CN102892132B - 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 present invention relates to communication technical field, particularly relates to a kind of control method and system, equipment of nearby region measurement.

Background technology

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

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

Realizing in process of the present invention, inventor finds that in prior art, at least there are the following problems: when terminal is in some region of current service cell, especially the central area of current service cell, the quality of Serving cell is better, and terminal cannot carry out nearby region measurement in MDT measures.

Summary of the invention

The embodiment of the present invention provides the defect of a kind of control method of nearby region measurement and system, equipment, in order to solve in prior art when terminal is in some region of current service cell, especially the central area of current service cell, terminal cannot carry out the defect of nearby region measurement in MDT measures.

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

Judge terminal whether be in power on open state and whether received base station send minimum road test configuration messages;

When described terminal be in power on open state and received described base station send described minimum road test configuration messages time, force described terminal carrying out carrying out nearby region measurement all the time in minimum road test measuring process; Described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system adjacent cell and measures.

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

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

The trace session activation message of carrying described nearby region measurement start-up parameter is sent to 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 is sent to terminal, carry out carrying out nearby region measurement all the time in minimum road test measuring process under described terminal powers on open state according to the described nearby region measurement start-up parameter in described minimum road test configuration messages for described terminal.

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

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

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

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

The embodiment of the present 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 carrying nearby region measurement start-up parameter that base station sends; To be described base station carry the trace session activation message generation of described nearby region measurement start-up parameter according to what receive that operation management maintain center sends to the described minimum road test configuration messages carrying nearby region measurement start-up parameter; 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 described minimum road test configuration messages, control described terminal and carry out carrying out nearby region measurement all the time in minimum road test measuring process under the open state that powers on.

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

Judge module, for judge terminal whether be in power on open state and whether received base station send minimum road test configuration messages;

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

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

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

Sending module, for sending the trace session activation message of carrying described nearby region measurement start-up parameter to 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 is sent to terminal, carry out carrying out nearby region measurement all the time in minimum road test measuring process under described terminal powers on open state according to the described nearby region measurement start-up parameter in described minimum road test configuration messages for described terminal.

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

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

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

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

Receiver module, under the open state that powers on, receives the minimum road test configuration messages carrying nearby region measurement start-up parameter that base station sends; To be described base station carry the trace session activation message generation of described nearby region measurement start-up parameter according to what receive that operation management maintain center sends to the described minimum road test configuration messages carrying nearby region measurement start-up parameter; Described nearby region measurement start-up parameter is described operation management maintain center configuration;

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

The embodiment of the present 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, measures start-up parameter for configuring adjacent cell, and sends the trace session activation message of carrying described nearby region measurement start-up parameter to base station;

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

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

The control method of the nearby region measurement of the embodiment of the present invention and system, equipment, by adopting technique scheme, terminal can under the open state that powers on, and after receiving the minimum road test configuration messages of base station transmission, carried out carrying out nearby region measurement all the time in minimum road test measuring process; Thus complete neighbor measurement information can be got, can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to complete neighbor measurement information so that follow-up.

Accompanying drawing explanation

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

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.

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

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

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

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

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

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

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

Embodiment

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

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 a nearby region measurement control appliance, as shown in Figure 1, the control method of the nearby region measurement of the present embodiment, specifically can comprise as follows:

100, judge terminal whether be in power on open state and whether received base station send MDT configuration messages;

101, when terminal be in power on open state and received base station send MDT configuration messages time, force terminal carrying out carrying out nearby region measurement all the time in MDT measuring process.

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

The control method of the nearby region measurement of the present embodiment, by judge terminal whether be in power on open state and whether received base station send MDT configuration messages; And when terminal be in power on open state and received base station send MDT configuration messages time, terminal is forced to carry out carrying out nearby region measurement all the time in MDT measuring process, thus complete neighbor measurement information can be got, can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to complete neighbor measurement information so that follow-up.

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

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

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

And when terminal transfers Connected state to by Idle state, the measurement result of the nearby region measurement preserved under Idle state is reported base station by control terminal.

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

Such as, when terminal is in Connected state, base station sends in the MDT configuration messages of base station and can comprise the upper time signal machine that requirement base station reports the measurement result of carrying out nearby region measurement under Connected state, and such terminal can according to the measurement result of to carry out nearby region measurement the opportunity requiring in MDT configuration messages to report to base station reporting terminal under Connected state.

It should be noted that, in above-described embodiment, when terminal is in Idle state, MDT configuration messages can measure configuration (Logged Measurement Configuration) message by the Idle state in corresponding LTE system.MDT configuration messages can measure configuration (Logged MeasurementConfiguration) message by the Idle state in corresponding UMTS.When terminal is in Connected state, such as, in LTE system, this MDT configuration messages can multiplexing existing wireless heterogeneous networks (Radio Resource Control; Hereinafter referred to as RRC) connect reprovision (Connection Reconfiguration) message.Such as in umts, this MDT configuration messages can multiplexing existing Survey control (Measurement Control) message.

It should be noted that, in the above-described embodiment performed, the control appliance of the nearby region measurement of operating procedure can be set together with terminal, such as terminal inner can be arranged on for the ease of realizing, to realize forcing terminal carrying out carrying out nearby region measurement all the time in minimum road test measuring process.

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 (OperationAdministration Maintenance; Hereinafter referred to 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, start-up parameter is measured in configuring adjacent cell;

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

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

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

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

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

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

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

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

Such as, in the LTE system of prior art, consider for power saving, under terminal Idle state, terminal when the incoming level of the current service cell that current location detects is less than default Idle state nearby region measurement incoming level threshold value, and just can start the nearby region measurement carried out in MDT measurement when the quality of reception of current service cell is less than default Idle state nearby region measurement quality of reception threshold value.Like this, in the technical scheme of the invention described above, what Idle state nearby region measurement incoming level threshold value and this Idle state nearby region measurement quality of reception threshold value can be arranged is enough large, can ensure that terminal is under Idle state, detect that the incoming level of current service cell is less than the Idle state nearby region measurement incoming level threshold value of OAM configuration all the time, and detect that the quality of reception of current service cell is less than the Idle state nearby region measurement quality of reception threshold value of OAM configuration all the time.So just, can ensure that terminal is carrying out carrying out nearby region measurement all the time in MDT measuring process.

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

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

Further, on the basis of the technical scheme of above-described embodiment, when in umts, when terminal is in Idle state, " configuring adjacent cell measurement start-up parameter " now in 200 in above-described embodiment 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 adjacent cell of Idle state measures incoming level threshold value and the different system adjacent cell of Idle state measures quality of reception threshold value.This Idle state alien frequencies nearby region measurement incoming level threshold value and Idle state alien frequencies nearby region measurement quality of reception threshold value can ensure that terminal carries out carrying out alien frequencies nearby region measurement all the time in MDT measuring process under Idle state.The different system adjacent cell of this Idle state measures incoming level threshold value and Idle state different system adjacent cell measurement quality of reception threshold value can ensure that terminal carries out carrying out different system adjacent cell measurement all the time in MDT measuring process under Idle state.

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

Due in umts, no matter in Idle state or in Connected state, terminal all can carry out homogeneous-frequency adjacent-domain measurement in MDT measuring process always, but the measurement always carrying out alien frequencies adjacent area or different system adjacent cell can not be ensured, start-up parameter is measured in configuring adjacent cell in umts by adopting above-described embodiment, can ensure that terminal is carrying out MDT measuring process, carry out the measurement of alien frequencies adjacent area and different system adjacent cell all the time.

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 base station, such as, be specifically as follows evolution base station (the Evolution NodeB of LTE system; Hereinafter referred to 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, the trace session activation message of carrying nearby region measurement start-up parameter that OAM sends is received;

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

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

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

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

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

When this base station is in UMTS, " receiving the trace session activation message of carrying nearby region measurement start-up parameter that OAM sends " in 300 specifically comprises: receive the trace session activation message of carrying nearby region measurement start-up parameter that OAM is sent 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 state or Connected state.

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

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

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

" according to trace session activation message generation MDT configuration messages " in this technical scheme can realize with reference to prior art.MDT configuration messages can corresponding Logged MeasurementConfiguration message.Due to terminal be in Idle state time, in the LTE system of prior art, base station is according to not having the field can carrying Idle state nearby region measurement incoming level threshold value and Idle state nearby region measurement quality of reception threshold value in the Logged Measurement Configuration message of trace session activation message generation, therefore field can be increased in the Logged Measurement Configuration message generated in the present embodiment, to carry Idle state nearby region measurement incoming level threshold value and Idle state nearby region measurement quality of reception threshold value in the field increased.

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

It should be noted that, in LTE system, when terminal is in Connected state, MDT configuration messages correspondence can be RRC Connection Reconfiguration message, has switch level thresholding (S-Measure) field in the MeasConfig cell in this message.Connected state homogeneous-frequency adjacent-domain can be carried measure incoming level threshold value in S-Measure field.And in LTE system, when terminal is in Connected state, RRC Connection Reconfiguration message is provided with the field of event, can this existing about the field of event in carry the first event enabling gate limit value.With reference to related art, can not repeat them here in detail.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in umts, when terminal is in Idle state, nearby region measurement start-up parameter comprises 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 adjacent cell of Idle state measures incoming level threshold value and the different system adjacent cell of Idle state measures quality of reception threshold value.Idle state alien frequencies nearby region measurement incoming level threshold value and Idle state alien frequencies nearby region measurement quality of reception threshold value can ensure that terminal carries out carrying out alien frequencies nearby region measurement all the time in MDT measuring process under Idle state; The different system adjacent cell of Idle state measures incoming level threshold value and Idle state different system adjacent cell measurement quality of reception threshold value can ensure that terminal carries out carrying out different system adjacent cell measurement all the time in MDT measuring process under Idle state.

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

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

B () increases field in the MDT configuration messages generated, and in increase field, carry Idle state alien frequencies nearby region measurement incoming level threshold value, Idle state alien frequencies nearby region measurement quality of reception threshold value, Idle state different system adjacent cell measurement incoming level threshold value and Idle state different system adjacent cell measurement quality of reception threshold value, obtain the MDT configuration messages carrying nearby region measurement start-up parameter.

" according to trace session activation message generation MDT configuration messages " in this technical scheme can realize with reference to prior art.MDT configuration messages can corresponding Logged MeasurementConfiguration message.Due to terminal be in Idle state time, in the UMTS of prior art, Idle state alien frequencies nearby region measurement incoming level threshold value can be carried according to not having in the Logged Measurement Configuration message of trace session activation message generation in base station, Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system adjacent cell of Idle state measures the field of incoming level threshold value and Idle state different system adjacent cell measurement quality of reception threshold value, therefore field can be increased in the Logged MeasurementConfiguration message generated in the present embodiment, to carry Idle state alien frequencies nearby region measurement incoming level threshold value in the field increased, Idle state alien frequencies nearby region measurement quality of reception threshold value, the different system adjacent cell of Idle state measures incoming level threshold value and the different system adjacent cell of Idle state measures quality of reception threshold value.

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

It should be noted that, in umts, when terminal is in Connected state, in MDT configuration messages, be provided with the field of event, can this existing about the field of event in carry second event enabling gate limit value.With reference to related art, can 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 Idle state, also comprise following content:

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

(ii) base station to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends Idle state, gathering after entity receives the measurement result of nearby region measurement under Idle state for following the tracks of, just can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to the measurement result of terminal nearby region measurement under Idle state.

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

(1) measurement result of carrying out nearby region measurement under Connected state that sends according to MDT configuration messages of base station receiving terminal;

Particularly, can carry the condition of carrying out the measurement result of nearby region measurement under requiring terminal to send Connected state in MDT configuration messages, such as transmitting time, in detail can with reference to prior art.

(2) base station to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends Connected state, gathering after entity receives the measurement result of nearby region measurement under Connected state for following the tracks of, just can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to the measurement result of terminal nearby region measurement under Connected state.

The difference of embodiment described in the technical scheme of above-described embodiment and Fig. 2 and the technical scheme of expanding embodiment is only, the technical scheme of embodiment described in Fig. 2 and expansion embodiment is the technical scheme describing the embodiment of the present invention in OAM side.And technical scheme that is embodiment illustrated in fig. 3 and expansion embodiment is the technical scheme describing the embodiment of the present invention in base station side.Therefore, technical scheme embodiment illustrated in fig. 3 and expansion embodiment with reference to the record of above-mentioned expansion embodiment embodiment illustrated in fig. 2 and corresponding, can 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, the MDT configuration messages carrying nearby region measurement start-up parameter that base station sends is received;

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

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

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

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

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

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

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

Alternatively, on the basis of the technical scheme of above-described embodiment, when in umts, when terminal is in Idle state, nearby region measurement start-up parameter comprises 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 adjacent cell of Idle state measures incoming level threshold value and the different system adjacent cell of Idle state measures quality of reception threshold value.Idle state alien frequencies nearby region measurement incoming level threshold value and Idle state alien frequencies nearby region measurement quality of reception threshold value can ensure that terminal carries out carrying out alien frequencies nearby region measurement all the time in MDT measuring process under Idle state; The different system adjacent cell of Idle state measures incoming level threshold value and Idle state different system adjacent cell measurement quality of reception threshold value can ensure that terminal carries out carrying out different system adjacent cell measurement all the time in MDT measuring process under Idle state.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 adjacent cell of Idle state measure incoming level threshold value and Idle state different system adjacent cell measurement quality of reception threshold value is carried in the field newly increased in institute MDT configuration messages.

Alternatively, on the basis of the technical scheme of above-described embodiment, when in umts, when terminal is in Connected state, nearby region measurement start-up parameter comprises second event enabling gate limit value.This second event enabling gate limit value can ensure that terminal carries out carrying out alien frequencies nearby region measurement and the measurement of different system adjacent cell in MDT measuring process all the time under Connected state.

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

When terminal transfers Connected state to by Idle state, terminal carries out the measurement result of nearby region measurement under sending Idle state to base station, for base station to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends Idle state, gathering after entity receives the measurement result of nearby region measurement under Idle state for following the tracks of, just can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to the measurement result of terminal nearby region measurement under Idle state.

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

Terminal carries out the measurement result of nearby region measurement under sending Connected state according to MDT configuration messages to base station, for base station to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends Connected state, gathering after entity receives the measurement result of nearby region measurement under Connected state for following the tracks of, just can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to the measurement result of terminal nearby region measurement under Connected state.

Particularly, can carry the condition of carrying out the measurement result of nearby region measurement under requiring terminal to send Connected state in MDT configuration messages, such as transmitting time, in detail can with reference to prior art.

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

Fig. 5 is the present invention's signaling diagram of the control method of nearby region measurement of providing of another embodiment again.The control method of the nearby region measurement of the present embodiment under Idle state, is example with terminal in 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 configures Idle state nearby region measurement incoming level threshold value and Idle state nearby region measurement quality of reception threshold value;

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

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

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

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

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

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

Under Idle state, the measurement result of nearby region measurement is that this base station is recorded and preserves.

506, the measurement result of nearby region measurement under the Idle state that reports of base station receiving terminal; And gather to following the tracks of the measurement result that entity sends nearby region measurement under Idle state.

Follow the tracks of and gather after entity receives the measurement result of nearby region measurement under Idle state, just can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to the measurement result of terminal nearby region measurement under Idle state.

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

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

The control method of the nearby region measurement of the present embodiment, can ensure that terminal is carrying out carrying out nearby region measurement all the time in MDT measuring process, thus complete neighbor measurement information can be got, can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to complete neighbor measurement information so that follow-up.And adopt the technical scheme of the present embodiment, because terminal can carry out all the time comprising the nearby region measurement measured co-frequency neighbor cell in MDT measures, no matter terminal is in which position of current service cell, can ensure that terminal can get RF fingerprint information all the time.Therefore performance evaluation, Performance Evaluation and Design of Performance etc. can be carried out according to the positional information of terminal to report to current service cell.

Fig. 6 is the present invention's signaling diagram of the control method of nearby region measurement of providing of another embodiment again.The control method of the nearby region measurement of the present embodiment for terminal under Connected state, in umts.As shown in Figure 6, the control method of the nearby region measurement of the present embodiment, specifically can comprise as follows:

600, OAM configures second event enabling gate limit value;

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

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

602, 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, base station sends the MDT configuration messages carrying second event enabling gate limit value to terminal;

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

605, terminal carries out the measurement result of alien frequencies adjacent area and the measurement of different system adjacent cell under terminal transmission Connected state according to MDT configuration messages;

606, the measurement result that alien frequencies adjacent area and different system adjacent cell are measured is carried out under the Connected state that base station receiving terminal sends according to MDT configuration messages; And to following the tracks of the measurement result gathering and carry out alien frequencies adjacent area and the measurement of different system adjacent cell under entity sends Connected state.

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

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

It should be noted that, under UMTS, terminal can carry out homogeneous-frequency adjacent-domain measurement all the time in MDT measures, and the measurement result reporting homogeneous-frequency adjacent-domain to measure, repeat no more in the present embodiment.

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

One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can have been come by the hardware that program command is relevant, aforesaid program can be stored in a computer read/write memory medium, this program, when performing, performs the step comprising said method embodiment; And aforesaid storage medium comprises: ROM, RAM, magnetic disc or CD etc. various can be program code stored medium.

The structural representation of the control appliance of the nearby region measurement that Fig. 7 provides for the embodiment of the present 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 for judge terminal whether be in power on open state and whether received base station send MDT configuration messages.Enforcement module 11 is connected with judge module 10, enforcement module 11 for judge when judge module 10 terminal be in power on open state and received the MDT configuration messages that base station sends time, force terminal to carry out nearby region measurement all the time carrying out MDT measuring process; This nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system adjacent cell and measures.

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

The control appliance of the nearby region measurement of the present embodiment, can ensure that by adopting above-mentioned module terminal is carrying out carrying out nearby region measurement all the time in MDT measuring process, thus complete neighbor measurement information can be got, can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to complete neighbor measurement information so that follow-up.And adopt the technical scheme of the present embodiment, because terminal can carry out all the time comprising the nearby region measurement measured co-frequency neighbor cell in MDT measures, no matter terminal is in which position of current service cell, can ensure that terminal can get RF fingerprint information all the time.Therefore performance evaluation, Performance Evaluation and Design of Performance etc. can be carried out according to the positional information of terminal to report to current service cell.

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

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 for being in Idle state during when terminal, force terminal after carrying out MDT measuring process and carrying 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 MDT measuring process is carried out all the time.This control module 12 is also for when terminal transfers Connected state to by Idle state, and the measurement result of the nearby region measurement that control terminal is preserved under Idle state reports base station.

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

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

The control appliance of the nearby region measurement of above-described embodiment, can ensure that terminal is carrying out carrying out nearby region measurement all the time in MDT measuring process, thus complete neighbor measurement information can be got, can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to complete neighbor measurement information so that follow-up.And adopt the technical scheme of above-described embodiment, because terminal can carry out all the time comprising the nearby region measurement measured co-frequency neighbor cell in MDT measures, no matter terminal is in which position of current service cell, can ensure that terminal can get RF fingerprint information all the time.Therefore performance evaluation, Performance Evaluation and Design of Performance etc. can be carried out according to the positional information of terminal to report to current service cell.

It should be noted that, the control appliance of the nearby region measurement of above-described embodiment specifically can become one with terminal.

The structural representation of the OAM equipment that Fig. 8 provides for the embodiment of the present 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 measures start-up parameter for configuring adjacent cell, and this nearby region measurement start-up parameter can ensure that terminal carries out carrying out nearby region measurement all the time in MDT measuring process under the open state that powers on.Sending module 21 is connected with configuration module 20, sending module 21 is for sending the trace session activation message of carrying the nearby region measurement start-up parameter that configuration module 20 configures to base station, carry the MDT configuration messages of nearby region measurement start-up parameter according to trace session activation message generation for base station, and MDT configuration messages is sent to terminal, carry out carrying out nearby region measurement all the time in MDT measuring process under terminal powers on open state according to the nearby region measurement start-up parameter in MDT configuration messages for terminal.

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

The OAM equipment of the present embodiment, can ensure that by adopting above-mentioned module terminal is carrying out carrying out nearby region measurement all the time in MDT measuring process, thus complete neighbor measurement information can be got, can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to complete neighbor measurement information so that follow-up.And adopt the technical scheme of above-described embodiment, because terminal can carry out all the time comprising the nearby region measurement measured co-frequency neighbor cell in MDT measures, no matter terminal is in which position of current service cell, can ensure that terminal can get RF fingerprint information all the time.Therefore performance evaluation, Performance Evaluation and Design of Performance etc. can be carried out according to the positional information of terminal to report to current service cell.

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

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

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

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

Alternatively, in the OAM equipment of above-described embodiment, when in LTE system, when terminal is in Connected state, configuration module 20 measures incoming level threshold value, the first event enabling gate limit value and second event enabling gate limit value specifically for configuration Connected state homogeneous-frequency adjacent-domain.Incoming level threshold value is measured in Connected state homogeneous-frequency adjacent-domain can ensure that terminal carries out carrying out homogeneous-frequency adjacent-domain measurement all the time in MDT measuring process under Connected state, and the first event enabling gate limit value can ensure that terminal carries out carrying out alien frequencies nearby region measurement and the measurement of different system adjacent cell in MDT measuring process all the time under Connected state.

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

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

The structural representation of the base station equipment that Fig. 9 provides for the embodiment of the present 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 for receiving the trace session activation message of carrying nearby region measurement start-up parameter of OAM transmission; This nearby region measurement start-up parameter is OAM configuration, in order to ensure that terminal carries out carrying out nearby region measurement all the time in MDT measuring process under the open state that powers on.Generation module 31 is connected with receiver module 30, and generation module 31 is for carrying the MDT configuration messages that receiver module 30 connects the nearby region measurement start-up parameter in the trace session activation message of searching according to trace session activation message generation.Sending module 32 is connected with generation module 31, the MDT configuration messages that sending module 32 generates for sending generation module 31 to terminal, carries out carrying out nearby region measurement all the time in MDT measuring process according to the nearby region measurement start-up parameter in MDT configuration messages for terminal under the open state that powers on.

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

The base station equipment of the present embodiment, can ensure that by adopting above-mentioned module terminal is carrying out carrying out nearby region measurement all the time in MDT measuring process, thus complete neighbor measurement information can be got, can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to complete neighbor measurement information so that follow-up.And adopt the technical scheme of above-described embodiment, because terminal can carry out all the time comprising the nearby region measurement measured co-frequency neighbor cell in MDT measures, no matter terminal is in which position of current service cell, can ensure that terminal can get RF fingerprint information all the time.Therefore performance evaluation, Performance Evaluation and performance network optimal design etc. can be carried out according to the positional information of terminal to report to current service cell.

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

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

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

Alternatively, in the base station equipment of above-described embodiment, when in LTE system, when terminal is in Idle state, nearby region measurement start-up parameter comprises Idle state nearby region measurement incoming level threshold value and Idle state nearby region measurement quality of reception threshold value.Idle state state nearby region measurement incoming level threshold value and Idle state state nearby region measurement quality of reception threshold value can ensure that terminal carries out carrying out nearby region measurement all the time in MDT measuring process under Idle state state.Generation module 31 in now corresponding above-described embodiment specifically comprises: the first generation unit and first carries unit.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 received according to receiver module 30.First carries unit is connected with the first generation unit, first carries unit for increasing field in the MDT configuration messages of the first generation unit generation, and Idle state nearby region measurement incoming level threshold value and Idle state nearby region measurement quality of reception threshold value is carried in increase field, obtain the MDT configuration messages carrying nearby region measurement start-up parameter.

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

Alternatively, in the base station equipment of above-described embodiment, when in umts, when terminal is in Idle state, nearby region measurement start-up parameter comprises 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 adjacent cell of Idle state measures incoming level threshold value and the different system adjacent cell of Idle state measures quality of reception threshold value.Idle state alien frequencies nearby region measurement incoming level threshold value and Idle state alien frequencies nearby region measurement quality of reception threshold value can ensure that terminal carries out carrying out alien frequencies nearby region measurement all the time in MDT measuring process under Idle state.The different system adjacent cell of Idle state measures incoming level threshold value and Idle state different system adjacent cell measurement quality of reception threshold value can ensure that terminal carries out carrying out different system adjacent cell measurement all the time in MDT measuring process under Idle state.

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

Alternatively, in the base station equipment of above-described embodiment, when in umts, when terminal is in Connected state, nearby region measurement start-up parameter comprises second event enabling gate limit value; Second event enabling gate limit value can ensure that terminal carries out carrying out alien frequencies nearby region measurement and the measurement of different system adjacent cell in MDT measuring process all the time under Connected state.

Alternatively, no matter in LTE system or in umts, when terminal is in Idle state; Receiver module 30 also for when terminal transfers Connected state to by Idle state, receiving terminal send the measurement result of carrying out nearby region measurement under Idle state; Sending module 32 is also connected with receiver module 30, and sending module 32 is also for carrying out the measurement result of nearby region measurement under the Idle state to the reception of tracking collection entity sending/receiving module 30.

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

The structural representation of the terminal that Figure 10 provides for the embodiment of the present 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 under the open state that powers on, and receives the MDT configuration messages carrying nearby region measurement start-up parameter that base station sends; This MDT configuration messages carrying nearby region measurement start-up parameter is that base station is according to the trace session activation message generation carrying nearby region measurement start-up parameter receiving OAM transmission; This nearby region measurement start-up parameter is OAM configuration.Measurement module 41 is connected with receiver module 40, and measurement module 41, for the nearby region measurement start-up parameter in the MDT configuration messages that receives according to receiver module 40, carries out carrying out nearby region measurement all the time in MDT measuring process under the open state that powers on.

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

The terminal of the present embodiment, can ensure that by adopting above-mentioned module terminal is carrying out carrying out nearby region measurement all the time in MDT measuring process, thus complete neighbor measurement information can be got, can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to complete neighbor measurement information so that follow-up.And adopt the technical scheme of above-described embodiment, because terminal can carry out all the time comprising the nearby region measurement measured co-frequency neighbor cell in MDT measures, no matter terminal is in which position of current service cell, can ensure that terminal can get RF fingerprint information all the time.Therefore performance evaluation, Performance Evaluation and Design of Performance etc. can be carried out according to the positional information of terminal to report to current service cell.

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

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

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

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

Alternatively, in the terminal of above-described embodiment, when in umts, when terminal is in Idle state, nearby region measurement start-up parameter comprises 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 adjacent cell of Idle state measures incoming level threshold value and the different system adjacent cell of Idle state measures quality of reception threshold value; Idle state alien frequencies nearby region measurement incoming level threshold value and Idle state alien frequencies nearby region measurement quality of reception threshold value can ensure that terminal carries out carrying out alien frequencies nearby region measurement all the time in MDT measuring process under Idle state; The different system adjacent cell of Idle state measures incoming level threshold value and Idle state different system adjacent cell measurement quality of reception threshold value can ensure that terminal carries out carrying out different system adjacent cell measurement all the time in MDT measuring process under Idle state, and 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 adjacent cell of Idle state measure incoming level threshold value and Idle state different system adjacent cell measurement quality of reception threshold value is carried in the field newly increased in MDT configuration messages.

Alternatively, in the terminal of above-described embodiment, when in umts, when terminal is in Connected state, nearby region measurement start-up parameter comprises second event enabling gate limit value; Second event enabling gate limit value can ensure that terminal carries out carrying out alien frequencies nearby region measurement and the measurement of different system adjacent cell in MDT measuring process all the time under Connected state.

Alternatively, also comprise in the terminal of above-described embodiment: sending module.When terminal is in Idle state, this sending module is used for when transferring Connected state to by Idle state, the measurement result of nearby region measurement is carried out, for base station to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends Idle state under sending Idle state to base station.When terminal is in Connected state, this sending module carries out the measurement result of nearby region measurement under being used for sending Connected state according to MDT configuration messages to base station, for base station to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends Connected state.

The structural representation of the control system of the nearby region measurement that Figure 11 provides for the embodiment of the present 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 measurement start-up parameter, and sends the trace session activation message of carrying nearby region measurement start-up parameter to base station 60.The trace session activation message of carrying nearby region measurement start-up parameter that base station 60 sends for receiving OAM50; And the MDT configuration messages of nearby region measurement start-up parameter is carried according to trace session activation message generation; MDT configuration messages is sent to terminal 70.Terminal 70, under the open state that powers on, receives the MDT configuration messages carrying nearby region measurement start-up parameter that base station 60 sends; According to the nearby region measurement start-up parameter in MDT configuration messages, carry out carrying out nearby region measurement all the time in MDT measuring process under the open state that powers on.

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

The control system of the nearby region measurement of the present embodiment, OAM50 such as can adopt the OAM equipment of above-mentioned expansion embodiment embodiment illustrated in fig. 8 and corresponding.Base station 60 such as can adopt the base station equipment of above-mentioned expansion embodiment embodiment illustrated in fig. 9 and corresponding.Terminal 70 such as 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, can ensure that terminal is carrying out carrying out nearby region measurement all the time in MDT measuring process by adopting OAM50, base station 60 and terminal 70, thus complete neighbor measurement information can be got, can realize carrying out Performance Evaluation accurately to the periphery adjacent area of current service cell according to complete neighbor measurement information so that follow-up.And adopt the technical scheme of above-described embodiment, because terminal can carry out all the time comprising the nearby region measurement measured co-frequency neighbor cell in MDT measures, no matter terminal is in which position of current service cell, can ensure that terminal can get RFfingerprint information all the time.Therefore performance evaluation, Performance Evaluation and Design of Performance etc. can be carried out according to the positional information of terminal to report to current service cell.

Device embodiment described above is only schematic, the unit wherein illustrated as separating component or can may not be and physically separates, parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed at least two network element.Some or all of module wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.Those of ordinary skill in the art, when not paying performing creative labour, are namely appreciated that and implement.

Last it is noted that above embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (66)

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

Judge terminal whether be in power on open state and whether received base station send minimum road test configuration messages;

When described terminal be in power on open state and received described base station send described minimum road test configuration messages time, force described terminal carrying out carrying out nearby region measurement all the time in minimum road test measuring process; Described nearby region measurement comprises homogeneous-frequency adjacent-domain measurement, alien frequencies nearby region measurement and different system adjacent cell and measures.

2. method according to claim 1, is characterized in that, described in the open state that powers on comprise 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 carried out all the time in minimum road test measuring process;

When described terminal transfers described connected state to by described Idle state, control described terminal and the measurement result of the nearby region measurement preserved under described Idle state is 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, carry out the measurement result of nearby region measurement according to described minimum road test configuration messages to described base station.

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

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

The trace session activation message of carrying described nearby region measurement start-up parameter is sent to 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 is sent to terminal, carry out carrying out nearby region measurement all the time in minimum road test measuring process under described terminal powers on open state according to the described nearby region measurement start-up parameter in described minimum road test configuration messages for described terminal.

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, specifically comprise to base station:

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

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

7. the method according to claim 5 or 6, is characterized in that, described in the open state that powers on comprise 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 adjacent cell and measures;

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

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, start-up parameter is measured in configuring adjacent cell, 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 ensure that terminal carries out carrying out described nearby region measurement all the time in minimum road test measuring process 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, start-up parameter is measured in configuring adjacent cell, specifically comprise: incoming level threshold value and the first event enabling gate limit value are measured in configuration connected state homogeneous-frequency adjacent-domain, incoming level threshold value is measured in described connected state homogeneous-frequency adjacent-domain can ensure that described terminal carries out carrying out the measurement of described homogeneous-frequency adjacent-domain all the time in minimum road test measuring process under described connected state, described first event enabling gate limit value can ensure that described terminal carries out carrying out described alien frequencies nearby region measurement and described different system adjacent cell measurement in minimum road test measuring process all the time under described connected state.

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

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

The control method of 13. 1 kinds of nearby region measurements, is characterized in that, comprising:

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

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

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

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

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

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

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

16. methods 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 adjacent cell and measures;

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

17. methods according to claim 16, it is characterized in that, when in described long evolving system, when described terminal is in described Idle state, described nearby region measurement start-up parameter comprises 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 ensure that terminal carries out carrying out described nearby region measurement all the time in minimum road test measuring process under described Idle state.

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

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

Field is increased in 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 the minimum road test configuration messages carrying described nearby region measurement start-up parameter.

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

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

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

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

Field is increased in 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, described Idle state different system adjacent cell measurement incoming level threshold value and described Idle state different system adjacent cell measurement quality of reception threshold value, obtain the minimum road test configuration messages carrying described nearby region measurement start-up parameter.

22. methods according to claim 17,18,20 or 21, 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 carrying out nearby region measurement under described Idle state that described terminal sends;

And to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends described Idle state.

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

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

Receive 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;

And to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends described connected state.

The control method of 25. 1 kinds of nearby region measurements, is characterized in that, comprising:

Under terminal powers on open state, receive the minimum road test configuration messages carrying nearby region measurement start-up parameter that base station sends; To be described base station carry the trace session activation message generation of described nearby region measurement start-up parameter according to what receive that operation management maintain center sends to the described minimum road test configuration messages carrying nearby region measurement start-up parameter; 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 described minimum road test configuration messages, carry out carrying out nearby region measurement all the time in minimum road test measuring process under the open state that powers on.

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

27. methods 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 adjacent cell and measures;

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

28. methods according to claim 27, it is characterized in that, when in described long evolving system, when described terminal is in described Idle state, described nearby region measurement start-up parameter comprises 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 ensure that terminal carries out carrying out described nearby region measurement all the time in minimum road test measuring process 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 newly increased in described minimum road test configuration messages.

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

30. methods according to claim 27, it is characterized in that, when in described universal mobile telecommunications system, when described terminal is in described Idle state, described nearby region measurement start-up parameter comprises 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 adjacent cell of Idle state measures incoming level threshold value and the different system adjacent cell of Idle state measures 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 ensure that terminal carries out carrying out described alien frequencies nearby region measurement all the time in minimum road test measuring process under described Idle state, the different system adjacent cell of described Idle state measures incoming level threshold value and described Idle state different system adjacent cell measurement quality of reception threshold value can ensure that terminal is carried out carrying out described different system adjacent cell in minimum road test measuring process all the time and measured under described Idle state, 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 adjacent cell of described Idle state measures incoming level threshold value and described Idle state different system adjacent cell measurement quality of reception threshold value is carried in the field newly increased in described minimum road test configuration messages.

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

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

When transferring connected state to by described Idle state, under sending described Idle state to described base station, carry out the measurement result of nearby region measurement, for described base station to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends described Idle state.

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

The measurement result of nearby region measurement is carried out, for described base station to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends described connected state under sending described connected state according to described minimum road test configuration messages to described base station.

The control appliance of 34. 1 kinds of nearby region measurements, is characterized in that, comprising:

Judge module, for judge terminal whether be in power on open state and whether received base station send minimum road test configuration messages;

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

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

The control appliance of 36. nearby region measurements according to claim 35, is characterized in that, also comprise:

Control module, 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 carried out all the time in minimum road test measuring process;

Described control module, also for when described terminal transfers described connected state to by described Idle state, controls described terminal and the measurement result of the nearby region measurement preserved under described Idle state is reported described base station.

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

38. 1 kinds of operation management maintain central apparatus, is characterized in that, comprising:

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

Sending module, for sending the trace session activation message of carrying described nearby region measurement start-up parameter to 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 is sent to terminal, carry out carrying out nearby region measurement all the time in minimum road test measuring process under described terminal powers on open state according to the described nearby region measurement start-up parameter in described minimum road test configuration messages for described terminal.

39. according to operation management maintain central apparatus according to claim 38, it is characterized in that, described sending module, specifically for sending 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; Or for or sent the trace session activation message of carrying described nearby region measurement start-up parameter to described base station by mobile switching centre and business general switch node.

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

41. operation management maintain central apparatus according to claim 40, 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 adjacent cell and measures;

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

42. 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, specifically for 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 ensure that terminal carries out carrying out described nearby region measurement all the time in minimum road test measuring process under described Idle state.

43. 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, incoming level threshold value and the first event enabling gate limit value is measured specifically for configuration connected state homogeneous-frequency adjacent-domain, incoming level threshold value is measured in described connected state homogeneous-frequency adjacent-domain can ensure that described terminal carries out carrying out the measurement of described homogeneous-frequency adjacent-domain all the time in minimum road test measuring process under described connected state, described first event enabling gate limit value can ensure that described terminal carries out carrying out described alien frequencies nearby region measurement and described different system adjacent cell measurement in minimum road test measuring process all the time under described connected state.

44. 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, specifically for 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 adjacent cell of Idle state measures incoming level threshold value and the different system adjacent cell of Idle state measures 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 ensure that terminal carries out carrying out described alien frequencies nearby region measurement all the time in minimum road test measuring process under described Idle state; The different system adjacent cell of described Idle state measures incoming level threshold value and described Idle state different system adjacent cell measurement quality of reception threshold value can ensure that terminal is carried out carrying out described different system adjacent cell in minimum road test measuring process all the time and measured under described Idle state.

45. 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, specifically for configuration second event enabling gate limit value, described second event enabling gate limit value can ensure that described terminal carries out carrying out described alien frequencies nearby region measurement and described different system adjacent cell measurement in minimum road test measuring process all the time under described connected state.

46. 1 kinds of base station equipments, is characterized in that, comprising:

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

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

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

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

49. base station equipments according to claim 48, 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 adjacent cell and measures;

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

50. base station equipments according to claim 49, it is characterized in that, when in described long evolving system, when described terminal is in described Idle state, described nearby region measurement start-up parameter comprises 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 ensure that terminal carries out carrying out described nearby region measurement all the time in minimum road test measuring process under described Idle state.

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

First generation unit, for according to described trace session activation message generation minimum road test configuration messages;

First carries unit, for increasing field in 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 the minimum road test configuration messages carrying described nearby region measurement start-up parameter.

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

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

54. base station equipments according to claim 53, is characterized in that, described generation module, specifically comprises:

Second generation unit, for according to described trace session activation message generation minimum road test configuration messages;

Second carries unit, for increasing field in 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, described Idle state different system adjacent cell measurement incoming level threshold value and described Idle state different system adjacent cell measurement quality of reception threshold value, obtain the minimum road test configuration messages carrying described nearby region measurement start-up parameter.

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

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

Described sending module, also for gathering the measurement result of carrying out nearby region measurement under entity sends described Idle state to tracking.

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

57. base station equipments according to claim 52 or 56, is characterized in that, when described terminal is in described connected state:

Described receiver module, also 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 for gathering the measurement result of carrying out nearby region measurement under entity sends described connected state to tracking.

58. 1 kinds of terminals, is characterized in that, comprising:

Receiver module, under the open state that powers on, receives the minimum road test configuration messages carrying nearby region measurement start-up parameter that base station sends; To be described base station carry the trace session activation message generation of described nearby region measurement start-up parameter according to what receive that operation management maintain center sends to the described minimum road test configuration messages carrying nearby region measurement start-up parameter; Described nearby region measurement start-up parameter is described operation management maintain center configuration;

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

59. terminals according to claim 58, is characterized in that, described in the open state that powers on comprise Idle state or connected state.

60. terminals according to claim 59, 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 adjacent cell and measures;

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

61. terminals according to claim 60, it is characterized in that, when in described long evolving system, when described terminal is in described Idle state, described nearby region measurement start-up parameter comprises 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 ensure that terminal carries out carrying out described nearby region measurement all the time in minimum road test measuring process 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 newly increased in described minimum road test configuration messages.

62. terminals according to claim 60, it is characterized in that, when in described long evolving system, when described terminal is in described connected state, described nearby region measurement start-up parameter comprises connected state homogeneous-frequency adjacent-domain and measures incoming level threshold value and the first event enabling gate limit value; Incoming level threshold value is measured in described connected state homogeneous-frequency adjacent-domain can ensure that described terminal carries out carrying out the measurement of described homogeneous-frequency adjacent-domain all the time in minimum road test measuring process under described connected state, and described first event enabling gate limit value can ensure that described terminal carries out carrying out described alien frequencies nearby region measurement and described different system adjacent cell measurement in minimum road test measuring process all the time under described connected state.

63. terminals according to claim 60, it is characterized in that, when in described universal mobile telecommunications system, when described terminal is in described Idle state, described nearby region measurement start-up parameter comprises 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 adjacent cell of Idle state measures incoming level threshold value and the different system adjacent cell of Idle state measures 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 ensure that terminal carries out carrying out described alien frequencies nearby region measurement all the time in minimum road test measuring process under described Idle state, the different system adjacent cell of described Idle state measures incoming level threshold value and described Idle state different system adjacent cell measurement quality of reception threshold value can ensure that terminal is carried out carrying out described different system adjacent cell in minimum road test measuring process all the time and measured under described Idle state, 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 adjacent cell of described Idle state measures incoming level threshold value and described Idle state different system adjacent cell measurement quality of reception threshold value is carried in the field newly increased in described minimum road test configuration messages.

64. terminals according to claim 60, is characterized in that, when in described universal mobile telecommunications system, when described terminal is in described connected state, described nearby region measurement start-up parameter comprises second event enabling gate limit value; Described second event enabling gate limit value can ensure that described terminal carries out carrying out described alien frequencies nearby region measurement and described different system adjacent cell measurement in minimum road test measuring process all the time under described connected state.

65. terminals according to claim 61 or 63, is characterized in that, also comprise: sending module;

When described terminal is in described Idle state, described sending module, for when transferring connected state to by described Idle state, the measurement result of nearby region measurement is carried out, for described base station to following the tracks of the measurement result gathering and carry out nearby region measurement under entity sends described Idle state under sending described Idle state to described base station;

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

The control system of 66. 1 kinds of nearby region measurements, is characterized in that, comprising: operation management maintain center, base station and terminal;

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

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

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