gate limit value.This Connected attitude nearby region measurement incoming level threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process homogeneous-frequency adjacent-domain and measure under the Connected attitude; The first event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.Needing accordingly to be revised as " OAM sends the trace session activation message of carrying this Connected attitude nearby region measurement incoming level threshold value by HSS and MME to the base station " with 601 gets final product.The control method of the nearby region measurement of the present embodiment, can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing the present embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RFfingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

One of ordinary skill in the art will appreciate that: all or part of step that realizes said method embodiment can be finished by the relevant hardware of program command, aforesaid program can be stored in the computer read/write memory medium, this program is carried out the step that comprises said method embodiment when carrying out; And aforesaid storage medium comprises: the various media that can be program code stored such as ROM, RAM, magnetic disc or CD.

The structural representation of the control appliance of the nearby region measurement that Fig. 7 provides for the embodiment of the invention.As shown in Figure 7, the control appliance of the nearby region measurement of the present embodiment specifically can comprise: judge module 10 and enforcement module 11.

Wherein judge module 10 powers on open state and whether has received the MDT configuration messages that the base station sends for judging whether terminal is in.Enforcement module 11 is connected with judge module 10, enforcement module 11 is used for judging terminals when judge module 10 and is in when powering on open state and having received the MDT configuration messages that the base station sends, and the pressure terminal is carried out nearby region measurement all the time carrying out the MDT measuring process; This nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement.

The control appliance of the nearby region measurement of the present embodiment realizes that by adopting above-mentioned module the control of nearby region measurement is identical with the realization mechanism of above-mentioned correlation technique embodiment, can with reference to the record of above-mentioned correlation technique embodiment, not repeat them here in detail.

The control appliance of the nearby region measurement of the present embodiment, by adopting above-mentioned module can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing the present embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

Alternatively, the open state that powers on described in above-described embodiment comprises Idle attitude or Connected attitude.

Alternatively, as shown in Figure 7, the control appliance of the nearby region measurement in above-described embodiment can also comprise: control module 12.This control module 12 is connected with enforcement module 11, control module 12 is used for when terminal is in the Idle attitude, force terminals carrying out after the MDT measuring process carries out nearby region measurement all the time in enforcement module 11, control terminal is kept at the measurement result of carrying out the nearby region measurement that the MDT measuring process carries out all the time.This control module 12 also is used for when terminal transfers the Connected attitude to by the Idle attitude, and the measurement result of the nearby region measurement that control terminal is preserved under the Idle attitude reports the base station.

Alternatively, this control module 12 also is used for when terminal is in the Connected attitude, and control terminal carries out the measurement result of nearby region measurement under the Connected attitude to the base station reporting terminal according to the MDT configuration messages.

The control appliance of the nearby region measurement of above-described embodiment realizes that by adopting above-mentioned module the control of nearby region measurement is identical with the realization mechanism of above-mentioned correlation technique embodiment, can with reference to the record of above-mentioned correlation technique embodiment, not repeat them here in detail.

The control appliance of the nearby region measurement of above-described embodiment, can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing above-described embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

Need to prove, the control appliance of the nearby region measurement of above-described embodiment specifically can become one with termination set.

The structural representation of the OAM equipment that Fig. 8 provides for the embodiment of the invention.As shown in Figure 8, the OAM equipment of the present embodiment specifically can comprise: configuration module 20 and sending module 21.

Wherein configuration module 20 is used for configuring adjacent cell and measures start-up parameter, and this nearby region measurement start-up parameter can guarantee that terminal carries out carrying out all the time in the MDT measuring process nearby region measurement under the open state that powers on.Sending module 21 is connected with configuration module 20, sending module 21 is used for sending to the base station trace session activation message of the nearby region measurement start-up parameter of carrying configuration module 20 configurations, carry the MDT configuration messages of nearby region measurement start-up parameter according to the trace session activation message generation for the base station, and the MDT configuration messages sent to terminal, under powering on open state, terminal carries out carrying out all the time in the MDT measuring process nearby region measurement for terminal according to the nearby region measurement start-up parameter in the MDT configuration messages.

The OAM equipment of the present embodiment realizes that by adopting above-mentioned module the control of nearby region measurement is identical with the realization mechanism of above-mentioned correlation technique embodiment, can with reference to the record of above-mentioned correlation technique embodiment, not repeat them here in detail.

The OAM equipment of the present embodiment, by adopting above-mentioned module can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing above-described embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

Alternatively, in the OAM equipment of above-described embodiment, when this OAM equipment is applied in the LTE system, the sending module 21 concrete trace session activation message that are used for carrying to the base station transmission by HSS and MME the nearby region measurement start-up parameter.When this OAM equipment is applied among the UMTS, the sending module 21 concrete trace session activation message that are used for carrying to the base station transmission by MSC and SGSN the nearby region measurement start-up parameter.

And alternatively, in above-described embodiment, the open state that powers on comprises Idle attitude or Connected attitude.

And alternatively, in above-described embodiment, in the LTE system, nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement; In UMTS, nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement.

Alternatively, in the OAM equipment of above-described embodiment, when in the LTE system, when terminal is in the Idle attitude, configuration module 20 concrete configuration Idle attitude nearby region measurement incoming level threshold value and the Idle attitude nearby region measurement quality of reception threshold values of being used for; This Idle attitude nearby region measurement incoming level threshold value and this Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process nearby region measurement under the Idle attitude.

Alternatively, in the OAM equipment of above-described embodiment, when in the LTE system, when terminal was in the Connected attitude, the configuration module 20 concrete configuration Connected attitude homogeneous-frequency adjacent-domains that are used for were measured incoming level threshold value, the first event enabling gate limit value and second event enabling gate limit values.Connected attitude homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process homogeneous-frequency adjacent-domain and measure under the Connected attitude, and the first event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

Alternatively, in the OAM equipment of above-described embodiment, when at UMTS, when terminal is in the Idle attitude, configuration module 20 concrete configuration Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of the Idle attitude nearby region measurement quality of reception threshold values of being used for; Idle attitude alien frequencies nearby region measurement incoming level threshold value and Idle attitude alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement under the Idle attitude; The different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process different system nearby region measurement under the Idle attitude.

Alternatively, in the OAM equipment of above-described embodiment, when at UMTS, when terminal is in the Connected attitude, the concrete configuration second event enabling gate limit values that are used for of configuration module 20, second event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

The structural representation of the base station equipment that Fig. 9 provides for the embodiment of the invention.As shown in Figure 9, the base station equipment of the present embodiment specifically can comprise: receiver module 30, generation module 31 and sending module 32.

Wherein receiver module 30 is used for receiving the trace session activation message of carrying the nearby region measurement start-up parameter that OAM sends; This nearby region measurement start-up parameter is the OAM configuration, carries out carrying out all the time in the MDT measuring process nearby region measurement in order to guarantee terminal under the open state that powers on.Generation module 31 is connected with receiver module 30, and generation module 31 is used for carrying the MDT configuration messages that receiver module 30 connects the nearby region measurement start-up parameter of the trace session activation message of searching according to the trace session activation message generation.Sending module 32 is connected with generation module 31, sending module 32 is used for sending the MDT configuration messages that generation module 31 generates to terminal, carries out carrying out all the time in the MDT measuring process nearby region measurement for terminal according to the nearby region measurement start-up parameter in the MDT configuration messages under the open state that powers on.

The base station equipment of the present embodiment realizes that by adopting above-mentioned module the control of nearby region measurement is identical with the realization mechanism of above-mentioned correlation technique embodiment, can with reference to the record of above-mentioned correlation technique embodiment, not repeat them here in detail.

The base station equipment of the present embodiment, by adopting above-mentioned module can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing above-described embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and performance network optimal design etc. to current service cell according to the positional information of terminal to report.

Alternatively, in the base station equipment of above-described embodiment, when this base station equipment was applied to the LTE system, receiver module 30 specifically can be used for receiving the trace session activation message of carrying the nearby region measurement start-up parameter that OAM sends by HSS and MME.When this base station equipment was used UMTS, receiver module 30 specifically can be used for receiving the trace session activation message of carrying the nearby region measurement start-up parameter that OAM sends by MSC and SGSN.

Alternatively, in above-described embodiment, the open state that powers on comprises Idle attitude or Connected attitude.

And alternatively, in above-described embodiment, in the LTE system, nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement; In UMTS, nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement.

Alternatively, in the base station equipment of above-described embodiment, when in the LTE system, when terminal was in the Idle attitude, the nearby region measurement start-up parameter comprised Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value.Idle attitude attitude nearby region measurement incoming level threshold value and Idle attitude attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process nearby region measurement under Idle attitude attitude.Generation module 31 in corresponding above-described embodiment specifically comprises at this moment: the first generation unit and first carries the unit.The first generation unit is connected with receiver module 30, and the first generation unit is used for the trace session activation message generation MDT configuration messages according to receiver module 30 receptions.First carries the unit is connected with the first generation unit, first carries the unit is used for increasing field at the MDT configuration messages that the first generation unit generates, and in increasing field, carry Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value, obtain carrying the MDT configuration messages of nearby region measurement start-up parameter.

Alternatively, in the base station equipment of above-described embodiment, when in the LTE system, when terminal was in the Connected attitude, the nearby region measurement start-up parameter comprised Connected attitude homogeneous-frequency adjacent-domain measurement incoming level threshold value, the first event enabling gate limit value and second event enabling gate limit value.Connected attitude homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process homogeneous-frequency adjacent-domain and measure under the Connected attitude, and the first event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

Alternatively, in the base station equipment of above-described embodiment, when in UMTS, when terminal was in the Idle attitude, the nearby region measurement start-up parameter comprised Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value.Idle attitude alien frequencies nearby region measurement incoming level threshold value and Idle attitude alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement under the Idle attitude.The different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process different system nearby region measurement under the Idle attitude.

Further alternatively, in the base station equipment of above-described embodiment, when in UMTS, during end Idle attitude, generation module 31 comprises that specifically the second generation unit and second carries the unit.The second generation unit is used for according to trace session activation message generation MDT configuration messages; Second carries the unit is connected with the second generation unit, second carries the unit is used for increasing field at the MDT configuration messages that the connection of the second generation unit generates, and in increasing field, carry Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value, obtain carrying the MDT configuration messages of nearby region measurement start-up parameter.

Alternatively, in the base station equipment of above-described embodiment, when in UMTS, when terminal was in the Connected attitude, the nearby region measurement start-up parameter comprised second event enabling gate limit value; Second event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

Alternatively, no matter in the LTE system or in UMTS, when terminal is in the Idle attitude; Receiver module 30 also is used for when terminal transfers the Connected attitude to by the Idle attitude, the measurement result of carrying out nearby region measurement under the Idle attitude that receiving terminal sends; Sending module 32 also is connected with receiver module 30, and sending module 32 also is used for carrying out the measurement result of nearby region measurement under the Idle attitude of following the tracks of 30 receptions of collection entity sending/receiving module.

Alternatively, no matter in the LTE system or in UMTS, when terminal is in the Connected attitude; State receiver module 30 and also be used for the measurement result of under the Connected attitude, carrying out nearby region measurement that receiving terminal sends according to the MDT configuration messages; Sending module 32 also is connected with receiver module 30, and sending module 32 also is used for carrying out the measurement result of nearby region measurement under the Connected attitude of following the tracks of 30 receptions of collection entity sending/receiving module.

The structural representation of the terminal that Figure 10 provides for the embodiment of the invention.As shown in figure 10, the terminal of the present embodiment specifically can comprise: receiver module 40 and measurement module 41.

Wherein receiver module 40 is used for receiving the MDT configuration messages that carries the nearby region measurement start-up parameter that the base station sends under the open state that powers on; This MDT configuration messages that carries the nearby region measurement start-up parameter is that the base station is according to the trace session activation message generation that carries the nearby region measurement start-up parameter that receives the OAM transmission; This nearby region measurement start-up parameter is the OAM configuration.Measurement module 41 is connected with receiver module 40, and measurement module 41 is used for the nearby region measurement start-up parameter according to the MDT configuration messages of receiver module 40 receptions, carries out carrying out all the time in the MDT measuring process nearby region measurement under the open state that powers on.

The terminal of the present embodiment realizes that by adopting above-mentioned module the control of nearby region measurement is identical with the realization mechanism of above-mentioned correlation technique embodiment, can with reference to the record of above-mentioned correlation technique embodiment, not repeat them here in detail.

The terminal of the present embodiment, by adopting above-mentioned module can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing above-described embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

Alternatively, in the terminal of above-described embodiment, the open state that powers on comprises Idle attitude or Connected attitude.

And alternatively, in the terminal of above-described embodiment, in the LTE system, nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement; In UMTS, nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement.

Alternatively, in the terminal of above-described embodiment, when in the LTE system, when terminal was in the Idle attitude, the nearby region measurement start-up parameter comprised Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value; Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process nearby region measurement under the Idle attitude; And Idle attitude nearby region measurement incoming level threshold value and Idle attitude nearby region measurement quality of reception threshold value are carried in the field that newly increases in the MDT configuration messages.

Alternatively, in the terminal of above-described embodiment, when in the LTE system, when terminal was in the Connected attitude, the nearby region measurement start-up parameter comprised Connected attitude homogeneous-frequency adjacent-domain measurement incoming level threshold value and the first event enabling gate limit value; Connected attitude homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process homogeneous-frequency adjacent-domain and measure under the Connected attitude, and the first event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

Alternatively, in the terminal of above-described embodiment, when in UMTS, when terminal was in the Idle attitude, the nearby region measurement start-up parameter comprised Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value; Idle attitude alien frequencies nearby region measurement incoming level threshold value and Idle attitude alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement under the Idle attitude; The different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the MDT measuring process different system nearby region measurement under the Idle attitude, and Idle attitude alien frequencies nearby region measurement incoming level threshold value, Idle attitude alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle attitude nearby region measurement incoming level threshold value and the different system of Idle attitude nearby region measurement quality of reception threshold value are carried in the field that newly increases in the MDT configuration messages.

Alternatively, in the terminal of above-described embodiment, when in UMTS, when terminal was in the Connected attitude, the nearby region measurement start-up parameter comprised second event enabling gate limit value; Second event enabling gate limit value can guarantee that terminal carries out carrying out all the time in the MDT measuring process alien frequencies nearby region measurement and different system nearby region measurement under the Connected attitude.

Alternatively, also comprise in the terminal of above-described embodiment: sending module.When terminal is in the Idle attitude, this sending module is used for when transferring the Connected attitude to by the Idle attitude, send the measurement result of carrying out nearby region measurement under the Idle attitude to the base station, gather the measurement result of carrying out nearby region measurement under the entity transmission Idle attitude for the base station to following the tracks of.When terminal is in the Connected attitude, this sending module is used for sending the measurement result of carrying out nearby region measurement under the Connected attitude to the base station according to the MDT configuration messages, gathers the measurement result of carrying out nearby region measurement under the entity transmission Connected attitude for the base station to following the tracks of.

The structural representation of the control system of the nearby region measurement that Figure 11 provides for the embodiment of the invention.As shown in figure 11, the control system of the nearby region measurement of the present embodiment can comprise: OAM50, base station 60 and terminal 70.

Wherein OAM50 is used for configuring adjacent cell and measures start-up parameter, and 60 sends the trace session activation message of carrying the nearby region measurement start-up parameter to the base station.Base station 60 is used for receiving the trace session activation message of carrying the nearby region measurement start-up parameter that OAM50 sends; And carry the MDT configuration messages of nearby region measurement start-up parameter according to the trace session activation message generation; Send the MDT configuration messages to terminal 70.Terminal 70 is used under the open state that powers on, and receives the MDT configuration messages that carries the nearby region measurement start-up parameter that base station 60 sends; According to the nearby region measurement start-up parameter in the MDT configuration messages, under the open state that powers on, carry out carrying out all the time in the MDT measuring process nearby region measurement.

The control system of the nearby region measurement of the present embodiment, by adopting OAM50, base station 60 and terminal 70 to realize that the control of nearby region measurement is identical with the realization mechanism of above-mentioned correlation technique embodiment, can with reference to the record of above-mentioned correlation technique embodiment, not repeat them here in detail.

The control system of the nearby region measurement of the present embodiment, OAM50 for example can adopt the OAM equipment of above-mentioned expansion embodiment embodiment illustrated in fig. 8 and corresponding.The base station equipment of above-mentioned expansion embodiment embodiment illustrated in fig. 9 and corresponding for example can be adopted in base station 60.Terminal 70 for example can adopt the terminal of above-mentioned expansion embodiment embodiment illustrated in fig. 10 and corresponding.

The control system of the nearby region measurement of the present embodiment, by adopting OAM50, base station 60 and terminal 70 can guarantee that terminal carries out nearby region measurement all the time in carrying out the MDT measuring process, thereby can get access to complete neighbor measurement information, in order to follow-uply can realize carrying out accurately Performance Evaluation to the peripheral adjacent area of current service cell according to complete neighbor measurement information.And the technical scheme of employing above-described embodiment, because terminal can comprise the nearby region measurement that co-frequency neighbor cell is measured all the time in MDT measures, no matter terminal is in which position of current service cell, can guarantee that terminal can get access to RF fingerprint information all the time.Therefore can carry out performance evaluation, Performance Evaluation and Design of Performance etc. to current service cell according to the positional information of terminal to report.

Device embodiment described above only is schematic, wherein the unit as the separating component explanation can or can not be physically to separate also, the parts that show as the unit can be or can not be physical locations also, namely can be positioned at a place, perhaps also can be distributed at least two network element.Can select according to the actual needs wherein some or all of module to realize the purpose of the present embodiment scheme.Those of ordinary skills namely can understand and implement in the situation that do not pay performing creative labour.

It should be noted that at last: above embodiment only in order to technical scheme of the present invention to be described, is not intended to limit; Although with reference to previous embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (66)

1. the control method of a nearby region measurement is characterized in that, comprising:

Judging whether terminal is in powers on open state and whether has received the minimum road test configuration messages that the base station sends;

When described terminal is in when powering on open state and having received the described minimum road test configuration messages that described base station sends, force described terminal in carrying out the minimum road test measuring process, to carry out all the time nearby region measurement; Described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement.

2. method according to claim 1 is characterized in that, the described open state that powers on comprises Idle state or connected state.

3. method according to claim 2 is characterized in that, when described terminal is in described Idle state, also comprises: control described terminal and be kept at the measurement result of carrying out the nearby region measurement that carries out all the time in the minimum road test measuring process;

When described terminal transferred described connected state to by described Idle state, the measurement result of controlling the nearby region measurement that described terminal will preserve under described Idle state reported described base station.

4. method according to claim 2, it is characterized in that, when described terminal is in described connected state, controls described terminal and report described terminal under described connected state, to carry out the measurement result of nearby region measurement to described base station according to described minimum road test configuration messages.

5. the control method of a nearby region measurement is characterized in that, comprising:

Configuring adjacent cell is measured start-up parameter, and described nearby region measurement start-up parameter can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process nearby region measurement under the open state that powers on;

Send the trace session activation message of carrying described nearby region measurement start-up parameter to the base station, carry the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation for described base station, and described minimum road test configuration messages sent to terminal, under powering on open state, described terminal carries out carrying out all the time in the minimum road test measuring process nearby region measurement for described terminal according to the described nearby region measurement start-up parameter in the described minimum road test configuration messages.

6. method according to claim 5 is characterized in that, sends the trace session activation message of carrying described nearby region measurement start-up parameter to the base station, specifically comprises:

Send the trace session activation message of carrying described nearby region measurement start-up parameter to described base station by user attaching server and Mobility Management Entity;

Perhaps send the trace session activation message of carrying described nearby region measurement start-up parameter to described base station by mobile switching centre and professional general switch node.

7. according to claim 5 or 6 described methods, it is characterized in that, the described open state that powers on comprises Idle state or connected state.

8. method according to claim 7 is characterized in that, when in long evolving system, described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement;

When in universal mobile telecommunications system, described nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement.

9. method according to claim 8, it is characterized in that, when in described long evolving system, when described terminal is in described Idle state, configuring adjacent cell is measured start-up parameter, specifically comprises: configuration Idle state nearby region measurement incoming level threshold value and Idle state nearby region measurement quality of reception threshold value; Described Idle state nearby region measurement incoming level threshold value and described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described nearby region measurement under described Idle state.

10. method according to claim 8, it is characterized in that, when in described long evolving system, when described terminal is in described connected state, configuring adjacent cell is measured start-up parameter, specifically comprise: configuration connected state homogeneous-frequency adjacent-domain is measured incoming level threshold value and the first event enabling gate limit value, described connected state homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described homogeneous-frequency adjacent-domain and measure under described connected state, and described the first event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

11. method according to claim 8, it is characterized in that, when in described universal mobile telecommunications system, when described terminal is in described Idle state, configuring adjacent cell is measured start-up parameter, specifically comprises: configuration Idle state alien frequencies nearby region measurement incoming level threshold value, Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle state nearby region measurement incoming level threshold value and the different system of Idle state nearby region measurement quality of reception threshold value; Described Idle state alien frequencies nearby region measurement incoming level threshold value and described Idle state alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement under described Idle state; The different system of described Idle state nearby region measurement incoming level threshold value and the different system of described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described different system nearby region measurement under described Idle state.

12. method according to claim 8, it is characterized in that, when in described universal mobile telecommunications system, when described terminal is in described connected state, configuring adjacent cell is measured start-up parameter, specifically comprise: configuration second event enabling gate limit value, described second event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

13. the control method of a nearby region measurement is characterized in that, comprising:

Receive the trace session activation message of carrying the nearby region measurement start-up parameter that the operation management maintain center sends; Described nearby region measurement start-up parameter is described operation management maintain center configuration, carries out carrying out all the time in the minimum road test measuring process nearby region measurement in order to guarantee terminal under the open state that powers on;

Carry the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation;

Send described minimum road test configuration messages to described terminal, under the described open state that powers on, carry out carrying out all the time in the minimum road test measuring process nearby region measurement for described terminal according to the described nearby region measurement start-up parameter in the described minimum road test configuration messages.

14. method according to claim 13 is characterized in that, the trace session activation message of carrying the nearby region measurement start-up parameter that described reception operation management maintain center sends specifically comprises:

Receive the described trace session activation message of carrying described nearby region measurement start-up parameter that described operation management maintain center sends by user attaching server and Mobility Management Entity;

Perhaps receive the described trace session activation message of carrying described nearby region measurement start-up parameter that described operation management maintain center sends by mobile switching centre and professional general switch node.

15. according to claim 13 or 14 described methods, it is characterized in that, the described open state that powers on comprises Idle state or connected state.

16. method according to claim 15 is characterized in that, when in long evolving system, described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement;

When in universal mobile telecommunications system, described nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement.

17. method according to claim 16, it is characterized in that, when in described long evolving system, when described terminal was in described Idle state, described nearby region measurement start-up parameter comprised Idle state nearby region measurement incoming level threshold value and Idle state nearby region measurement quality of reception threshold value; Described Idle state nearby region measurement incoming level threshold value and described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described nearby region measurement under described Idle state.

18. method according to claim 17 is characterized in that, carries the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation, specifically comprises:

According to described trace session activation message generation minimum road test configuration messages;

In the minimum road test configuration messages of described generation, increase field, and in described increase field, carry described Idle state nearby region measurement incoming level threshold value and described Idle state nearby region measurement quality of reception threshold value, obtain carrying the minimum road test configuration messages of described nearby region measurement start-up parameter.

19. method according to claim 16, it is characterized in that, when in described long evolving system, when described terminal was in described connected state, described nearby region measurement start-up parameter comprised connected state homogeneous-frequency adjacent-domain measurement incoming level threshold value and the first event enabling gate limit value; Described connected state homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described homogeneous-frequency adjacent-domain and measure under described connected state, and described the first event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

20. method according to claim 16, it is characterized in that, when in described universal mobile telecommunications system, when described terminal was in described Idle state, described nearby region measurement start-up parameter comprised Idle state alien frequencies nearby region measurement incoming level threshold value, Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle state nearby region measurement incoming level threshold value and the different system of Idle state nearby region measurement quality of reception threshold value; Described Idle state alien frequencies nearby region measurement incoming level threshold value and described Idle state alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement under described Idle state; The different system of described Idle state nearby region measurement incoming level threshold value and the different system of described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described different system nearby region measurement under described Idle state.

21. method according to claim 20 is characterized in that, carries the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation, specifically comprises:

According to described trace session activation message generation minimum road test configuration messages;

In the minimum road test configuration messages of described generation, increase field, and in described increase field, carry described Idle state alien frequencies nearby region measurement incoming level threshold value, described Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system of described Idle state nearby region measurement incoming level threshold value and the different system of described Idle state nearby region measurement quality of reception threshold value, obtain carrying the minimum road test configuration messages of described nearby region measurement start-up parameter.

22. according to claim 17,18,20 or 21 described methods, it is characterized in that, when described terminal is in described Idle state, also comprise:

When described terminal transfers connected state to by described Idle state, receive the measurement result of under described Idle state, carrying out nearby region measurement that described terminal sends;

And send the measurement result of carrying out nearby region measurement under the described Idle state to follow the tracks of gathering entity.

23. method according to claim 16 is characterized in that, when in described universal mobile telecommunications system, when described terminal was in described connected state, described nearby region measurement start-up parameter comprised second event enabling gate limit value; Described second event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

24. according to claim 19 or 23 described methods, it is characterized in that, when described terminal is in described connected state, also comprise:

Receive the measurement result of under described connected state, carrying out nearby region measurement that described terminal sends according to described minimum road test configuration messages;

And send the measurement result of carrying out nearby region measurement under the described connected state to follow the tracks of gathering entity.

25. the control method of a nearby region measurement is characterized in that, comprising:

Under terminal powers on open state, receive the minimum road test configuration messages that carries the nearby region measurement start-up parameter that the base station sends; The described minimum road test configuration messages that carries the nearby region measurement start-up parameter is described base station according to receiving the trace session activation message generation that carries described nearby region measurement start-up parameter that the operation management maintain center sends; Described nearby region measurement start-up parameter is described operation management maintain center configuration;

According to the described nearby region measurement start-up parameter in the described minimum road test configuration messages, under the open state that powers on, carry out carrying out all the time in the minimum road test measuring process nearby region measurement.

26. method according to claim 25 is characterized in that, the described open state that powers on comprises Idle state or connected state.

27. method according to claim 26 is characterized in that, when in long evolving system, described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement;

When in universal mobile telecommunications system, described nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement.

28. method according to claim 27, it is characterized in that, when in described long evolving system, when described terminal was in described Idle state, described nearby region measurement start-up parameter comprised Idle state nearby region measurement incoming level threshold value and Idle state nearby region measurement quality of reception threshold value; Described Idle state nearby region measurement incoming level threshold value and described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described nearby region measurement under described Idle state; And described Idle state nearby region measurement incoming level threshold value and described Idle state nearby region measurement quality of reception threshold value are carried in the field that newly increases in the described minimum road test configuration messages.

29. method according to claim 27, it is characterized in that, when in described long evolving system, when described terminal was in described connected state, described nearby region measurement start-up parameter comprised connected state homogeneous-frequency adjacent-domain measurement incoming level threshold value and the first event enabling gate limit value; Described connected state homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described homogeneous-frequency adjacent-domain and measure under described connected state, and described the first event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

30. method according to claim 27, it is characterized in that, when in described universal mobile telecommunications system, when described terminal was in described Idle state, described nearby region measurement start-up parameter comprised Idle state alien frequencies nearby region measurement incoming level threshold value, Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle state nearby region measurement incoming level threshold value and the different system of Idle state nearby region measurement quality of reception threshold value; Described Idle state alien frequencies nearby region measurement incoming level threshold value and described Idle state alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement under described Idle state; The different system of described Idle state nearby region measurement incoming level threshold value and the different system of described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described different system nearby region measurement, described Idle state alien frequencies nearby region measurement incoming level threshold value under described Idle state, described Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system of described Idle state nearby region measurement incoming level threshold value and the different system of described Idle state nearby region measurement quality of reception threshold value are carried in the field that newly increases in the described minimum road test configuration messages.

31. method according to claim 27 is characterized in that, when in described universal mobile telecommunications system, when described terminal was in described connected state, described nearby region measurement start-up parameter comprised second event enabling gate limit value; Described second event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

32. according to claim 28 or 30 described methods, it is characterized in that, when described terminal is in described Idle state, also comprise:

When transferring connected state to by described Idle state, send the measurement result of carrying out nearby region measurement under the described Idle state to described base station, send the measurement result of carrying out nearby region measurement under the described Idle state for described base station to following the tracks of the collection entity.

33. according to claim 29 or 31 described methods, it is characterized in that, when described terminal is in described connected state, also comprise:

Send the measurement result of carrying out nearby region measurement under the described connected state to described base station according to described minimum road test configuration messages, send the measurement result of carrying out nearby region measurement under the described connected state for described base station to following the tracks of the collection entity.

34. the control appliance of a nearby region measurement is characterized in that, comprising:

Judge module powers on open state and whether has received the minimum road test configuration messages that the base station sends for judging whether terminal is in;

Enforcement module is used for being in when powering on open state and having received the described minimum road test configuration messages of described base station transmission when described terminal, forces described terminal to carry out all the time nearby region measurement in carrying out the minimum road test measuring process; Described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement.

35. the control appliance of nearby region measurement according to claim 34 is characterized in that, the described open state that powers on comprises Idle state or connected state.

36. the control appliance of nearby region measurement according to claim 35 is characterized in that, also comprises:

Control module is used for when described terminal is in described Idle state, controls described terminal and is kept at the measurement result of carrying out the nearby region measurement that carries out all the time in the minimum road test measuring process;

Described control module also is used for when described terminal transfers described connected state to by described Idle state, and the measurement result of controlling the nearby region measurement that described terminal will preserve under described Idle state reports described base station.

37. the control appliance of nearby region measurement according to claim 36, it is characterized in that, described control module, also be used for when described terminal is in described connected state, controls described terminal and reporting described terminal under described connected state, to carry out the measurement result of nearby region measurement to described base station according to described minimum road test configuration messages.

38. an operation management maintain central apparatus is characterized in that, comprising:

Configuration module is used for configuring adjacent cell and measures start-up parameter, and described nearby region measurement start-up parameter can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process nearby region measurement under the open state that powers on;

Sending module, be used for carrying to the base station transmission trace session activation message of described nearby region measurement start-up parameter, carry the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation for described base station, and described minimum road test configuration messages sent to terminal, under powering on open state, described terminal carries out carrying out all the time in the minimum road test measuring process nearby region measurement for described terminal according to the described nearby region measurement start-up parameter in the described minimum road test configuration messages.

39. described operation management maintain central apparatus according to claim 38, it is characterized in that, described sending module, concrete being used for sends the trace session activation message of carrying described nearby region measurement start-up parameter by user attaching server and Mobility Management Entity to described base station; Perhaps be used for or carry to the transmission of described base station by mobile switching centre and professional general switch node the trace session activation message of described nearby region measurement start-up parameter.

40. according to claim 38 or 39 described operation management maintain central apparatus, it is characterized in that, the described open state that powers on comprises Idle state or connected state.

41. described operation management maintain central apparatus is characterized in that according to claim 40, when in long evolving system, described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement;

When in universal mobile telecommunications system, described nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement.

42. described operation management maintain central apparatus according to claim 41, it is characterized in that, when in described long evolving system, when described terminal is in described Idle state, described configuration module, concrete configuration Idle state nearby region measurement incoming level threshold value and the Idle state nearby region measurement quality of reception threshold value of being used for; Described Idle state nearby region measurement incoming level threshold value and described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described nearby region measurement under described Idle state.

43. described operation management maintain central apparatus according to claim 41, it is characterized in that, when in described long evolving system, when described terminal is in described connected state, described configuration module, the concrete configuration connected state homogeneous-frequency adjacent-domain that is used for is measured incoming level threshold value and the first event enabling gate limit value, described connected state homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described homogeneous-frequency adjacent-domain and measure under described connected state, and described the first event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

44. described operation management maintain central apparatus according to claim 41, it is characterized in that, when in described universal mobile telecommunications system, when described terminal is in described Idle state, described configuration module, concrete configuration Idle state alien frequencies nearby region measurement incoming level threshold value, Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle state nearby region measurement incoming level threshold value and the different system of the Idle state nearby region measurement quality of reception threshold value of being used for; Described Idle state alien frequencies nearby region measurement incoming level threshold value and described Idle state alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement under described Idle state; The different system of described Idle state nearby region measurement incoming level threshold value and the different system of described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described different system nearby region measurement under described Idle state.

45. described operation management maintain central apparatus according to claim 41, it is characterized in that, when in described universal mobile telecommunications system, when described terminal is in described connected state, described configuration module, the concrete configuration second event enabling gate limit value that is used for, described second event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

46. a base station equipment is characterized in that, comprising:

Receiver module is used for receiving the trace session activation message of carrying the nearby region measurement start-up parameter that the operation management maintain center sends; Described nearby region measurement start-up parameter is described operation management maintain center configuration, carries out carrying out all the time in the minimum road test measuring process nearby region measurement in order to guarantee terminal under the open state that powers on;

Generation module is used for carrying the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation;

Sending module, be used for sending described minimum road test configuration messages to described terminal, under the described open state that powers on, carry out carrying out all the time in the minimum road test measuring process nearby region measurement for described terminal according to the described nearby region measurement start-up parameter in the described minimum road test configuration messages.

47. described base station equipment according to claim 46, it is characterized in that, described receiver module, concrete for receiving the described trace session activation message of carrying described nearby region measurement start-up parameter of described operation management maintain center by user attaching server and Mobility Management Entity transmission; Perhaps be used for receiving the described trace session activation message of carrying described nearby region measurement start-up parameter that described operation management maintain center sends by mobile switching centre and professional general switch node.

48. according to claim 46 or 47 described base station equipments, it is characterized in that, the described open state that powers on comprises Idle state or connected state.

49. described base station equipment is characterized in that according to claim 48, when in long evolving system, described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement;

When in universal mobile telecommunications system, described nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement.

50. described base station equipment according to claim 49, it is characterized in that, when in described long evolving system, when described terminal was in described Idle state, described nearby region measurement start-up parameter comprised Idle state nearby region measurement incoming level threshold value and Idle state nearby region measurement quality of reception threshold value; Described Idle state nearby region measurement incoming level threshold value and described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described nearby region measurement under described Idle state.

51. described base station equipment is characterized in that according to claim 50, described generation module specifically comprises:

The first generation unit is used for according to described trace session activation message generation minimum road test configuration messages;

First carries the unit, be used for increasing field at the minimum road test configuration messages of described generation, and in described increase field, carry described Idle state nearby region measurement incoming level threshold value and described Idle state nearby region measurement quality of reception threshold value, obtain carrying the minimum road test configuration messages of described nearby region measurement start-up parameter.

52. described base station equipment according to claim 49, it is characterized in that: when in described long evolving system, when described terminal was in described connected state, described nearby region measurement start-up parameter comprised connected state homogeneous-frequency adjacent-domain measurement incoming level threshold value and the first event enabling gate limit value; Described connected state homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described homogeneous-frequency adjacent-domain and measure under described connected state, and described the first event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

53. described base station equipment according to claim 49, it is characterized in that: when in described universal mobile telecommunications system, when described terminal was in described Idle state, described nearby region measurement start-up parameter comprised Idle state alien frequencies nearby region measurement incoming level threshold value, Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle state nearby region measurement incoming level threshold value and the different system of Idle state nearby region measurement quality of reception threshold value; Described Idle state alien frequencies nearby region measurement incoming level threshold value and described Idle state alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement under described Idle state; The different system of described Idle state nearby region measurement incoming level threshold value and the different system of described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described different system nearby region measurement under described Idle state.

54. 3 described base station equipments is characterized in that according to claim 5, described generation module specifically comprises:

The second generation unit is used for according to described trace session activation message generation minimum road test configuration messages;

Second carries the unit, be used for increasing field at the minimum road test configuration messages of described generation, and in described increase field, carry described Idle state alien frequencies nearby region measurement incoming level threshold value, described Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system of described Idle state nearby region measurement incoming level threshold value and the different system of described Idle state nearby region measurement quality of reception threshold value, obtain carrying the minimum road test configuration messages of described nearby region measurement start-up parameter.

55. according to claim 50,51,53 or 54 described base station equipments, it is characterized in that, when described terminal is in described Idle state;

Described receiver module also is used for receiving the measurement result of carrying out nearby region measurement under described Idle state that described terminal sends when described terminal transfers connected state to by described Idle state;

Described sending module also is used for sending the measurement result of carrying out nearby region measurement under the described Idle state to following the tracks of the collection entity.

56. described base station equipment is characterized in that according to claim 49, when in described universal mobile telecommunications system, when described terminal was in described connected state, described nearby region measurement start-up parameter comprised second event enabling gate limit value; Described second event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

57. 2 or 56 described base station equipments is characterized in that according to claim 5, when described terminal is in described connected state:

Described receiver module also is used for receiving the measurement result of carrying out nearby region measurement under described connected state that described terminal sends according to described minimum road test configuration messages;

Described sending module also is used for sending the measurement result of carrying out nearby region measurement under the described connected state to following the tracks of the collection entity.

58. a terminal is characterized in that, comprising:

Receiver module is used for receiving the minimum road test configuration messages that carries the nearby region measurement start-up parameter that the base station sends under the open state that powers on; The described minimum road test configuration messages that carries the nearby region measurement start-up parameter is described base station according to receiving the trace session activation message generation that carries described nearby region measurement start-up parameter that the operation management maintain center sends; Described nearby region measurement start-up parameter is described operation management maintain center configuration;

Measurement module is used for the described nearby region measurement start-up parameter according to described minimum road test configuration messages, carries out carrying out all the time in the minimum road test measuring process nearby region measurement under the open state that powers on.

59. 8 described terminals is characterized in that according to claim 5, the described open state that powers on comprises Idle state or connected state.

60. 9 described terminals is characterized in that according to claim 5, when in long evolving system, described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system nearby region measurement;

When in universal mobile telecommunications system, described nearby region measurement comprises alien frequencies nearby region measurement and different system nearby region measurement.

61. 0 described terminal according to claim 6, it is characterized in that, when in described long evolving system, when described terminal was in described Idle state, described nearby region measurement start-up parameter comprised Idle state nearby region measurement incoming level threshold value and Idle state nearby region measurement quality of reception threshold value; Described Idle state nearby region measurement incoming level threshold value and described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described nearby region measurement under described Idle state; And described Idle state nearby region measurement incoming level threshold value and described Idle state nearby region measurement quality of reception threshold value are carried in the field that newly increases in the described minimum road test configuration messages.

62. 0 described terminal according to claim 6, it is characterized in that, when in described long evolving system, when described terminal was in described connected state, described nearby region measurement start-up parameter comprised connected state homogeneous-frequency adjacent-domain measurement incoming level threshold value and the first event enabling gate limit value; Described connected state homogeneous-frequency adjacent-domain is measured the incoming level threshold value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described homogeneous-frequency adjacent-domain and measure under described connected state, and described the first event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

63. 0 described terminal according to claim 6, it is characterized in that, when in described universal mobile telecommunications system, when described terminal was in described Idle state, described nearby region measurement start-up parameter comprised Idle state alien frequencies nearby region measurement incoming level threshold value, Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system of Idle state nearby region measurement incoming level threshold value and the different system of Idle state nearby region measurement quality of reception threshold value; Described Idle state alien frequencies nearby region measurement incoming level threshold value and described Idle state alien frequencies nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement under described Idle state; The different system of described Idle state nearby region measurement incoming level threshold value and the different system of described Idle state nearby region measurement quality of reception threshold value can guarantee that terminal carries out carrying out all the time in the minimum road test measuring process described different system nearby region measurement, described Idle state alien frequencies nearby region measurement incoming level threshold value under described Idle state, described Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system of described Idle state nearby region measurement incoming level threshold value and the different system of described Idle state nearby region measurement quality of reception threshold value are carried in the field that newly increases in the described minimum road test configuration messages.

64. 0 described terminal is characterized in that according to claim 6, when in described universal mobile telecommunications system, when described terminal was in described connected state, described nearby region measurement start-up parameter comprised second event enabling gate limit value; Described second event enabling gate limit value can guarantee that described terminal carries out carrying out all the time in the minimum road test measuring process described alien frequencies nearby region measurement and described different system nearby region measurement under described connected state.

65. 1 or 63 described terminals is characterized in that according to claim 6, also comprise: sending module;

When described terminal is in described Idle state, described sending module, be used for when transferring connected state to by described Idle state, send the measurement result of carrying out nearby region measurement under the described Idle state to described base station, send the measurement result of carrying out nearby region measurement under the described Idle state for described base station to following the tracks of the collection entity;

When described terminal is in described connected state, described sending module, be used for sending the measurement result of carrying out nearby region measurement under the described connected state to described base station according to described minimum road test configuration messages, send the measurement result of carrying out nearby region measurement under the described connected state for described base station to following the tracks of the collection entity.

66. the control system of a nearby region measurement is characterized in that, comprising: operation management maintain center, base station and terminal;

Described operation management maintain center is used for configuring adjacent cell and measures start-up parameter, and sends the trace session activation message of carrying described nearby region measurement start-up parameter to the base station;

Described base station is used for receiving the trace session activation message of carrying the nearby region measurement start-up parameter that described operation management maintain center sends; And carry the minimum road test configuration messages of described nearby region measurement start-up parameter according to described trace session activation message generation; Send described minimum road test configuration messages to described terminal;

Described terminal is used for receiving the minimum road test configuration messages that carries the nearby region measurement start-up parameter that described base station sends under the open state that powers on; According to the described nearby region measurement start-up parameter in the described minimum road test configuration messages, under the open state that powers on, carry out carrying out all the time in the minimum road test measuring process nearby region measurement.

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