CN104301914B - LTE measuring methods and device based on frame division multiplexing - Google Patents
LTE measuring methods and device based on frame division multiplexing Download PDFInfo
- Publication number
- CN104301914B CN104301914B CN201410578631.1A CN201410578631A CN104301914B CN 104301914 B CN104301914 B CN 104301914B CN 201410578631 A CN201410578631 A CN 201410578631A CN 104301914 B CN104301914 B CN 104301914B
- Authority
- CN
- China
- Prior art keywords
- frame number
- measurement
- frame
- parameter
- adjustment
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/08—Testing, supervising or monitoring using real traffic
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
Abstract
The embodiments of the invention provide a kind of LTE measuring methods based on frame division multiplexing and device, methods described to include:Obtain frame point direction when user initiates frame division multiplexing and frame divides parameter, and, user initiates measurement parameter during LTE measurements;Parameter is divided to determine to send frame number using the frame point direction and frame, and, measurement frame number is determined using the measurement parameter;If user first initiates frame division multiplexing, when detecting that the transmission frame number is equal to the measurement frame number, adjusting the measurement parameter makes measurement frame number be different from the transmission frame number;If user first initiates LTE measurements, when detecting that the transmission frame number is equal to the measurement frame number, judge that the frame point parameter regulates whether to be limited;If not being limited, the frame point parameter is adjusted;If limited, the measurement parameter is adjusted.The transmission that the present invention can reduce business datum takes, and accelerates the transmission speed of business datum, so as to reduce the stand-by period of user, lifts Consumer's Experience.
Description
Technical field
The present invention relates to telecommunication technology field, more particularly to a kind of LTE measuring methods and one kind based on frame division multiplexing
LTE measurement apparatus based on frame division multiplexing.
Background technology
The popularization of intelligent terminal so that mobile Internet business is surging forward.In order to meet growing mobile interchange
Network service demand, there is the LTE Long Term Evolutions (Long Term Evolution) of 100Mbps data download capabilities also referred to as
For 4G, the mainstream technology from 3G to 4G evolution is considered.
As the TD-SCDMA system network of one of 3G standard, with user's cumulative year after year, start network high load capacity occur
Scene, in order to lift network capacity, 3G systems have used frame division multiplexing technology.So-called frame division multiplexing technology refers to distribute multiple
Meet the user of frame division multiplexing condition, i.e. BRU (Basic Resource Unit, basic resource unit) occupies over configuration door
The user of limit, share same code character DCH (Dedicated Channel, dedicated channel) physical resource, can with 2 users to share,
That is 2 times of frame division multiplexings, can also 4 users to share, i.e. 4 times of frame division multiplexings, these user's frame timesharing use shared DCH physics
Resource.Frame division multiplexing technology includes transmittable data period and non-transmittable data period.
Because 3G and 4G are collectively resided in cordless communication network, TD-SCDMA network mainly carries voice, short message and speed
The medium data service on the lower side of rate, and LTE network will mainly carry the data service of big speed.In view of the situation, 3G/4G is mutual
Operating technology has vital effect for the Large scale construction of TD-SCDMA network and use.Interoperated by 3G/4G
Technology, the shunting of different user different business can be effectively realized, avoids network resources waste, improves each network resource usage
Rate;Meanwhile LTE and TD- can be realized during movement in LTE network dtr signal or the region being not covered with, user
The switching of SCDMA network systems, mobile network's cutting off rate is reduced, lift user satisfaction.Increase 3G/4G interoperability in 3G systems
After function, LTE isosystem measurements are introduced, measurement result is as the foundation for redirecting or relocating.
However, two functions of frame division multiplexing and LTE isosystem measurements are all independent process at present, LTE isosystem measurements
The independent period is needed to perform, the independent period is unable to transceiving data, divides according to the frame of frame division multiplexing technology in user
Transmittable data period is just used for LTE isosystem measurements, will signaling and PS in increase 3G systems (Packet Switch,
Packet switch) etc. the transmission of business datum take, reduce the transmission speed of business datum, so as to increase the stand-by period of user,
Influence Consumer's Experience.
Therefore, a technical problem for needing those skilled in the art urgently to solve at present is exactly:One kind is provided and is based on frame
Divide the LTE measuring methods and device of multiplexing, taken to reduce the transmission of business datum, accelerate the transmission speed of business datum,
So as to reduce the stand-by period of user, Consumer's Experience is lifted.
The content of the invention
Technical problem to be solved of the embodiment of the present invention is to provide a kind of LTE measuring methods based on frame division multiplexing, uses
Taken with reducing the transmission of business datum, accelerate the transmission speed of business datum, so as to reduce the stand-by period of user, lifting is used
Experience at family.
Accordingly, the embodiment of the present invention additionally provides a kind of LTE measurement apparatus based on frame division multiplexing, above-mentioned to ensure
The realization and application of method.
In order to solve the above problems, the invention discloses a kind of LTE measuring methods based on frame division multiplexing, methods described bag
Include:
Obtain frame point direction when user initiates frame division multiplexing and frame divides parameter, and, user initiates survey during LTE measurements
Measure parameter;
Parameter is divided to determine to send frame number using the frame point direction and frame, and, determine to measure using the measurement parameter
Frame number;
It is rear to initiate LTE measurements if user first initiates frame division multiplexing, when detecting that the transmission frame number is equal to the measurement frame
Number when, adjusting the measurement parameter makes measurement frame number be different from the transmission frame number;
If user first initiate LTE measurement, initiate frame division multiplexing afterwards, when detect it is described transmission frame number be equal to the measurement frame
Number when, judge that the frame point parameter regulates whether to be limited;
If the adjustment of the frame point parameter is not limited, adjusting the frame point parameter makes transmission frame number be different from the measurement frame
Number;
If the adjustment of the frame point parameter is limited, adjusting the measurement parameter makes measurement frame number be different from the transmission frame
Number.
Preferably, the frame point parameter includes uplink frame point parameter and downlink frame divides parameter, and the transmission frame number includes upper
Row sends frame number and descending transmission frame number,
When it is described measurement frame number fail simultaneously with it is up transmission frame number and it is descending send frame number it is different when, then adjust the survey
Amount parameter makes measurement frame number and the descending transmission frame number different.
Preferably, the frame divides parameter to include repetition period Period_F, and the transmission frame number is in the repetition period
There is higher limit and lower limit in Period_F, judge whether to detect that the transmission frame number is equal to the survey in the following manner
Measure frame number:
Modulus value is obtained to repetition period Period_F modulus using the measurement frame number successively;
Compare the modulus value and the higher limit and lower limit, if the modulus value is more than or equal to the lower limit, and,
Less than or equal to the higher limit, then judge to detect that the transmission frame number is equal to the measurement frame number;Otherwise, it is determined that do not detect
Go out the transmission frame number and be equal to the measurement frame number.
Preferably, direction is divided in the frame point direction including uplink frame, and the uplink frame divides parameter also to include up repetition length
Degree Length_F, uplink frame point deviant Offset_F and uplink frame divide multiple, and the measurement parameter includes measurement deviant
Offset_M, measurement period Period_M and measurement length Length_M, the adjustment measurement parameter make measurement frame number phase
Include different from the step of transmission frame number:
Divide deviant Offset_F and up repeat length Length_F using the uplink frame, determine the up repetition period
The up higher limit and lower limit for sending frame number in Period_F;
The measurement deviant Offset_M is set to 0;
Calculate adjustment measurement frame number;
Compare the adjustment measurement frame number and the up higher limit and lower limit for sending frame number;
If the adjustment measurement frame number is more than or equal to the lower limit, and is less than or equal to higher limit, then adjustment failure,
By the deviant Offset_M iteration increase, once up repeat length Length_F, return calculate the son of adjustment measurement frame number
Step;Iteration increase number divides multiple equal to uplink frame;Otherwise, the adjustment of the measurement parameter is completed.
Preferably, direction is divided in the frame point direction including downlink frame, and the downlink frame divides parameter also to include descending repetition length
Degree Length_F, downlink frame point deviant Offset_F and downlink frame divide multiple, and the measurement parameter includes measurement deviant
Offset_M, measurement period Period_M and measurement length Length_M, the adjustment measurement parameter make measurement frame number phase
Include different from the step of transmission frame number:
Divide deviant Offset_F and descending repeat length Length_F using the downlink frame, determine the descending repetition period
The descending higher limit and lower limit for sending frame number in Period_F;
The measurement deviant Offset_M is set to 0;
Calculate adjustment measurement frame number;
Compare the adjustment measurement frame number and the descending higher limit and lower limit for sending frame number;
If the adjustment measurement frame number is more than or equal to the lower limit, and is less than or equal to higher limit, then adjustment failure,
By the deviant Offset_M iteration increase, once descending repeat length Length_F, return calculate the son of adjustment measurement frame number
Step;Iteration increase number divides multiple equal to downlink frame;Otherwise, the adjustment of the measurement parameter is completed.
Preferably, the frame point direction includes uplink frame point direction and downlink frame divides direction, up repeat length Length_
F is less than or equal to descending repeat length Length_F, and the adjustment measurement parameter makes measurement frame number be different from the transmission
The step of frame number, includes:
Divide deviant Offset_F and up repeat length Length_F using the uplink frame, determine the up repetition period
The up higher limit and lower limit for sending frame number in Period_F;
The measurement deviant Offset_M is set to 0;
Calculate adjustment measurement frame number;
Compare the adjustment measurement frame number and the up higher limit and lower limit for sending frame number;
If adjustment measurement frame number is more than the up higher limit for sending frame number, or, less than the up transmission frame number
Lower limit, determine the descending higher limit and lower limit for sending frame number in descending repetition period Period_F;
Compare the adjustment measurement frame number and the descending higher limit and lower limit for sending frame number;
If the adjustment measurement frame number is more than the descending higher limit for sending frame number, or, less than the descending transmission frame
Number lower limit, then complete the adjustment of the measurement parameter;Otherwise adjustment failure, by deviant Offset_M iteration increase
Up repeat length Length_F, return to the sub-step for calculating adjustment measurement frame number;Iterations divides multiple equal to uplink frame.
Preferably, the frame point direction includes uplink frame point direction and downlink frame divides direction, descending repeat length Length_
F is less than or equal to up repeat length Length_F, and the adjustment measurement parameter makes measurement frame number be different from the transmission
The step of frame number, includes:
Divide deviant Offset_F and descending repeat length Length_F using the downlink frame, determine the descending repetition period
The descending higher limit and lower limit for sending frame number in Period_F;
The measurement deviant Offset_M is set to 0;
Calculate adjustment measurement frame number;
Compare the adjustment measurement frame number and the descending higher limit and lower limit for sending frame number;
If the adjustment measurement frame number is more than the descending higher limit for sending frame number, or, less than the descending transmission frame
Number lower limit, determine in up repetition period Period_F it is up send frame number higher limit and lower limit;
Compare the adjustment measurement frame number and the up higher limit and lower limit for sending frame number;
If the adjustment measurement frame number is more than the up higher limit for sending frame number, or, less than the up transmission frame
Number lower limit, then complete the adjustment of the measurement parameter;Otherwise adjustment failure, by deviant Offset_M iteration increase
Descending repeat length Length_F, return to the sub-step for calculating adjustment measurement frame number;Iterations divides multiple equal to downlink frame.
According to an embodiment of the invention, a kind of LTE measurement apparatus based on frame division multiplexing, described device bag are also disclosed
Include:
Parameter acquisition module, for obtain user initiate frame division multiplexing when frame point direction and frame point parameter, and, user
Initiate measurement parameter during LTE measurements;
Frame number determining module, for dividing parameter to determine to send frame number using the frame point direction and frame, and, using described
Measurement parameter determines measurement frame number;
First measurement parameter adjusting module, it is rear to initiate LTE measurements for first initiating frame division multiplexing in user, detect institute
When stating transmission frame number equal to the measurement frame number, adjusting the measurement parameter makes measurement frame number be different from the transmission frame number;
Limited judge module, for first initiating LTE measurements in user, frame division multiplexing is initiated afterwards, detects the transmission frame
When number being equal to the measurement frame number, judge that the frame point parameter regulates whether to be limited;
Frame divides parameter adjustment module, and for not being limited in the adjustment of the frame point parameter, adjusting the frame point parameter makes hair
Frame number is sent to be different from the measurement frame number;
Second measurement parameter adjusting module, for being limited in the adjustment of the frame point parameter, adjusting the measurement parameter makes
Measurement frame number is different from the transmission frame number.
Preferably, the frame point parameter includes uplink frame point parameter and downlink frame divides parameter, and the transmission frame number includes upper
Row sends frame number and descending transmission frame number,
When it is described measurement frame number fail simultaneously with it is up transmission frame number and it is descending send frame number it is different when, then adjust the survey
Amount parameter makes measurement frame number and the descending transmission frame number different.
Preferably, the frame divides parameter to include repetition period Period_F, and the transmission frame number is in the repetition period
There is higher limit and lower limit in Period_F, judge whether to detect that the transmission frame number is equal to the survey in the following manner
Measure frame number:
Modulus value obtains submodule, for successively using the measurement frame number to repetition period Period_F modulus, obtaining mould
Value;
Modulus value comparison sub-module, for the modulus value and the higher limit and lower limit;
Conflict decision sub-module, for being more than or equal to the lower limit in the modulus value, and, less than or equal to described
Higher limit, then judge to detect that the transmission frame number is equal to the measurement frame number;
Do not conflict decision sub-module, for being more than the higher limit in the modulus value, or, less than the lower limit, sentence
It is fixed not detect that the transmission frame number is equal to the measurement frame number.
Preferably, direction is divided in the frame point direction including uplink frame, and the uplink frame divides parameter also to include up repetition length
Degree Length_F, uplink frame point deviant Offset_F and uplink frame divide multiple, and the measurement parameter includes measurement deviant
Offset_M, measurement period Period_M and measurement length Length_M, the first measurement parameter adjusting module include:
First up threshold value determination sub-module, for dividing deviant Offset_F and up repetition to grow using the uplink frame
Length_F is spent, determines the up higher limit and lower limit for sending frame number in up repetition period Period_F;
First measurement deviant zero setting submodule, for the measurement deviant Offset_M to be set to 0;
First measurement frame number calculating sub module, measurement frame number is adjusted for calculating;
First measurement frame number comparison sub-module, for the adjustment measurement frame number and the up transmission frame number
Limit value and lower limit;
First redirects submodule, for being more than or equal to the lower limit in the adjustment measurement frame number, and is less than or waits
In higher limit, then adjustment failure, the deviant Offset_M iteration increase once up repeat length Length_F is returned
First measurement frame number calculating sub module;Iteration increase number divides multiple equal to uplink frame;
Submodule is completed in first adjustment, for being more than the higher limit in the adjustment measurement frame number, or, less than described
Lower limit, complete the adjustment of the measurement parameter.
Preferably, direction is divided in the frame point direction including downlink frame, and the downlink frame divides parameter also to include descending repetition length
Degree Length_F, downlink frame point deviant Offset_F and downlink frame divide multiple, and the measurement parameter includes measurement deviant
Offset_M, measurement period Period_M and measurement length Length_M, the first measurement parameter adjusting module include:
First descending threshold value determination sub-module, for dividing deviant Offset_F and descending repetition to grow using the downlink frame
Length_F is spent, determines the descending higher limit and lower limit for sending frame number in descending repetition period Period_F;
Second measurement deviant zero setting submodule, for the measurement deviant Offset_M to be set to 0;
Second measurement frame number calculating sub module, measurement frame number is adjusted for calculating;
Second measurement frame number comparison sub-module, for the adjustment measurement frame number and the descending transmission frame number
Limit value and lower limit;
Second redirects submodule, if the adjustment measurement frame number is more than or equal to the lower limit, and less than or equal to upper
Limit value, then adjustment failure, by the deviant Offset_M iteration increase once descending repeat length Length_F, return to second
Measure frame number calculating sub module;Iteration increase number divides multiple equal to downlink frame;
Submodule is completed in second adjustment, for being more than the higher limit in the adjustment measurement frame number, or, less than described
Lower limit, complete the adjustment of the measurement parameter.
Preferably, the frame point direction includes uplink frame point direction and downlink frame divides direction, up repeat length Length_
F is less than or equal to descending repeat length Length_F, and the first measurement parameter adjusting module includes:
Second up threshold value determination sub-module, for dividing deviant Offset_F and up repetition to grow using the uplink frame
Length_F is spent, determines the up higher limit and lower limit for sending frame number in up repetition period Period_F;
3rd measurement deviant zero setting submodule, for the measurement deviant Offset_M to be set to 0;
3rd measurement frame number calculating sub module, measurement frame number is adjusted for calculating;
3rd measurement frame number comparison sub-module, for the adjustment measurement frame number and the up transmission frame number
Limit value and lower limit;
Second descending threshold value determination sub-module, for being more than the up transmission frame number in the adjustment measurement frame number
Limit value, or, less than the up lower limit for sending frame number, determine descending transmission frame number in descending repetition period Period_F
Higher limit and lower limit;
4th measurement frame number comparison sub-module, for the adjustment measurement frame number and the descending transmission frame number
Limit value and lower limit;
Submodule is completed in 3rd adjustment, for being more than the descending upper limit for sending frame number in the adjustment measurement frame number
Value, or, less than the descending lower limit for sending frame number, then complete the adjustment of the measurement parameter;
3rd redirects submodule, for being more than or equal to the lower limit in adjustment measurement frame number, and less than or equal to upper
Limit value, adjustment failure, the deviant Offset_M iteration is increased into up repeat length Length_F, return to the 3rd measurement frame
Number calculating sub module;Iterations divides multiple equal to uplink frame.
Preferably, the frame point direction includes uplink frame point direction and downlink frame divides direction, descending repeat length Length_
F is less than or equal to up repeat length Length_F, and the first measurement parameter adjusting module includes:
3rd descending threshold value determination sub-module, for dividing deviant Offset_F and descending repetition to grow using the downlink frame
Length_F is spent, determines the descending higher limit and lower limit for sending frame number in descending repetition period Period_F;
4th measurement deviant zero setting submodule, for the measurement deviant Offset_M to be set to 0;
4th measurement frame number calculating sub module, measurement frame number is adjusted for calculating;
5th measurement frame number comparison sub-module, for the adjustment measurement frame number and the descending transmission frame number
Limit value and lower limit;
3rd up threshold value determination sub-module, for being more than the descending transmission frame number in the adjustment measurement frame number
Limit value, or, less than the descending lower limit for sending frame number, determine up transmission frame number in up repetition period Period_F
Higher limit and lower limit;
6th measurement frame number comparison sub-module, for the adjustment measurement frame number and the up transmission frame number
Limit value and lower limit;
Submodule is completed in 4th adjustment, for being more than the up upper limit for sending frame number in the adjustment measurement frame number
Value, or, less than the up lower limit for sending frame number, then complete the adjustment of the measurement parameter;
The forth jump rotor module, for being more than or equal to the lower limit in adjustment measurement frame number, and less than or equal to upper
Limit value, adjustment failure, the deviant Offset_M iteration is increased into descending repeat length Length_F, return to the 4th measurement frame
Number calculating sub module;Iterations divides multiple equal to downlink frame.
Compared with prior art, the embodiment of the present invention includes advantages below:
The present invention divides parameter and measurement parameter by getting frame, determines to send frame number and measures frame number, is sent out by detecting
Send whether frame number and measurement frame number are equal can detect whether frame division multiplexing and LTE measurement have and conflict, when detecting that frame point answers
During with conflicting with LTE measurements, adjusting measurement parameter or frame divides parameter, measurement frame number is different from transmission frame number, so as to keep away
Exempt to conflict.Therefore, frame division multiplexing can be used in combination with LTE measurements, optimization lifting user data process performance, measurement parameter
Staggering with frame point parameter, measuring section when LTE is measured avoids transmittable period during frame division multiplexing just, so as to
Reduce LTE measurements and divide frame user's influence of DCH data, the transmission for reducing business datum takes, and accelerates the transmission of business datum
Speed, so as to reduce the stand-by period of user, lift Consumer's Experience.
Further, the present invention in measurement frame number by that can not adjust to while with up transmission frame number and descending transmission frame
It is preferential to ensure measurement frame number and described descending to send frame number different, it is ensured that the speed of downlink signaling, to avoid swashing when number different
Live time is crossed, and the abnormal conditions that terminal does not collect signaling also occur, when reducing idle message end of transmission time more than activation
Between probability, lifted network key performance indicators KPI, taken so as to reduce the transmission of business datum, accelerate business datum
Transmission speed, so as to reduce the stand-by period of user, lifted Consumer's Experience.
Brief description of the drawings
Fig. 1 shows a kind of step flow chart of LTE measuring method embodiments based on frame division multiplexing of the present invention;
Fig. 2 shows a kind of structured flowchart of LTE measurement apparatus embodiments based on frame division multiplexing of the present invention.
Embodiment
In order to facilitate the understanding of the purposes, features and advantages of the present invention, it is below in conjunction with the accompanying drawings and specific real
Applying mode, the present invention is further detailed explanation.
For the user using frame division multiplexing three parameters can be used to determine the transmittable period:Repetition period
Period_F, frame divide deviant Offset_F and repeat length Length_F, i.e., in each repetition period Period_F, from frame point
Deviant Offset_F frames start to this section definition of Offset_F+Length_F-1 frames the transmittable time for the user
Section, other time section can give other users and use.The multiple cycle modulus of current frame number counterweight can be used, sees result whether can
The period is sent to judge, for example, repetition period Period_F is equal to 4 frames, deviant Offset_F is equal to 2, repeats to grow
Degree Length_F is equal to 2 frames, then can send frame number as 2,3,6,7,10,11 ....
Measuring section is similar with the frame point transmittable period, can also determine measuring section using three parameters, can
With including:Measurement period Period_M, measurement deviant Offset_M and measurement length Length_M, i.e., each measurement period
In Period_M, need to survey this period to Offset_M+Length_M-1 frames since being measured deviant Offset_M frames
Amount, it is impossible to transceiving data.
One of the core concepts of the embodiments of the present invention is, divides parameter and measurement parameter by getting frame, it may be determined that hair
Send frame number and measurement frame number, whether have so as to detecting frame division multiplexing and LTE measurement and conflict, when detect frame division multiplexing and
During LTE measurement conflicts, adjust measurement parameter or frame divides parameter, measurement frame number is different from transmission frame number, so as to avoid conflicting.
Reference picture 1, show a kind of step flow of LTE measuring method embodiments based on frame division multiplexing of the present invention
Figure, specifically may include steps of:
Step 101, obtain frame point direction when user initiates frame division multiplexing and frame divides parameter, and, user initiates LTE and surveyed
Measurement parameter during amount;
In actual applications, frame division multiplexing can include unidirectional frame point and bidirectional frame point, wherein, unidirectional frame timesharing, frame point
Direction can divide direction including uplink frame, or, downlink frame divides direction;Bidirectional frame timesharing, frame divide direction to include uplink frame
Point direction and downlink frame divide direction.
Frame point parameter can be the parameter on the frame point direction, unidirectional frame timesharing, and frame divides parameter to include uplink frame
Divide parameter, or, downlink frame divides parameter;Bidirectional frame timesharing, frame point parameter can divide parameter and downlink frame point ginseng including uplink frame
Number.
When LTE is measured, measurement parameter can determine the measuring section of LTE measurements, and the measuring section can not receive and dispatch
Data.
Specifically, when network side judges load super thresholding, it is necessary to user frame point, before user's initiation frame division multiplexing,
The state that the user can be recorded is continuous, and after user initiates frame division multiplexing, the state that can record the user is frame point, from sky
In mouth daily record log, parameter, such as up IE can be divided with search key repetitionPeriodAndLength with getting frame
(Information Element, information element) can have a kind of following field:
repetitionPeriodAndLength repetitionPeriod4:2, it is 2 that can represent uplink frame point direction
Times frame point.
In a kind of preferred exemplary of the embodiment of the present invention, the frame divide parameter can include repetition period Period_F,
Repeat length Length_F and frame divide deviant Offset_F, and the measurement parameter can include measurement period Period_M, survey
Measure length Length_M and measurement deviant Offset_M.
In a particular application, Period_F=Length_F* frames divide multiple, and frame divides multiple higher, and capacity boost effect is got over
Greatly, it is but also bigger to the performance impact of user.
When frame division multiplexing is bidirectional frame timesharing, frame point parameter can include uplink frame point parameter and downlink frame divides parameter, its
In, uplink frame is divided parameter to include up repetition period Period_F, up repeat length Length_F and uplink frame and divided partially
Shifting value Offset_F, downlink frame divide parameter can include descending repetition period Period_F, descending repeat length Length_F and
Downlink frame divides deviant Offset_F.
Uplink and downlink frame divides parameter different, compares uplink and downlink frame point parameter and compares, and the maximum repetition period can be
Period_FMax, minimum repetition period can be Period_FMin, and maximum repeat length can be Length_FMax, minimum
Repeat length can be Length_FMin.
Measurement period is shorter, and measurement length is longer, to 3G (3rd-Generation, 3rd generation mobile communication technology) performance
Influence bigger.Therefore, measurement period Period_M can be configured and be more than or equal to maximum repetition period Period_FMax.
Step 102, parameter is divided to determine to send frame number using the frame point direction and frame, and, using the measurement parameter
It is determined that measurement frame number;It is rear to initiate LTE measurements if user first initiates frame division multiplexing, when detecting that it is described that the transmission frame number is equal to
When measuring frame number, then step 103 is performed, if user first initiates LTE measurements, frame division multiplexing is initiated afterwards, when detecting the transmission
When frame number is equal to the measurement frame number, then step 104 is performed;
Applied to the transmittable period in the present invention, sent when frame number can define user initiation frame division multiplexing, survey
Amount frame number can define the measuring section when user initiates LTE measurements, and measuring section cannot send and receive data.
Wherein, frame number is sent in repetition period Period_F, and deviant Offset_F and repeat length can be divided by frame
Length_F determines that sending frame number can be included since Offset_F frames to this transmission of Offset_F+Length_F-1 frames
All frames in section.
Frame number is measured in measurement period Period_M, can be by measurement deviant Offset_M and measurement length
Length_M determines that measurement frame number can be included since Offset_M frames to this detection of Offset_M+Length_M-1 frames
All frames in section.
Frame numbers are sent equal to one or more measurements in detection interval when detecting to send the one or more in section
During frame number, it can detect that frame division multiplexing conflicts with LTE measurements, it is rear to initiate LTE measurements if user first initiates frame division multiplexing, hold
Row step 103;If user first initiates LTE measurements, frame division multiplexing is initiated afterwards, performs step 104.
In a kind of preferred exemplary of the embodiment of the present invention, the frame divides parameter to include repetition period Period_F, described
Send frame number has higher limit and lower limit in the repetition period Period_F, can judge whether to examine in the following manner
Measure the transmission frame number and be equal to the measurement frame number:
Sub-step S110, modulus value is obtained to repetition period Period_F modulus using the measurement frame number successively;
Sub-step S120, the modulus value and the higher limit and lower limit, if the modulus value is more than or equal to described
Lower limit, and, less than or equal to the higher limit, then perform sub-step S130;Otherwise, then sub-step S140 is performed;
Sub-step S130, judgement detect that the transmission frame number is equal to the measurement frame number;
Sub-step S140, judgement do not detect that the transmission frame number is equal to the measurement frame number.
In the specific implementation, measurement deviant Offset_M can be used to take the repetition period Period_F of frame division multiplexing
Mould, the modulus value of acquisition are set to X, and using X as initial value, measurement length Length_M is as cycle-index, and per circulation primary, X adds up
1, whether detection X fell in the transmittable period when the user initiates frame division multiplexing after circulation every time, you can to compare modulus value X
With higher limit N and lower limit M of the transmission frame number in the repetition period Period_F, in repetition period Period_F, N can
Can be equal to Offset_F equal to Offset_F+Length_F-1, M, if M≤X≤N, frame division multiplexing and LTE can be illustrated
Measurement has conflicted, and judgement detects that the transmission frame number is equal to the measurement frame number, exits circulation, otherwise, illustrates that frame point is multiple
Conflicted with not having with LTE measurements, it is possible to determine that do not detect that the transmission frame number is equal to the measurement frame number.
It should be noted that measurement length Length_M typically could be arranged to 1 frame, if measurement length Length_M is set
The situation more than 1 frame is set to, it is necessary to judge whether to clash according to measurement length Length_M.For example, when frame distribution is sent
Between section [M, N], Offset_M be equal to 2, Length_M be equal to 4, then need whether the frame of judgement 2,3,4,5 has a wherein frame to fall
In [M, N], if there is any frame to fall in [M, N], all judge that frame division multiplexing clashes with LTE measurements.
Step 103, adjusting the measurement parameter makes measurement frame number be different from the transmission frame number;
When user first initiates frame division multiplexing, the rear LTE that initiates is measured, when frame division multiplexing has conflicted with LTE measurements, Ke Yitong
Measurement control message or empty port reconfiguration message adjustment measurement parameter are crossed, makes measurement deviant Offset_M and frame point deviant
Offset_F staggers, so that measurement frame number is different from the transmission frame number;If frame division multiplexing does not conflict with LTE measurements,
Do not adjust then.
In a kind of preferred exemplary of the embodiment of the present invention, direction is divided in the frame point direction including uplink frame, described up
Frame point parameter also divides multiple including up repeat length Length_F, uplink frame point deviant Offset_F and uplink frame, described
Measurement parameter includes measurement deviant Offset_M, measurement period Period_M and measurement length Length_M, the step 103
Following sub-step can specifically be included:
Sub-step S210, divide deviant Offset_F and up repeat length Length_F using the uplink frame, it is determined that
The up higher limit and lower limit for sending frame number in up repetition period Period_F;
Sub-step S220, the measurement deviant Offset_M is set to 0;
Sub-step S230, calculate adjustment measurement frame number;
It should be noted that adjustment measurement frame number can be included from measurement deviant Offset_M to measurement deviant
All frames in this detection interval of Offset_M+ measurement length Length_M-1 frames.
Sub-step S240, the adjustment measurement frame number and the up higher limit and lower limit for sending frame number;If
The adjustment measurement frame number is more than or equal to the lower limit, and is less than or equal to higher limit, then performs sub-step S250;It is no
Then, sub-step S260 is performed;
Sub-step S250, adjustment failure, by the deviant Offset_M iteration increase once up repeat length
Length_F, return to sub-step S230;Iteration increase number divides multiple equal to uplink frame;
Sub-step S260, complete the adjustment of the measurement parameter.
As a kind of example of concrete application of the present invention, when frame division multiplexing has conflicted, it is necessary to adjust measurement with LTE measurements
When parameter avoids conflict, the frame point direction of processing can be first determined, if unidirectional frame point, i.e., a direction in upstream or downstream
Continuously, another direction frame point, the direction that can directly determine frame point is the frame point direction of processing, in the embodiment of the present invention
In, the frame point direction of processing can divide direction for the uplink frame in unidirectional frame point.
It is determined that after the frame of processing divides direction, multiple can be divided using direction frame as cycle-index, it is necessary to the measurement attempted
Deviant Offset_M is since 0, per circulation primary, can detect whether measurement frame number falls when the user initiates frame division multiplexing
The transmittable period in, you can with compare measurement frame number with it is up transmission frame number higher limit N and lower limit M, up heavy
In multiple cycle Period_F, N can be equal to Offset_F+Length_F-1, and M can be equal to Offset_F, if M≤measurement frame number
≤ N, then adjustment failure, can the add up repeat length Length_F of frame division multiplexing of measurement deviant Offset_M correspond to frame number,
Measurement frame number is redefined, if measurement frame number<M, or, measurement frame number>N, that is, measure frame number and be different from transmission frame number, described in completion
The adjustment of measurement parameter;After if iteration increase number divides multiple equal to frame, it can not still make measurement frame number<M, or, measurement frame number>N,
Measurement frame number can not be made to be different from transmission frame number, then adjustment failure.
It should be noted that it is not in the situation for adjusting failure that unidirectional frame point is general.
In another preferred exemplary of the embodiment of the present invention, direction is divided in the frame point direction including downlink frame, institute
Downlink frame point parameter is stated also including descending repeat length Length_F, downlink frame point deviant Offset_F and downlink frame to divide again
Number, the measurement parameter includes measurement deviant Offset_M, measurement period Period_M and measurement length Length_M, described
Step 103 can specifically include following sub-step:
Sub-step S310, divide deviant Offset_F and descending repeat length Length_F using the downlink frame, it is determined that
The descending higher limit and lower limit for sending frame number in descending repetition period Period_F;
Sub-step S320, the measurement deviant Offset_M is set to 0;
Sub-step S330, calculate adjustment measurement frame number;
Sub-step S340, the adjustment measurement frame number and the descending higher limit and lower limit for sending frame number;If
The adjustment measurement frame number is more than or equal to the lower limit, and is less than or equal to higher limit, then execution sub-step S350, no
Then, sub-step S360 is performed;
Sub-step S350, adjustment failure, by the deviant Offset_M iteration increase once descending repeat length
Length_F, return to sub-step S330;Iteration increase number divides multiple equal to downlink frame;
Sub-step S360, complete the adjustment of the measurement parameter.
For the present embodiment with being in place of the difference of a upper embodiment, the frame point direction that the present embodiment is directed to processing is unidirectional
Downlink frame in frame point divides direction.
In a kind of preferred exemplary of the embodiment of the present invention, direction and downlink frame point are divided in the frame point direction including uplink frame
Direction, up repeat length Length_F are less than or equal to descending repeat length Length_F, and the step 103 can specifically wrap
Include following sub-step:
Sub-step S410, divide deviant Offset_F and up repeat length Length_F using the uplink frame, it is determined that
The up higher limit and lower limit for sending frame number in up repetition period Period_F;
Sub-step S420, the measurement deviant Offset_M is set to 0;
Sub-step S430, calculate adjustment measurement frame number;
Sub-step S440, the adjustment measurement frame number and the up higher limit and lower limit for sending frame number;If
The adjustment measurement frame number is more than the up higher limit for sending frame number, or, the lower limit less than the up transmission frame number,
Perform sub-step S450
Sub-step S450, determine the descending higher limit and lower limit for sending frame number in descending repetition period Period_F;
Sub-step S460, the adjustment measurement frame number and the descending higher limit and lower limit for sending frame number;If
The adjustment measurement frame number is more than the descending higher limit for sending frame number, or, the lower limit less than the descending transmission frame number,
Perform sub-step 470;Otherwise, sub-step 480 is performed;
Sub-step S470, complete the adjustment of the measurement parameter;
Sub-step S480, adjustment failure, the deviant Offset_M iteration is increased into up repeat length Length_F,
Return to sub-step S430;Iterations divides multiple equal to uplink frame.
Applied in the present invention, avoid conflicting, it is necessary to adjust measurement parameter when frame division multiplexing has conflicted with LTE measurements
When, the frame point direction of start to process can be first determined, if bidirectional frame point, i.e., existing uplink frame divides direction, also there is downlink frame
Divide direction, determine the smaller frame point direction start to process of repeat length Length_F.In embodiments of the present invention, it is up to repeat to grow
Degree Length_F is less than or equal to descending repeat length Length_F, determines the frame point direction of start to process in bidirectional frame point
Uplink frame divides direction.
Behind the frame point direction for determining start to process, divide multiple as cycle-index using direction frame, it is necessary to the measurement attempted
Deviant Offset_M is since 0, per circulation primary, detection measurement frame number whether fall when the user initiates frame division multiplexing can
Send in the period, that is, compare the higher limit N and lower limit M of measurement frame number and up transmission frame number, in the up repetition period
In Period_F, N can be equal to Offset_F+Length_F-1, and M can be equal to Offset_F, if M≤measurement frame number≤N,
Adjustment failure, the repeat length Length_F of the cumulative frame division multiplexings of measurement deviant Offset_M correspond to frame number, redefine survey
Frame number is measured, if measurement frame number<M, or, measurement frame number>N, that is, measure frame number and be different from up transmission frame number, LTE measurements with it is up
Frame point direction does not conflict, and investigates another direction, i.e. downlink frame divides direction, if the measurement frame number is also different from descending transmission frame
Number, LTE measurements also do not conflict with downlink frame point direction, the adjustment of the measurement parameter are completed, otherwise, by the deviant
Offset_M iteration increases up repeat length Length_F, returns to sub-step S430.
Under a kind of extreme case of bidirectional frame point, when dividing multiple equal to direction frame such as cycle-index, it can not still make survey
Transmittable period when amount frame number avoids frame division multiplexing, i.e. adjustment failure, then adjust the measurement parameter make measurement frame number with
Descending transmission frame number is different.
In another preferred exemplary of the embodiment of the present invention, direction and downlink frame are divided in the frame point direction including uplink frame
Point direction, descending repeat length Length_F are less than or equal to up repeat length Length_F, and the step 103 specifically can be with
Including following sub-step:
Sub-step S510, divide deviant Offset_F and descending repeat length Length_F using the downlink frame, it is determined that
The descending higher limit and lower limit for sending frame number in descending repetition period Period_F;
Sub-step S520, the measurement deviant Offset_M is set to 0;
Sub-step S530, calculate adjustment measurement frame number;
Sub-step S540, the adjustment measurement frame number and the descending higher limit and lower limit for sending frame number;If
The adjustment measurement frame number is more than the descending higher limit for sending frame number, or, the lower limit less than the descending transmission frame number,
Perform sub-step S550;
Sub-step S550, determine the up higher limit and lower limit for sending frame number in up repetition period Period_F;
Sub-step S560, the adjustment measurement frame number and the up higher limit and lower limit for sending frame number;If
The adjustment measurement frame number is more than the up higher limit for sending frame number, or, the lower limit less than the up transmission frame number,
Sub-step S570 is performed, otherwise, performs sub-step S580;
Sub-step S570, complete the adjustment of the measurement parameter;
Sub-step S580, adjustment failure, the deviant Offset_M iteration is increased into descending repeat length Length_F,
Return to sub-step S530;Iterations divides multiple equal to downlink frame.
With being in place of the difference of a upper embodiment, the frame point direction that the present embodiment is directed to start to process is the present embodiment
Downlink frame in bidirectional frame point divides direction.
In another preferred exemplary of the present invention, the frame point parameter divides parameter and downlink frame point ginseng including uplink frame
Number, the transmission frame number include up transmission frame number and descending transmission frame number,
When it is described measurement frame number fail simultaneously with it is up transmission frame number and it is descending send frame number it is different when, then adjust the survey
Amount parameter makes measurement frame number and the descending transmission frame number different.
As a kind of example of concrete application of the present invention, bidirectional frame timesharing is, it is necessary to bidirectional frame point and LTE measurements all Lothrus apterus
Conflict avoidance is just defined as, if measurement parameter can not avoid with conflicting for bidirectional frame point parameter simultaneously, i.e. conflict is inevitable
When, it is contemplated that the influence for activationary time of eating dishes without rice or wine, it is preferentially descending to stagger, make measurement frame number and the descending transmission frame number different.
The present invention by measure frame number can not adjust to simultaneously with it is up transmission frame number and it is descending transmission frame number it is different when,
It is preferential to ensure that measurement frame number and the descending transmission frame number are different, it is ensured that the speed of downlink signaling, to avoid activationary time mistake
, the abnormal conditions that terminal does not collect signaling also occur, and reduce the probability that idle message end of transmission time exceedes activationary time,
Network key performance indicators KPI is lifted, is taken so as to reduce the transmission of business datum, accelerates the transmission speed of business datum
Degree, so as to reduce the stand-by period of user, lift Consumer's Experience.
Step 104, judge that the frame point parameter regulates whether to be limited;If the adjustment of the frame point parameter is not limited, hold
Row step 105;If the adjustment of the frame point parameter is limited, step 106 is performed;
Measured when user first initiates LTE, initiate frame division multiplexing afterwards, when frame division multiplexing has conflicted with LTE measurements, judge institute
State frame point parameter to regulate whether to be limited, if not being limited, step 105 can be performed, avoid conflicting by adjusting frame point parameter, it is no
Then, step 106 can be performed, or adjustment measurement parameter avoids conflicting.
Step 105, adjusting the frame point parameter makes transmission frame number be different from the measurement frame number;
In the specific implementation, can avoid conflicting by adjusting frame point deviant Offset_F, adjustment frame divides deviant
Offset_F can redefine transmission frame number, transmission frame number is different from measurement frame number.
Step 106, adjusting the measurement parameter makes measurement frame number be different from the transmission frame number.
In actual applications, step 106 can be similar with step 103, will not be repeated here.
The present invention divides parameter and measurement parameter by getting frame, determines to send frame number and measures frame number, is sent out by detecting
Send whether frame number and measurement frame number are equal can detect whether frame division multiplexing and LTE measurement have and conflict, when detecting that frame point answers
During with conflicting with LTE measurements, adjusting measurement parameter or frame divides parameter, measurement frame number is different from transmission frame number, so as to keep away
Exempt to conflict.Therefore, frame division multiplexing can be used in combination with LTE measurements, optimization lifting user data process performance, measurement parameter
Staggering with frame point parameter, measuring section when LTE is measured avoids transmittable period during frame division multiplexing just, so as to
Reduce LTE measurements and divide frame user's influence of DCH data, the transmission for reducing business datum takes, and accelerates the transmission of business datum
Speed, so as to reduce the stand-by period of user, lift Consumer's Experience.
To make those skilled in the art be better understood from the present invention, below by way of do not clash, conflict it is inevitable and
Conflict and successfully avoid three specific examples, further illustrate the embodiment of the present invention.
Specific example one:Do not clash
A kind of example for the prerequisite not clashed is as follows:
Up direction is continuous, and down direction is frame point, and descending repetition period Period_F is 4 frames, descending repeat length
Length_F is 2 frames, and downlink frame divides deviant Offset_F to be 0, and downlink frame divides multiple to be 2;
The measurement parameter configuration of cell LTE measurements:Measurement period Period_M is 32 frames, and measurement deviant Offset_M is
30, measurement length Length_M is 1.
A kind of example for the processing procedure for judging not clash is as follows:
The first step, determine frame point direction for the downlink frame point direction in unidirectional frame point;
Second step, determine that the descending lower limit M and upper limit N for sending frame number is 0,1 respectively in descending repetition period Period_F;
3rd step, calculate modulus value X, X=30mod 4=2;
4th step, collision detection, X are not fallen within the transmission section of [M, N], and downlink frame point measures with LTE not to conflict, can be with
Need not adjustment.
Specific example two:Conflict is inevitable
A kind of example for the inevitable prerequisite that conflicts is as follows:
Up 2 times of frames point, descending 2 times of frames point
Descending repetition period Period_F is 4 frames, and repeat length Length_F is 2 frames, and downlink frame divides deviant Offset_
F is 2;
Up repetition period Period_F is 4 frames, and repeat length Length_F is 2 frames, and uplink frame divides deviant Offset_
F is 0;
The measurement ginseng of cell DMO (Cell-DCH Measurement Occasion, user DCH state measure opportunity) measurement
Number configuration:Measurement period Period_M is 32 frames, and measurement deviant Offset_M is 30, and measurement length Length_M is 1.
It should be noted that DMO measurements are one kind in LTE metering systems.
A kind of example for the inevitable processing procedure that conflicts is as follows:
Uplink and downlink are all 2 times of frames point, and repeat length Length_F is identical, and frame point deviant Offset_F just staggers, frame
Point multiplexing conflict with LTE measurements unavoidably, according to lower row major stagger principle handle:
1st step, determine that the descending lower limit M and upper limit N for sending frame number is 2,3 respectively in descending repetition period Period_F;
2nd step, calculate modulus value X, X=30mod 4=2;
3rd step, collision detection, X fall in the transmission section of [M, N], and downlink frame point has conflicted with LTE measurements;
4th step, avoid conflicting, measurement deviant Offset_M is begun attempt to from 0, will be measured deviant Offset_M and be put
0, calculate modulus value X, X=0mod 4=0, that is, it is 0 to measure frame number, is not fallen within the transmission section of [M, N], descending successfully to stagger,
DMO measurements deviant Offset_M can be adjusted to 0 from 30.
Specific example three:Conflict and successfully avoid
A kind of example for the prerequisite successfully avoided that conflicts is as follows:
Up 2 times of frames point, descending 4 times of frames point
Descending repetition period Period_F is 8 frames, and descending repeat length Length_F is 2 frames, and downlink frame divides deviant
Offset_F is 6;
Up repetition period Period_F is 8 frames, and up repeat length Length_F is 4 frames, and uplink frame divides deviant
Offset_F is 0;
The measurement parameter configuration of cell DMO measurements:Measurement period Period_M is 32 frames, and measurement deviant Offset_M is
30, measurement length Length_M is 1.
A kind of example for the inevitable processing procedure that conflicts is as follows:
I walks, and determines frame point direction as bidirectional frame point, uplink and downlink either direction has with LTE measurements to conflict, and is determined as frame
Multiplexing is divided to conflict with LTE measurements, uplink and downlink detection ordering can be any, in the present embodiment, first detects descending;
II walks, and determines that the descending lower limit M and upper limit N for sending frame number is 6,7 respectively in descending repetition period Period_F;
III walks, and calculates modulus value X, X=30mod 8=6;
IV walks, and collision detection, X falls in the transmission section of [M, N], and downlink frame point has conflicted with LTE measurements;
V walks, and avoids conflicting, up repetition period Period_F is identical with descending repetition period Period_F, descending heavy
Multiple length Length_F is smaller than up repeat length Length_F, and the frame point direction for determining start to process is downlink frame point side
To;
VI walks, and determines that the up lower limit M and upper limit N for sending frame number is 0,3 respectively in up repetition period Period_F;
VII is walked, and measurement deviant Offset_M is begun attempt to from 0, is calculated modulus value X, X=0mod4=0, that is, is measured frame
Number it is 0, falls in the transmission section of up [0,3], measurement deviant Offset_M iteration increases descending repeat length Length_
Frame number 2 corresponding to F;
VIII walks, and measurement deviant Offset_M is 2, calculates modulus value X, X=2mod 8=2, that is, it is 2 to measure frame number,
Fall in the transmission section of up [0,3], it is corresponding that measurement deviant Offset_M iteration increases descending repeat length Length_F
Frame number 2;
IX walks, and measurement deviant Offset_M is 4, calculates modulus value X, X=4mod 8=4, that is, it is 4 to measure frame number, not
Fall in the transmission section of descending [0,3], it is up successfully to stagger;Investigate descending, also do not fallen within descending [6,7] section again, under
Row also successfully staggers;Successfully avoid conflicting, the measurement deviant Offset_M of DMO measurements can be adjusted to 4 from 30.
It should be noted that for embodiment of the method, in order to be briefly described, therefore it is all expressed as to a series of action group
Close, but those skilled in the art should know, the embodiment of the present invention is not limited by described sequence of movement, because according to
According to the embodiment of the present invention, some steps can use other orders or carry out simultaneously.Secondly, those skilled in the art also should
Know, embodiment described in this description belongs to preferred embodiment, and the involved action not necessarily present invention is implemented
Necessary to example.
Reference picture 2, a kind of structured flowchart of LTE measurement apparatus embodiments based on frame division multiplexing of the present invention is shown,
Following module can specifically be included:
Parameter acquisition module 201, for obtain user initiate frame division multiplexing when frame point direction and frame point parameter, and,
User initiates measurement parameter during LTE measurements;
Frame number determining module 202, for dividing parameter to determine to send frame number using the frame point direction and frame, and, use
The measurement parameter determines measurement frame number;
First measurement parameter adjusting module 203, it is rear to initiate LTE measurements for first initiating frame division multiplexing in user, detect
When the transmission frame number is equal to the measurement frame number, adjusting the measurement parameter makes measurement frame number be different from the transmission frame number;
Limited judge module 204, for first initiating LTE measurements in user, frame division multiplexing is initiated afterwards, detects the transmission
When frame number is equal to the measurement frame number, judge that the frame point parameter regulates whether to be limited;
Frame divides parameter adjustment module 205, and for not being limited in the adjustment of the frame point parameter, adjusting the frame point parameter makes
Send frame number and be different from the measurement frame number;
Second measurement parameter adjusting module 206, for being limited in the adjustment of the frame point parameter, adjust the measurement parameter
Measurement frame number is set to be different from the transmission frame number.
In a kind of preferred exemplary of the embodiment of the present invention, the frame point parameter divides parameter and downlink frame point including uplink frame
Parameter, the transmission frame number include up transmission frame number and descending transmission frame number,
When it is described measurement frame number fail simultaneously with it is up transmission frame number and it is descending send frame number it is different when, then adjust the survey
Amount parameter makes measurement frame number and the descending transmission frame number different.
In a kind of preferred exemplary of the embodiment of the present invention, the frame divides parameter to include repetition period Period_F, described
Send frame number has higher limit and lower limit in the repetition period Period_F, judges whether to detect in the following manner
The transmission frame number is equal to the measurement frame number:
Modulus value obtains submodule, for successively using the measurement frame number to repetition period Period_F modulus, obtaining mould
Value;
Modulus value comparison sub-module, for the modulus value and the higher limit and lower limit;
Conflict decision sub-module, for being more than or equal to the lower limit in the modulus value, and, less than or equal to described
Higher limit, then judge to detect that the transmission frame number is equal to the measurement frame number;
Do not conflict decision sub-module, for being more than the higher limit in the modulus value, or, less than the lower limit, sentence
It is fixed not detect that the transmission frame number is equal to the measurement frame number.
In a kind of preferred exemplary of the embodiment of the present invention, direction is divided in the frame point direction including uplink frame, described up
Frame point parameter also divides multiple including up repeat length Length_F, uplink frame point deviant Offset_F and uplink frame, described
Measurement parameter includes measurement deviant Offset_M, measurement period Period_M and measurement length Length_M, and described first surveys
Amount parameter adjustment module 203 can specifically include following submodule:
First up threshold value determination sub-module, for dividing deviant Offset_F and up repetition to grow using the uplink frame
Length_F is spent, determines the up higher limit and lower limit for sending frame number in up repetition period Period_F;
First measurement deviant zero setting submodule, for the measurement deviant Offset_M to be set to 0;
First measurement frame number calculating sub module, measurement frame number is adjusted for calculating;
First measurement frame number comparison sub-module, for the adjustment measurement frame number and the up transmission frame number
Limit value and lower limit;
First redirects submodule, for being more than or equal to the lower limit in the adjustment measurement frame number, and is less than or waits
In higher limit, then adjustment failure, the deviant Offset_M iteration increase once up repeat length Length_F is returned
First measurement frame number calculating sub module;Iteration increase number divides multiple equal to uplink frame;
Submodule is completed in first adjustment, for being more than the higher limit in the adjustment measurement frame number, or, less than described
Lower limit, complete the adjustment of the measurement parameter.
In a kind of preferred exemplary of the embodiment of the present invention, direction is divided in the frame point direction including downlink frame, described descending
Frame point parameter also divides multiple including descending repeat length Length_F, downlink frame point deviant Offset_F and downlink frame, described
Measurement parameter includes measurement deviant Offset_M, measurement period Period_M and measurement length Length_M, and described first surveys
Amount parameter adjustment module 203 can specifically include following submodule:
First descending threshold value determination sub-module, for dividing deviant Offset_F and descending repetition to grow using the downlink frame
Length_F is spent, determines the descending higher limit and lower limit for sending frame number in descending repetition period Period_F;
Second measurement deviant zero setting submodule, for the measurement deviant Offset_M to be set to 0;
Second measurement frame number calculating sub module, measurement frame number is adjusted for calculating;
Second measurement frame number comparison sub-module, for the adjustment measurement frame number and the descending transmission frame number
Limit value and lower limit;
Second redirects submodule, if the adjustment measurement frame number is more than or equal to the lower limit, and less than or equal to upper
Limit value, then adjustment failure, by the deviant Offset_M iteration increase once descending repeat length Length_F, return to second
Measure frame number calculating sub module;Iteration increase number divides multiple equal to downlink frame;
Submodule is completed in second adjustment, for being more than the higher limit in the adjustment measurement frame number, or, less than described
Lower limit, complete the adjustment of the measurement parameter.
In a kind of preferred exemplary of the embodiment of the present invention, direction and downlink frame point are divided in the frame point direction including uplink frame
Direction, up repeat length Length_F are less than or equal to descending repeat length Length_F, the first measurement parameter adjusting module
203 can specifically include following submodule:
Second up threshold value determination sub-module, for dividing deviant Offset_F and up repetition to grow using the uplink frame
Length_F is spent, determines the up higher limit and lower limit for sending frame number in up repetition period Period_F;
3rd measurement deviant zero setting submodule, for the measurement deviant Offset_M to be set to 0;
3rd measurement frame number calculating sub module, measurement frame number is adjusted for calculating;
3rd measurement frame number comparison sub-module, for the adjustment measurement frame number and the up transmission frame number
Limit value and lower limit;
Second descending threshold value determination sub-module, for being more than the up transmission frame number in the adjustment measurement frame number
Limit value, or, less than the up lower limit for sending frame number, determine descending transmission frame number in descending repetition period Period_F
Higher limit and lower limit;
4th measurement frame number comparison sub-module, for the adjustment measurement frame number and the descending transmission frame number
Limit value and lower limit;
Submodule is completed in 3rd adjustment, for being more than the descending upper limit for sending frame number in the adjustment measurement frame number
Value, or, less than the descending lower limit for sending frame number, then complete the adjustment of the measurement parameter;
3rd redirects submodule, for being more than or equal to the lower limit in adjustment measurement frame number, and less than or equal to upper
Limit value, adjustment failure, the deviant Offset_M iteration is increased into up repeat length Length_F, return to the 3rd measurement frame
Number calculating sub module;Iterations divides multiple equal to uplink frame.
In a kind of preferred exemplary of the embodiment of the present invention, direction and downlink frame point are divided in the frame point direction including uplink frame
Direction, descending repeat length Length_F are less than or equal to up repeat length Length_F, the first measurement parameter adjustment
Module 203 can specifically include following submodule:
3rd descending threshold value determination sub-module, for dividing deviant Offset_F and descending repetition to grow using the downlink frame
Length_F is spent, determines the descending higher limit and lower limit for sending frame number in descending repetition period Period_F;
4th measurement deviant zero setting submodule, for the measurement deviant Offset_M to be set to 0;
4th measurement frame number calculating sub module, measurement frame number is adjusted for calculating;
5th measurement frame number comparison sub-module, for the adjustment measurement frame number and the descending transmission frame number
Limit value and lower limit;
3rd up threshold value determination sub-module, for being more than the descending transmission frame number in the adjustment measurement frame number
Limit value, or, less than the descending lower limit for sending frame number, determine up transmission frame number in up repetition period Period_F
Higher limit and lower limit;
6th measurement frame number comparison sub-module, for the adjustment measurement frame number and the up transmission frame number
Limit value and lower limit;
Submodule is completed in 4th adjustment, for being more than the up upper limit for sending frame number in the adjustment measurement frame number
Value, or, less than the up lower limit for sending frame number, then complete the adjustment of the measurement parameter;
The forth jump rotor module, for being more than or equal to the lower limit in adjustment measurement frame number, and less than or equal to upper
Limit value, adjustment failure, the deviant Offset_M iteration is increased into descending repeat length Length_F, return to the 4th measurement frame
Number calculating sub module;Iterations divides multiple equal to downlink frame.
For device embodiment, because it is substantially similar to embodiment of the method, so description is fairly simple, it is related
Part illustrates referring to the part of embodiment of the method.
Each embodiment in this specification is described by the way of progressive, what each embodiment stressed be with
The difference of other embodiment, between each embodiment identical similar part mutually referring to.
It should be understood by those skilled in the art that, the embodiment of the embodiment of the present invention can be provided as method, apparatus or calculate
Machine program product.Therefore, the embodiment of the present invention can use complete hardware embodiment, complete software embodiment or combine software and
The form of the embodiment of hardware aspect.Moreover, the embodiment of the present invention can use one or more wherein include computer can
With in the computer-usable storage medium (including but is not limited to magnetic disk storage, CD-ROM, optical memory etc.) of program code
The form of the computer program product of implementation.
The embodiment of the present invention is with reference to method according to embodiments of the present invention, terminal device (system) and computer program
The flow chart and/or block diagram of product describes.It should be understood that can be by computer program instructions implementation process figure and/or block diagram
In each flow and/or square frame and the flow in flow chart and/or block diagram and/or the combination of square frame.These can be provided
Computer program instructions are set to all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing terminals
Standby processor is to produce a machine so that is held by the processor of computer or other programmable data processing terminal equipments
Capable instruction is produced for realizing in one flow of flow chart or multiple flows and/or one square frame of block diagram or multiple square frames
The device for the function of specifying.
These computer program instructions, which may be alternatively stored in, can guide computer or other programmable data processing terminal equipments
In the computer-readable memory to work in a specific way so that the instruction being stored in the computer-readable memory produces bag
The manufacture of command device is included, the command device is realized in one flow of flow chart or multiple flows and/or one side of block diagram
The function of being specified in frame or multiple square frames.
These computer program instructions can be also loaded into computer or other programmable data processing terminal equipments so that
Series of operation steps is performed on computer or other programmable terminal equipments to produce computer implemented processing, so that
The instruction performed on computer or other programmable terminal equipments is provided for realizing in one flow of flow chart or multiple flows
And/or specified in one square frame of block diagram or multiple square frames function the step of.
Although having been described for the preferred embodiment of the embodiment of the present invention, those skilled in the art once know base
This creative concept, then other change and modification can be made to these embodiments.So appended claims are intended to be construed to
Including preferred embodiment and fall into having altered and changing for range of embodiment of the invention.
Finally, it is to be noted that, herein, such as first and second or the like relational terms be used merely to by
One entity or operation make a distinction with another entity or operation, and not necessarily require or imply these entities or operation
Between any this actual relation or order be present.Moreover, term " comprising ", "comprising" or its any other variant meaning
Covering including for nonexcludability, so that process, method, article or terminal device including a series of elements are not only wrapped
Those key elements, but also the other element including being not expressly set out are included, or is also included for this process, method, article
Or the key element that terminal device is intrinsic.In the absence of more restrictions, wanted by what sentence "including a ..." limited
Element, it is not excluded that other identical element in the process including the key element, method, article or terminal device also be present.
Above to LTE measuring methods and device provided by the present invention based on frame division multiplexing, it is described in detail, this
Apply specific case in text to be set forth the principle and embodiment of the present invention, the explanation of above example is only intended to
Help to understand method and its core concept of the invention;Meanwhile for those of ordinary skill in the art, the think of according to the present invention
Think, in specific embodiments and applications there will be changes, in summary, this specification content should not be construed as pair
The limitation of the present invention.
Claims (10)
1. a kind of LTE measuring methods based on frame division multiplexing, it is characterised in that methods described includes:
Obtain frame point direction when user initiates frame division multiplexing and frame divides parameter, and, user initiates measurement ginseng during LTE measurements
Number;
Parameter is divided to determine to send frame number using the frame point direction and frame, and, measurement frame number is determined using the measurement parameter;
It is rear to initiate LTE measurements if user first initiates frame division multiplexing, when detecting that the transmission frame number is equal to the measurement frame number
When, adjusting the measurement parameter makes measurement frame number be different from the transmission frame number;
If user first initiate LTE measurement, initiate frame division multiplexing afterwards, when detect it is described transmission frame number be equal to the measurement frame number
When, judge that the frame point parameter regulates whether to be limited;
If the adjustment of the frame point parameter is not limited, adjusting the frame point parameter makes transmission frame number be different from the measurement frame number;
If the adjustment of the frame point parameter is limited, adjusting the measurement parameter makes measurement frame number be different from the transmission frame number.
2. according to the method for claim 1, it is characterised in that the frame point parameter divides parameter and downlink frame including uplink frame
Dividing parameter, the transmission frame number includes up transmission frame number and descending transmission frame number,
When it is described measurement frame number fail simultaneously with it is up transmission frame number and it is descending transmission frame number it is different when, then adjust it is described measurement join
Number makes measurement frame number and the descending transmission frame number different.
3. method according to claim 1 or 2, it is characterised in that the frame divides parameter to include repetition period Period_F,
The transmission frame number has higher limit and lower limit in the repetition period Period_F, judges whether to examine in the following manner
Measure the transmission frame number and be equal to the measurement frame number:
Modulus value is obtained to repetition period Period_F modulus using the measurement frame number successively;
Compare the modulus value and the higher limit and lower limit, if the modulus value is more than or equal to the lower limit, and, it is less than
Or equal to the higher limit, then judge to detect that the transmission frame number is equal to the measurement frame number;Otherwise, it is determined that institute is not detected
State transmission frame number and be equal to the measurement frame number.
4. according to the method for claim 3, it is characterised in that direction is divided in the frame point direction including uplink frame, it is described on
Row frame point parameter also divides multiple including up repeat length Length_F, uplink frame point deviant Offset_F and uplink frame, institute
Stating measurement parameter includes measurement deviant Offset_M, measurement period Period_M and measurement length Length_M, the adjustment
The step of measurement parameter makes measurement frame number be different from the transmission frame number includes:
Divide deviant Offset_F and up repeat length Length_F using the uplink frame, determine the up repetition period
The up higher limit and lower limit for sending frame number in Period_F;
The measurement deviant Offset_M is set to 0;
Calculate adjustment measurement frame number;
Compare the adjustment measurement frame number and the up higher limit and lower limit for sending frame number;
If the adjustment measurement frame number is more than or equal to the lower limit, and is less than or equal to higher limit, then adjustment failure, by institute
Measurement deviant Offset_M iteration increase once up repeat length Length_F is stated, returns to the son for calculating adjustment measurement frame number
Step;Iteration increase number divides multiple equal to uplink frame;Otherwise, the adjustment of the measurement parameter is completed.
5. according to the method for claim 3, it is characterised in that direction is divided in the frame point direction including downlink frame, under described
Row frame point parameter also divides multiple including descending repeat length Length_F, downlink frame point deviant Offset_F and downlink frame, institute
Stating measurement parameter includes measurement deviant Offset_M, measurement period Period_M and measurement length Length_M, the adjustment
The step of measurement parameter makes measurement frame number be different from the transmission frame number includes:
Divide deviant Offset_F and descending repeat length Length_F using the downlink frame, determine the descending repetition period
The descending higher limit and lower limit for sending frame number in Period_F;
The measurement deviant Offset_M is set to 0;
Calculate adjustment measurement frame number;
Compare the adjustment measurement frame number and the descending higher limit and lower limit for sending frame number;
If the adjustment measurement frame number is more than or equal to the lower limit, and is less than or equal to higher limit, then adjustment failure, by institute
Measurement deviant Offset_M iteration increase once descending repeat length Length_F is stated, returns to the son for calculating adjustment measurement frame number
Step;Iteration increase number divides multiple equal to downlink frame;Otherwise, the adjustment of the measurement parameter is completed.
6. the method according to claim 4 or 5, it is characterised in that direction is divided with in the frame point direction including uplink frame
Row frame divides direction, and up repeat length Length_F is less than or equal to descending repeat length Length_F, the adjustment survey
The step of amount parameter makes measurement frame number be different from the transmission frame number includes:
Divide deviant Offset_F and up repeat length Length_F using the uplink frame, determine the up repetition period
The up higher limit and lower limit for sending frame number in Period_F;
The measurement deviant Offset_M is set to 0;
Calculate adjustment measurement frame number;
Compare the adjustment measurement frame number and the up higher limit and lower limit for sending frame number;
If adjustment measurement frame number is more than the up higher limit for sending frame number, or, less than the up lower limit for sending frame number
Value, determine the descending higher limit and lower limit for sending frame number in descending repetition period Period_F;
Compare the adjustment measurement frame number and the descending higher limit and lower limit for sending frame number;
If the adjustment measurement frame number is more than the descending higher limit for sending frame number, or, less than the descending transmission frame number
Lower limit, then complete the adjustment of the measurement parameter;Otherwise adjustment failure, by measurement deviant Offset_M iteration increase
Up repeat length Length_F, return to the sub-step for calculating adjustment measurement frame number;Iterations divides multiple equal to uplink frame.
7. the method according to claim 4 or 5, it is characterised in that direction is divided with in the frame point direction including uplink frame
Row frame divides direction, and descending repeat length Length_F is less than or equal to up repeat length Length_F, the adjustment survey
The step of amount parameter makes measurement frame number be different from the transmission frame number includes:
Divide deviant Offset_F and descending repeat length Length_F using the downlink frame, determine the descending repetition period
The descending higher limit and lower limit for sending frame number in Period_F;
The measurement deviant Offset_M is set to 0;
Calculate adjustment measurement frame number;
Compare the adjustment measurement frame number and the descending higher limit and lower limit for sending frame number;
If the adjustment measurement frame number is more than the descending higher limit for sending frame number, or, less than the descending transmission frame number
Lower limit, determine the up higher limit and lower limit for sending frame number in up repetition period Period_F;
Compare the adjustment measurement frame number and the up higher limit and lower limit for sending frame number;
If the adjustment measurement frame number is more than the up higher limit for sending frame number, or, less than the up transmission frame number
Lower limit, then complete the adjustment of the measurement parameter;Otherwise adjustment failure, by measurement deviant Offset_M iteration increase
Descending repeat length Length_F, return to the sub-step for calculating adjustment measurement frame number;Iterations divides multiple equal to downlink frame.
8. a kind of LTE measurement apparatus based on frame division multiplexing, it is characterised in that described device includes:
Parameter acquisition module, for obtain user initiate frame division multiplexing when frame point direction and frame point parameter, and, user initiate
Measurement parameter when LTE is measured;
Frame number determining module, for dividing parameter to determine to send frame number using the frame point direction and frame, and, using the measurement
Parameter determines measurement frame number;
First measurement parameter adjusting module, it is rear to initiate LTE measurements for first initiating frame division multiplexing in user, detect the hair
When sending frame number equal to the measurement frame number, adjusting the measurement parameter makes measurement frame number be different from the transmission frame number;
Limited judge module, for first initiating LTE measurements in user, frame division multiplexing is initiated afterwards, detects described transmission frame number etc.
When the measurement frame number, judge that the frame point parameter regulates whether to be limited;
Frame divides parameter adjustment module, and for not being limited in the adjustment of the frame point parameter, adjusting the frame point parameter makes transmission frame
Number it is different from the measurement frame number;
Second measurement parameter adjusting module, for being limited in the adjustment of the frame point parameter, adjusting the measurement parameter makes measurement
Frame number is different from the transmission frame number.
9. device according to claim 8, it is characterised in that the frame point parameter divides parameter and downlink frame including uplink frame
Dividing parameter, the transmission frame number includes up transmission frame number and descending transmission frame number,
When it is described measurement frame number fail simultaneously with it is up transmission frame number and it is descending transmission frame number it is different when, then adjust it is described measurement join
Number makes measurement frame number and the descending transmission frame number different.
10. device according to claim 8 or claim 9, it is characterised in that the frame divides parameter to include repetition period Period_
F, the transmission frame number have higher limit and lower limit in the repetition period Period_F, judged whether in the following manner
Detect that the transmission frame number is equal to the measurement frame number:
Modulus value obtains submodule, for successively using the measurement frame number to repetition period Period_F modulus, obtaining modulus value;
Modulus value comparison sub-module, for the modulus value and the higher limit and lower limit;
Conflict decision sub-module, for being more than or equal to the lower limit in the modulus value, and, less than or equal to the upper limit
Value, then judge to detect that the transmission frame number is equal to the measurement frame number;
Do not conflict decision sub-module, for being more than the higher limit in the modulus value, or, less than the lower limit, judge not
Detect that the transmission frame number is equal to the measurement frame number.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410578631.1A CN104301914B (en) | 2014-10-24 | 2014-10-24 | LTE measuring methods and device based on frame division multiplexing |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410578631.1A CN104301914B (en) | 2014-10-24 | 2014-10-24 | LTE measuring methods and device based on frame division multiplexing |
Publications (2)
Publication Number | Publication Date |
---|---|
CN104301914A CN104301914A (en) | 2015-01-21 |
CN104301914B true CN104301914B (en) | 2017-12-05 |
Family
ID=52321434
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201410578631.1A Active CN104301914B (en) | 2014-10-24 | 2014-10-24 | LTE measuring methods and device based on frame division multiplexing |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN104301914B (en) |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102026216A (en) * | 2009-09-23 | 2011-04-20 | 大唐移动通信设备有限公司 | Different system measuring method and equipment |
CN103270804A (en) * | 2010-12-22 | 2013-08-28 | 摩托罗拉移动有限责任公司 | Interference mitigation in a device having multiple radios |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP5687335B2 (en) * | 2010-06-18 | 2015-03-18 | 聯發科技股▲ふん▼有限公司Mediatek Inc. | System and method for coordinating multiple radio transceivers in the same device platform |
-
2014
- 2014-10-24 CN CN201410578631.1A patent/CN104301914B/en active Active
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102026216A (en) * | 2009-09-23 | 2011-04-20 | 大唐移动通信设备有限公司 | Different system measuring method and equipment |
CN103270804A (en) * | 2010-12-22 | 2013-08-28 | 摩托罗拉移动有限责任公司 | Interference mitigation in a device having multiple radios |
Also Published As
Publication number | Publication date |
---|---|
CN104301914A (en) | 2015-01-21 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN103581886B (en) | DRX parameters and moving velocity of terminal are reported and control method and relevant device | |
CN108696911B (en) | Method and device for selecting data transmission mode of Internet of things | |
CN107872825B (en) | Load balancing method and device, and base station | |
CN112583504B (en) | Antenna switching method and device | |
US20160135087A1 (en) | Load balancing apparatus and method for wireless communications system, and base station | |
CN103748930A (en) | Mobile communications network, infrastructure equipment and method | |
CN102740364B (en) | Load equalization method and device | |
CN107006000A (en) | Method and user equipment for transmitting message | |
CN105491643A (en) | Dynamic network selection method and device, and terminal equipment | |
EP4167149A1 (en) | Method and apparatus for building predictive model, computing device, and storage medium | |
EP3200505B1 (en) | Method and device for estimating uplink service waiting delay | |
CN108934059A (en) | The selection method and relevant device of unlicensed band persistent district | |
CN105792301B (en) | A kind of terminal of handover network, method and system | |
CN110536379A (en) | Wake-up signal sending method, detection method, relevant apparatus and storage medium | |
CN104918287A (en) | Load balancing method and device | |
US20190029004A1 (en) | Resource reuse apparatus, user equipment, and resource reuse method | |
Balapuwaduge et al. | Hidden Markov model based machine learning for mMTC device cell association in 5G networks | |
CN104301914B (en) | LTE measuring methods and device based on frame division multiplexing | |
CN102711259B (en) | Wireless heterogeneous network throughput optimization method based on Markov process | |
CN107113092A (en) | Message transmission/method of reseptance, coverage enhancement grade determination/acquisition methods and relevant device | |
CN102215576B (en) | Distribution method for channel holding time, access point equipment and access network system | |
CN107734712A (en) | A kind of accidental access method and equipment | |
CN105393627B (en) | The method and apparatus for promoting improved access to realize efficient cell change | |
CN105682102A (en) | Unlicensed channel competition parameter generation method and device | |
CN105491633A (en) | Wireless network vertical handoff method and apparatus |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |