CN110418383A - The measurement method and device, storage medium, terminal of the double LTE terminals of double card - Google Patents

Abstract

A kind of measurement method and device, storage medium, terminal of the double LTE terminals of double card, the double LTE terminals of the double card include the first identification card and the second identification card, the measurement method includes: the configuration information for receiving network, and the configuration information includes measurement frequency point；Based on the configuration information, the first virtual frequency point quantity of first identification card and the second virtual frequency point quantity of second identification card are determined；It is the resource of first identification card and the distribution of the second identification card for measurement based on the described first virtual frequency point quantity and the second virtual frequency point quantity；Each measurement frequency point is measured according to allocation result, to obtain measurement result.The technical solution provided through the invention can optimize the resource allocation for connected state and the measurement of Idle state terminal, improve the measurement performance and travelling performance of terminal, reduce terminal standby power consumption.

Description

The measurement method and device, storage medium, terminal of the double LTE terminals of double card

Technical field

The present invention relates to wireless communication technology fields, more particularly to the measurement method and dress of a kind of double LTE terminals of double card It sets, storage medium, terminal.

Background technique

With the development of mobile internet, double card double standby mobile phone becomes more and more popular, and existing terminal is (for example, user Equipment (User Equipment, referred to as UE)) most of only a card is supported to reside in long term evolution (Long Term Evaluation, referred to as LTE) network, in addition a card resides in 2G network or 3G network.But from the development trend of industry It sees, the double LTE terminals of the following double card can be more and more common.

For dual-card dual-standby terminal, two identification cards are (for example, 3G is using Subscriber Identity Module (Subscriber Identity Module, abbreviation SIM card), LTE are using Global Subscriber identification card (Universal Subscriber Identity Module, abbreviation usim card)) generally it is multiplexed a set of radio-frequency receiving system.For example, 3G SIM card Same set of RF hardware is shared with LTE usim card.

For the double LTE terminals of double card, if two identification cards adhere to different network operators separately, (such as China is moved Dynamic and China Unicom), and respective LTE frequency range is respectively adopted, then the frequency range that UE is needed support will be very more.For example, common Time division duplex (Time Division Duplex, abbreviation TDD) LTE frequency range includes frequency range 38, frequency range 39, frequency range 40, frequency range 41； Frequency division duplex (Frequency Division Duplex, abbreviation FDD) LTE frequency range includes frequency range 1, frequency range 3, frequency range 5, frequency range 7, frequency range 8 etc..

In the prior art, common implementation method is the measurement frequency for the network configuration that fair play two is opened on identification card Point, mean allocation radio frequency resource is used to complete the measurement of measurement frequency point, its shortcoming is that cannot guarantee the mobility of UE well Energy.

Specifically, can star after the double LTE UE resident service cells of the double card with frequency, alien-frequency district measurement, And pass through the Signal quality assessment to serving cell and neighboring community, it is determined whether carry out cell reselection or cell switching.When When user equipment is in mobile state or is in complex environment, accurately and rapidly serving cell and neighboring community are measured, Assessment is the key that guarantee terminal capabilities and user experience.

For LTE UE double to double card carry out nearby region measurement, if two identification cards are average according to measurement frequency point number Distribution measurement resource, then can undoubtedly lead to the problem of very much.For example, if wherein an identification card has the more of network configuration A measurement frequency point, and the cell signal quality of each measurement frequency point is fine, and an other identification card only has network and matches The a small amount of measurement frequency point set, and the cell signal quality of each measurement frequency point is very poor, then being surveyed when mean allocation measures resource Measure frequency point negligible amounts identification card may because of distribution measurement resource it is few and cause pendulous frequency less, can not be with Track signal quality variation, so that the problems such as call drop, connection reconstruction occurs in the identification card.

In another example in idle standby user equipment, it should be under the premise of guaranteeing terminal capabilities, as much as possible The power dissipation overhead of reduction system.However, for LTE UE double to double card, if mean allocation measures resource, in signal matter When having measured, it is understood that there may be non-essential measurement expense may not can guarantee two because measuring inadequate resource in poor signal quality Open the travelling performance of identification card.

In conclusion how to optimize measurement strategies, limited radio frequency resource how to be made full use of to carry out the survey of multiple frequency ranges Amount, to guarantee that cell reselection and the mobile handoff performance of mobile subscriber equipment have become critical issue urgently to be resolved.

Summary of the invention

Present invention solves the technical problem that being how to provide the measurement strategies of a set of optimization, to guarantee dual-card dual-standby terminal Measurement performance and travelling performance.

In order to solve the above technical problems, the embodiment of the present invention provides a kind of measurement method of double LTE terminals of double card, it is described double Blocking double LTE terminals includes the first identification card and the second identification card, the measurement method packet of the double LTE terminals of the double card It includes: receiving the configuration information of network, the configuration information includes measurement frequency point；Based on the configuration information, described first is determined Second virtual frequency point quantity of the virtual frequency point quantity of the first of identification card and second identification card；Based on described One virtual frequency point quantity and the second virtual frequency point quantity are that first identification card and the second identification card distribute Resource for measurement；Each measurement frequency point is measured according to allocation result, to obtain measurement result.

Optionally, the first virtual frequency point quantity and second identification of the determination first identification card If the second virtual frequency point quantity of card includes: the measurement of first identification card and/or the configuration of the second identification card The quantity of frequency point is less than the first preset quantity, then by the described first virtual frequency point quantity and/or the second virtual frequency point quantity It is set as first preset quantity.

Optionally, described to be based on the described first virtual frequency point quantity and the second virtual frequency point quantity, it is described first The resource of identification card and the distribution of the second identification card for measurement includes: based on first identification card and second The signal quality of the respective serving cell of identification card updates the first virtual frequency point quantity and the second virtual frequency point Quantity, the second virtual frequency point quantity with the first virtual frequency point quantity after being updated and after updating；Based on after the update first Second virtual frequency point quantity after virtual frequency point quantity and update is that first identification card and the second identification card distribute Resource for measurement.

Optionally, described to be based on the described first virtual frequency point quantity and the second virtual frequency point quantity, it is described first Identification card and the distribution of the second identification card include: according to the described first virtual frequency point quantity and for the resource of measurement Two virtual frequency point ratio of number are the resource of first identification card and the distribution of the second identification card for measurement.

Optionally, first identification card or the second identification card are in connected state, and the allocation result includes The method of salary distribution in gap is measured, described measure according to allocation result between each measurement frequency point includes: according to the measurement The method of salary distribution of gap measures first identification card and the respective measurement frequency point of the second identification card.

Optionally, first identification card and the second identification card are in Idle state, the allocation result packet The method of salary distribution of paging cycle is included, described measure according to allocation result to each measurement frequency point includes: according to the paging The method of salary distribution in period, to each measurement frequency point of first identification card and the second identification card according to priority from High sequence on earth measures.

Optionally, the measurement method further include: before being measured according to the sequence of priority from high in the end, according to net The configuration information of network determines the priority of each measurement frequency point of first identification card and the second identification card；To institute The priority for stating the measurement frequency point of the first identification card and/or the second identification card is adjusted, so that priority is most Not only included the measurement frequency point of first identification card in high top n measurement frequency point but also had included second identification card Measurement frequency point, N be preset positive integer.

Optionally, described that each measurement frequency point is measured according to allocation result further include: according to priority from height to When the sequence at bottom measures, if the signal quality of the serving cell of the higher measurement frequency point of priority is more than or equal to default threshold Value, then close that priority is lower or the measurement of identical measurement frequency point.

Optionally, the measurement method further include: when first identification card and the second identification card are in When Idle state, according to the measurement result, the serving cell of first identification card and the second identification card is carried out Cell reselection evaluation.

Optionally, the measurement method further include: at first identification card or second identification card When connected state, the measurement result is sent to the network.

In order to solve the above technical problems, the embodiment of the present invention provides the measuring device of the double LTE terminals of also a kind of double card, it is described The double LTE terminals of double card include the first identification card and the second identification card, and the measuring device includes: receiving module, is fitted In the configuration information for receiving network, the configuration information includes measurement frequency point；Determining module is suitable for being based on the configuration information, Determine the first virtual frequency point quantity of first identification card and the second virtual frequency point number of second identification card Amount；Distribution module is suitable for being based on the described first virtual frequency point quantity and the second virtual frequency point quantity, is first identity The resource of identification card and the distribution of the second identification card for measurement；Measurement module is suitable for according to allocation result to each measurement Frequency point measures, to obtain measurement result.

Optionally, the determining module includes: setting submodule, if first identification card and/or the second body The quantity of the measurement frequency point of part identification card configuration is less than the first preset quantity, then the setting submodule is suitable for empty by described first Quasi- frequency point quantity and/or the second virtual frequency point quantity are set as first preset quantity.

Optionally, the distribution module includes: update submodule, is suitable for being based on first identification card and the second body The signal quality of part respective serving cell of identification card, updates the first virtual frequency point quantity and the second virtual frequency point number Amount, with the second virtual frequency point quantity after the first virtual frequency point quantity after being updated and update；First distribution sub module is suitable for base The first virtual frequency point quantity and the second virtual frequency point quantity after updating, are first identification card and the after the update Resource of the two identification cards distribution for measurement.

Optionally, the distribution module includes: the second distribution sub module, be suitable for according to the described first virtual frequency point quantity and Second virtual frequency point ratio of number is the resource of first identification card and the distribution of the second identification card for measurement.

Optionally, first identification card or the second identification card are in connected state, and the allocation result includes The method of salary distribution in gap is measured, the measurement module includes: the first measurement submodule, suitable for the distribution according to the measurement gap Mode measures first identification card and the respective measurement frequency point of the second identification card.

Optionally, first identification card and the second identification card are in Idle state, the allocation result packet The method of salary distribution of paging cycle is included, the measurement module includes: the second measurement submodule, suitable for point according to the paging cycle With mode, to each measurement frequency point of first identification card and the second identification card according to priority from high in the end Sequence measures.

Optionally, the measurement module further include: submodule is determined, suitable for carrying out according to the sequence of priority from high in the end Before measurement, each measurement frequency of first identification card and the second identification card is determined according to the configuration information of network The priority of point；Adjusting submodule, suitable for the measurement frequency point to first identification card and/or the second identification card Priority is adjusted, so that both having included the survey of first identification card in the top n measurement frequency point of highest priority Amount frequency point includes the measurement frequency point of second identification card again, and N is preset positive integer.

Optionally, the measurement module further include: close submodule, measured according to the sequence of priority from high in the end When, if the signal quality of the serving cell of the higher measurement frequency point of priority is more than or equal to preset threshold, closing Module is suitable for closing that priority is lower or the measurement of identical measurement frequency point.

Optionally, the measuring device further include: reselection evaluation module is suitable for working as first identification card and second When identification card is in Idle state, according to the measurement result, to first identification card and the second identification The serving cell of card carries out cell reselection evaluation.

Optionally, the measuring device further include: sending module is suitable for working as first identification card or described second When identification card is in connected state, the measurement result is sent to the network.

In order to solve the above technical problems, the embodiment of the present invention also provides a kind of storage medium, it is stored thereon with computer and refers to The step of order, the computer instruction executes the measurement method of the double LTE terminals of above-mentioned double card when running.

In order to solve the above technical problems, the embodiment of the present invention also provides a kind of terminal, including memory and processor, it is described The computer instruction that can be run on the processor is stored on memory, when the processor runs the computer instruction The step of executing the measurement method of the double LTE terminals of above-mentioned double card.

Compared with prior art, the technical solution of the embodiment of the present invention has the advantages that

The embodiment of the present invention provides a kind of measurement method of double LTE terminals of double card, and the double LTE terminals of the double card include first Identification card and the second identification card, the measurement method of the double LTE terminals of the double card include: reception network with confidence Breath, the configuration information includes measurement frequency point；Based on the configuration information, determine that the first of first identification card is virtual Second virtual frequency point quantity of frequency point quantity and second identification card；Based on the described first virtual frequency point quantity and described Second virtual frequency point quantity is the resource of first identification card and the distribution of the second identification card for measurement；According to Allocation result measures each measurement frequency point, to obtain measurement result.Compare the side of existing mean allocation measurement resource Case, the embodiment of the present invention are considered the measurement frequency point quantity of the radio frequency resource of two identification cards as a whole, can be optimized for surveying The resource allocation of amount optimizes the measurement scheduling of the user equipment of connected state and Idle state, improve user equipment measurement performance and Travelling performance reduces the stand-by power consumption of user equipment, is conducive to reach system performance optimal.

Further, described to be based on the described first virtual frequency point quantity and the second virtual frequency point quantity, it is described first The resource of identification card and the distribution of the second identification card for measurement includes: based on first identification card and second The signal quality of the respective serving cell of identification card updates the first virtual frequency point quantity and the second virtual frequency point Quantity, the second virtual frequency point quantity with the first virtual frequency point quantity after being updated and after updating；Based on after the update first Second virtual frequency point quantity after virtual frequency point quantity and update is that first identification card and the second identification card distribute Resource for measurement.When the first identification card or the poor corresponding serving cell signal quality of the second identification card, The technical solution provided through the embodiment of the present invention can increase the survey of first identification card or the second identification card Resource proportion and measurement frequency are measured, is conducive to improve measurement performance and travelling performance, so that user equipment can switch to as early as possible The serving cell of high RST quality.

Further, before measuring according to the sequence of priority from high in the end, institute is determined according to the configuration information of network State the priority of each measurement frequency point of the first identification card and the second identification card；To first identification card And/or second the priority of measurement frequency point of identification card be adjusted so that the top n measurement frequency point of highest priority In not only comprising first identification card measurement frequency point but also include second identification card measurement frequency point, N is pre- If positive integer.The corresponding cell signal quality of measurement frequency point for two identification cards that how managed network is not arranged and preferential Grade, the embodiment of the present invention, which at least can guarantee every identification card, high priority measurement frequency point, avoids the occurrence of due to net The case where the reason of network configuration and network operator's on-premise network, causes the measurement travelling performance of certain identification card to decline.This Inventive embodiments can guarantee the fairness and mobility of two identification cards in the double LTE terminals of double card, be conducive to reach System performance is optimal.

Further, when being measured according to the sequence of priority from high in the end, if the higher measurement frequency point of priority The signal quality of serving cell is more than or equal to preset threshold, then closes that priority is lower or the measurement of identical measurement frequency point.It adopts It with technical solution provided in an embodiment of the present invention, can not only guarantee terminal measurement performance, but also power consumption of terminal can be saved.

Detailed description of the invention

Fig. 1 is a kind of flow diagram of the measurement method of the double LTE terminals of double card of the embodiment of the present invention；

Fig. 2 is a kind of flow diagram of specific embodiment of the step S104 in Fig. 1；

Fig. 3 is the flow diagram of another specific embodiment of the step S104 in Fig. 1；

Fig. 4 is a kind of structural schematic diagram of the measuring device of the double LTE terminals of double card of the embodiment of the present invention.

Specific embodiment

It will be appreciated by those skilled in the art that as described in the background art, prior art not can guarantee the double LTE terminals of double card Measurement performance and travelling performance.

Present inventor is carefully studied discovery, according to 3GPP protocol requirement, single deck tape-recorder (such as single SIM card) Idle state UE carries out neighbor cell measurement can start according to the priority orders of measurement frequency point.Moreover, high priority measurement frequency point needs Measured in each measurement period, same priority, low priority measurement frequency point can serving cell signal quality as low as Restart measurement after pre-determined threshold.However, for LTE UE double to double card, if still according to single identification card LTE The measurement method of UE measures, then following problems will be introduced:

(1) the double LTE UE of Idle state double card there are the problem of.

Firstly, the measurement frequency point that the double LTE UE of double card need to measure is usually very more, for example, in current LTE, every Identification card can at most correspond to 8 measurement frequency points, and two identification cards can correspond to 16 measurement frequency points.If according to The measurement method of single identification card measures, then when 16 measurement frequency points are high priority measurement frequency point, together The measurement for needing to complete 16 measurement frequency points in one paging cycle substantially increases the power consumption of user equipment, reduces and uses The family device standby time.Further, with the extension of LTE commercialization in future frequency range, measurement frequency point will increase therewith, user equipment Power consumption also will be further increased.

Secondly, two identification cards that the double LTE UE of double card are used may belong to different network operators, have Different network configurations and the network planning.Since the priority of the measurement frequency point of each network operator configuration is according to own net Operating status setting, thus the double LTE UE of double card are when measuring, if two identification cards are respectively according to respective The priority of network configuration is individually sorted, i.e., the scheduling measurement in the way of individual identification card, then can undoubtedly go out The excessively high situation of current family equipment power dissipation.

Again, two identification cards that LTE UEs double for double card are used belong to the feelings of different network operators Condition, if the unified priority according to network configuration of two identification cards carries out hybrid-sorting, since heterogeneous networks are transported The deployment strategy for seeking quotient is different, if wherein the priority of the measurement frequency point of the corresponding network configuration of an identification card all compares It is lower, and the priority of the measurement frequency point of the corresponding network configuration of another identification card is relatively high, then low priority The corresponding identification card of measurement frequency point may cause measurement performance poor because that can not obtain measurement resource in time, thus can not protect Mobility is demonstrate,proved, occurs net, Special Handle of Drop Question.

Later, two identification cards that LTE UEs double for double card are used belong to the feelings of different network operators Condition still will affect the survey of user equipment if the quantity variance of the measurement frequency point of two identification cards configuration is very big Measure performance.For example, a wherein identification card of the double LTE UE of search double card is configured with 8 measurement frequency points, an other body Part identification card is only configured with 1 measurement frequency point, if two cards measure resource according to frequency point quantity mean allocation, for For the identification card of only 1 measurement frequency point, available measurement resource accounting is 1/9.At this point, the identification card It is difficult to obtain measurement resource in time, may not can guarantee the travelling performance of user equipment, and another identity more than measurement frequency point The problem of that then there may be pendulous frequencies is excessive for identification card, wastes system resource.

Finally, the double LTE UE of double card may be resided in the different community of different measurement frequency points, the same frequency of network configuration Cell and alien frequencies adjacent area be not also identical, thus the serving cell of the double LTE UE of double card and the signal quality of neighboring community also not phase Together.If resource allocation does not consider the serving cell of different identity identification card and the signal quality of neighboring community, it is likely difficult to Resource allocation optimization is carried out, it is optimal to be unable to reach system performance.

(2) the double LTE UE of connected state double card there are the problem of.

The double LTE UE of double card only support that wherein an identification card is in connected state, and in addition an identification card is in Idle state.Nevertheless, for the measurement performance for guaranteeing two identification cards, it is still desirable to own to two identification cards Frequency point measures.

Firstly, according to 3GPP protocol requirement, the alien frequencies of network configuration, different system measurement gap (GAP) period be 40ms Or 80ms, and measure gap and the corresponding measurement frequency point of two identification cards for distributing to the double LTE UE of double card is subjected to alien frequencies survey Amount, measurement resource is at full stretch, if measurement allocations are unreasonable, may not can guarantee each body of the double LTE UE of the double card The travelling performance of part identification card.

Secondly, identical as the double LTE UE of Idle state double card, the double LTE UE of connected state double card also will appear the survey of network configuration The big problem of the cell signal quality difference of the quantity variance and the double LTE UE of double card of measuring frequency point, it is double referring specifically to Idle state double card Performance issue existing for LTE UE.

In order to solve the above technical problems, needing the measurement strategies of a set of optimization to guarantee the measurement performance of the double LTE UE of double card And travelling performance.

The embodiment of the present invention provides a kind of measurement method of double LTE terminals of double card, and the double LTE terminals of the double card include first Identification card and the second identification card, the measurement method of the double LTE terminals of the double card include: reception network with confidence Breath, the configuration information includes measurement frequency point；Based on the configuration information, determine that the first of first identification card is virtual Second virtual frequency point quantity of frequency point quantity and second identification card；Based on the described first virtual frequency point quantity and described Second virtual frequency point quantity is the resource of first identification card and the distribution of the second identification card for measurement；According to Allocation result measures each measurement frequency point, to obtain measurement result.Compare the side of existing mean allocation measurement resource Case, the embodiment of the present invention are considered the measurement frequency point quantity of the radio frequency resource of two identification cards as a whole, can be optimized for surveying The resource allocation of amount optimizes the measurement scheduling of the user equipment of connected state and Idle state, improve user equipment measurement performance and Travelling performance reduces the stand-by power consumption of user equipment, is conducive to reach system performance optimal.

It is understandable to enable above-mentioned purpose of the invention, feature and beneficial effect to become apparent, with reference to the accompanying drawing to this The specific embodiment of invention is described in detail.

Fig. 1 is a kind of flow diagram of the measurement method of the double LTE terminals of double card of the embodiment of the present invention, the measurement side Method can be applied to the side UE.Be illustrated by taking the double LTE UE of double card as an example below, specifically, the measurement method may include with Lower step:

Step S101: receiving the configuration information of network, and the configuration information includes measurement frequency point；

Step S102: be based on the configuration information, determine first identification card the first virtual frequency point quantity and The virtual frequency point quantity of the second of second identification card；

Step S103: being based on the described first virtual frequency point quantity and the second virtual frequency point quantity, is first body The resource of part identification card and the distribution of the second identification card for measurement；

Step S104: each measurement frequency point is measured according to allocation result, to obtain measurement result.

Specifically, in step s101, the double LTE UE of double card are reside respectively in respective serving cell, and can be divided Configuration information is not received from network.For example, when the double LTE UE of the double card two identification cards used belong to different nets When network operator (for example, China Unicom, China Mobile), the double LTE UE of the double card will receive the configuration from heterogeneous networks respectively Information.

Wherein, the configuration information may include the priority of one or more measurement frequency points and each measurement frequency point.

Further, the configuration information can be the configuration information carried in the system message that network is sent, alternatively, institute Stating configuration information can be the configuration information carried by the interaction signaling between network and the double LTE UE of the double card.The double card is double LTE UE can get the priority of one or more measurement frequency point information and each measurement frequency point from the configuration information.

In step s 102, the double LTE UE of the double card can determine two bodies of network configuration based on the configuration information The measurement frequency point quantity of part identification card (such as first identification card, the second identification card).Double LTE UE points of the double card When being used in the resource of measurement, the measurement frequency point quantity that can be preset on every identification card is no less than the first present count Measure Nset.For example, the double card is double if the measurement frequency point quantity of network configuration is less than the first preset quantity Nset LTE UE can set virtual frequency point quantity as Nset when distribution measures resource；If the measurement frequency point quantity of network configuration It, then can be using the quantity of the measurement frequency point of network configuration as the void of the identification card greater than the first preset quantity Nset Quasi- frequency point quantity.

It will be appreciated by those skilled in the art that in practical implementations, the first preset quantity Nset can be adjusted flexibly, example Such as, the first preset quantity Nset=3 is set.

Specifically, virtual frequency point quantity refers to the true measurement frequency point quantity based on network configuration, adjusted in measurement After spending scheme optimization, real allocated is used for the measurement frequency point quantity used when the resource of measurement.The double LTEUE of the double card can be by Resource is measured according to virtual frequency point quantity distribution is surveyed.The distribution of measurement resource is according to two identification cards (such as the first identity Identification card and the second identification card) on virtual frequency point quantitative proportion determine.Either Idle state user equipment still connects State user equipment is connect, virtual frequency point quantity is directly proportional to the resource of distribution, for example, virtual frequency point quantity is more, distribution to the body The measurement resource of part identification card is more.

In the configuration information for receiving network and after presetting the first preset quantity Nset, the double card is double LTE UE can determine the virtual frequency point number of two identification cards (for example, the first identification card and second identification card) Amount, such as the corresponding first virtual frequency point quantity of first identification card, second identification card corresponding second are virtual Frequency point quantity.

Further, when the signal quality of the resident serving cell of a wherein identification card of the double LTE UE of the double card When poor (such as signal quality be less than pre-determined threshold), the corresponding virtual frequency point quantity of the adjustable identification card, with Improve the measurement frequency of the measurement frequency point of the identification card.For example, on the basis of original virtual frequency point quantity, multiplied by big In 1 coefficient, to increase the corresponding virtual frequency point quantity of the identification card, virtual frequency point quantity after being updated, so that The identification card can switch to high RST quality cells as early as possible or carry out cell reselection, and it is corresponding to improve the identification card User equipment travelling performance.

It will be appreciated by those skilled in the art that the signal quality of the serving cell can use signal-to-noise ratio (Signal Noise Rate, abbreviation SNR) it indicates, the pre-determined threshold of the signal-to-noise ratio of the serving cell can be to be set according to the demodulation ability of the UE Fixed.

Further, virtual frequency point quantity can be set to original virtual frequency point quantity multiplied by greater than 1 and be after the update The product of number.For example, Nvirtual_update=K × Nvirtual, wherein Nvirtual_update is virtual frequency point after updating Quantity, K are the coefficient greater than 1, and Nvirtual is original virtual frequency point quantity.In actual implementation, K can be with flexible setting, example As K can be set to 1.5.

It include that the first identification card and the second identity are known as the double LTE UE of double card described in a non-limiting embodiment Do not block.Wherein, K=1.5, in first identification card, the first virtual frequency point quantity Nvirtual=4；Second body In part identification card, the second virtual frequency point quantity Nvirtual=5.If serving cell on first identification card SNR is less than pre-determined threshold SNR_ThreshA, and the SNR of the serving cell on second identification card is greater than pre-determined threshold SNR_ThreshB, then, the first virtual frequency point quantity is Nvirtual_ after the corresponding update of first identification card Update=K × Nvirtua=1.5 × 4=6, the second virtual frequency point quantity after the corresponding update of second identification card It is still 5.

In another example the double LTE UE of the double card include the first identification card and the second identification card.Wherein, K= 1.5, in first identification card, the first virtual frequency point quantity Nvirtual=4；In second identification card, the Two virtual frequency point quantity Nvirtual=5.If the SNR of the corresponding serving cell of first identification card is less than pre- gating SNR_ThreshA is limited, and the SNR of the corresponding serving cell of second identification card is less than pre-determined threshold SNR_ThreshB, So, with this condition, the first virtual frequency point quantity is K × Nvirtua=after the corresponding update of first identification card 1.5 × 4=6, the second virtual frequency point quantity is K × Nvirtua=1.5 × 5 after the corresponding update of second identification card =7.5.

In step s 103, the double LTE UE of the double card can be virtual based on the first determining virtual frequency point quantity and second Frequency point quantity, it is adjacent for measuring co-frequency cell and/or alien frequencies for first identification card and the distribution of the second identification card The resource in area.

Specifically, the double LTE UE of the double card can be according to the described first virtual frequency point quantity and the second virtual frequency point number The ratio between amount is the resource of first identification card and the distribution of the second identification card for measurement.

Further, if it is known that after the SNR of two corresponding serving cells of identification card, the double card is double LTE UE can determine the first virtual frequency point quantity and the after update second virtual frequency after update according to the signal quality of serving cell Point quantity.Second virtual frequency point quantity based on the after determining update first virtual frequency point quantity and after updating, can be described the One identification card and the second identification card distribute the measurement resource for measuring co-frequency cell and/or alien frequencies adjacent area.

Further, the double LTE UE of the double card can be the according to the after the update first virtual frequency point quantity and after updating Two virtual frequency point ratio of number are the resource of first identification card and the distribution of the second identification card for measurement.Example Such as, network is that the first identification card of the double LTE UE of the double card is configured with 9 measurement frequency points, is the second identification card net Network is configured with 1 measurement frequency point, then the ratio that second identification card obtains resource is 1/ under prior art (9+1)=10%.Based on the embodiment of the present invention, preset since the frequency point quantity of second identification card is less than described first Quantity Nset (for example, Nset=3), then second identification card obtain measurement resource ratio for 3/ (9+3)= 25%.

In step S104, when the first identification card of the double LTE UE of the double card or the second identification card are in and connect When connecing state, the resource for measurement is measurement gap；When the first identification card and the second identity of the double LTE UE of the double card When identification card is in Idle state, measured based on paging cycle.Specifically, the double LTE UE of the double card are in paging message It when arrival, wakes up from sleep state and receives paging message, and carry out common frequency measurement and different-frequency measure.Paging cycle is to measure week Phase, wherein common frequency measurement is measured using the circulating resources of paging, and different-frequency measure carries out after the completion of common frequency measurement, later, The double LTE UE of the double card reenter sleep state.

Specifically, with reference to Fig. 2, in the double LTE UE of the double card, when wherein identification card (such as the first body Part identification card or the second identification card) when being in connected state, in step S1041, first identification card and second Identification card can update virtual frequency point quantity according to the signal quality of corresponding serving cell.

In step S1042, in measurement gap period, the double LTE UE of the double card can be according to each identification card The virtual frequency point quantitative proportion distribution measurement gap of (for example, first identification card and second identification card), and it is right Each measurement frequency point successively measures, to obtain measurement result.

Wherein, the metrical information comprising the cell under each measurement frequency point in the measurement result, such as reference signal connect Receive power (Reference Signal Received Power, abbreviation RSRP), Reference Signal Received Quality (Reference Signal Received Quality, abbreviation RSRQ), the information such as SNR.According to these metrical informations, the double LTE UE of the double card Virtual frequency point quantity can be updated.

Further, in step S10431, after obtaining measurement result, the double LTE UE of the double card can be according to described Measurement result determines the signal quality of first identification card and the corresponding serving cell of the second identification card, from And the double LTE UE of the double card is made to update virtual frequency point quantity.

In step S10432, if obtaining measurement result, in connected state first identification card or Second identification card can carry out smothing filtering to the measurement result, and the measurement result after smothing filtering is reported net Network.It will be appreciated by those skilled in the art that correspondingly, first identification card or the second identification card in Idle state Cell reselection evaluation can be carried out according to the measurement result.

It will be appreciated by those skilled in the art that may determine whether to be cut after network receives the measurement result reported Operation or other processing are changed, here no longer superfluous words.

It should be noted that since first identification card or the second identification card are in connected state, thus survey Amount resource can be the measurement gap of network configuration.Comparison is only capable of measuring paging resource, first body in the UE of Idle state When part identification card or the second identification card are in connected state, the second identification card or the first identification in Idle state When card measures, it can use measurement gap (such as 1.28 seconds a length of when measurement gap) and measure, improve measurement performance. At this point, the second identification card or the first identification card in Idle state can be measured no longer in strict accordance with the period, The priority of measurement frequency point is not considered, measures realization process to simplify.It will be appreciated by those skilled in the art that reduce user equipment Power consumption can measure each measurement frequency point according to the priority of the measurement frequency point of network configuration according to the prior art, this In repeat no more.

As a change case, with reference to Fig. 3, in the double LTE UE of the double card, when first identification card and the When two identification cards are in Idle state, as shown in step S1041 ', first identification card and the second identification Card can update virtual frequency point quantity according to the signal quality of corresponding serving cell.

Further, in step S1042 ', high priority measurement frequency point is ranked up according to serving cell signal quality. Specifically, it under Idle state, can be measured according to the priority of the measurement frequency point of network configuration, to reduce user equipment Power consumption.

More specifically, for LTE UE double to the double card, according to the regulation of 3GPP agreement, at most may exist 16 Measurement frequency point.Even if measuring according to priority, power dissipation overhead is also very big.Therefore, it is possible to which preferentially measurement is high preferential Grade measurement frequency point.Specifically, the high priority on first identification card and the second identification card can be measured into frequency Point is ranked up according to the signal quality (such as signal strength) of serving cell, is then sequentially measured.

It should be noted that for LTE double to the double card, whole high priority measurement frequency points of each identification card The number of (for example, the sum of high priority measurement frequency point quantity of high priority measurement frequency point quantity and network configuration that adjustment obtains) Amount is less than or equal to N.Wherein, N is preset positive integer, can be the double LTE UE of the double card and is opened according to the power consumption of user equipment Pin situation is configured.For example, N=12.

In step S1043 ', the measurement frequency point quantity of high priority is determined.Specifically, if first identity is known It Ka not be more than N number of with the number of the high priority measurement frequency point on the second identification card, then can will be more than that N number of height is preferential Grade measurement frequency point measures in the way of low priority measurement frequency point, to save the power consumption of user equipment.

In specific implementation, if only having an identification card in first identification card and the second identification card High priority measurement frequency point comprising network settings, and there is no the high priority of network settings to measure on another identification card Frequency point, then the double LTE UE of the double card can be by the identification card of no high priority measurement frequency point according to the identification card Measurement frequency point under cell signal quality and priority be ranked up, measurement frequency is at least chosen from the identification card Point, and the measurement frequency point for adjusting selection is measured as high priority measurement frequency point, so that the double LTE UE of the double card were both Measurement frequency point comprising first identification card includes the measurement frequency point of second identification card again, described in guaranteeing The measurement fairness and mobility of first identification card and the second identification card.

It, can be with for example, after the double LTE UE of the double card determine high priority measurement frequency point in step S10441 ' All high priority measurement frequency points are measured.Free time is in first identification card and the second identification card For the user equipment of state, for the measurement for completing all measurement frequency points, it may be necessary to monitor, measure multiple pagings (paging). Measure paging when, can according to the ratio of the virtual frequency point quantity of first identification card and the second identification card, To each measurement frequency point of first identification card and the second identification card according to priority sequence from high in the end into Row measurement, to obtain measurement result.

In step S10442 ', if obtaining measurement result, the double LTE UE of the double card can be according to the measurement result (for example, measurement feedback) determines first identification card and the corresponding serving cell of the second identification card Signal quality, so that the double LTE UE of the double card be allow to update the virtual frequency point quantity.

Further, in step S1045 ', it can start or close low priority according to the signal quality of serving cell The measurement of grade, same priority measurement frequency point.

For example, if after all high priority measurement frequency points measure to obtain measurement result, discovery serving cell and The signal quality of adjacent area is poor, then can star the measurement of remaining low priority grade, same priority measurement frequency point, to measurement Each cell of frequency point is assessed.

In another example if finding serving cell after all high priority measurement frequency points measure to obtain measurement result It is preferable with the signal quality of adjacent area, then without being measured to low priority grade, same priority measurement frequency point, thus can close The measurement process of priority grade, same priority measurement frequency point.

Further, if the measurement process of starting low priority, same priority measurement frequency point, can feed back Measurement result, so that the double LTE UE of the double card can determine first identification card and second according to the measurement result The signal quality of the corresponding serving cell of identification card, so that the double LTE UE of the double card be made to update the virtual frequency point Quantity.

Further, in step S1046 ', the double LTE UE of the double card can carry out cell according to the measurement result Reselection evaluation completes cell reselection.

As a non-limiting embodiment, the first identification card of the double LTE UE of the double card does not have high priority survey Frequency point is measured, low priority measurement frequency point is 2；The high priority measurement frequency point of second identification card is 3, and low priority is surveyed Measuring frequency point is 4.

Based on the embodiment of the present invention, firstly, determining that the virtual frequency point quantity of first identification card is 3, and institute The virtual frequency point quantity for stating the second identification card is 7.The acquisition of first identification card and the second identification card The ratio of measurement resource be respectively 3/ (3+7)=30%, 7/ (3+7)=70%.

Secondly, 1 low priority in first identification card is surveyed according to the cell signal quality of measurement frequency point Amount frequency point is adjusted to high priority measurement frequency point (for example, the cell signal quality of the low priority measurement frequency point is preferable).

Later, the high priority measurement frequency point of first identification card and the second identification card is measured, Obtain measurement result.According to the metrical information that the measurement result includes, first identification card and second can be determined The signal quality of the respective serving cell of identification card can close if the signal quality of respective serving cell is preferable The measurement of low priority, same priority measurement frequency point is closed, otherwise can star the survey to low priority, same priority measurement frequency point Amount process.

Finally, carrying out cell reselection evaluation according to obtained measurement result, cell reselection is completed.

By upper, the existing scheme based on measurement frequency point quantity mean allocation measurement resource is compared, the embodiment of the present invention can be with Consider radio frequency resource measurement frequency point quantity, the measurement frequency point priority of network configuration and UE received signal quality as a whole, optimization connects State and Idle state measurement scheduling are connect, UE measurement performance and travelling performance are improved, and UE stand-by power consumption can be reduced, in double card branch It holds in more measurement frequency points, has outstanding performance.

Fig. 4 is a kind of measuring device of the double LTE terminals of double card of the embodiment of the present invention, can be used for implementing above-mentioned Fig. 1 to Fig. 3 Shown in the double LTE terminals of double card measurement method technical solution.

Specifically, the double LTE terminals of the double card include the first identification card and the second identification card, the double card The measuring device 4 (for simplicity, hereinafter referred to as measuring device 4) of double LTE terminals may include receiving module 41, determining module 42, distribution module 43 and measurement module 44.

More specifically, the receiving module 41 is suitable for receiving the configuration information of network, and the configuration information includes measurement Frequency point；The determining module 42 is suitable for being based on the configuration information, determines the first virtual frequency point of first identification card Second virtual frequency point quantity of quantity and second identification card；The distribution module 43 is suitable for virtual based on described first Frequency point quantity and the second virtual frequency point quantity are first identification card and the distribution of the second identification card for surveying The resource of amount；The measurement module 44 is suitable for measuring each measurement frequency point according to allocation result, to obtain measurement result.

Further, the determining module 42 may include: setting submodule 421.

Specifically, if the number of first identification card and/or the measurement frequency point of the second identification card configuration Amount is less than the first preset quantity, then the setting submodule 421 is suitable for the described first virtual frequency point quantity and/or described second Virtual frequency point quantity is set as first preset quantity.

Further, the distribution module 43 may include updating submodule 431 and the first distribution sub module 432.

Specifically, the update submodule 431 is suitable for being based on first identification card and the second identification card The signal quality of respective serving cell updates the first virtual frequency point quantity and the second virtual frequency point quantity, with First virtual frequency point quantity and the second virtual frequency point quantity after update after to update；First distribution sub module 432 is suitable for base The first virtual frequency point quantity and the second virtual frequency point quantity after updating, are first identification card and the after the update Resource of the two identification cards distribution for measurement.

Further, the distribution module 43 may include the second distribution sub module 433.

Specifically, second distribution sub module 433 is suitable for according to the described first virtual frequency point quantity and second virtually Frequency point ratio of number is the resource of first identification card and the distribution of the second identification card for measurement.

Further, when first identification card or the second identification card are in connected state, the distribution knot Fruit may include the method for salary distribution for measuring gap, and the measurement module 44 may include the first measurement submodule 441.It is specific and Speech, the first measurement submodule 441 are suitable for the method for salary distribution according to the measurement gap, to first identification card and The respective measurement frequency point of second identification card measures.

As a change case, when first identification card and the second identification card are in Idle state, institute The method of salary distribution that allocation result may include paging cycle is stated, the measurement module 44 may include the second measurement submodule 444.

Specifically, the second measurement submodule 444 is suitable for according to the method for salary distribution of the paging cycle, to described the Each measurement frequency point of one identification card and the second identification card is measured according to the sequence of priority from high in the end.

Further, the measurement module 44 can include determining that submodule 442 and adjusting submodule 443.

Specifically, before the determining submodule 442 is suitable for measuring according to the sequence of priority from high in the end, root The priority of each measurement frequency point of first identification card and the second identification card is determined according to the configuration information of network； The adjusting submodule 443 is suitable for the preferential of the measurement frequency point of first identification card and/or the second identification card Grade is adjusted, so that both measurement frequencies comprising first identification card in the top n measurement frequency point of highest priority Point includes the measurement frequency point of second identification card again, and N is preset positive integer.

Further, the measurement module 44 can also include closing submodule 445.

Specifically, when the closing submodule 445 is measured according to the sequence of priority from high in the end, if preferentially The signal quality of the serving cell of the higher measurement frequency point of grade is more than or equal to preset threshold, then the closing submodule is suitable for closing Priority is lower or the measurement of identical measurement frequency point.

Further, the measuring device 4 can also include reselection evaluation module 45.

Specifically, the reselection evaluation module 45 is suitable for when first identification card and the second identification card are equal When in Idle state, according to the measurement result, to the serving cell of first identification card and the second identification card Carry out cell reselection evaluation.

Further, the measuring device 4 can also include sending module 46.

Specifically, the sending module 46 is suitable at first identification card or second identification card When connected state, the measurement result is sent to the network.

Working principle, more contents of working method about the measuring device 4, can together referring to above-mentioned Fig. 1 extremely Associated description in Fig. 3, which is not described herein again.

Further, it should be noted that although the embodiment of the present invention by taking the double LTE UE of double card as an example, if occurring in the future Next-Generation Wireless Communication Systems, for example, the 5th third-generation mobile communication (The Fifth-Generation mobile Communications, abbreviation 5G) system, then it is double still to can be used for the double card in Next-Generation Wireless Communication Systems for the embodiment of the present invention To terminal.

Further, a kind of storage medium is also disclosed in the embodiment of the present invention, is stored thereon with computer instruction, the calculating The measurement method technical side of above-mentioned Fig. 1 to the double LTE terminals of double card described in embodiment illustrated in fig. 3 is executed when machine instruction operation Case.Preferably, the storage medium may include such as non-volatile (non-volatile) memory or non-transient (non- Transitory) the computer readable storage mediums such as memory.The computer readable storage medium may include ROM, RAM, Disk or CD etc..

Further, a kind of terminal, including memory and processor is also disclosed in the embodiment of the present invention, deposits on the memory The computer instruction that can be run on the processor is contained, the processor executes above-mentioned when running the computer instruction Fig. 1 to the double LTE terminals of double card described in embodiment illustrated in fig. 3 measurement method technical solution.Specifically, the terminal can Think the double LTE user equipmenies of double card.

Although present disclosure is as above, present invention is not limited to this.Anyone skilled in the art are not departing from this It in the spirit and scope of invention, can make various changes or modifications, therefore protection scope of the present invention should be with claim institute Subject to the range of restriction.

Claims (22)

1. a kind of measurement method of the double LTE terminals of double card, the double LTE terminals of the double card include the first identification card and the second body Part identification card characterized by comprising

The configuration information of network is received, the configuration information includes measurement frequency point；

Based on the configuration information, determine that the first virtual frequency point quantity of first identification card and second identity are known The virtual frequency point quantity of second not blocked；

It is first identification card and second based on the described first virtual frequency point quantity and the second virtual frequency point quantity Resource of the identification card distribution for measurement；

Each measurement frequency point is measured according to allocation result, to obtain measurement result.

2. the measurement method of the double LTE terminals of double card according to claim 1, which is characterized in that the determination described first The virtual frequency point quantity of the first of identification card and the second virtual frequency point quantity of second identification card include:

If the quantity of first identification card and/or the measurement frequency point of the second identification card configuration is default less than first Quantity then sets first preset quantity for the described first virtual frequency point quantity and/or the second virtual frequency point quantity.

3. the measurement method of the double LTE terminals of double card according to claim 1 or 2, which is characterized in that described based on described the One virtual frequency point quantity and the second virtual frequency point quantity are that first identification card and the second identification card distribute Resource for measurement includes:

Signal quality based on first identification card and the respective serving cell of the second identification card updates described the One virtual frequency point quantity and the second virtual frequency point quantity, with the first virtual frequency point quantity after being updated and second after updating Virtual frequency point quantity；

It is first identification based on the second virtual frequency point quantity after the after the update first virtual frequency point quantity and update The resource of card and the distribution of the second identification card for measurement.

4. the measurement method of the double LTE terminals of double card according to claim 1, which is characterized in that described to be based on described first Virtual frequency point quantity and the second virtual frequency point quantity are that first identification card and the distribution of the second identification card are used Include: in the resource of measurement

It is first identification card and second according to the described first virtual frequency point quantity and the second virtual frequency point ratio of number Resource of the identification card distribution for measurement.

5. the measurement method of the double LTE terminals of double card according to claim 1, which is characterized in that first identification Card or the second identification card are in connected state, and the allocation result includes measuring the method for salary distribution in gap, described according to distribution As a result each measurement frequency point is measured and includes:

According to the method for salary distribution in the measurement gap, to first identification card and the respective measurement of the second identification card Frequency point measures.

6. the measurement method of the double LTE terminals of double card according to claim 1, which is characterized in that first identification Card and the second identification card are in Idle state, and the allocation result includes the method for salary distribution of paging cycle, the basis point Each measurement frequency point is measured with result and includes:

Each measurement according to the method for salary distribution of the paging cycle, to first identification card and the second identification card Frequency point is measured according to the sequence of priority from high in the end.

7. the measurement method of the double LTE terminals of double card according to claim 6, which is characterized in that according to priority from height to Before the sequence at bottom measures, further includes:

Each measurement frequency point of first identification card and the second identification card is determined according to the configuration information of network Priority；

The priority of the measurement frequency point of first identification card and/or the second identification card is adjusted, so that Not only included the measurement frequency point of first identification card in the top n measurement frequency point of highest priority but also had included second body The measurement frequency point of part identification card, N are preset positive integer.

8. the measurement method of the double LTE terminals of double card according to claim 6, which is characterized in that described according to allocation result Each measurement frequency point is measured further include:

When being measured according to the sequence of priority from high in the end, if the letter of the serving cell of the higher measurement frequency point of priority Number quality is more than or equal to preset threshold, then closes that priority is lower or the measurement of identical measurement frequency point.

9. the measurement method of the double LTE terminals of double card according to claim 1, which is characterized in that further include: when described first When identification card and the second identification card are in Idle state, according to the measurement result, to first identification The serving cell of card and the second identification card carries out cell reselection evaluation.

10. the measurement method of the double LTE terminals of double card according to claim 1, which is characterized in that further include: when described the When one identification card or second identification card are in connected state, the measurement result is sent to the network.

11. a kind of measuring device of the double LTE terminals of double card, the double LTE terminals of the double card include the first identification card and second Identification card characterized by comprising

Receiving module, suitable for receiving the configuration information of network, the configuration information includes measurement frequency point；

Determining module, be suitable for be based on the configuration information, determine first identification card the first virtual frequency point quantity and The virtual frequency point quantity of the second of second identification card；

Distribution module is suitable for being based on the described first virtual frequency point quantity and the second virtual frequency point quantity, is first body The resource of part identification card and the distribution of the second identification card for measurement；

Measurement module, suitable for being measured according to allocation result to each measurement frequency point, to obtain measurement result.

12. the measuring device of the double LTE terminals of double card according to claim 11, which is characterized in that the determining module packet It includes:

Submodule is set, if the quantity of first identification card and/or the measurement frequency point of the second identification card configuration Less than the first preset quantity, then the setting submodule is suitable for the described first virtual frequency point quantity and/or described second virtually Frequency point quantity is set as first preset quantity.

13. the measuring device of the double LTE terminals of double card according to claim 11 or 12, which is characterized in that the distribution mould Block includes:

Submodule is updated, suitable for the signal based on first identification card and the respective serving cell of the second identification card Quality updates the first virtual frequency point quantity and the second virtual frequency point quantity, with the first virtual frequency point after being updated Second virtual frequency point quantity after quantity and update；

First distribution sub module is suitable for based on the second virtual frequency point number after the first virtual frequency point quantity after the update and update Amount is the resource of first identification card and the distribution of the second identification card for measurement.

14. the measuring device of the double LTE terminals of double card according to claim 11, which is characterized in that the distribution module packet It includes:

Second distribution sub module is suitable for according to the described first virtual frequency point quantity and the second virtual frequency point ratio of number, is described The resource of first identification card and the distribution of the second identification card for measurement.

15. the measuring device of the double LTE terminals of double card according to claim 11, which is characterized in that first identity is known Not Ka or the second identification card be in connected state, the allocation result includes measuring the method for salary distribution in gap, the measurement mould Block includes:

First measurement submodule, suitable for the method for salary distribution according to the measurement gap, to first identification card and second The respective measurement frequency point of identification card measures.

16. the measuring device of the double LTE terminals of double card according to claim 11, which is characterized in that first identity is known It Ka not be in Idle state with the second identification card, the allocation result includes the method for salary distribution of paging cycle, the measurement Module includes:

Second measurement submodule, suitable for the method for salary distribution according to the paging cycle, to first identification card and second Each measurement frequency point of identification card is measured according to the sequence of priority from high in the end.

17. the measuring device of the double LTE terminals of double card according to claim 16, which is characterized in that the measurement module is also Include:

Determine submodule, it is true according to the configuration information of network suitable for before being measured according to the sequence of priority from high in the end The priority of each measurement frequency point of fixed first identification card and the second identification card；

Adjusting submodule, suitable for the priority to first identification card and/or the measurement frequency point of the second identification card It is adjusted, so that both having included the measurement frequency point of first identification card in the top n measurement frequency point of highest priority It again include the measurement frequency point of second identification card, N is preset positive integer.

18. the measuring device of the double LTE terminals of double card according to claim 16, which is characterized in that the measurement module is also Include:

Submodule is closed, when being measured according to the sequence of priority from high in the end, if the higher measurement frequency point of priority The signal quality of serving cell is more than or equal to preset threshold, then the closing submodule is suitable for closing priority lower or identical The measurement of measurement frequency point.

19. the measuring device of the double LTE terminals of double card according to claim 11, which is characterized in that further include:

Reselection evaluation module, suitable for when first identification card and the second identification card are in Idle state, according to The measurement result carries out cell reselection evaluation to the serving cell of first identification card and the second identification card.

20. the measuring device of the double LTE terminals of double card according to claim 11, which is characterized in that further include:

Sending module is suitable for when first identification card or second identification card be in connected state, will described in Measurement result is sent to the network.

21. a kind of storage medium, is stored thereon with computer instruction, which is characterized in that the computer instruction executes when running The step of measurement method of the double LTE terminals of double card described in any one of claims 1 to 10.

22. a kind of terminal, including memory and processor, the meter that can be run on the processor is stored on the memory Calculation machine instruction, which is characterized in that perform claim requires any one of 1 to 10 institute when the processor runs the computer instruction The step of measurement method of the double LTE terminals of the double card stated.