CN106973400B

CN106973400B - A kind of processing method and UE of measurement result

Info

Publication number: CN106973400B
Application number: CN201710202744.5A
Authority: CN
Inventors: 梁靖; 张元�; 傅婧
Original assignee: China Academy of Telecommunications Technology CATT
Current assignee: China Academy of Telecommunications Technology CATT; Datang Mobile Communications Equipment Co Ltd
Priority date: 2017-03-30
Filing date: 2017-03-30
Publication date: 2019-09-20
Anticipated expiration: 2037-03-30
Also published as: CN106973400A

Abstract

The present invention provides the processing method and UE of a kind of measurement result, the described method includes: user terminal UE controls the physical layer of the UE in signal quality ranking when preceding M of wave beam changes, measurement result based on preceding M wave beams after variation reports the first measurement result to the radio resource control RRC layer of the UE, and M is the integer more than or equal to 1；The UE is controlled the rrc layer and is filtered using filter to first measurement result, and the first filtered measurement results are obtained；The UE controls the measurement result that the rrc layer determines cell according to first filtered measurement results.In this way, the UE can control physical layer and report the beam measurement after variation to the rrc layer in time when the signal quality ranking of wave beam changes, the rrc layer can timely use filter and be filtered to the beam measurement after the variation, so as to be effectively ensured cell measurement result accuracy.

Description

A kind of processing method and UE of measurement result

Technical field

The present invention relates to field of communication technology, in particular to the processing method and UE (User of a kind of measurement result Equipment, user terminal).

Background technique

With the development of mobile communication technology, higher frequency spectrum is gradually incorporated the range of usable spectrum, for high frequency For cell, need to carry out data transmit-receive, such as beam scanning (beam sweeping) by the way of multi-beam (beam) Or wave beam forming (beam forming) technology.

In the prior art, (Reference Signal Receiving Power, reference signal connect the RSRP of a cell Receive power) or RSRQ (Reference Signal Receiving Quality, Reference Signal Received Quality) measurement result be It is obtained based on a public guide frequency (CRS), because the public guide frequency of its measurement will not change, it is possible to accurately reflect The measurement result of one cell.

Under high frequency scene, the measurement result of cell is to be obtained based on wave beam, and wave beam itself is that meeting is changed. When wave beam changes, the prior art is unable to ensure the accuracy of the measurement result of cell.

Summary of the invention

The purpose of the present invention is to provide a kind of processing method of measurement result and UE, to solve to change in wave beam When, the problem of prior art is unable to ensure the accuracy of the measurement result of cell.

In order to achieve the above object, the embodiment of the present invention provides a kind of processing method of measurement result, which comprises

User terminal UE controls the physical layer of the UE in signal quality ranking when preceding M of wave beam changes, base The measurement result of the preceding M wave beams after variation reports the first measurement result to the radio resource control RRC layer of the UE, and M is Integer more than or equal to 1；

The UE is controlled the rrc layer and is filtered using filter to first measurement result, and the first filtering is obtained Measurement result；

The UE controls the measurement result that the rrc layer determines cell according to first filtered measurement results.

Optionally, the method also includes:

The UE controls measurement result of the physical layer based on preceding M wave beams before variation and reports to the rrc layer Two measurement results；

The UE is controlled the rrc layer and is filtered using filter to second measurement result, and the second filtering is obtained Measurement result.

Optionally, the UE is controlled the rrc layer and is filtered using filter to first measurement result, obtains the One filtered measurement results, comprising:

The UE controls the rrc layer and resets first filter, and using the first filter after resetting to described first Measurement result is filtered, wherein the first filter is the filter being filtered to second measurement result.

The UE controls the rrc layer use and ties with the different second filter of first filter to first measurement Fruit is filtered, and obtains the first filtered measurement results, wherein the first filter is to filter to second measurement result The filter of wave.

Optionally, radio resource control RRC layer of the measurement result based on preceding M wave beams after variation to the UE Report the first measurement result, comprising:

A comprehensive beam measurement is determined based on the measurement result of preceding M wave beams after variation；

The first measurement result of the beam measurement including the synthesis is reported to the rrc layer.

Optionally, the UE controls the measurement result that the rrc layer determines cell according to first filtered measurement results, Include:

The UE controls the rrc layer and determines that first filtered measurement results are the measurement result of cell.

Optionally, the M is the integer greater than 1, and first measurement result includes that preceding M wave beams after variation are corresponding M beam measurement, second measurement result include the corresponding M beam measurement of preceding M wave beams before variation；

The UE is controlled the rrc layer and is filtered using filter to first measurement result, and the first filtering is obtained Measurement result, comprising:

The UE controls different with preceding M wave beams before variation in preceding M wave beams after the rrc layer determines variation N number of first wave beam and identical P wave beam, N are the integer more than or equal to 1 and less than or equal to M, M=N+P；

The UE controls the rrc layer using N number of filter to the corresponding N number of wave beam measurement knot of N number of first wave beam Fruit is filtered, and obtains N number of first filtered measurement results；

The UE controls the rrc layer and obtains the corresponding P of the corresponding P beam measurement of the identical P wave beam A second filtered measurement results, as P the first filtered measurement results；

The UE controls the measurement result that the rrc layer determines cell according to first filtered measurement results, comprising:

The UE controls the rrc layer and calculates M the first filtered measurement results average values or weighted average, as cell Measurement result.

Optionally, it is corresponding N number of to N number of first wave beam after variation using N number of filter to control the rrc layer by the UE Beam measurement is filtered, and obtains N number of first filtered measurement results, comprising:

The UE controls different with preceding M wave beams after variation in preceding M wave beams before the rrc layer determines variation N number of second wave beam；

The UE controls the rrc layer and resets N number of first filter, and N number of first filter is to described N number of second The filter that wave beam is filtered；

The UE controls the rrc layer and uses the N corresponding to N number of first wave beam of N number of first filter after resetting A beam measurement is filtered, and obtains N number of first filtered measurement results.

Optionally, first measurement result further includes the mark of preceding M wave beams after variation, second measurement result It further include the mark of preceding M wave beams before variation.

Optionally, the method also includes:

The UE receives the Q that base station is UE configuration and covers rrc layer filtering parameter, wherein Q is whole more than or equal to M Number；

The UE covers rrc layer filtering parameter according to the Q, generates Q rrc layer filter.

Optionally, the signal quality ranking carries out ranking according to one or more indexs below:

Signal power, signal-to-noise ratio.

The embodiment of the present invention also provides a kind of user terminal UE, and the UE includes:

First reporting module, the physical layer for controlling the UE become in signal quality ranking in preceding M of wave beam When change, the measurement result based on preceding M wave beams after variation reports the first measurement knot to the radio resource control RRC layer of the UE Fruit, M are the integer more than or equal to 1；

First filter module is filtered first measurement result using filter for controlling the rrc layer, obtains To the first filtered measurement results；

Determining module determines the measurement result of cell for controlling the rrc layer according to first filtered measurement results.

Optionally, the UE further include:

Second reporting module, for controlling measurement result of the physical layer based on preceding M wave beams before variation to described Rrc layer reports the second measurement result；

Second filter module is filtered second measurement result using filter for controlling the rrc layer, obtains To the second filtered measurement results.

Optionally, first filter module, for controlling the rrc layer resetting first filter, and after use resetting First filter first measurement result is filtered, wherein the first filter be to it is described second measurement tie The filter that fruit is filtered.

Optionally, first filter module, for controlling the rrc layer use and first filter different second Filter is filtered first measurement result, obtains the first filtered measurement results, wherein the first filter is pair The filter that second measurement result is filtered.

Optionally, first reporting module, comprising:

First determination unit, for determining that a comprehensive wave beam is surveyed based on the measurement result of preceding M wave beams after variation Measure result；

Reporting unit, for reporting the first measurement result of the beam measurement including the synthesis to the rrc layer.

Optionally, the determining module determines that first filtered measurement results are cell for controlling the rrc layer Measurement result.

First filter module, comprising:

Second determination unit, for control in preceding M wave beams after the rrc layer determines variation with preceding M before variation Different N number of first wave beam of wave beam and identical P wave beam, N are the integer more than or equal to 1 and less than or equal to M, M =N+P；

Filter unit, for controlling the rrc layer using N number of filter to the corresponding N number of wave beam of N number of first wave beam Measurement result is filtered, and obtains N number of first filtered measurement results；

Acquiring unit obtains the corresponding P beam measurement of the identical P wave beam for controlling the rrc layer Corresponding P the second filtered measurement results, as P the first filtered measurement results；

The determining module calculates M the first filtered measurement results average values or weighted average for controlling the rrc layer Value, the measurement result as cell.

Optionally, the filter unit, comprising:

Determine subelement, for control in preceding M wave beams before the rrc layer determines variation with preceding M waves after variation Different N number of second wave beam of beam；

Subelement is reset, resets N number of first filter for controlling the rrc layer, N number of first filter is to institute State the filter that N number of second wave beam is filtered；

Filtering subunit, for controlling the rrc layer using N number of first filter after resetting to N number of first wave The corresponding N number of beam measurement of beam is filtered, and obtains N number of first filtered measurement results.

Optionally, the UE further include:

Receiving module, for receiving the Q that base station is UE configuration

Cover rrc layer filtering parameter, wherein Q is the integer more than or equal to M；

Generation module generates Q rrc layer filter for covering rrc layer filtering parameter according to the Q.

Signal power, signal-to-noise ratio.

The embodiment of the present invention also provides a kind of computer readable storage medium, and meter is stored in the computer storage medium The executable one or more programs of calculation machine, one or more of programs hold the computer when being executed by the computer Step in row method described in any of the above embodiments.

Above-mentioned technical proposal of the invention at least has the following beneficial effects:

The embodiment of the present invention, user terminal UE control the physical layer of the UE in signal quality ranking in preceding M of wave beam When changing, the measurement result based on preceding M wave beams after variation reports first to the radio resource control RRC layer of the UE Measurement result, M are the integer more than or equal to 1；The UE controls the rrc layer using filter to first measurement result It is filtered, obtains the first filtered measurement results；The UE controls the rrc layer and is determined according to first filtered measurement results The measurement result of cell.In this way, the UE can control physical layer when the signal quality ranking of wave beam changes in time to The rrc layer reports the beam measurement after variation, and the rrc layer can timely use filter to the wave after the variation Beam measurement result is filtered, so as to be effectively ensured cell measurement result accuracy.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, needed in being described below to the embodiment of the present invention Attached drawing to be used is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, For those of ordinary skill in the art, without any creative labor, it can also obtain according to these attached drawings Obtain other attached drawings.

Fig. 1 is a kind of flow diagram of the processing method of measurement result provided in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of UE provided in an embodiment of the present invention a kind of；

Fig. 3 is the structural schematic diagram of another kind UE provided in an embodiment of the present invention；

Fig. 4 is the structural schematic diagram of another kind UE provided in an embodiment of the present invention；

Fig. 5 is the structural schematic diagram of another kind UE provided in an embodiment of the present invention；

Fig. 6 is the structural schematic diagram of another kind UE provided in an embodiment of the present invention；

Fig. 7 is the structural schematic diagram of another kind UE provided in an embodiment of the present invention；

Fig. 8 is the structural schematic diagram of another kind UE provided in an embodiment of the present invention.

Specific embodiment

To keep the technical problem to be solved in the present invention, technical solution and advantage clearer, below in conjunction with attached drawing and tool Body embodiment is described in detail.

In traditional LTE (Long Term Evolution, long term evolution) system, base station passes through RRC (Radio Resource Control, wireless heterogeneous networks) signaling is to UE transmission measurement configuration information, and the UE is according to the measuring configuration The content of information measures (with frequency, alien frequencies, different technology), and measurement result is then reported to network side.

Measurement configuration information generally comprises measurement object (measurement object) and reports configuration (report configuration).For measurement object using frequency point as basic unit, the measurement object being each configured is an independent frequency point, is gathered around There is individual measurement object mark (ID), measurement object may include carrier frequency, and adjacent cell black and white lists and needs report The contents such as the cell of CGI (Cell Global Identifier, Cell Global Identity).Report configuration can be with according to triggering type Be divided into event triggering report and the period triggering report, each report configuration to possess individual mark.Event trigger type it is upper The duration (Time to Trigger) that report configuration meeting dispensing threshold value sometime and meet trigger condition, periodically The purpose (for example, reporting CGI) for reporting configuration meeting dispensing periodic triggers of triggering type.Reporting for periodic triggers type is matched Setting can also include triggering measurement amount, and reporting measurement amount reports interval, reports number etc..

Each measurement mark under, measure the process reported be divided into measurement assessment with tissue report two processes.Measurement Assessment refers to UE by measurement, searches out satisfaction in some measurement object and the cell of configuration is reported to be assessed, when cell is one All meet entry criteria in fixing time, cell is included in report list.Once there is new cell to be included in report list, will touch Hair reports process.Tissue report refer to the process of fill in measurement reporting message, need to fill in measurement mark, this cell measurement information And measurement information in neighbor cell etc..

In LTE system, for the cell measurement results that physical layer reports, the filtering (L3 for carrying out rrc layer is first had to Filter), for the measurement amount (such as RSRP, RSRQ) generated later as measurement result to be assessed, existing L3 filter is public Formula are as follows: F_n=(1-a) F_n-1+a·M_n, wherein F_nIt is that can be used for measuring assessment by the filtered measurement result of L3；A= 1/2 (k/4), wherein k is the filtering parameter of network configuration；F_n-1It is last filtered measurement result；M_nBe nearest one from The measurement result that physical layer receives.

Under high frequency scene (such as in 5G communication system), the measurement result of cell is obtained based on wave beam, and wave beam Itself being can be changed.When wave beam changes, if the measurement result of wave beam is still used as rrc layer filter before Input, then will lead to measurement result inaccuracy, be unable to the signal quality of one cell of accurate response.

Based on above-mentioned application scenarios, the present invention provides a kind of processing method of measurement result, below with reference to specific implementation Example is described in detail the processing method of measurement result of the invention.UE of the present invention can be for example mobile phone, computer, Household appliance, tablet computer (Tablet Personal Computer), laptop computer (Laptop Computer), individual Digital assistants (personal digital assistant, abbreviation PDA), mobile Internet access device (Mobile Internet Device, MID) or the terminal devices such as wearable device (Wearable Device).The base station mentioned in the embodiment of the present invention It can be evolved base station (eNB, evolved Node B) or other base stations, it should be noted that in the embodiment of the present invention In do not limit the concrete type of base station.It should be noted that the measurement result that the embodiment of the present invention is mentioned can be RSRP/ RSRQ measurement result, for example, NR-RSRP (Reference Signal Received Power in next generation communication system) measurement result.

It is a kind of flow diagram of the processing method of measurement result provided in an embodiment of the present invention referring to Fig. 1, Fig. 1, such as Shown in Fig. 1, described method includes following steps:

The physical layer that step 101, user terminal UE control the UE becomes in signal quality ranking in preceding M of wave beam When change, the measurement result based on preceding M wave beams after variation reports the first measurement knot to the radio resource control RRC layer of the UE Fruit, M are the integer more than or equal to 1.

Step 102, the UE are controlled the rrc layer and are filtered using filter to first measurement result, are obtained First filtered measurement results.

Step 103, the UE control the measurement knot that the rrc layer determines cell according to first filtered measurement results Fruit.

In embodiments of the present invention, the UE controls the physical layer and occurs in signal quality ranking in preceding M of wave beam When variation, Xiang Suoshu rrc layer reports the first measurement result, and the UE is controlled the rrc layer and surveyed using filter to described first Amount result is filtered, and obtains the first filtered measurement results.The UE controls the rrc layer according to the first filtering measurement knot Fruit determines the measurement result of cell.The signal quality ranking can be arranged according to any index that will affect signal quality Name, such as signal power, signal-to-noise ratio etc..It is understood that the signal quality ranking can be carried out according to some index Ranking can also carry out overall ranking according to multiple and different indexs, and the embodiment of the present invention is not specifically limited in this embodiment.

The UE can control the physical layer in signal quality ranking when preceding M of wave beam changes, according to change Preceding M wave beams after change determine a comprehensive beam measurement, and report to the rrc layer and carry the synthesis First measurement result of beam measurement.The UE also can control the physical layer and report carrying to the rrc layer First measurement result of the corresponding M beam measurement of preceding M wave beams after stating variation.

The UE is controlled the rrc layer and is filtered using filter to first measurement result.It is understood that In signal quality ranking before preceding M of wave beam changes, before the UE can control the physical layer according to variation The corresponding M beam measurement of preceding M of wave beam reports the second measurement result to the rrc layer.Accordingly, it described second surveys Amount result can be true according to the corresponding M beam measurement of preceding M wave beams before the variation including the physical layer A fixed comprehensive beam measurement is also possible to include the corresponding M wave beam survey of preceding M wave beams before the variation Measure result.

Assuming that the UE control first filter is to institute in signal quality ranking before preceding M of wave beam changes It states the second measurement result to be filtered, then the UE can control the rrc layer using first filter to first measurement As a result it is filtered, also can control the rrc layer and use the second filter different from the first filter to described the One measurement result is filtered.It should be noted that no matter the rrc layer ties first measurement using any filter Fruit is filtered, the beam measurement for including in the number for the filter that the rrc layer uses and first measurement result Number it is identical, that is, guarantee a filtering one beam measurement is filtered.Such as when in first measurement result Including be a comprehensive beam measurement when, the UE controls the rrc layer using a filter to described first Measurement result is filtered, and obtains first filtered measurement results；When include in first measurement result is M wave beam When measurement result, the UE is controlled the rrc layer and is carried out respectively to the M beam measurement respectively using M filter Filtering obtains M the first filtered measurement results.

After obtaining first filtered measurement results, the UE controls the rrc layer and is measured according to first filtering As a result the measurement result of cell is determined.When what first measurement result that the physical layer is reported to the rrc layer included is When one beam measurement, first filtered measurement results are 1, and the UE controls the rrc layer according to described first Filtered measurement results determine that the mode of the measurement result of cell is to directly determine the survey that first filtered measurement results are cell Measure result.Include when first measurement result that the physical layer is reported to the rrc layer is M beam measurement When, first filtered measurement results are M, and it is comprehensive according to the M the first filtered measurement results that the UE controls the rrc layer The measurement result for determining cell is closed, such as the average value or weighted average of the M the first filtered measurement results can be calculated Measurement result as cell.

Optionally, the method also includes:

In the embodiment of the present invention, for the signal quality ranking before the variation of preceding M of wave beam, the UE controls the object It manages layer and the second measurement result is reported to the rrc layer based on the corresponding M beam measurement of preceding M wave beams before variation.Tool Body, the physical layer can determine a synthesis according to the corresponding M beam measurement of preceding M wave beams before the variation Beam measurement, then report the second of the beam measurement for carrying one synthesis to measure to the rrc layer As a result.The physical layer can also report the second measurement result for carrying the M beam measurement to the rrc layer.

In the embodiment, the UE controls the rrc layer and resets first filter, and uses the first filtering after resetting Device is filtered first measurement result, and the first filter is the filtering being filtered to second measurement result Device.For example, when first measurement result and second measurement result be include a comprehensive wave beam measurement knot When fruit, the UE controls the rrc layer and resets the first filter, and using the first filter after resetting to described first Measurement result is filtered.

For example, it is assumed that M=2, physical layer carries out the signal quality measured of wave beam, and assumes signal quality ranking preceding Two wave beams are wave beam A and wave beam B, beam measurement and the wave beam B of the physical layer according to the wave beam A Beam measurement determine a comprehensive beam measurement, then report the wave beam of the synthesis to survey to the rrc layer It measures result (i.e. the second measurement result), using filter a to described second when the rrc layer receives second measurement result Measurement result is filtered.When the signal quality of wave beam A is deteriorated and/or the signal quality of wave beam C improves, signal quality is caused to be arranged Name is when preceding two wave beams change (i.e. preceding two wave beams become wave beam B and wave beam C), and the physical layer is according to change The measurement result (i.e. wave beam B and wave beam C) of preceding two wave beams after change determines the beam measurement of a new synthesis, so The backward rrc layer reports the beam measurement (i.e. the first measurement result) of the new synthesis, and the rrc layer can be reset The filter a, and first measurement result is filtered using the filter a after the resetting.It is understood that When preceding M of the wave beam changes, the physical layer can be by sending an instruction to the rrc layer, for referring to Show that beam measurement changes.

In another example, it is assumed that M=2, and the described first and second measurement result includes the case where 2 beam measurements Under, when the physical layer detect signal quality ranking preceding two wave beams be wave beam A and wave beam B, the physical layer to The rrc layer reports the second measurement result (i.e. the beam measurement of wave beam A and the beam measurement of wave beam B), described It is filtered, is made using beam measurement of the filter a to the wave beam A when rrc layer receives second measurement result It is filtered with beam measurement of the filter b to the wave beam B, obtains two the second filtered measurement results.When signal matter Ranking is measured when preceding two wave beams change, such as when becoming wave beam B and wave beam C, the physical layer is to the rrc layer Report the first measurement result (and wave beam B beam measurement and wave beam C beam measurement), the UE can control The rrc layer resets filter a and filter b, and the filter a and filter b after then using resetting are respectively to described Wave beam B and wave beam C are filtered, and obtain two the first filtered measurement results.Optionally, since wave beam B is there is no changing, The method can retain the filter b to the beam measurement of the wave beam B, that is to say, that the method can be only Filter a is only reset, is then filtered using beam measurement of the filter a after resetting to the wave beam C.The side Method determines that corresponding second filtered measurement results of the wave beam B are the second filtered measurement results of the wave beam B and described heavy The filter a postponed is filtered the beam measurement of the wave beam C to obtain the second wave beam measurement knot of the wave beam C Fruit.

It is understood that in embodiments of the present invention, the resetting filter refers to the measurement before emptying filter As a result, restarting to filter.

In the embodiment, the UE controls the rrc layer use and different second filtering of the first filter Device is filtered first measurement result, obtains the first filtered measurement results, and the first filter is to described second The filter that measurement result is filtered, for example, the first filter and the second filter can be filtering parameter not Identical two filters.

For example, it is assumed that M=2, and the physical layer reports a comprehensive wave beam measurement knot to the rrc layer every time Fruit.The rrc layer described in the forward direction that the physical layer changes in preceding two wave beams reports the second measurement result, the RRC Layer is filtered second measurement result using first filter (assuming that filtering parameter k=1), when the physical layer is preceding When the backward rrc layer that two wave beams change reports the first measurement result, the rrc layer use and first filter The different second filter (assuming that filtering parameter k=0) of wave device is filtered first measurement result.It is understood that It is that, if the physical layer does not report new beam measurement to the rrc layer again, other measurement results continue later It is filtered using the first filter.

In the embodiment, the UE controls the physical layer and is determined according to the measurement result of preceding M wave beams after variation One comprehensive beam measurement, then report the beam measurement including the synthesis to the rrc layer first are surveyed Measure result.

The measurement result according to preceding M wave beams after variation determines that the mode of a comprehensive beam measurement can Be described in area change after preceding M M beam measurements mean value or maximum value.For example, as M=2, it is assumed that Preceding two wave beams after variation are wave beam B and wave beam C, and the physical layer can determine that the wave beam B and wave beam C are right respectively For the average value or weighted average for the beam measurement answered as comprehensive beam measurement, the physical layer can also be true A biggish wave beam in the fixed corresponding beam measurement of wave beam B and the corresponding beam measurement of the wave beam C Measurement result is as comprehensive beam measurement.

It should be noted that it is a comprehensive wave that the embodiment, which is in the first measurement result that the physical layer reports, It is executed in the case where beam measurement result.That is, the UE controls the RRC when first filter result is one Layer directly determines the measurement result that one first filtered measurement results are cell.

In the embodiment, M is the integer greater than 1, and first measurement result includes that preceding M wave beams after variation are corresponding M beam measurement, second measurement result include variation before the corresponding M beam measurement of preceding M wave beams.

In the embodiment, for being measured in first measurement result with wave beam identical in second measurement result As a result, the rrc layer can not be filtered it, that is, directly acquires identical beam measurement corresponding second and filter Measurement result is as its corresponding first filtered measurement results.For in first measurement result with second measurement result In different beam measurement, the rrc layer is filtered it using filter, obtains corresponding first filtering measurement As a result.Finally, for M the first filtered measurement results, the UE controls the rrc layer and calculates the M first filtering measurement As a result the measurement result of average value or weighted average as cell.

For example, it is assumed that M=2, preceding two wave beams before variation are wave beam A and wave beam B, the rrc layer use filter Wave device a is filtered the beam measurement of the wave beam A, using filter b to the beam measurement of the wave beam B into Row filtering obtains corresponding second filtered measurement results of wave beam A and corresponding second filtered measurement results of wave beam B.Current two Wave beam change, such as when preceding two wave beams after variation are wave beam B and wave beam C, after the rrc layer determines variation Wave beam identical with preceding two wave beams before variation is wave beam B in preceding two wave beams, the difference is that wave beam C.The rrc layer can be with Corresponding second filtered measurement results of the wave beam B are obtained, and determine that corresponding second filtered measurement results of the wave beam B are wave Corresponding first beam measurement of beam B.For wave beam C, the rrc layer is using a filter to the wave beam of the wave beam C Measurement result is filtered, and obtains corresponding first filtered measurement results of wave beam C.The filter that the rrc layer uses can be It is filtered the filter a of wave to the wave beam A, is also possible to other filters (such as filter c).The rrc layer according to Corresponding first filtered measurement results of wave beam B and corresponding first filtered measurement results of the wave beam C determine cell Measurement result, for example, calculating corresponding first filtered measurement results of the wave beam B and corresponding first filtering of the wave beam C The average value or weighted average of measurement result are the measurement result of cell.

In the embodiment, the UE controls the rrc layer using N number of filter to different N number of first wave The mode that beam is filtered be determine variation before preceding M wave beams in different N number of second wave of preceding M wave beams after variation Then beam determines the N number of first filter being filtered to N number of second wave beam, the rrc layer resetting described N number of first Filter, and carried out using the N number of beam measurement corresponding to N number of first wave beam of N number of first filter after resetting Filtering, to obtain N number of first filtered measurement results.

For example, it is assumed that when M=2, preceding two wave beams before variation are wave beam A and wave beam B, first two after variation Wave beam is wave beam B and wave beam C.The rrc layer determines in preceding two wave beams after variation and in preceding two wave beams before variation Identical wave beam be a wave beam (i.e. wave beam B), different wave beam be first wave beam (i.e. wave beam C), before variation before In two wave beams with identical wave beam in preceding two wave beams after variation be second wave beam (and wave beam A).The rrc layer weight The filter being filtered to the wave beam A is set, and the wave beam C is filtered using the filter after resetting, obtains institute State corresponding first filtered measurement results of wave beam C.

In the embodiment, first measurement result further includes the mark of preceding M wave beams after variation, and described second surveys Amount result further includes the mark of preceding M wave beams before variation.In this way, the rrc layer can know preceding M wave beams after variation Mark needs weight so as to determine according to the mark of preceding M wave beams before the mark and variation of preceding M wave beams after variation Which filter set.

Optionally, the method also includes:

In the embodiment, the rrc layer filter is that the UE is generated according to more set rrc layer filtering parameters, described more It is that the UE is configured and sent to the UE that set rrc layer filtering parameter, which can be base station,.The base station can match for the UE Q set rrc layer filtering parameter is set, the UE covers rrc layer filtering parameter according to the Q and generates Q rrc layer filter, wherein Q is Integer more than or equal to M.

It should be noted that when the comprehensive beam measurement that first measurement result includes, the base Standing only to configure 1 set of rrc layer filtering parameter for the UE, or the UE configures two sets or more set rrc layer filtering ginsengs Number.

Signal power, signal-to-noise ratio.

In the embodiment of the present invention, the signal quality ranking can according to any one in signal power, signal-to-noise ratio into Row ranking.For example, the signal quality ranking can carry out ranking only according to signal power (such as RSRP), i.e., described Physical layer can determine signal power ranking in preceding M of wave beam as signal quality ranking in preceding M of wave beam.The signal Quality ranking can also only according to signal-to-noise ratio carry out ranking, such as RSRQ, CQI (Channel Quality Indicator, Channel quality instruction) or SINR (Signal Interference Noise Ratio, Signal Interference and Noise Ratio), i.e., the described object Reason layer can determine signal-to-noise ratio ranking in preceding M of wave beam as signal quality ranking in preceding M of wave beam.

It is understood that the signal quality ranking can also be integrated together according to signal power and signal-to-noise ratio Ranking.For example, the physical layer can using the average value or weighted average of signal power ranking and signal-to-noise ratio ranking as Signal quality ranking.It is understood that the mode for carrying out overall ranking is also possible to other modes, the present invention, which does not do this, to be had Body limits.Such as ranking can be carried out supplemented by another index based on an index, i.e., the described physical layer can preferentially according to Signal power carries out ranking, and multiple wave beams identical for signal power are carried out further according to its corresponding signal-to-noise ratio Ranking.

Referring to fig. 2, Fig. 2 is a kind of structural schematic diagram of UE provided in an embodiment of the present invention, as shown in Fig. 2, the UE packet It includes:

First reporting module 201, the physical layer for controlling the UE occur in signal quality ranking in preceding M of wave beam When variation, the measurement result based on preceding M wave beams after variation reports the first measurement to the radio resource control RRC layer of the UE As a result, M is the integer more than or equal to 1；

First filter module 202 filters first measurement result using filter for controlling the rrc layer Wave obtains the first filtered measurement results；

Determining module 203 determines the measurement knot of cell for controlling the rrc layer according to first filtered measurement results Fruit.

It optionally, is the structural schematic diagram of another kind UE provided in an embodiment of the present invention referring to Fig. 3, Fig. 3, as shown in figure 3, The UE further include:

Second reporting module 204, for controlling measurement result of the physical layer based on preceding M wave beams before variation to institute It states rrc layer and reports the second measurement result；

Second filter module 205 filters second measurement result using filter for controlling the rrc layer Wave obtains the second filtered measurement results.

Optionally, first filter module 202 for controlling the rrc layer resetting first filter, and uses resetting First filter afterwards is filtered first measurement result, wherein the first filter is to second measurement As a result the filter being filtered.

Optionally, first filter module 202, it is different for controlling the rrc layer use and first filter Second filter is filtered first measurement result, obtains the first filtered measurement results, wherein the first filter For the filter being filtered to second measurement result.

Optionally, referring to fig. 4, Fig. 4 is the structural schematic diagram of another kind UE provided in an embodiment of the present invention, as shown in figure 4, First reporting module 201, comprising:

First determination unit 2011, for determining a comprehensive wave based on the measurement result of preceding M wave beams after variation Beam measurement result；

Reporting unit 2012, for reporting first of the beam measurement including the synthesis to measure to the rrc layer As a result.

Optionally, the determining module 203 determines that first filtered measurement results are small for controlling the rrc layer The measurement result in area.

Referring to Fig. 5, Fig. 5 is the structural schematic diagram of another kind UE provided in an embodiment of the present invention, as shown in figure 5, described the One filter module 202, comprising:

Second determination unit 2021, for control in preceding M wave beams after the rrc layer determines variation with before variation before Different N number of first wave beam of M wave beams and identical P wave beam, N are more than or equal to 1 and whole less than or equal to M Number, M=N+P；

Filter unit 2022, it is corresponding N number of to N number of first wave beam using N number of filter for controlling the rrc layer Beam measurement is filtered, and obtains N number of first filtered measurement results；

Acquiring unit 2023 obtains the corresponding P wave beam measurement of the identical P wave beam for controlling the rrc layer As a result corresponding P the second filtered measurement results, as P the first filtered measurement results；

The determining module 203 calculates M the first filtered measurement results average values or weighting for controlling the rrc layer Average value, the measurement result as cell.

It optionally, is the structural schematic diagram of another kind UE provided in an embodiment of the present invention referring to Fig. 6, Fig. 6, as shown in fig. 6, The filter unit 2022, comprising:

Determine subelement 20221, for control in preceding M wave beams before the rrc layer determines variation with the preceding M after variation Name different N number of second wave beam of wave beam；

Subelement 20222 is reset, resets N number of first filter, N number of first filter for controlling the rrc layer For the filter being filtered to N number of second wave beam；

Filtering subunit 20223, for controlling the rrc layer using N number of first filter after resetting to described N number of the The corresponding N number of beam measurement of one wave beam is filtered, and obtains N number of first filtered measurement results.

It optionally, is the structural schematic diagram of another kind UE provided in an embodiment of the present invention referring to Fig. 7, Fig. 7, as shown in fig. 7, The UE further include:

Receiving module 206, for receive base station be the UE configuration Q cover rrc layer filtering parameter, wherein Q be greater than or Integer equal to M；

Generation module 207 generates Q rrc layer filter for covering rrc layer filtering parameter according to the Q.

Signal power, signal-to-noise ratio.

It should be noted that above-mentioned UE can be the UE in embodiment shown in FIG. 1 in the present embodiment, implement shown in Fig. 1 Any embodiment of UE can be realized by the above-mentioned UE in the present embodiment in example, and reach identical beneficial effect, Details are not described herein again.

Referring to Fig. 8, Fig. 8 is a kind of structural schematic diagram of UE provided in an embodiment of the present invention, as shown in figure 8, the UE packet It includes: processor 800, transceiver 810, memory 820, user interface 830 and bus interface, in which:

Processor 800 executes following process for reading the program in memory 820:

The physical layer of control user terminal UE, when preceding M of wave beam changes, is based on variation in signal quality ranking The measurement result of preceding M wave beams afterwards reports the first measurement result to the radio resource control RRC layer of the UE, M be greater than or Integer equal to 1；

It controls the rrc layer and first measurement result is filtered using filter, obtain the first filtering measurement knot Fruit；

Control the measurement result that the rrc layer determines cell according to first filtered measurement results.

In fig. 8, bus architecture may include the bus and bridge of any number of interconnection, specifically be represented by processor 800 One or more processors and the various circuits of memory that represent of memory 820 link together.Bus architecture can be with Various other circuits of such as peripheral equipment, voltage-stablizer and management circuit or the like are linked together, these are all these Well known to field, therefore, it will not be further described herein.Bus interface provides interface.Transceiver 810 can be Multiple element includes transmitter and receiver, provides the unit for communicating over a transmission medium with various other devices.Needle To different user equipmenies, user interface 830, which can also be, external the interface for needing equipment is inscribed, and the equipment of connection includes But be not limited to keypad, display, loudspeaker, microphone, control stick etc..

Processor 800, which is responsible for management bus architecture and common processing, memory 820, can store processor 800 and is holding Used data when row operation.

Optionally, the processor 800 is also used to:

It controls the physical layer and the second measurement is reported to the rrc layer based on the measurement result of preceding M wave beams before variation As a result；

It controls the rrc layer and second measurement result is filtered using filter, obtain the second filtering measurement knot Fruit.

Optionally, the processor 800 is controlled the rrc layer and is filtered using filter to first measurement result Wave obtains the first filtered measurement results, comprising:

The rrc layer resetting first filter is controlled, and first measurement is tied using the first filter after resetting Fruit is filtered, wherein the first filter is the filter being filtered to second measurement result.

It controls the rrc layer use and first measurement result is carried out with the different second filter of first filter Filtering, obtains the first filtered measurement results, wherein the first filter is the filter being filtered to second measurement result Wave device.

Optionally, radio resource of measurement result of the processor 800 based on preceding M wave beams after variation to the UE Control rrc layer reports the first measurement result, comprising:

Optionally, the processor 800 controls the survey that the rrc layer determines cell according to first filtered measurement results Measure result, comprising:

It controls the rrc layer and determines that first filtered measurement results are the measurement result of cell.

The processor 800 is controlled the rrc layer and is filtered using filter to first measurement result, obtains One filtered measurement results, comprising:

Control in preceding M wave beams after the rrc layer determines variation with preceding M wave beams before variation different N number of the One wave beam and identical P wave beam, N are the integer more than or equal to 1 and less than or equal to M, M=N+P；

The rrc layer is controlled to carry out using N number of filter N number of beam measurement corresponding to N number of first wave beam Filtering, obtains N number of first filtered measurement results；

It controls the rrc layer and obtains the corresponding P a second of the corresponding P beam measurement of the identical P wave beam Filtered measurement results, as P the first filtered measurement results；

The processor 800 controls the measurement result that the rrc layer determines cell according to first filtered measurement results, Include:

It controls the rrc layer and calculates M the first filtered measurement results average values or weighted average, the measurement as cell As a result.

Optionally, the processor 800 controls the rrc layer using N number of filter to N number of first wave beam pair after variation The N number of beam measurement answered is filtered, and obtains N number of first filtered measurement results, comprising:

Control in preceding M wave beams before the rrc layer determines variation with preceding M wave beams after variation different N number of the Two wave beams；

Control the rrc layer and reset N number of first filter, N number of first filter be to N number of second wave beam into The filter of row filtering；

The rrc layer is controlled using N number of first filter after resetting to the corresponding N number of wave beam of N number of first wave beam Measurement result is filtered, and obtains N number of first filtered measurement results.

Optionally, the processor 800 is also used to:

It receives the Q that base station is UE configuration and covers rrc layer filtering parameter, wherein Q is the integer more than or equal to M；

Rrc layer filtering parameter is covered according to the Q, generates Q rrc layer filter.

Signal power, signal-to-noise ratio.

It can be with those of ordinary skill in the art will appreciate that realizing that all or part of step of above-described embodiment method is It is completed by the relevant hardware of one or more program instructions, one or more described programs can store computer-readable deposits in one In storage media, one or more programs are when being executed, comprising the following steps:

The physical layer of the UE is controlled in signal quality ranking when preceding M of wave beam changes, after variation The measurement result of preceding M wave beam reports the first measurement result to the radio resource control RRC layer of the UE, and M is more than or equal to 1 Integer；

Optionally, one or more described programs are when being executed, further comprising the steps of:

Optionally, the control rrc layer is filtered first measurement result using filter, obtains first Filtered measurement results, comprising:

Optionally, the control rrc layer determines the measurement result of cell, packet according to first filtered measurement results It includes:

The control rrc layer is filtered first measurement result using filter, obtains the first filtering survey Measure result, comprising:

The control rrc layer determines the measurement result of cell according to first filtered measurement results, comprising:

Optionally, the control rrc layer is using N number of filter to the corresponding N number of wave of N number of first wave beam after variation Beam measurement result is filtered, and obtains N number of first filtered measurement results, comprising:

Signal power, signal-to-noise ratio.

The storage medium, such as read-only memory (Read-Only Memory, abbreviation ROM), random access memory (Random Access Memory, abbreviation RAM), magnetic or disk etc..

In several embodiments provided herein, it should be understood that disclosed method and apparatus, it can be by other Mode realize.For example, the apparatus embodiments described above are merely exemplary, for example, the division of the unit, only For a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components can combine Or it is desirably integrated into another system, or some features can be ignored or not executed.Another point, shown or discussed phase Coupling, direct-coupling or communication connection between mutually can be through some interfaces, the INDIRECT COUPLING or communication of device or unit Connection can be electrical property, mechanical or other forms.

It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into one processing unit It is that the independent physics of each unit includes, can also be integrated in one unit with two or more units.Above-mentioned integrated list Member both can take the form of hardware realization, can also realize in the form of hardware adds SFU software functional unit.

The above-mentioned integrated unit being realized in the form of SFU software functional unit can store and computer-readable deposit at one In storage media.Above-mentioned SFU software functional unit is stored in a storage medium, including some instructions are used so that a computer Equipment (can be personal computer, server or the network equipment etc.) executes receiving/transmission method described in each embodiment of the present invention Part steps.And storage medium above-mentioned includes: USB flash disk, mobile hard disk, read-only memory (Read-Only Memory, abbreviation ROM), random access memory (Random Access Memory, abbreviation RAM), magnetic or disk etc. are various can store The medium of program code.

The above is a preferred embodiment of the present invention, it is noted that for those skilled in the art For, under the premise of not departing from above-mentioned principle of the invention, it can also make several improvements and retouch, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims

1. a kind of processing method of measurement result, which is characterized in that the described method includes:

User terminal UE controls the physical layer of the UE in signal quality ranking when preceding M of wave beam changes, based on becoming The measurement result of preceding M wave beams after change reports the first measurement result to the radio resource control RRC layer of the UE, M be greater than Or the integer equal to 1；

The UE is controlled the rrc layer and is filtered using filter to first measurement result, and the first filtering measurement is obtained As a result；

The UE controls the measurement result that the rrc layer determines cell according to first filtered measurement results；

The method also includes:

The UE controls the physical layer and reports the second survey to the rrc layer based on the measurement result of preceding M wave beams before variation Measure result；

The UE is controlled the rrc layer and is filtered using filter to second measurement result, and the second filtering measurement is obtained As a result；

The M is the integer greater than 1, and first measurement result includes the corresponding M wave beam measurement of preceding M wave beams after variation As a result, second measurement result includes the corresponding M beam measurement of preceding M wave beams before variation；

The UE is controlled the rrc layer and is filtered using filter to first measurement result, and the first filtering measurement is obtained As a result, comprising:

The UE controls different N number of with preceding M wave beams before variation in preceding M wave beams after the rrc layer determines variation First wave beam and identical P wave beam, N are the integer more than or equal to 1 and less than or equal to M, M=N+P；

The UE control the rrc layer using N number of filter to the corresponding N number of beam measurement of N number of first wave beam into Row filtering, obtains N number of first filtered measurement results；

The UE controls the rrc layer and obtains the corresponding P of the corresponding P beam measurement of the identical P wave beam a the Two filtered measurement results, as P the first filtered measurement results；

The UE controls the rrc layer and calculates M the first filtered measurement results average values or weighted average, the survey as cell Measure result.

2. the method as described in claim 1, which is characterized in that the UE controls the rrc layer using filter to described the One measurement result is filtered, and obtains the first filtered measurement results, comprising:

The UE controls the rrc layer and resets first filter, and using the first filter after resetting to first measurement As a result it is filtered, wherein the first filter is the filter being filtered to second measurement result.

3. the method as described in claim 1, which is characterized in that the UE controls the rrc layer using filter to described the One measurement result is filtered, and obtains the first filtered measurement results, comprising:

The UE control the rrc layer use and the different second filter of first filter to first measurement result into Row filtering, obtains the first filtered measurement results, wherein the first filter is filtered second measurement result Filter.

4. the method as described in claim 1, which is characterized in that the measurement result based on preceding M wave beams after variation to The radio resource control RRC layer of the UE reports the first measurement result, comprising:

5. method as claimed in claim 4, which is characterized in that the UE controls the rrc layer and surveyed according to first filtering Amount result determines the measurement result of cell, comprising:

6. the method as described in claim 1, which is characterized in that the UE controls the rrc layer using N number of filter to variation The corresponding N number of beam measurement of N number of first wave beam afterwards is filtered, and obtains N number of first filtered measurement results, comprising:

The UE controls different N number of with preceding M wave beams after variation in preceding M wave beams before the rrc layer determines variation Second wave beam；

The UE controls the rrc layer and resets N number of first filter, and N number of first filter is to N number of second wave beam The filter being filtered；

The UE controls the rrc layer using N number of first filter after resetting to the corresponding N number of wave of N number of first wave beam Beam measurement result is filtered, and obtains N number of first filtered measurement results.

7. method as described in any one of claims 1 to 6, which is characterized in that after first measurement result further includes variation Preceding M wave beams mark, second measurement result further include variation before preceding M wave beams mark.

8. method as described in claim 1 or 6, which is characterized in that the method also includes:

The UE receives the Q that base station is UE configuration and covers rrc layer filtering parameter, wherein Q is the integer more than or equal to M；

9. method as described in any one of claims 1 to 6, which is characterized in that the signal quality ranking is according to below one Item or many index carry out ranking:

Signal power, signal-to-noise ratio.

10. a kind of user terminal UE, which is characterized in that the UE includes:

First reporting module, for controlling the physical layer of the UE in signal quality ranking when preceding M of wave beam changes, Measurement result based on preceding M wave beams after variation reports the first measurement result, M to the radio resource control RRC layer of the UE For the integer more than or equal to 1；

First filter module is filtered first measurement result using filter for controlling the rrc layer, obtains One filtered measurement results；

Determining module determines the measurement result of cell for controlling the rrc layer according to first filtered measurement results；

The UE further include:

Second reporting module, for controlling measurement result of the physical layer based on preceding M wave beams before variation to the rrc layer Report the second measurement result；

Second filter module is filtered second measurement result using filter for controlling the rrc layer, obtains Two filtered measurement results；

First filter module, comprising:

Second determination unit, for control in preceding M wave beams after the rrc layer determines variation with preceding M wave beams before variation Different N number of first wave beam and identical P wave beam, N are the integer more than or equal to 1 and less than or equal to M, M=N+ P；

Filter unit is measured for controlling the rrc layer using N number of filter N number of wave beam corresponding to N number of first wave beam As a result it is filtered, obtains N number of first filtered measurement results；

Acquiring unit obtains the corresponding P beam measurement correspondence of the identical P wave beam for controlling the rrc layer P the second filtered measurement results, as P the first filtered measurement results；

The determining module calculates M the first filtered measurement results average values or weighted average for controlling the rrc layer, Measurement result as cell.

11. UE as claimed in claim 10, which is characterized in that first filter module, for controlling the rrc layer resetting First filter, and first measurement result is filtered using the first filter after resetting, wherein first filter Wave device is the filter being filtered to second measurement result.

12. UE as claimed in claim 10, which is characterized in that first filter module is used for controlling the rrc layer First measurement result is filtered with the different second filter of first filter, obtains the first filtering measurement knot Fruit, wherein the first filter is the filter being filtered to second measurement result.

13. UE as claimed in claim 10, which is characterized in that first reporting module, comprising:

First determination unit, for determining a comprehensive wave beam measurement knot based on the measurement result of preceding M wave beams after variation Fruit；

14. UE as claimed in claim 13, which is characterized in that the determining module, for controlling described in the rrc layer determination First filtered measurement results are the measurement result of cell.

15. UE as claimed in claim 10, which is characterized in that the filter unit, comprising:

Subelement is determined, for controlling in preceding M wave beams before the rrc layer determines variation with preceding M wave beams after variation not Identical N number of second wave beam；

Subelement is reset, resets N number of first filter for controlling the rrc layer, N number of first filter is to the N The filter that a second wave beam is filtered；

Filtering subunit, for controlling the rrc layer using N number of first filter after resetting to N number of first wave beam pair The N number of beam measurement answered is filtered, and obtains N number of first filtered measurement results.

16. UE as described in any one of claim 10~15, which is characterized in that after first measurement result further includes variation Preceding M wave beams mark, second measurement result further include variation before preceding M wave beams mark.

17. the UE as described in claim 10 or 15, which is characterized in that the UE further include:

Receiving module covers rrc layer filtering parameter for receiving the Q that base station is UE configuration, wherein Q is more than or equal to M's Integer；

18. UE as described in any one of claim 10~15, which is characterized in that the signal quality ranking is according to below one Item or many index carry out ranking:

Signal power, signal-to-noise ratio.

19. a kind of computer readable storage medium, be stored in the computer storage medium computer executable one or Multiple programs, which is characterized in that one or more of programs execute the computer when being executed by the computer above-mentioned Step in method according to any one of claims 1 to 9.