CN109041106A - Measuring configuration method, apparatus, user terminal and computer readable storage medium - Google Patents
Measuring configuration method, apparatus, user terminal and computer readable storage medium Download PDFInfo
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- CN109041106A CN109041106A CN201710435839.1A CN201710435839A CN109041106A CN 109041106 A CN109041106 A CN 109041106A CN 201710435839 A CN201710435839 A CN 201710435839A CN 109041106 A CN109041106 A CN 109041106A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/10—Scheduling measurement reports ; Arrangements for measurement reports
Abstract
A kind of measuring configuration method, apparatus, user terminal and computer readable storage medium.The described method includes: receiving the measurement configuration information that base station is sent;According to the measurement configuration information, adjacent area is measured using the measurement gap of sliding, in which: the initial position in the measurement gap in adjacent measurement gap period is different.Using above scheme, may be implemented to all alien frequencies nearby region measurements.
Description
Technical field
The present invention relates to corresponding measuring technique fields, and in particular to a kind of measuring configuration method, apparatus, user terminal and meter
Calculation machine readable storage medium storing program for executing.
Background technique
The user terminal (User Equipment, UE) of connected state is needed to measure phase according to the measuring configuration of base station
Adjacent cell, and when meeting report condition, reporting measurement reports.Base station can execute handover decisions based on measurement report.
During actual measurement, UE usually requires measurement homogeneous-frequency adjacent-domain and alien frequencies adjacent area.Wherein, in measurement alien frequencies adjacent area
When, base station needs for the UE allocating and measuring gap (Measurement Gap, referred to as GAP).UE needs to interrupt during GAP
With the communication of current all serving cells (one or more serving cells), its radio frequency is tuned to the target alien frequencies frequency for needing to measure
Rate measures the specific reference signal of synchronization signal, cell of cell in alien frequencies frequency.
In the wireless access system (New Radio, NR) of the 5th third-generation mobile communication (abbreviation 5G), the UE of connected state is also needed
It will be using measurement clearance measurement alien-frequency district, to meet mobility demand.If but according to long term evolution (Long Term
Evolution, LTE) the measuring configuration method in system measures alien-frequency district, the survey to certain adjacent areas may be missed
Amount.
Summary of the invention
The problem to be solved in the present invention how is realized to all alien frequencies nearby region measurements.
To solve the above problems, it is applied to user terminal the embodiment of the invention provides a kind of measuring configuration method, it is described
Method includes: the measurement configuration information for receiving base station and sending;According to the measurement configuration information, using the measurement gap pair of sliding
Adjacent area measures, in which: the initial position in the measurement gap in adjacent measurement gap period is different.
Optionally, the measurement configuration information includes: the start position information in measurement gap in each measurement gap period,
Alternatively, measuring the start position information in gap in initial measurement gap period.
Optionally, the start position information that gap is measured in each measurement gap period, alternatively, initial measurement gap period
The start position information in interior measurement gap includes: the offset information of the measurement gap period initial position relative to place.
Optionally, the measurement configuration information further include: measurement gap initial position in next measurement gap period
Mobile value information.
Optionally, the movement value and current measurement gap period of gap initial position are measured in next measurement gap period
The length in interior measurement gap is identical.
Optionally, the measurement configuration information further include: measurement gap period information.
Optionally, the measurement configuration information further include: the length information in measurement gap in each measurement gap period.
Optionally, the length information that gap is measured in each measurement gap period, with current neighbor synchronization signal
Transmission cycle is related.
Optionally, described that adjacent area is measured using the measurement gap of sliding according to the measurement configuration information, packet
It includes: in continuous 3 measurements gap period, being respectively the measurement gap of 6ms, 7ms and 7ms according to length, three are carried out to adjacent area
Secondary measurement.
Optionally, described that adjacent area is measured using the measurement gap of sliding according to the measurement configuration information, packet
Include: in continuous 4 measurements gap period, the measurement gap for being 5ms according to length carries out four measurements to adjacent area.
Optionally, the measurement configuration information includes: the finger of the corresponding measurement gap-type in measurement gap of the sliding
Show information.
Optionally, the adjacent area includes different system adjacent cell, and the different system wirelessly connects for different from current access system
Enter technological system.
The embodiment of the invention also provides a kind of measuring configuration device, described device includes: receiving unit, is suitable for receiving base
Stand send measurement configuration information;Measuring unit is suitable for according to the measurement configuration information, using the measurement gap of sliding to neighbour
Area measures, in which: the initial position in the measurement gap in adjacent measurement gap period is different.
Optionally, measurement configuration information received by the receiving unit includes: measurement in each measurement gap period
The start position information in gap, alternatively, measuring the start position information in gap in initial measurement gap period.
Optionally, the start position information in each measurement gap period, alternatively, being surveyed in initial measurement gap period
The start position information in amount gap includes: the offset information of the measurement gap period initial position relative to place.
Optionally, the measurement configuration information further include: measurement gap initial position in next measurement gap period
Mobile value information.
Optionally, the movement value and current measurement gap period of gap initial position are measured in next measurement gap period
The length in interior measurement gap is identical.
Optionally, the measurement configuration information further include: measurement gap period information.
Optionally, the length information in gap is measured in each measurement gap period.
Optionally, the length information that gap is measured in each measurement gap period, with current neighbor synchronization signal
Transmission cycle is related.
Optionally, the measuring unit is suitable in continuous 3 measurements gap period, is respectively 6ms, 7ms according to length
And the measurement gap of 7ms, adjacent area is measured three times.
Optionally, the measuring unit is suitable in continuous 4 measurements gap period, between the measurement for being 5ms according to length
Gap carries out four measurements to adjacent area.
Optionally, measurement configuration information received by the receiving unit includes: that the measurement gap of the sliding is corresponding
Measurement gap-type instruction information.
Optionally, the adjacent area includes different system adjacent cell, and the different system wirelessly connects for different from current access system
Enter technological system.
The embodiment of the invention also provides a kind of computer readable storage mediums, are stored thereon with computer instruction, described
The step of computer instruction executes any of the above-described kind of the method when running.
The embodiment of the invention also provides a kind of user terminal, including memory and processor, stored on the memory
There is the computer instruction that can be run on the processor, the processor executes above-mentioned when running the computer instruction
A kind of the step of the method.
Compared with prior art, the technical solution of the embodiment of the present invention has the advantage that
Using the above scheme, since the initial position in the measurement gap in adjacent measurement gap period is different, it is multiple
The measurement gap that the measurement gap in gap period forms sliding is measured, adjacent area is surveyed using the measurement gap of the sliding
Amount, thus, after repeatedly measuring, it can receive to base station and be sent to the synchronization signal and reference signal of all adjacent areas, also
The measurement to all adjacent areas may be implemented.
Detailed description of the invention
Fig. 1 is the schematic diagram for carrying out nearby region measurement in 5G system using the measurement gap of fixed position;
Fig. 2 is a kind of flow chart of measuring configuration method in the embodiment of the present invention;
Fig. 3 is the schematic diagram for carrying out nearby region measurement in 5G system using the measurement gap of sliding;
Fig. 4 is a kind of structural schematic diagram of measuring configuration device in the embodiment of the present invention.
Specific embodiment
In LTE system, the GAP period is 40ms or 80ms, and base station is to the period of UE instruction GAP and GAP within the period
Starting subframe, have a GAP in each GAP period, when a length of 6ms, UE utilizes the GAP of fixed position in each GAP period
Alien frequencies or different system adjacent cell are measured.
Referring to Fig.1, in NR, that is, 5G system, a cell can transmit multiple synchronization signal blocks (SS block), Mei Getong
Walk includes synchronization signal and Physical Broadcast Channel (Physical Broadcast Channel, PBCH) in block.Wherein,
Synchronous signal information includes: primary synchronization signal (Primary Synchronization Signal, PSS) or secondary synchronization signal
(Secondary Synchronization Signal, SSS).UE needs to measure the same of adjacent area when measuring to adjacent area
It step signal and optional needs to measure PBCH.
By taking the transmission cycle of the synchronization signal of current alien frequencies adjacent area is 20ms as an example, i.e. adjacent sync block 11 and 12
Time interval T1 between beginning transmission location is 20ms, and the GAP in each GAP period is followed successively by GAP1~GAPn, if continuing to use LTE
The setting in gap, identical (the i.e. initial position of GAP in the initial position in each GAP period of GAP1~GAPn are measured in system
Offset between the initial position in current GAP period is identical), i.e. UE is at the same position in each GAP period to alien frequencies
Cell measures.
For example, it is 40ms that base station, which can configure the GAP period, starting subframe of the GAP within the period is 3, then UE can be known
GAP is since the 3rd subframe in the period of each 40ms.At this point, UE needs to tune its radio frequency to the alien frequencies frequency for needing to measure
Rate executes measurement, and by tuned radio-frequency to service frequency when the subframe of the 9th within the period of each 40ms, again small with service
Area is communicated.In the 9th subframe, for UE by tuned radio-frequency to service frequency, GAP length includes the 3rd subframe, the 4th
A subframe, the 5th subframe, the 6th subframe, the 7th subframe and the 8th subframe, total 6ms.
Since multiple cells can be disposed in a frequency, it is likely to be out of synchronization between these cells.For example, to be serviced where UE
Subject to the System Frame Number (System Frame Number, SFN) of cell, the initial time of some adjacent area synchronous signal transmissions with
The initial time of other adjacent area synchronous signal transmissions may be different, therefore, if UE is still in the phase in each GAP period in NR
Alien-frequency district is measured at position, then may miss the measurement to certain adjacent areas.
In view of the above-mentioned problems, measuring configuration method provided in an embodiment of the present invention, due in adjacent measurement gap period
The initial position for measuring gap is different, and therefore, the measurement gap in multiple measurement gap periods forms the measurement gap of sliding, adopts
Adjacent area is measured with the measurement gap of the sliding, after repeatedly measuring, can receive the synchronous letter of any adjacent area
Number and reference signal, can also realize the measurement to all adjacent areas.
To make the above purposes, features and advantages of the invention more obvious and understandable, with reference to the accompanying drawing to the present invention
Specific embodiment explain in detail.
Referring to Fig. 2, the embodiment of the invention provides a kind of measuring configuration methods, and the method may include following steps:
Step 21, the measurement configuration information that base station is sent is received.
In specific implementation, base station can send measurement configuration information to UE in several ways.For example, nothing can be passed through
Line resources control (Radio Resource Control, RRC) connection sends the measurement configuration information to UE.
In specific implementation, the particular content of the measurement configuration information with no restriction, as long as UE can be according to the survey
The instruction for measuring configuration information carries out nearby region measurement using the measurement gap of sliding.In the embodiment of the present invention, adjacent measurement
The initial position in the measurement gap in gap period is different, therefore can form the measurement gap of the sliding.
In one embodiment of this invention, the measurement configuration information may include: measurement in each measurement gap period
The start position information in gap.At this point, the length in measurement gap period and each measurement gap can be preset by communication protocol
Setting, for example, the measurement gap period can such as be defaulted as to press the preset one kind of agreement in 40ms, 64ms or 80ms
The length of 40ms, the measurement gap can such as be defaulted as 6ms to press the preset one kind of agreement in 6ms or 7ms.UE is only needed
The start position information for knowing measurement gap in each measurement gap period can determine GAP in each measurement gap period
Then initial position and end position measure adjacent area using GAP.
Usual UE is using GAP measurement alien frequencies or different system adjacent cell, but certain UE need to measure homogeneous-frequency adjacent-domain using GAP, than
Such as low cost terminals, the signal for receiving serving cell simultaneously and detection homogeneous-frequency adjacent-domain are had no ability to, therefore can also utilize
GAP measures homogeneous-frequency adjacent-domain.
In one embodiment of this invention, the start position information in measurement gap can wrap in each measurement gap period
It includes: the offset information of the measurement gap period initial position relative to place.Wherein, the measurement gap period start bit
It sets, can be the initial subframe number of the measurement gap period.
For example, measurement gap period be 40ms when, measure gap period initial position respectively correspond system frame number SFN=
0 and subframe numbers=0, SFN=4 and subframe numbers=0, SFN=8 and subframe numbers=0 ... etc..It is assumed herein that: SFN from 0 to 1023,
Started the cycle over again from 0 later, corresponding 10 subframes of each SFN, each subframe lengths are 1ms, subframe numbers be followed successively by subframe 0,
Subframe 1 arrives subframe 9, then the start bit for measuring gap period when the start position information for measuring gap is 4, i.e., relative to place
Set difference 4ms.
In another implementation of the invention, in order to save signaling overheads, the measurement configuration information is including may include: just
Begin several interior start position informations for measuring gaps of measurement gap periods.Wherein, the quantity and measurement in indicated measurement gap
The specific initial position in gap is related, usually the unduplicated several measurement gaps in initial position in initial measurement gap.Once
The initial position of GAP duplicates, and base station does not need to indicate, UE is that may know that GAP in next measurement gap period
Beginning position.
In another embodiment of the present invention, in order to further save signaling overheads, the measurement configuration information be can wrap
It includes: the start position information in measurement gap in initial measurement gap period.It is surveyed that is, base station can be only that UE configuration is initial
The start position information in measurement gap in gap period is measured, UE can be according to the other configurations information completion pair that agreement is defaulted at this time
The measurement of adjacent area.For example, UE can measure gap in length based on the measurement gap of default and other measurement gap periods
Offset of the initial position relative to the initial position for measuring gap in the initial measurement gap period, determines between other measurements
Measurement gap in the gap period, and then complete the measurement to adjacent area.
In specific implementation, gap initial position and current measurement gap period will be measured in next measurement gap period
Offset between interior measurement gap period initial position, as measurement gap initial position in next measurement gap period
Movement value.
In one embodiment of this invention, the measurement configuration information can also include: in next measurement gap period
Measure the mobile value information of gap initial position.
In specific implementation, the movement value of measurement gap initial position can be less than currently in next measurement gap period
The length for measuring measurement gap in gap period, at this point, having overlapping between adjacent measurement gap.
In one embodiment of this invention, the movement value of measurement gap initial position can also in next measurement gap period
With identical as the current measurement length in gap, two adjacent at this time measurement gaps will not be overlapped, it is possible thereby in the shortest time
The interior synchronization signal for receiving more potential adjacent areas, improves measurement efficiency.
In one embodiment of this invention, the measurement configuration information can also include: measurement gap period information.Also
It is to say, measurement gap period information can be configured by base station, and the measurement gap period that UE is configured according to base station is slided
Measurement.When measuring gap period there are many when possibility, base station is needed to configure exact measurement gap period;Agreement only sets one
When kind measurement gap period, the base station allocating and measuring gap period is not needed.
In one embodiment of this invention, the measurement configuration information can also include: and survey in each measurement gap period
Measure the length information in gap.That is, the length information in measurement gap can be carried out by base station in each measurement gap period
Configuration, the length in the measurement gap that UE is configured according to base station carry out sliding measurement.There are many possibilities for length when measurement gap
When, need base station to configure exact GAP length;When agreement only sets a kind of measurement gap length, base station configuration GAP long is not needed
Degree.
Step 22, according to the measurement configuration information, adjacent area is measured using the measurement gap of sliding, in which: phase
The initial position in the measurement gap in neighbour's measurement gap period is different.
In current NR system, the duration of corresponding relationship and each subframe between SFN and subframe is not yet clear.One
SFN may include 10 subframes, and the duration of each subframe can be 1ms, the quantity of subframe and every height in certain SFN
The duration of frame can also use other settings, specifically with no restriction.Usual SFN has a range, and such as 0 to 1023, it totally 1024, arrives
It can be again since 0 after up to 1023.
Assuming that in NR system, a SFN includes 10 subframes, the when a length of 1ms of each subframe, and measurement gap period is
40ms, measurement gap length is 6ms, in SFN=2, instruction measurement gap starting in the measurement configuration information that UE is received
Position is 1, and indicates that the movement value of GAP in adjacent measurement gap period is identical as GAP length in measurement configuration information, to the UE
For, the initial subframe number of GAP is 1 in initial measurement gap period, because UE cannot be answered in current measurement gap period
With GAP, current SFN has been 2.UE starts to configure using above-mentioned measurement gap in next measurement gap period, i.e., in SFN=
4 and subframe numbers when being 1, first measurement gap of the UE starts, and UE tunes its radio frequency to the alien frequencies that measures of needs or different system
Frequency executes measurement, and UE may need to detect multiple alien frequencies or different system frequency at this time, and UE can execute alien frequencies, different system frequency
The most 6ms of the duration of measurement.
Then, in SFN=4 and when subframe numbers are 7, UE needs to restore the communication with serving cell.In next measurement gap
In the period (the 40ms period i.e. since SFN=8 and subframe numbers=0), the measurement gap of UE application is from SFN=8 and subframe numbers are 7
Start to SFN=9 and subframe numbers are 2, the son of the subframe numbers including SFN=8 are 7,8,9 altogether three subframes and SFN=9
Three subframes that frame number is 0,1,2, UE UE in SFN=9 and subframe numbers 3 restore the communication with serving cell.At current GAP weeks
It with the starting subframe of GAP in the previous GAP period is 1 to differ 6ms that the starting subframe of GAP, which is 7, in phase, as adjacent measurement gap
The movement value of GAP in period.In next GAP period, UE carries out sliding measurement using the GAP of new sliding, i.e. UE need according to
The initial position of GAP in next GAP period is known according to the movement value of GAP in adjacent measurement gap period.
In the embodiment of the present invention, the length for measuring gap, which can be preset in communication protocol, to be set, can also by base station into
Row configuration.The movement value of GAP can be arranged by base station in adjacent measurement gap period, can also set in advance in communication protocol
It is fixed, for example preset movement value and GAP equal length.
Referring to Fig. 3, by taking the transmission cycle of current alien frequencies neighbor synchronization signal is 20ms as an example, i.e. adjacent sync block 31
And 32 time interval between original transmission position is 20ms, in order to realize measurement to possibility all in the 20ms adjacent area NR and
The communication disruption between UE and network is reduced, UE can be respectively 6ms, 7ms and 7ms according to length in the adjacent GAP period
(or 7ms, 7ms and 6ms;Or 7ms, 6ms and 7ms) measurement gap, adjacent area is measured three times.
Specifically, the measurement gap in first measurement gap period is GAP1, since SFN=0 and subframe numbers=0,
Length is 6ms;
Measurement gap in second measurement gap period is GAP2, and since SFN=4 and subframe numbers=6, length is
7ms is at this time 6ms with the movement value of GAP1;
It is GAP3 that third, which measures the measurement gap in gap period, and since SFN=9 and subframe numbers=3, length is
7ms is at this time 7ms with the movement value of GAP2;
Measurement gap in 4th measurement gap period is that GAP4 (is equivalent to GAP1, because of its initial position and GAP1
It is identical), since SFN=12 and subframe numbers=0, length 6ms is at this time 7ms with the movement value of GAP3;
……
After moving three times, the measurement clearance G AP4 in the 4th measurement gap is located at first measurement gap window
Identical position, it can thus be seen that within each synchronous transmission of signal period, by the movement of 3 GAP windows, Ke Yiyou
Effect realizes that the synchronization signal block transmitted to potential adjacent area measures, even if the cell is asynchronous with other adjacent areas, UE will not
Miss the measurement to the cell.
The embodiment of Fig. 3 can also have other implementations, when the serving BS of UE can accurately know alien frequencies neighbour
When the distribution of the synchronization signal in area, can more targeted configuration slide GAP, as GAP is distributed as in the adjacent GAP period
GAP1, GAP3, GAP1, GAP3 ... are not in GAP2 at this time, because the synchronization signal that adjacent area is sent does not appear in GAP2
Corresponding window;Or GAP is distributed as GAP2, GAP3, GAP2, GAP3 in the adjacent GAP period ....
In specific implementation, when the transmission cycle of current different neighbor synchronization signal is 20ms, measurement gap length can also
Think 5ms, the movement value for measuring gap initial position every time is also 5ms, in the adjacent GAP period, carries out 4 surveys to adjacent area
Amount, i.e., it is at same location with first measurement gap again by 4 measurement gap windows after mobile.
It in another embodiment of the invention, need not include the specific information content in the measurement configuration information, and only
It need to indicate sliding measurement gap, i.e. the corresponding measurement gap-type in instruction measurement gap is sliding.That is, base station can
Directly to indicate that the measurement gap of the currently employed sliding of UE measures adjacent area, after UE receives the instruction information, obtain silent
The corresponding specifying information content in the measurement gap for the sliding recognized is measured accordingly, to save wireless signaling transfer resource.
Such as according to above-mentioned GAP1 (6ms length), GAP2 (7ms length) and GAP3 (7ms length) in 3 adjacent GAP
Period (the GAP period is defaulted as 40ms) measures alien frequencies, different system adjacent cell using sliding GAP.Wherein, between the measurement of sliding
The corresponding specifying information content of gap can be the length in measurement gap in specific measurement gap period, each measurement gap period
Etc. information.
As another implementation of the present embodiment, in addition to measurement gap is slided in instruction in measurement configuration information, also refer to
The initial position GAP in initial measurement gap period is shown;Or further indicate in initial measurement gap period the initial position GAP and
Measure gap period.
In an embodiment of the present invention, when the system that UE is accessed is NR system, the different system is non-NR system, than
Such as, the different system can be LTE system, or be global system for mobile communications (Global System for Mobile
Communication, GSM).When the system that UE is accessed is LTE system, the different system is non-LTE system such as NR system,
Sliding measurement gap may be equally applicable for LTE system and be allocated to UE, make the adjacent area of UE measurement NR system.
As shown in the above, the measuring configuration method in the embodiment of the present invention, using the measurement gap of sliding to adjacent area
It measures, after repeatedly measuring, can receive the synchronization signal and other reference signals of all potential adjacent areas, also
Realize the measurement to all adjacent areas.
Also, the measuring configuration method in the embodiment of the present invention, relative to using extend measurement gap length method come
It realizes to all alien frequencies nearby region measurements, the time that can be communicated to avoid UE in a measurement gap period with network interruption is too long,
User is more advantageous to commence business.
It is corresponding to above-mentioned measuring configuration method below in order to more fully understand those skilled in the art and realize the present invention
Device, computer-readable medium and user terminal be described in detail.
Referring to Fig. 4, the embodiment of the invention provides a kind of measuring configuration device 40, the measuring configuration device 40 be can wrap
It includes: receiving unit 41 and measuring unit 42.Wherein:
The receiving unit 41, the measurement configuration information sent suitable for receiving base station;
The measuring unit 42 is suitable for carrying out adjacent area using the measurement gap of sliding according to the measurement configuration information
Measurement, in which: the initial position in the measurement gap in adjacent measurement gap period is different.
In one embodiment of this invention, measurement configuration information received by the receiving unit 41 may include: every
The start position information in measurement gap in a measurement gap period, alternatively, measuring the starting in gap in initial measurement gap period
Location information.
In one embodiment of this invention, the start position information in each measurement gap period, alternatively, initial survey
The start position information in measurement gap includes: the offset of the measurement gap period initial position relative to place in amount gap period
Measure information.
In one embodiment of this invention, the measurement configuration information can also include: in next measurement gap period
Measure the mobile value information of gap initial position.
In one embodiment of this invention, next to measure the interior movement value for measuring gap initial position of gap period and work as
The length in measurement gap is identical in preceding measurement gap period.
In one embodiment of this invention, the measurement configuration information can also include: measurement gap period information.
In one embodiment of this invention, the measurement configuration information can also include: and survey in each measurement gap period
Measure the length information in gap.
In one embodiment of this invention, in each measurement gap period measurement gap length information, and it is current
The transmission cycle of neighbor synchronization signal is related.
In one embodiment of this invention, the measuring unit 42 is suitable for pressing respectively in continuous 3 measurements gap period
It is the measurement gap of 6ms, 7ms and 7ms according to length, adjacent area is measured three times.
In another embodiment of the invention, the measuring unit 42 is suitable in continuous 4 measurements gap period, according to
Length is the measurement gap of 5ms, carries out four measurements to adjacent area.
In one embodiment of this invention, measurement configuration information received by the receiving unit 41 includes: the cunning
The instruction information of the dynamic corresponding measurement gap-type in measurement gap.
In specific implementation, the adjacent area includes different system adjacent cell, and the different system is different from current access system
Radio access technology system.
The embodiments of the present invention also provide a kind of computer readable storage mediums, are stored thereon with computer instruction, institute
The step of executing measuring configuration method in above-described embodiment when stating computer instruction operation.
In specific implementation, computer readable storage medium may include: ROM, RAM, disk or CD etc..
The embodiments of the present invention also provide a kind of user terminal, the user terminal includes memory and processor, institute
The computer instruction for being stored with and capable of being run on memory on the processor is stated, the processor runs the computer and refers to
The step of measuring configuration method in above-described embodiment is executed when enabling.
Although present disclosure is as above, present invention is not limited to this.Anyone skilled in the art are not departing from this
It in the spirit and scope of invention, can make various changes or modifications, therefore protection scope of the present invention should be with claim institute
Subject to the range of restriction.
Claims (26)
1. a kind of measuring configuration method characterized by comprising
Receive the measurement configuration information that base station is sent;
According to the measurement configuration information, adjacent area is measured using the measurement gap of sliding, in which: adjacent measurement gap week
The initial position in the measurement gap in the phase is different.
2. measuring configuration method as described in claim 1, which is characterized in that the measurement configuration information includes: each measurement
The start position information in measurement gap in gap period, alternatively, measuring the start bit confidence in gap in initial measurement gap period
Breath.
3. measuring configuration method as claimed in claim 2, which is characterized in that measurement gap rises in each measurement gap period
Beginning location information, alternatively, the start position information in measurement gap includes: in initial measurement gap period
The offset information of measurement gap period initial position relative to place.
4. measuring configuration method as described in claim 1, which is characterized in that the measurement configuration information further include: next
Measure the mobile value information of measurement gap initial position in gap period.
5. measuring configuration method as claimed in claim 4, which is characterized in that measurement gap is risen in next measurement gap period
The movement value of beginning position is identical as the measurement length in gap in current measurement gap period.
6. measuring configuration method as described in claim 1, which is characterized in that the measurement configuration information further include: between measurement
Gap cycle information.
7. measuring configuration method as described in claim 1, which is characterized in that the measurement configuration information further include: each survey
Measure the length information in measurement gap in gap period.
8. measuring configuration method as claimed in claim 7, which is characterized in that measure gap in each measurement gap period
Length information, it is related to the transmission cycle of current neighbor synchronization signal.
9. measuring configuration method as claimed in claim 8, which is characterized in that it is described according to the measurement configuration information, it uses
The measurement gap of sliding measures adjacent area, comprising:
In continuous 3 measurements gap period, respectively it is the measurement gap of 6ms, 7ms and 7ms according to length, three is carried out to adjacent area
Secondary measurement.
10. measuring configuration method as claimed in claim 8, which is characterized in that it is described according to the measurement configuration information, it uses
The measurement gap of sliding measures adjacent area, comprising:
It is the measurement gap of 5ms according to length in continuous 4 measurements gap period, four measurements is carried out to adjacent area.
11. measuring configuration method as described in claim 1, which is characterized in that the measurement configuration information includes: the sliding
Measurement gap it is corresponding measurement gap-type instruction information.
12. measuring configuration method as described in claim 1, which is characterized in that the adjacent area includes different system adjacent cell, described different
System is the radio access technology system different from current access system.
13. a kind of measuring configuration device characterized by comprising
Receiving unit, the measurement configuration information sent suitable for receiving base station;
Measuring unit is suitable for measuring adjacent area using the measurement gap of sliding according to the measurement configuration information, in which:
The initial position in the measurement gap in adjacent measurement gap period is different.
14. measuring configuration device as claimed in claim 13, which is characterized in that measurement received by the receiving unit is matched
Confidence breath includes: the start position information in measurement gap in each measurement gap period, alternatively, surveying in initial measurement gap period
Measure the start position information in gap.
15. measuring configuration device as claimed in claim 14, which is characterized in that the starting in each measurement gap period
Location information, alternatively, the start position information in measurement gap includes: in initial measurement gap period
The offset information of measurement gap period initial position relative to place.
16. measuring configuration device as claimed in claim 13, which is characterized in that the measurement configuration information further include: next
The mobile value information of measurement gap initial position in a measurement gap period.
17. measuring configuration device as claimed in claim 16, which is characterized in that measure gap in next measurement gap period
The movement value of initial position is identical as the measurement length in gap in current measurement gap period.
18. measuring configuration device as claimed in claim 13, which is characterized in that the measurement configuration information further include: measurement
Gap period information.
19. measuring configuration device as claimed in claim 13, which is characterized in that the measurement configuration information further include: each
Measure the length information in measurement gap in gap period.
20. measuring configuration device as claimed in claim 19, which is characterized in that in each measurement gap period between measurement
The length information of gap is related to the transmission cycle of current neighbor synchronization signal.
21. measuring configuration device as claimed in claim 20, which is characterized in that the measuring unit is suitable at continuous 3
Gap period is measured, is respectively the measurement gap of 6ms, 7ms and 7ms according to length, adjacent area is measured three times.
22. measuring configuration device as claimed in claim 20, which is characterized in that the measuring unit is suitable at continuous 4
Gap period is measured, the measurement gap for being 5ms according to length carries out four measurements to adjacent area.
23. measuring configuration device as claimed in claim 13, which is characterized in that measurement received by the receiving unit is matched
Confidence breath includes: the instruction information of the corresponding measurement gap-type in measurement gap of the sliding.
24. measuring configuration device as claimed in claim 13, which is characterized in that the adjacent area includes different system adjacent cell, described
Different system is the radio access technology system different from current access system.
25. a kind of computer readable storage medium, is stored thereon with computer instruction, which is characterized in that the computer instruction
Perform claim requires the step of any one of 1 to 12 the method when operation.
26. a kind of user terminal, including memory and processor, it is stored with and can transports on the processor on the memory
Capable computer instruction, which is characterized in that perform claim requirement 1 to 12 is any when the processor runs the computer instruction
The step of item the method.
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Also Published As
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CN111601338B (en) | 2022-07-15 |
CN111615144A (en) | 2020-09-01 |
CN111601338A (en) | 2020-08-28 |
CN109041106B (en) | 2020-07-24 |
CN111615144B (en) | 2022-07-19 |
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