CN106851762B - A kind of control method and device of WIFI handling capacity - Google Patents

Abstract

Embodiments of the present invention provide a method and device for controlling WIFI throughput, wherein the control method includes: monitoring whether there is a carrier with a frequency difference between the frequency point where the WIFI is located within a preset range during LTE carrier aggregation; when there is a carrier, And when the current WIFI throughput drops to a preset threshold, the carrier scheduling is switched to a frequency point whose difference from the frequency point where the WIFI is located is outside the preset range. The embodiment of the present invention solves the problem that after LTE carrier aggregation, LTE carrier aggregation greatly interferes with WIFI throughput, thereby affecting the normal use of WIFI.

Description

A kind of control method and device of WIFI handling capacity

Technical field

The present invention relates to field of communication technology more particularly to a kind of control method and device of WIFI handling capacity.

Background technique

At present when WIFI and LTE single carrier coexist, influence of the LTE single carrier to WIFI handling capacity is also smaller, but with The polymerization of LTE up-link carrier it is subsequent universal, the polymerization of LTE up-link carrier increases upstream rate, bandwidth and peak-to-average force ratio, in this way Influence after the polymerization of LTE up-link carrier to WIFI handling capacity will will increase.For example, experimental data shows in LTE single carrier, LTE and WIFI are in adjacent frequency, the big appointment decline 50% of WIFI handling capacity, but after LTE carrier aggregation, if a certain carrier frequency point is adjacent Frequency point where nearly WIFI, the then big appointment decline 90% of WIFI handling capacity.

In conclusion after LTE carrier aggregation, there is interference of the LTE carrier aggregation to WIFI handling capacity is larger, thus The problem of influencing WIFI normal use.

Summary of the invention

The object of the present invention is to provide a kind of control method and device of WIFI handling capacity, to solve in LTE carrier aggregation Afterwards, LTE carrier aggregation is larger to the interference of WIFI handling capacity, thus the problem of influencing WIFI normal use.

In a first aspect, the embodiment of the present invention provides a kind of control method of WIFI handling capacity, comprising:

It is located at the carrier wave of preset range when monitoring LTE carrier aggregation with the presence or absence of frequency point difference where frequency point and WIFI；

When there are the carrier waves, and when current WIFI throughput degradation a to preset threshold, the carrier wave is dispatched and is switched It is located on the frequency point except preset range to frequency point difference where WIFI.

Second aspect, the embodiment of the present invention provide a kind of control device of WIFI handling capacity, comprising:

Monitoring modular is located at the presence or absence of frequency point difference where frequency point and WIFI when for monitoring LTE carrier aggregation and presets The carrier wave of range；

Switching module is dispatched, it, will for when there are the carrier waves, and when current WIFI throughput degradation a to preset threshold The carrier wave scheduling is switched to be located on the frequency point except preset range with frequency point difference where WIFI.

In this way, the embodiment of the present invention is by monitoring that there are frequency point differences where frequency point and WIFI to be located in preset range Carrier wave, and when current WIFI throughput degradation a to preset threshold, by carrier wave scheduling switch to and WIFI where frequency point difference On the frequency point except preset range, so that the carrier wave of frequency point is far from frequency point where WIFI where neighbouring WIFI, to reduce Influence of the frequency point on WIFI adjacent frequency to WIFI handling capacity after LTE carrier aggregation, solves after LTE carrier aggregation, LTE carrier aggregation is larger to the interference of WIFI handling capacity, so that effectively preventing user makes the problem of influencing WIFI normal use The problem of WIFI rate declines when using LTE-A as WIFI hot spot, while ensure that in the voice industry based on IP multimedia subsystem, IMS It, being capable of normal use WIFI downloading or upload data when business is conversed.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be in embodiment or description of the prior art Required attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is only some realities of the invention Example is applied, it for those of ordinary skill in the art, without any creative labor, can also be attached according to these Figure obtains other attached drawings.

Fig. 1 shows the flow charts of the control method of WIFI handling capacity in the first embodiment of the present invention；

Fig. 2 indicates to dispatch when the carrier wave for being located at preset range there are frequency point difference where frequency point and WIFI is secondary carrier Switch the schematic diagram of secondary carrier；

Fig. 3 indicates to dispatch when the carrier wave for being located at preset range there are frequency point difference where frequency point and WIFI is main carrier Switch the schematic diagram of main carrier；

It includes main carrier and auxiliary load that Fig. 4, which indicates that the frequency point difference where there are frequency point and WIFI is located at the carrier wave of preset range, When wave, the schematic diagram of scheduling switching main carrier and secondary carrier；

Fig. 5 indicates one of the structural block diagram of control device of WIFI handling capacity in the second embodiment of the present invention；

Fig. 6 indicates one of the structural block diagram of control device of WIFI handling capacity in the second embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Based on this hair Embodiment in bright, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example, shall fall within the protection scope of the present invention.

First embodiment:

As shown in Figure 1, for the flow chart of the control method of WIFI handling capacity in the first embodiment of the present invention, the controlling party Method includes:

Step 101, it is located at preset range with the presence or absence of frequency point difference where frequency point and WIFI when monitoring LTE carrier aggregation Carrier wave.

In this step, it specifically, when LTE carrier aggregation, can be monitored in real time with the presence or absence of where frequency point and WIFI The difference of frequency point is located at the carrier wave in preset range.I.e. monitoring LTE carrier aggregation when where WIFI in the preset range of frequency point With the presence or absence of carrier wave.Certainly, specifically, the LTE carrier aggregation includes polymerizeing with the polymerization of interior continuous carrier, with interior discontinuous carrier And interband carrier aggregation.

Step 102, when there are carrier waves, and when current WIFI throughput degradation a to preset threshold, carrier wave is dispatched and is switched It is located on the frequency point except preset range to frequency point difference where WIFI.

In this step, specifically, the difference of frequency point is located at the carrier wave in preset range where there are frequency point and WIFI, And when monitoring current WIFI throughput degradation a to preset threshold, which can be dispatched and be switched to and frequency point where WIFI Difference is located on the frequency point except preset range.I.e. there are carrier waves in a preset range of frequency point where WIFI, and monitor When current WIFI throughput degradation a to preset threshold, carrier wave scheduling is switched into the frequency point except WIFI preset range On.In this way, the carrier wave of frequency point where switching neighbouring WIFI by scheduling, when reducing LTE carrier aggregation, frequency point is adjacent in WIFI To the influence of WIFI handling capacity when on frequency point.

The present embodiment is in the carrier wave for monitoring to be located at there are frequency point difference where frequency point and WIFI in preset range, and currently When WIFI throughput degradation a to preset threshold, frequency point difference where carrier wave scheduling is switched to WIFI be located at preset range it On outer frequency point, so that the carrier wave of frequency point is far from frequency point where WIFI where neighbouring WIFI, thus after reducing LTE carrier aggregation Influence of the frequency point on WIFI adjacent frequency to WIFI handling capacity, solves after LTE carrier aggregation, LTE carrier aggregation pair The interference of WIFI handling capacity is larger, thus the problem of influencing WIFI normal use, effectively prevent user use LTE-A as The problem of WIFI rate declines when WIFI hot spot, while ensure that and converse in the voice service based on IP multimedia subsystem, IMS When, it being capable of normal use WIFI downloading or upload data.

Further, since the carrier wave after carrier wave polymerization includes secondary carrier and main carrier, when there are frequency points and WIFI Frequency point difference is located at the carrier wave of preset range, and when current WIFI throughput degradation a to preset threshold, can be according to carrier wave Carrier wave scheduling is switched to and is located on the frequency point except preset range with frequency point difference where WIFI by classification.Specifically, by carrier wave May include following situation when scheduling switches to frequency point difference where with WIFI and is located on the frequency point except preset range:

Situation one:

When existing carrier wave is secondary carrier, carrier wave scheduling is switched to and is located at preset range with frequency point difference where WIFI Except frequency point on when, secondary carrier can be deleted, and the frequency point difference where with WIFI is located on the frequency point except preset range Establish secondary carrier.It is specifically illustrated below with reference to Fig. 2.

Since frequency point is corresponding with frequency range, frequency point and the place WIFI frequency point difference can be scaled frequency range and WIFI institute In frequency range difference.It is illustrated herein with frequency range corresponding with frequency point.Assuming that frequency point and the place WIFI where carrier wave When the difference of frequency point is located within the scope of 2MHZ~20MHZ, which is that the frequency point monitored is located at frequency point difference where WIFI The carrier wave of preset range.In Fig. 2, frequency range (i.e. WIFI working frequency) where WIFI is 2402MHZ to 2482MHZ, former auxiliary load One end of frequency range where wave is 2400MHZ, from figure 2 it can be seen that frequency where one end of frequency range where former secondary carrier and WIFI The difference of one end of section is only 2MHZ, i.e., former secondary carrier is that the difference of frequency point where the frequency point and WIFI monitored is located at default model The carrier wave enclosed.At this point, if can first delete former secondary carrier, so when monitoring current WIFI throughput degradation a to preset threshold It is re-established on the frequency point of frequency point (being located at except preset range with the difference of frequency point where WIFI) where far from WIFI afterwards Secondary carrier.Secondary carrier after the switching in secondary carrier such as Fig. 2 re-established, after the switching frequency range where secondary carrier be one with The frequency range put centered on 2300MHZ, frequency point difference where with WIFI are located at outside preset range, i.e., far from the place WIFI frequency range, from And reduce the influence after carrier wave polymerize to WIFI handling capacity.

Situation two:

When existing carrier wave is main carrier, carrier wave scheduling is switched to and is located at preset range with frequency point difference where WIFI Except frequency point on when, can first delete all secondary carriers in LTE carrier aggregation；Then delete main carrier, and with WIFI Place frequency point difference, which is located on the frequency point except preset range, establishes main carrier；Then the frequency point difference where with WIFI is located at pre- If establishing all secondary carriers on the frequency point except range.It is specifically illustrated below with reference to Fig. 3.

Since frequency point is corresponding with frequency range, frequency point and the place WIFI frequency point difference can be scaled frequency range and WIFI institute In frequency range difference.It is illustrated herein with frequency range corresponding with frequency point.Assuming that frequency point and the place WIFI where carrier wave When the difference of frequency point is located within the scope of 2MHZ~20MHZ, which is that the frequency point monitored is located at frequency point difference where WIFI The carrier wave of preset range.In Fig. 3, frequency range (i.e. WIFI working frequency) where WIFI is 2402MHZ to 2482MHZ, former main load One end of frequency range where wave is 2400MHZ, from figure 3, it can be seen that frequency where one end of frequency range where former main carrier and WIFI The difference of one end of section is only 2MHZ, i.e., former main carrier is that the difference of frequency point where the frequency point and WIFI monitored is located at default model The carrier wave enclosed.It, can first will be in LTE carrier aggregation at this point, if when monitoring current WIFI throughput degradation a to preset threshold All secondary carriers deleted, then delete former main carrier again, finally far from frequency point where WIFI (i.e. with WIFI where frequency The difference of point is located at except preset range) frequency point on re-establish main carrier, and frequency point where separate WIFI (i.e. and WIFI The difference of place frequency point is located at except preset range) frequency point on re-establish all secondary carriers originally deleted.It re-establishes Main carrier such as Fig. 3 in switching after main carrier, frequency range where main carrier is a frequency put centered on 2300MHZ after the switching Section is located at outside preset range with frequency point difference where WIFI, i.e., far from frequency range where WIFI.Certainly, being located at for monitoring is default The quantity of secondary carrier in range can be one or more, and being located at for needing to monitor herein is all auxiliary in preset range Carrier wave is dispatched to switch to be located on the frequency point except preset range with frequency point difference where WIFI, to reduce carrier wave polymerization Afterwards to the influence of WIFI handling capacity.

Situation three:

When existing carrier wave includes main carrier and secondary carrier, carrier wave scheduling is switched to and frequency point difference position where WIFI When on the frequency point except preset range, all secondary carriers in LTE carrier aggregation can be first deleted；Then main carrier is deleted, And the frequency point difference where with WIFI is located on the frequency point except preset range and establishes main carrier；Then the frequency point where with WIFI Difference, which is located on the frequency point except preset range, establishes all secondary carriers.It is specifically illustrated below with reference to Fig. 4.

Since frequency point is corresponding with frequency range, frequency point and the place WIFI frequency point difference can be scaled frequency range and WIFI institute In frequency range difference.It is illustrated herein with frequency range corresponding with frequency point.Assuming that frequency point and the place WIFI where carrier wave When the difference of frequency point is located within the scope of 2MHZ~20MHZ, which is that the frequency point monitored is located at frequency point difference where WIFI The carrier wave of preset range.In Fig. 4, frequency range (i.e. WIFI working frequency) where WIFI is 2402MHZ to 2482MHZ, former main load One end of frequency range where wave is 2500MHZ, and one end of frequency range is 2400MHZ where former secondary carrier, figure 4, it is seen that former The difference of one end of frequency range where main carrier and one end of the place WIFI frequency range is 18MHZ, i.e., former main carrier is the frequency monitored The difference of point and frequency point where WIFI is located at the carrier wave of preset range；In addition, one end of frequency range and WIFI institute where former secondary carrier Difference in one end of frequency range is 2MHZ, i.e., former secondary carrier is the difference of frequency point where the frequency point and WIFI monitored positioned at default The carrier wave of range.At this point, if when monitoring current WIFI throughput degradation a to preset threshold, since the scheduling of main carrier switches Will drive carrier wave polymerization in all secondary carriers scheduling switching, therefore can first by all secondary carriers in LTE carrier aggregation into Row is deleted, and then deletes former main carrier again, and finally frequency point (is located at the difference of frequency point where WIFI pre- where far from WIFI If except range) frequency point on re-establish main carrier, and where far from WIFI frequency point (i.e. with the difference of frequency point where WIFI Except preset range) frequency point on re-establish all secondary carriers originally deleted.In the main carrier such as Fig. 4 re-established Switching after main carrier, frequency range where main carrier is a frequency range put centered on 2600MHZ after the switching, with frequency where WIFI Point difference is located at outside preset range, i.e., far from frequency range where WIFI.Auxiliary load after the switching in secondary carrier such as Fig. 4 re-established Wave, frequency range where secondary carrier is a frequency range put centered on 2300MHZ after the switching, is located at frequency point difference where WIFI pre- If outside range, i.e., far from frequency range where WIFI.In this way, by the preset range of WIFI main carrier and secondary carrier be scheduled It switches to except the preset range of WIFI, reduces the influence after carrier wave polymerize to WIFI handling capacity.

In this way, the present embodiment is in WIFI throughput degradation a to preset threshold, by that will be located in WIFI preset range Main carrier or secondary carrier scheduling switch on the frequency point outside WIFI preset range so that the load of frequency point where neighbouring WIFI Wave is far from frequency point where WIFI, to reduce the frequency point after LTE carrier aggregation on WIFI adjacent frequency to WIFI handling capacity It influences, solves after LTE carrier aggregation, LTE carrier aggregation is larger to the interference of WIFI handling capacity, so that influencing WIFI normally makes With the problem of, effectively prevent user when using LTE-A as WIFI hot spot WIFI rate decline the problem of, ensure that simultaneously It, being capable of normal use WIFI downloading or upload data when the voice service based on IP multimedia subsystem, IMS is conversed.

Second embodiment:

As shown in figure 5, for one of the structural block diagram of control device of WIFI handling capacity in the second embodiment of the present invention.It should Control device includes:

Monitoring modular 501 is located in advance when for monitoring LTE carrier aggregation with the presence or absence of frequency point difference where frequency point and WIFI If the carrier wave of range；

Switching module 502 is dispatched, for when there are the carrier waves, and current WIFI throughput degradation is to a preset threshold When, carrier wave scheduling is switched to and is located on the frequency point except preset range with frequency point difference where WIFI.

In this way, with the presence or absence of frequency point where frequency point and WIFI when the present embodiment passes through monitoring module monitors LTE carrier aggregation Difference is located at the carrier wave of preset range, and when there are carrier waves, and when current WIFI throughput degradation a to preset threshold, passes through Scheduling switching module switches to carrier wave scheduling to be located on the frequency point except preset range with frequency point difference where WIFI, so that adjacent The carrier wave of frequency point is far from frequency point where WIFI where nearly WIFI, to reduce the frequency point after LTE carrier aggregation in WIFI adjacent frequency To the influence of WIFI handling capacity on point, solving after LTE carrier aggregation, LTE carrier aggregation is larger to the interference of WIFI handling capacity, The problem of to influence WIFI normal use, effectively prevents user when using LTE-A as WIFI hot spot under WIFI rate It the problem of drop, while ensure that when the voice service based on IP multimedia subsystem, IMS is conversed, can be under normal use WIFI Carry or upload data.

As shown in fig. 6, for two of the structural block diagram of the control device of WIFI handling capacity in the second embodiment of the present invention.

Optionally, the scheduling switching module 502 includes the first scheduling switch unit 5021, for working as the existing load When wave is secondary carrier, the secondary carrier is deleted, and the frequency point difference where with WIFI is located on the frequency point except preset range and builds Found the secondary carrier.

Optionally, the scheduling switching module includes the second scheduling switch unit 5022, for working as the existing carrier wave When for main carrier, all secondary carriers in the LTE carrier aggregation are deleted；Delete the main carrier, and the frequency where with WIFI Point difference, which is located on the frequency point except preset range, establishes the main carrier；The frequency point difference where with WIFI is located at preset range Except frequency point on establish all secondary carriers.

Optionally, the scheduling switching module includes third scheduling switch unit 5023, for working as the existing carrier wave Including main carrier and when secondary carrier, all secondary carriers in the LTE carrier aggregation are deleted；Delete the main carrier, and with Frequency point difference where WIFI, which is located on the frequency point except preset range, establishes the main carrier；The frequency point difference position where with WIFI All secondary carriers are established on frequency point except preset range.

Optionally, the LTE carrier aggregation includes carrying with the polymerization of interior continuous carrier, with the polymerization of interior discontinuous carrier and interband Wave polymerization.

The present embodiment passes through the main load that will be located in WIFI preset range in WIFI throughput degradation a to preset threshold Wave or secondary carrier scheduling switch on the frequency point outside WIFI preset range, so that the carrier wave of frequency point is separate where neighbouring WIFI Frequency point where WIFI solves to reduce influence of the frequency point after LTE carrier aggregation on WIFI adjacent frequency to WIFI handling capacity It has determined after LTE carrier aggregation, LTE carrier aggregation is larger to the interference of WIFI handling capacity, to influence asking for WIFI normal use Topic effectively prevents user when using LTE-A as WIFI hot spot the problem of the decline of WIFI rate, while ensure that and be based on It, being capable of normal use WIFI downloading or upload data when the voice service of IP multimedia subsystem, IMS is conversed.

Above-described is the preferred embodiment of the present invention, it should be pointed out that the ordinary person of the art is come It says, several improvements and modifications can also be carried out under the premise of not departing from principle of the present invention, these improvements and modifications also exist In protection scope of the present invention.

Claims (8)

1. A method for controlling WIFI throughput, comprising: When monitoring LTE carrier aggregation, whether there is a carrier whose frequency point and the frequency point where the WIFI is located is within the preset range; When the carrier exists and the current WIFI throughput drops to a preset threshold, the carrier is scheduled to be switched to a frequency with a difference from the frequency where the WIFI is located outside the preset range; When the existing carrier is the main carrier, the step of switching the carrier scheduling to a frequency with a difference from the frequency where the WIFI is located outside the preset range includes: delete all secondary carriers in the LTE carrier aggregation; Deleting the primary carrier, and establishing the primary carrier on a frequency point whose difference from the frequency point where the WIFI is located is outside the preset range; All the secondary carriers are established on a frequency point whose difference value from the frequency point where the WIFI is located is outside the preset range. 2 . The method for controlling WIFI throughput according to claim 1 , wherein when the existing carrier is a secondary carrier, the carrier scheduling is switched to a frequency difference between the frequency point where the WIFI is located. 3 . Steps on frequencies outside the preset range, including: The secondary carrier is deleted, and the secondary carrier is established on a frequency point whose difference from the frequency point where the WIFI is located is outside the preset range. 3 . The method for controlling WIFI throughput according to claim 1 , wherein when the existing carrier is the main carrier, the carrier scheduling is switched to a preset frequency difference from the frequency point where the WIFI is located. 4 . Steps on frequencies outside the range, including: delete all secondary carriers in the LTE carrier aggregation; Deleting the primary carrier, and establishing the primary carrier on a frequency point whose difference from the frequency point where the WIFI is located is outside the preset range; All the secondary carriers are established on a frequency point whose difference value from the frequency point where the WIFI is located is outside the preset range. 4. The method for controlling WIFI throughput according to any one of claims 1 to 3, wherein the LTE carrier aggregation comprises in-band contiguous carrier aggregation, intra-band non-contiguous carrier aggregation and inter-band carrier aggregation. 5. A device for controlling WIFI throughput, comprising: The monitoring module is used to monitor whether there is a carrier whose frequency point and the frequency point where the WIFI is located in a preset range during LTE carrier aggregation; A scheduling switching module is used for scheduling switching of the carrier to a frequency point whose difference from the frequency point where the WIFI is located is outside the preset range when the carrier exists and the current WIFI throughput drops to a preset threshold ; The scheduling switching module includes a third scheduling switching unit, configured to delete all the secondary carriers in the LTE carrier aggregation when the existing carrier includes a primary carrier and a secondary carrier; delete the primary carrier, and connect it with the WIFI The primary carrier is established on the frequency point whose frequency point difference value is outside the preset range; all the secondary carriers are established on the frequency point whose frequency point difference value is outside the preset range with the WIFI. 6 . The device for controlling WIFI throughput according to claim 5 , wherein the scheduling switching module comprises a first scheduling switching unit, configured to delete the secondary carrier when the existing carrier is a secondary carrier. 7 . , and the secondary carrier is established on the frequency point whose difference from the frequency point where the WIFI is located is outside the preset range. 7 . The device for controlling WIFI throughput according to claim 5 , wherein the scheduling switching module comprises a second scheduling switching unit, configured to delete the LTE carrier when the existing carrier is the primary carrier. 8 . All secondary carriers in the aggregation; delete the primary carrier, and establish the primary carrier on the frequency point whose difference value from the frequency point where the WIFI is located is outside the preset range; All the secondary carriers are established on frequency points outside the preset range. 8 . The apparatus for controlling WIFI throughput according to claim 5 , wherein the LTE carrier aggregation includes intra-band contiguous carrier aggregation, intra-band non-contiguous carrier aggregation, and inter-band carrier aggregation. 9 .