CN103139832B - Mobility measurements method and subscriber equipment, evolution network base station - Google Patents

Abstract

The embodiment of the present invention relates to a kind of mobility measurements method and subscriber equipment, evolution network base station, and wherein a kind of method comprises: receive and measure configuration parameter, described measurement configuration parameter comprises the first measurement spacing bias amount; When the discontinuous reception duration is in the measurement interval determined according to described first measurement spacing bias amount, measure in the measurement interval determined according to the second measurement spacing bias amount.Another kind method comprises: receive and measure configuration parameter, described measurement configuration parameter comprises the first measurement spacing bias amount; When the discontinuous reception duration is in the measurement interval determined according to the first measurement spacing bias amount, extend the duration, and measure in the measurement interval determined according to the first measurement spacing bias amount; The prolongation amount of duration is between measurement gap length and length of one's sleep length.The embodiment of the present invention can ensure normal dispatching services data within the DRX duration, avoids the loss of business datum.

Description

Mobility measurements method and subscriber equipment, evolution network base station

The divisional application of the application's to be the application number submitted on October 31st, 2008 be patent application of 200810225644.5.

Technical field

The embodiment of the present invention relates to the communications field, particularly relates to mobility measurements method and subscriber equipment, evolution network base station.

Background technology

At Long Term Evolution (LongTermEvolution, LTE), in system, mobility measurements is mainly in order to better support the mobility of subscriber equipment (UserEquipment, UE), carry out in time switching and cell reselection, ensure reliability and the continuity of customer service.Mobility measurements is divided into frequently, between frequency and measures between system.Measure in frequently, due in the similar frequency bands of LTE system, UE can carry out normal data transmitting-receiving and measurement simultaneously; And for measuring between frequency and between system, UE generally needs frequency hopping to carry out when measurement, therefore cannot carry out normal data transmit-receive simultaneously, in order to discriminating measurement and regular traffic, the impact taking into account measurement quality simultaneously and reduce regular traffic, network side is allocating and measuring interval (measurementgap) in measurement configuration parameter, for measuring between frequency and between system.UE measures in measurement interval, and now normal data transmit-receive can stop.In LTE system, measurement gap length is 6ms, and the cycle has two kinds: 40ms and 80ms.Meanwhile, be also configured with a parameter measuring spacing bias amount (gapOffset) arrange to measure between be interposed between original position in measuring period, UE carries out mobility measurements according to this measurement spacing bias amount.

In LTE system, UE utilizes discontinuous reception (DiscontinuousReception, DRX) pattern carries out power saving, according to DRX mechanism of the prior art, what UE started at DRX cycle continues (onduration) time monitoring Physical Downlink Control Channel (PhysicalDownlinkControlChannel, PDCCH), if there is the scheduling of evolution network base station (eNB), the transmitting-receiving of business datum is then carried out according to this scheduling, continue to monitor PDDCH simultaneously, if do not receive the scheduling of eNB within the DRX duration, UE then enters sleep (sleep) time, namely transceiver is closed, be in power down mode.ENB can not carry out data dispatch to UE during this period, until the next DRX duration.

Inventor finds in the practice of the invention: DRX cycle of the prior art can be 32ms, 64ms, 128ms and 256ms etc., cannot mate completely with measurement gap periods (40ms or 80ms).Conflict if the DRX duration just and may measure interval, that is: the DRX duration is in measures in interval completely, then owing to not monitoring that PDCCH carries out the scheduling of data measuring UE in interval, the business datum of eNB can not be sent in time and even lose.

Summary of the invention

Embodiments provide mobility measurements method and subscriber equipment, evolution network base station, send the problem of even losing not in time in order to solve the business datum when the DRX duration is in measurement interval completely.

Embodiments provide a kind of mobility measurements method, comprising:

Receive and measure configuration parameter, described measurement configuration parameter comprises the first measurement spacing bias amount;

When the discontinuous reception DRX duration is in the measurement interval determined according to described first measurement spacing bias amount, measure in the measurement interval determined according to the second measurement spacing bias amount.

Embodiments provide another kind of mobility measurements method, comprising:

Receive and measure configuration parameter, described measurement configuration parameter comprises the first measurement spacing bias amount;

When the discontinuous reception DRX duration is in the measurement interval determined according to described first measurement spacing bias amount, extend the described DRX duration, and measure in the measurement interval determined according to described first measurement spacing bias amount; The prolongation amount of described DRX duration is between measurement gap length and the DRX length length of one's sleep.

Embodiments provide a kind of subscriber equipment, comprising:

Receiver module, for receiving measurement configuration parameter, described measurement configuration parameter comprises the first measurement spacing bias amount;

Detection module, for judging the discontinuous reception DRX duration whether measuring in the measurement interval that spacing bias amount determines according to first, if so, then triggers measurement module;

Measurement module, for when being subject to the triggering of described detection module, measures in the measurement interval determined according to the second measurement spacing bias amount.

Embodiments provide a kind of evolution network base station, comprising:

Sending module, for sending measurement configuration parameter, described measurement configuration parameter comprises the first measurement spacing bias amount and second and measures spacing bias amount; Be interposed between in same measurement gap periods between the measurement interval that described first measurement spacing bias amount is determined and the measurement that described second measurement spacing bias amount is determined, described first measures spacing bias amount and second measures the minimum value of the difference of spacing bias amount for measurement gap length;

Receiver module, for receiving the measurement report reported.

Embodiments provide another kind of subscriber equipment, comprising:

Receiver module, for receiving measurement configuration parameter, described measurement configuration parameter comprises the first measurement spacing bias amount;

Detection module, for judging the discontinuous reception DRX duration whether measuring in the measurement interval that spacing bias amount determines according to first, if so, then trigger control module;

Control module, for when being subject to the triggering of described detection module, extending the described DRX duration and triggering measurement module, and the prolongation amount of described DRX duration is between measurement gap length and the DRX length length of one's sleep;

Measurement module, for when being subject to the triggering of described control module, measures in the measurement interval determined according to described first measurement spacing bias amount.

In the embodiment of the present invention, when the DRX duration is in the measurement interval determined according to the first measurement spacing bias amount, normal dispatching services data within the DRX duration can be ensured, avoid the loss of business datum.

Accompanying drawing explanation

Fig. 1 is the flow chart of a kind of mobility measurements embodiment of the method one of the present invention;

Fig. 2 is the flow chart of a kind of mobility measurements embodiment of the method two of the present invention;

Fig. 3 is the flow chart of a kind of mobility measurements embodiment of the method three of the present invention;

Fig. 4 is the time diagram of a kind of mobility measurements embodiment of the method three of the present invention;

Fig. 5 is the flow chart of the another kind of mobility measurements embodiment of the method one of the present invention;

Fig. 6 is the flow chart of the another kind of mobility measurements embodiment of the method two of the present invention;

Fig. 7 is the time diagram of the another kind of mobility measurements embodiment of the method two of the present invention;

Fig. 8 is the structural representation of a kind of subscriber equipment embodiment of the present invention;

Fig. 9 is the structural representation of a kind of evolution network base station embodiment of the present invention;

Figure 10 is the structural representation of the another kind of subscriber equipment embodiment of the present invention.

Embodiment

Below by drawings and Examples, the technical scheme of the embodiment of the present invention is described in further detail.

As shown in Figure 1, be the flow chart of a kind of mobility measurements embodiment of the method one of the present invention, specifically comprise the steps:

Step 101, reception measure configuration parameter, and this measurement configuration parameter comprises the first measurement spacing bias amount;

Step 102, when the DRX duration is when measuring in the measurement interval that spacing bias amount determines according to first, measuring in measurement interval that spacing bias amount determines second and measuring.

In the present embodiment and each follow-up embodiment, the DRX duration specifically refers to that the start time point of DRX duration is no earlier than the start time point measuring interval in measurement interval, and the end time of DRX duration point is not later than the end time point measuring interval.For ease of describing, hereinafter the situation of this DRX duration in measurement interval is conflicted with the DRX duration referred to as measurement interval.

The present embodiment is when the DRX duration is in the measurement interval determined according to the first measurement spacing bias amount, measure according to the measurement interval that the second measurement spacing bias amount is determined, measurement interval and DRX duration is made to stagger like this, ensureing within the DRX duration can dispatching services data normally, avoids the loss of business datum.

As shown in Figure 2, be the flow chart of a kind of mobility measurements embodiment of the method two of the present invention, the present embodiment carries out mobility measurements for UE and is introduced, and specifically comprises the steps:

Step 201, UE receive the first measurement spacing bias amount that comprises of eNB transmission and the measurement configuration parameter of the second measurement spacing bias amount;

The signaling of wherein carrying this measurement configuration parameter can be wireless heterogeneous networks (RadioResourceControl, RRC) signaling, such as, this measurement configuration parameter is included in the MeasurementConfiguration information unit of RRC signaling, this MeasurementConfiguration information unit comprises the MeasGapConfig information unit for allocating and measuring interval further, the measurement interval (gap2) that measurement interval (gap1) that the cycle is 40ms and cycle are 80ms is comprised in MeasGapConfig information unit, and the measurement spacing bias amount at each measurement interval: first measures spacing bias amount (also can be called main measurement spacing bias amount, i.e. primarygapOffset) and second measure spacing bias amount and (also can be called auxiliary measurement spacing bias amount, i.e. secondarygapOffset).

In this step, first measures spacing bias amount and the second parameter value measuring spacing bias amount can meet: measure measurement interval that spacing bias amount determines according to first and measure between measurement that spacing bias amount determines according to second and be interposed between in same measurement gap periods, and the minimum value of both differences is for measuring gap length.That is, above-mentioned two parameter values measuring spacing bias amount should pull open as far as possible in measurement gap periods, particularly, these two minimum values measuring the difference of spacing bias amount can for measuring gap length, and the maximum of this difference can for the maximum that can obtain in same measurement gap periods.Such as: measurement gap periods is 40ms, measurement gap length is 6ms, and the first measurement spacing bias amount is 21, then the second span measuring spacing bias amount can be 0-15 and 27-34.

Step 202, UE judge the DRX duration whether measuring in the measurement interval that spacing bias amount determines according to first, if so, then perform step 204; Otherwise perform step 203;

Step 203, UE measure in the measurement interval determined according to the first measurement spacing bias amount;

Concrete, UE judges to carry out measuring in the measurement interval determined according to the first measurement spacing bias amount to cause the DRX duration in the measurement interval that the first measurement spacing bias amount is determined by detection computations, then utilize the first measurement interval to measure.

This step is applicable to length of one's sleep measurement interval being configured in UE, the situation that the cycle of DRX and measurement gap periods match each other, also the cycle and the measurement gap periods that are applicable to DRX are not mated, but utilize the first measurement spacing bias amount to measure in the most of the time, make to measure interval and DRX duration not afoul situation.

Step 204, UE measure in the measurement interval determined according to the second measurement spacing bias amount.

In this step, when the DRX duration is in the measurement interval determined according to the first measurement spacing bias amount, in the measurement interval determined according to the second measurement spacing bias amount, carries out measurement can avoid conflict, measurement interval and DRX duration are staggered.

In the present embodiment, after UE measures, can measurement report be generated and send to eNB.

In the present embodiment, eNB provides two measurement configuration parameters measuring spacing bias amounts for UE, make UE when judging that the DRX duration is in the measurement interval determined according to the first measurement spacing bias amount, measure in the measurement interval that the second measurement spacing bias amount is determined, such measurement interval and DRX duration can stagger, ensureing within the DRX duration can dispatching services data normally, avoids the loss of business datum.

As shown in Figure 3, for the flow chart of a kind of mobility measurements embodiment of the method three of the present invention, as shown in Figure 4, be the time diagram of a kind of mobility measurements embodiment of the method three of the present invention, the present embodiment carries out mobility measurements for UE and is introduced, and specifically comprises the following steps:

Step 301, UE receive the measurement configuration parameter comprising the first measurement spacing bias amount that eNB sends;

The signaling of wherein carrying this measurement configuration parameter can be RRC signaling, such as, this measurement configuration parameter is included in the MeasurementConfiguration information unit of RRC signaling, this MeasurementConfiguration information unit comprises the MeasGapConfig information unit for allocating and measuring interval further, comprise the measurement interval (gap2) that measurement interval (gap1) that the cycle is 40ms and cycle are 80ms in MeasGapConfig information unit, and first of each measurement interval measures spacing bias amount.

Step 302, UE judge the DRX duration whether measuring in the measurement interval that spacing bias amount determines according to first, if so, then perform step 304; Otherwise perform step 303;

Step 303, UE measure in the measurement interval that the first measurement spacing bias amount is determined;

If when UE judges to utilize the first measurement spacing bias amount to measure by detection computations, can not cause the DRX duration in measurement interval, then measure in the measurement interval that the first measurement interval is determined.

This step is applicable to length of one's sleep measurement interval being configured in UE, the situation that the cycle of DRX and measurement gap periods match each other, also the cycle and the measurement gap periods that are applicable to DRX are not mated simultaneously, but utilize the first measurement spacing bias amount to measure in the most of the time, make to measure interval and DRX duration not afoul situation.

Step 304, measure place, interval measurement gap periods in, measurement interval is offset forward or backward more than one Transmission Time Interval (TTI), determines the second measurement spacing bias amount;

Step 305, to measure measuring in measurement interval that spacing bias amount determines according to second.

Further, UE after measurements, can generate measurement report and sends to eNB.

Be illustrated in figure 4 the process citing of above-mentioned steps 304, measurement interval is displaced to position B by position A, measurement interval and DRX duration can be staggered.Wherein, measurement interval is offset forward or backward more than one Transmission Time Interval, mean that measuring spacing bias amount changes, and at this, measures spacing bias amount using the time span sum that first measures spacing bias amount and skew as second.The number of the TTI of skew can be determined according to measurement interval by UE and eNB, particularly, measuring measurement interval that spacing bias amount determines according to first and measure according to second measurement interval that spacing bias amount determines should in same measurement gap periods, and the minimum value of both differences should for measuring gap length.Therefore, the minimum value of the time span of skew can for measuring gap length, and maximum can for the maximum that can obtain in same measurement gap periods.The TTI number of skew equals the business of time span and the TTI length offset.Such as: measurement gap periods is 40ms, measurement gap length is 6ms, TTI length is 2ms, and the first measurement spacing bias amount is 21, then the span of the time span offset is 6ms-21ms, and the span of the TTI number of skew is 3-10.

In the present embodiment, UE is when judging that the DRX duration is in the measurement interval determined according to the first measurement spacing bias amount, in the measurement gap periods at this place, measurement interval, measurement interval is offset forward or backward more than one TTI, such measurement interval and DRX duration can stagger, ensureing within the DRX duration can dispatching services data normally, avoids the loss of business datum.

As shown in Figure 5, be the flow chart of the another kind of mobility measurements embodiment of the method one of the present invention, specifically comprise the steps:

Step 401, reception measure configuration parameter, and this measurement configuration parameter comprises the first measurement spacing bias amount;

Step 402, when the DRX duration is when measuring in the measurement interval that spacing bias amount determines according to first, extend the DRX duration, and measure in measurement interval that spacing bias amount determines first and measure; The prolongation amount of this DRX duration is between measurement gap length and the DRX length length of one's sleep.

The present embodiment is when judging that the DRX duration is in the measurement interval determined according to the first measurement spacing bias amount, extend the DRX duration, make UE can after prolongation during in monitor PDCCH and can dispatching services data normally, avoid the loss of business datum.

As shown in Figure 6, for the flow chart of the another kind of mobility measurements embodiment of the method two of the present invention, as shown in Figure 7, be the time diagram of the another kind of mobility measurements embodiment of the method two of the present invention, the present embodiment carries out mobility measurements for eNB to UE and is introduced, and specifically comprises the steps:

Step 501, UE receive the measurement configuration parameter comprising the first measurement spacing bias amount that eNB sends;

The signaling of wherein carrying this measurement configuration parameter can be RRC signaling, such as, this measurement configuration parameter is included in the MeasurementConfiguration information unit of RRC signaling, this MeasurementConfiguration information unit comprises the MeasGapConfig information unit for allocating and measuring interval further, comprise the measurement interval (gap2) that measurement interval (gap1) that the cycle is 40ms and cycle are 80ms in MeasGapConfig information unit, and first of each measurement interval measures spacing bias amount.

Step 502, UE judge the DRX duration whether measuring in the measurement interval that spacing bias amount determines according to first, if so, then perform step 503; Otherwise perform step 504;

Step 503, extend this DRX duration, the prolongation amount of this DRX duration is between measurement gap length and the DRX length length of one's sleep;

Step 504, UE measure in the measurement interval determined according to the first measurement spacing bias amount;

Further, UE after measurements, can generate measurement report and sends to eNB.

Be illustrated in figure 7 the process citing of above-mentioned steps 503, wherein, in the DRX duration, bold portion represents the former DRX duration, and dotted portion represents the DRX duration of prolongation.Then the prolongation amount of DRX duration can for measuring gap length, and the DRX time duration after namely extending is former DRX time duration and measures gap length sum.Such as, measurement gap length is 6ms, then the DRX time duration after extending equals former DRX time duration+6ms; The prolongation amount of DRX duration also can be greater than measurement gap length, and only need make the DRX duration after prolongation in DRX cycle, namely the maximum of the prolongation amount of DRX duration is the DRX length length of one's sleep.

In the present embodiment, when judging that the DRX duration is in the measurement interval determined according to the first measurement spacing bias amount, extend the DRX duration, make UE can after prolongation during in monitor PDCCH and can dispatching services data normally, avoid the loss of business datum.

As shown in Figure 8, be the structural representation of a kind of subscriber equipment embodiment of the present invention, the present embodiment specifically comprises: receiver module 11, detection module 12 and measurement module 13; Wherein, receiver module 11 is for receiving measurement configuration parameter, this measurement configuration parameter comprises the first measurement spacing bias amount, detection module 12 is for judging the DRX duration whether measuring in the measurement interval that spacing bias amount determines according to first, if, then trigger measurement module 13, measurement module 13, for when being subject to the triggering of detection module 12, is measured in the measurement interval that the second measurement spacing bias amount is determined.

Further, in the present embodiment, receiver module 11 can also be used for receiving the second measurement spacing bias amount.

Further, measurement module 13 can also be used for when being subject to the triggering of detection module 12, measuring spacing bias amount using offseting more than one TTI in the measuring period being interposed between measurement place, interval between measurement forward or backward as second, measuring according to the measurement interval that the second measurement spacing bias amount is determined.Measurement module 13 can also be used for the number determining the TTI offset according to measurement interval.Wherein, the TTI number of skew equals the business of time span and the TTI length offset, and the minimum value of the time span of skew can for measuring gap length, and maximum can for the maximum that can obtain in same measurement gap periods.

The present embodiment can also comprise reporting module 14, and this reporting module 14 can report to eNB carries out measuring the measurement report obtained according to the second measurement spacing bias amount.

The present embodiment UE receives or determines the second measurement spacing bias amount, make when judging that the DRX duration is in the measurement interval determined according to the first measurement spacing bias amount, the second measurement spacing bias amount is utilized to measure, such measurement interval and DRX duration can stagger, ensureing within the DRX duration can dispatching services data normally, avoids the loss of business datum.

As shown in Figure 9, be the structural representation of a kind of evolution network base station embodiment of the present invention, the present embodiment specifically comprises: sending module 21 and receiver module 22; Wherein the measurement configuration parameter comprising the first measurement spacing bias amount and the second measurement spacing bias amount is sent to UE by sending module 21, and receiver module 22 receives the measurement report that UE reports.Wherein, first measures spacing bias amount and the second parameter value measuring spacing bias amount can meet: measure measurement interval that spacing bias amount determines according to first and measure between measurement that spacing bias amount determines according to second and be interposed between in same measurement gap periods, and the minimum value of both differences is for measuring gap length.That is, above-mentioned two parameter values measuring spacing bias amount should pull open as far as possible in measurement gap periods, particularly, these two minimum values measuring the difference of spacing bias amount can for measuring gap length, and the maximum of this difference can for the maximum that can obtain in same measurement gap periods.

The present embodiment, when carrying out measurement configuration, adds one second and measures spacing bias amount, and the measurement interval making UE that this second measurement spacing bias amount can be utilized to determine is measured.

As shown in Figure 10, be the structural representation of the another kind of subscriber equipment embodiment of the present invention, the present embodiment specifically comprises: receiver module 41, detection module 42, control module 43 and measurement module 44, receiver module 41 comprises the measurement configuration parameter of the first measurement spacing bias amount for receiving, detection module 42 is for judging the DRX duration whether measuring in the measurement interval that spacing bias amount determines according to first, if, then trigger control module 43, control module 43 is for when being subject to the triggering of detection module 42, extend the DRX duration, and trigger measurement module 44, the prolongation amount of this DRX duration is between measurement gap length and the DRX length length of one's sleep, measurement module 44 is for when being controlled the triggering of module 43, measure in the measurement interval that this first measurement spacing bias amount is determined.

Concrete, control module 43 can notify the time block for setting the DRX duration, and upgrade the DRX duration, the DRX time duration after renewal equals former DRX time duration and prolongation amount sum.

The present embodiment can also comprise reporting module 45, and this reporting module 45 can report to eNB the measurement report be measured according to the first measurement spacing bias amount.

In the present embodiment, detection module 42 is when judging that the DRX duration is in the measurement interval determined according to the first measurement spacing bias amount, control module 43 extends the DRX duration, make UE can after prolongation during in monitor PDCCH and can dispatching services data normally, avoid the loss of business datum.

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 is when performing, performs and comprise the step of said method embodiment, and aforesaid storage medium comprises: ROM, RAM, magnetic disc or CD etc. various can be program code stored medium.

Last it is noted that above embodiment is only in order to illustrate the technical scheme of the embodiment of the present invention, be not intended to limit; Although be described in detail the embodiment of the present invention with reference to previous embodiment, 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 each embodiment technical scheme of the embodiment of the present invention.

Claims (8)

1. a mobility measurements method, is characterized in that comprising:

Receive and measure configuration parameter, described measurement configuration parameter comprises the first measurement spacing bias amount;

When the discontinuous reception DRX duration is in the measurement interval determined according to described first measurement spacing bias amount, extend the described DRX duration, and measure in the measurement interval determined according to described first measurement spacing bias amount; The prolongation amount of described DRX duration is between measurement gap length and the DRX length length of one's sleep.

2. mobility measurements method according to claim 1, is characterized in that, described reception is measured configuration parameter and comprised:

Receive the radio resource control RRC signaling of carrying and measuring configuration parameter.

3. mobility measurements method according to claim 2, is characterized in that, described measurement configuration parameter is included in the measurement configuration MeasurementConfiguration information unit of described RRC signaling.

4. mobility measurements method according to claim 3, it is characterized in that, described MeasurementConfiguration information unit also comprises the measurement interval configuration MeasGapConfig information unit for allocating and measuring interval, described MeasGapConfig information unit comprises the cycle to be the measurement interval of 40 milliseconds and cycle the be measurement interval of 80 milliseconds, and first of each measurement interval measures spacing bias amount.

5. the mobility measurements method according to any one of Claims 1-4, is characterized in that, described mobility measurements method also comprises:

Generate measurement report and send to base station.

6. a subscriber equipment, is characterized in that comprising:

Receiver module, for receiving measurement configuration parameter, described measurement configuration parameter comprises the first measurement spacing bias amount;

Detection module, for judging the discontinuous reception DRX duration whether measuring in the measurement interval that spacing bias amount determines according to first, if so, then trigger control module;

Control module, for when being subject to the triggering of described detection module, extending the described DRX duration and triggering measurement module, and the prolongation amount of described DRX duration is between measurement gap length and the DRX length length of one's sleep;

Measurement module, for when being subject to the triggering of described control module, measures in the measurement interval determined according to described first measurement spacing bias amount.

7. subscriber equipment according to claim 6, it is characterized in that, described subscriber equipment also comprises time block, described control module is also for notifying that the described time block for setting the DRX duration upgrades the DRX duration, and the DRX time duration after renewal equals former DRX time duration and prolongation amount sum.

8. the subscriber equipment according to claim 6 or 7, is characterized in that, described subscriber equipment also comprises reporting module, and described reporting module is used for reporting the measurement report be measured according to the first measurement spacing bias amount to base station.