WO2016101419A1

WO2016101419A1 - Secondary component carrier activation and deactivation method, device, communication system and storage medium

Info

Publication number: WO2016101419A1
Application number: PCT/CN2015/074472
Authority: WO
Inventors: 任怀强
Original assignee: 中兴通讯股份有限公司
Priority date: 2014-12-22
Filing date: 2015-03-18
Publication date: 2016-06-30
Also published as: CN105790906B; CN105790906A

Abstract

Disclosed in an embodiment of the present invention are a secondary component carrier (SCC) activation and deactivation method, device, communication system and storage medium. The SCC activation method comprises: a user terminal obtaining a current movement speed thereof, and obtaining a current reported data volume thereof; according to the movement speed, activating and performing active compensation processing with respect to the data volume to obtain a compensated first data volume; transmitting the compensated first data volume to a base station, to provide the base station to determine the SCC activation.

Description

Secondary carrier activation and deactivation method, device, communication system and storage medium

Technical field

The present invention relates to the field of communications, and in particular, to a method, a device, a communication system, and a storage medium for activating and deactivating a secondary carrier in a carrier aggregation technology.

Background technique

The carrier aggregation technology is introduced in the LTE-Advanced (Long Term Evolution-Advanced), and the demand for the band resources of the LTE-Advance system is solved by the aggregation of two or more basic carriers. In carrier aggregation, each user equipment (UE, User Equipment) may be allocated as multiple component carriers (CCs) for larger data volume transmission. After the secondary component carrier (SCC) (hereinafter referred to as the secondary carrier) is activated, the UE sends a sounding reference signal (SRS, Sounding Reference Symbol) on the secondary cell (Scell, Secondary Cell) according to the configuration, and reports the channel. The UE also monitors the Physical Downlink Control Channel (PDCCH) on the SCell. The UE also monitors the physical downlink control channel (PDCCH, Physical Downlink Control Channel) on the SCell. The amount of data in the UE is not large. When the SCC does not need to be used, the UE still performs blind detection continuously, which consumes the power of the UE and reduces efficiency. In this case, the SCC needs to be deactivated. At present, when activation and deactivation are performed, the activation and deactivation judgments are simply based on the amount of data per millisecond, and the amount of data of the UE may fluctuate due to deterioration of the signal quality during the movement, so it is easy in a short time. Multiple activation and deactivation processes occur. Since the scheduling of the secondary carrier needs to wait until the packet corresponding to the media access control control element (MAC CE, Media Access Control Control Element) is returned, the acknowledgment (ACK) is returned. Activation and deactivation processing may affect the stability of the secondary carrier.

Summary of the invention

The embodiments of the present invention provide a method, a device, a communication system, and a storage medium for activating and deactivating a secondary carrier, so as to solve the problem that the secondary carrier activation and deactivation processing are required during the movement of the user terminal, which causes the secondary carrier to be unstable.

To solve the above technical problem, the technical solution of the embodiment of the present invention is implemented as follows:

An embodiment of the present invention provides a secondary carrier activation method, where the method includes:

The user terminal acquires its current moving speed and obtains the amount of data currently reported by itself;

Performing an activation compensation process on the data amount according to the moving speed to obtain a compensated first data amount;

And transmitting the compensated first data amount to the base station for the base station to perform secondary carrier activation determination.

In an embodiment of the present invention, the first data amount obtained by performing the activation compensation process on the data amount according to the moving speed, includes:

Substituting the current moving speed of the user terminal and the currently reported data amount into a preset activation compensation function to obtain a compensated first data amount;

The determining process of the activation compensation function includes:

The user terminal preliminarily acquires at least one actual speed value when the activation frequency is greater than the set activation frequency threshold and the actual data amount corresponding to each actual speed value; adjusting the value of the first data amount corresponding to each actual data amount until the When the activation frequency of the user terminal is less than or equal to the set activation frequency threshold, the value of the first data amount is recorded, and the activation compensation function is determined according to the recorded actual speed value, the actual data amount, and the first data amount.

In order to solve the above problem, the embodiment of the present invention further provides a secondary carrier activation method, where the method includes:

Receiving, by the base station, the compensated first data amount sent by the user terminal, where the compensated first data amount is performed by the user terminal according to the current moving speed of the user terminal. The amount of data obtained after the compensation process is activated;

When the compensated first data amount is greater than or equal to the activation data amount threshold, the secondary carrier corresponding to the user terminal is activated.

The user terminal performs activation compensation processing on the data amount according to the moving speed to obtain a compensated first data amount;

The user terminal sends the compensated first data amount to the base station;

The base station receives the compensated first data amount sent by the user terminal, and performs activation processing on the secondary carrier corresponding to the user terminal when the compensated first data amount is greater than or equal to the activation data amount threshold.

In order to solve the above problem, the embodiment of the present invention further provides a secondary carrier deactivation method, including:

The user terminal performs a deactivation compensation process on the data amount according to the moving speed to obtain a compensated second data amount;

The user terminal sends the compensated second data amount to the base station for the base station to perform secondary carrier deactivation determination.

In an embodiment of the present invention, the second data amount obtained by performing the deactivation compensation processing on the data amount according to the moving speed, includes:

Substituting the current moving speed of the user terminal and the currently reported data amount into a preset deactivation compensation function to obtain a second amount of data after compensation;

The determining process of the deactivation compensation function includes:

The user terminal actually collects at least one set of deactivation frequencies greater than the set deactivation frequency gate in advance. The actual speed value corresponding to the time limit and the actual data amount corresponding to each actual speed value; adjusting the value of the second data amount corresponding to each actual data amount until the deactivation frequency of the user terminal is less than or equal to the set deactivation frequency threshold, recording The value of the second data amount is determined to activate the compensation function based on the recorded actual speed value, the actual data amount, and the second data amount.

In order to solve the above problem, an embodiment of the present invention further provides a secondary carrier deactivation method, where the method includes:

Receiving, by the base station, the compensated second data quantity sent by the user terminal, where the compensated second data quantity is the data quantity obtained by the user terminal performing deactivation compensation processing on the data quantity currently reported by the user terminal according to the current moving speed of the user ;

When the compensated second data amount is less than or equal to the deactivation data amount threshold, the secondary carrier corresponding to the user terminal is deactivated.

The user terminal sends the compensated second data amount to the base station;

The base station receives the compensated second data amount sent by the user terminal, and deactivates the secondary carrier corresponding to the user terminal when the compensated second data amount is less than or equal to the deactivation data amount threshold.

In order to solve the above problem, the embodiment of the present invention further provides a user terminal, including: a first speed monitoring module, a first data amount monitoring module, a first processing module, and a first sending module;

The first speed monitoring module is configured to acquire a current moving speed of the user terminal;

The first data volume monitoring module is configured to acquire data currently reported by the user terminal the amount;

The first processing module is configured to perform an activation compensation process on the data amount obtained by the first data amount monitoring module according to the moving speed acquired by the first speed monitoring module to obtain a compensated first data amount. ;

The first sending module is configured to send the compensated first data amount processed by the first processing module to a base station, where the base station performs a secondary carrier activation determination.

In an embodiment of the present invention, the first processing module performs an activation compensation process on the data amount according to the moving speed, including:

The determining process of the activation compensation function includes:

In order to solve the above problem, the embodiment of the present invention further provides a base station, including: a first receiving module and a first control module;

The first receiving module is configured to receive the compensated first data amount sent by the user terminal, where the compensated first data amount is that the user terminal activates the data amount that is currently reported by the user terminal according to the current moving speed of the user. The amount of data obtained after the compensation process;

The first control module is configured to perform activation processing on the secondary carrier corresponding to the user terminal when the compensated first data amount is greater than or equal to the activation data amount threshold.

In order to solve the above problem, an embodiment of the present invention further provides a communication system, including: a user terminal and a base station;

The user terminal is configured to acquire its current moving speed, obtain the amount of data currently reported by itself, perform activation compensation processing on the data amount according to the moving speed, and obtain a compensated first data amount, and Transmitting the first amount of data to the base station;

The base station is configured to perform activation processing on the secondary carrier corresponding to the user terminal when the compensated first data amount is greater than or equal to the activation data amount threshold.

In order to solve the above problem, the embodiment of the present invention further provides a user terminal, including: a second speed monitoring module, a second data amount monitoring module, a second processing module, and a second sending module;

The second speed monitoring module is configured to acquire a current moving speed of the user terminal;

The second data volume monitoring module is configured to acquire the amount of data currently reported by the user terminal;

The second processing module is configured to perform deactivation compensation processing on the data amount acquired by the second data amount monitoring module according to the moving speed acquired by the second speed monitoring module to obtain the compensated second data. the amount;

The second sending module is configured to send the compensated second data amount obtained by the second processing module to the base station, where the base station performs secondary carrier deactivation determination.

In an embodiment of the present invention, the second processing module performs a deactivation compensation process on the data amount according to the moving speed, including:

The determining process of the deactivation compensation function includes:

The user terminal preliminarily collects at least one actual speed value when the deactivation frequency is greater than the set deactivation frequency threshold and the actual data amount corresponding to each actual speed value; and adjusts the value of the second data amount corresponding to each actual data amount until The deactivation frequency of the user terminal is less than or equal to the set deactivation frequency threshold, and the value of the second data amount is recorded, according to the actual speed value recorded, The amount of data and the amount of second data are determined to activate the compensation function.

In order to solve the above problem, the embodiment of the present invention further provides a base station, including: a second receiving module and a second control module;

The second receiving module is configured to receive the compensated second data amount sent by the user terminal, where the compensated second data amount is that the user terminal performs the data amount that is currently reported by the user terminal according to the current moving speed of the user terminal. The amount of data obtained after the compensation process is activated;

The second control module is configured to perform deactivation processing on the secondary carrier corresponding to the user terminal when the compensated second data amount is less than or equal to the deactivation data amount threshold.

The user terminal is configured to acquire its current moving speed, obtain the amount of data currently reported by itself, and perform a deactivation compensation process on the data amount according to the moving speed to obtain a compensated second data amount, and Transmitting the second amount of data to the base station;

The base station is configured to perform deactivation processing on the secondary carrier corresponding to the user terminal when the compensated second data amount is less than or equal to the deactivation data volume threshold.

The embodiment of the present invention further provides a storage medium, where the computer-executable instructions are used to execute the secondary carrier activation method applied in the user terminal according to the embodiment of the present invention. .

The embodiment of the present invention further provides a storage medium, where the computer executable instructions are used to execute the secondary carrier activation method applied in the base station according to the embodiment of the present invention.

The embodiment of the present invention further provides a storage medium, where the computer-executable instructions are used to execute the secondary carrier deactivation applied in the user terminal according to the embodiment of the present invention. method.

The embodiment of the invention further provides a storage medium, wherein the storage medium stores a computer The executable instructions are used to perform the secondary carrier deactivation method applied in the base station according to the embodiment of the present invention.

The beneficial effects of the embodiments of the present invention are:

The secondary carrier activation and deactivation method, device, communication system and storage medium provided by the embodiments of the present invention, in the activation control process of the secondary carrier, the user terminal performs activation compensation processing on the currently reported data amount based on the current moving speed of the user. Then, the base station sends the base station to the base station, and the base station performs an activation determination process based on the received first data amount after the activation compensation process and the activation data amount threshold. In the process of deactivating the secondary carrier, the user terminal may also be based on its current current The moving speed is deactivated and compensated for the currently reported data amount, and then sent to the base station, and the base station performs deactivation determining processing based on the received second data amount after the activation compensation processing and the deactivated data amount threshold; The solution of the embodiment of the present invention can prevent the user terminal from performing frequent activation and deactivation processing in a short period of time during the mobile process, thereby improving the stability of the secondary carrier, thereby improving the satisfaction of the user experience.

DRAWINGS

1 is a schematic flowchart of a secondary carrier activation control process according to Embodiment 1 of the present invention;

2 is a schematic flowchart of a secondary carrier deactivation control process according to Embodiment 1 of the present invention;

3 is a schematic diagram of a communication system according to Embodiment 2 of the present invention;

4 is a schematic structural diagram of a user terminal according to Embodiment 2 of the present invention;

FIG. 5 is a schematic structural diagram of a base station according to Embodiment 2 of the present invention;

6 is a schematic diagram of a communication system according to Embodiment 3 of the present invention;

FIG. 7 is a schematic structural diagram of a user terminal according to Embodiment 3 of the present invention;

FIG. 8 is a schematic structural diagram of a base station according to Embodiment 3 of the present invention;

FIG. 9 is a schematic flowchart of an activation and deactivation control process according to Embodiment 4 of the present invention.

detailed description

The present invention will be further described in detail below with reference to the accompanying drawings.

Embodiment 1:

The control of the carrier aggregation secondary carrier in this embodiment includes the activation control and/or the deactivation control, and the following processes for activating the activation and deactivation control respectively are described.

For the activation control of the secondary carrier, the secondary carrier allocated to the user terminal is in an inactive state at this time. 1 is a schematic diagram of a secondary carrier activation control process according to Embodiment 1 of the present invention; the activation control process is shown in FIG. 1 and includes:

Step 101: The user terminal acquires its current moving speed and obtains the amount of data currently reported by itself.

In this step, the manner in which the user terminal monitors the speed of the mobile terminal can be obtained by any means, for example, by means of GPS positioning. In this embodiment, the user terminal can specifically monitor the radio link control protocol (RLC, Radio Link). Control) The amount of data reported is determined by the amount of data currently reported by itself;

Step 102: The user terminal performs activation compensation processing on the data amount currently reported by the user terminal according to the current moving speed of the user to obtain the compensated first data amount.

Step 103: The user terminal sends the first data amount after the activation compensation is performed to the base station.

Step 104: After receiving the compensated first data amount sent by the user terminal, the base station determines whether it is greater than or equal to a preset activation data volume threshold. If yes, go to step 105; otherwise, go to step 106.

The preset activation data threshold in this step can directly adopt the activation data threshold set in the existing protocol; it can also be flexibly adjusted and set according to the specific application scenario.

Step 105: The base station performs activation processing on the secondary carrier corresponding to the user terminal.

Step 106: End.

As one of the embodiments, when the secondary carrier activation method is applied to a user terminal, Steps 101 to 103 are included in the foregoing embodiment. In another embodiment, when the secondary carrier activation method is applied to the base station, the method includes the steps 104 to 106 in the foregoing embodiment.

In the above step 102, the first data amount obtained by the user terminal after the activation compensation process is performed on the data amount that is currently reported by the user terminal according to the current moving speed of the user terminal, including:

Substituting the current moving speed of the user terminal and the currently reported data amount into the preset activation compensation function to obtain the compensated first data amount; the determining process of the activation compensation function includes:

The user terminal preliminarily collects at least one actual speed value when the activation frequency is greater than the set activation frequency threshold and the actual data amount corresponding to each actual speed value; and adjusts the value of the first data amount corresponding to each actual data amount until the user terminal When the activation frequency is less than or equal to the set activation frequency threshold, the value of the first data amount is recorded, and the activation compensation function is determined according to the recorded actual speed value, the actual data amount, and the first data amount.

Specifically, the current moving speed of the user terminal is V0, and the currently reported data amount is D0, and the first data amount after compensation is D1, specifically, D1=f1 (V0, D0); the function in this embodiment F1() can be set according to the actual network environment. For example, the speed value V0 frequently activated by a group of user terminals and the data amount D0 corresponding to each V0 can be actually collected in advance, and the value of D1 is adjusted until the user terminal is no longer frequently activated. The value of D1 is recorded, and the function f1() is estimated from the recorded V0, D0, D1 data. The criterion for frequent activation in this embodiment may also be set according to a specific network environment. For example, if the frequency activated during the set time is greater than the set activation frequency threshold, it may be determined to be frequently activated; otherwise, it is determined to be infrequently activated. .

For the deactivation control of the secondary carrier, the secondary carrier allocated to the user terminal is in an active state at this time. 2 is a schematic diagram of a secondary carrier deactivation control process according to Embodiment 1 of the present invention; the deactivation control process is shown in FIG. 2, and includes:

Step 201: The user terminal acquires its current moving speed and obtains the amount of data currently reported by itself.

In this step, the manner in which the user terminal monitors the speed of the mobile terminal can be obtained by any means. For example, the user terminal can also calculate the radio link control protocol (RLC, in this embodiment). The amount of data reported by Radio Link Control determines the amount of data currently reported by itself.

Step 202: The user terminal performs deactivation compensation processing on the data amount currently reported by the user terminal according to the current moving speed of the user to obtain the compensated second data amount.

Step 203: The user terminal sends the second data amount after the deactivation compensation is performed to the base station.

Step 204: After receiving the compensated second data amount sent by the user terminal, the base station determines whether it is less than or equal to the preset deactivation data volume threshold. If yes, go to step 205; otherwise, go to step 206.

The pre-set deactivation data threshold in this step may also directly adopt the deactivation data threshold set in the existing protocol; or may be flexibly adjusted and set according to a specific application scenario;

Step 205: The base station performs deactivation processing on the secondary carrier corresponding to the user terminal.

Step 206: End.

As one of the embodiments, when the secondary carrier deactivation method is applied to the user terminal, the method includes the steps 201 to 203 in the foregoing embodiment. In another embodiment, the secondary carrier deactivation method is applied. In the base station, the steps 204 to 206 in the above embodiment are included.

In the above step 202, the user terminal performs a deactivation compensation process on the data amount that is currently reported by the user terminal according to the current moving speed of the user, and obtains the compensated second data amount, including:

Substituting the current moving speed of the user terminal and the currently reported data amount into the preset deactivation compensation function to obtain the compensated second data amount; the determining process of the deactivation compensation function includes:

The user terminal preliminarily collects at least one actual speed value when the deactivation frequency is greater than the set deactivation frequency threshold and the actual data amount corresponding to each actual speed value; and adjusts the value of the second data amount corresponding to each actual data amount until When the deactivation frequency of the user terminal is less than or equal to the set deactivation frequency threshold, the value of the second data amount is recorded, and the compensation function is determined to be activated according to the recorded actual speed value, the actual data amount, and the second data amount.

Specifically, the current moving speed of the user terminal is v0, the currently reported data amount is d0, and the second data amount after compensation is D2, specifically, D2=f2(v0, d0); the function in this embodiment F2() can also be set according to the actual network environment. For example, the speed value v0 frequently activated by a group of user terminals and the data amount d0 corresponding to each v0 can be actually collected in advance, and the value of D2 is adjusted until the terminal is not frequently activated. Up to now, the value of D2 is recorded, and the function f2() is estimated based on the recorded v0, d0, and D2 data. The criterion for frequent deactivation in this embodiment may also be set according to a specific network environment. For example, if the frequency of deactivation in the set time is greater than the set deactivation frequency threshold, it may be determined to be frequently deactivated; otherwise, the determination is Inactive for infrequent activation.

It should be understood that the activation control of the secondary carrier of the user terminal in this embodiment may adopt the solution shown in FIG. 1 above, and the deactivation control adopts the solution shown in FIG. 2; the activation may also be selected according to the actual application scenario. The control adopts the scheme shown in FIG. 1 above, and the deactivation control adopts any existing control scheme, or selects the deactivation control according to the actual application scenario, and adopts the scheme shown in FIG. 2 above, and the activation control adopts any existing control scheme. .

The embodiment of the present invention further provides a storage medium, where the computer executable instructions are stored in the storage medium, and the computer executable instructions are used to perform the application according to the embodiment of the present invention. A secondary carrier deactivation method in a base station.

Embodiment 2:

FIG. 3 is a schematic diagram of a communication system according to Embodiment 2 of the present invention; as shown in FIG. 3, the embodiment provides a communication system, including a user terminal 3 and a base station 4; during the activation control of the secondary carrier:

The user terminal 3 is configured to acquire its current moving speed, obtain the amount of data currently reported by itself, perform activation compensation processing on the obtained data amount according to the obtained moving speed, and obtain the compensated first data amount, and The compensated first data amount is sent to the base station 4;

The base station 4 is configured to perform activation processing on the secondary carrier corresponding to the user terminal 3 when the received first data amount is greater than or equal to the active data amount threshold.

Specifically, FIG. 4 is a schematic structural diagram of a user terminal according to Embodiment 2 of the present invention; as shown in FIG. 4, the user terminal 3 in this embodiment includes: a first speed monitoring module 31, a first data volume monitoring module 32, and a first a processing module 33 and a first transmitting module 34; wherein

The first speed monitoring module 31 is configured to acquire a current moving speed of the user terminal;

The first data volume monitoring module 32 is configured to acquire the amount of data currently reported by the user terminal;

The first processing module 33 is configured to perform an activation compensation process on the data amount obtained by the first data amount monitoring module 32 according to the moving speed obtained by the first speed monitoring module 31 to obtain a compensated first data amount;

The first sending module 34 is configured to send the compensated first data amount processed by the first processing module 33 to the base station for the base station to perform secondary carrier activation determination.

The process of the first processing module 33 performing an activation compensation process on the data amount according to the moving speed of the user terminal includes:

When the user terminal actually collects at least one group whose activation frequency is greater than the set activation frequency threshold The actual speed value and the actual data amount corresponding to each actual speed value; adjusting the value of the first data amount corresponding to each actual data amount until the activation frequency of the user terminal is less than or equal to the set activation frequency threshold, and recording the first data The value of the quantity determines the activation compensation function based on the recorded actual speed value, the actual data amount, and the first data amount.

The current moving speed of the user terminal is V0, and the currently reported data amount is D0, and the first data amount after compensation is D1, specifically, D1=f1 (V0, D0); the function f1() in this embodiment The setting may be performed according to the actual network environment. For example, the first processing module 33 may actually collect the speed value V0 frequently activated by the group of terminals and the data amount D0 corresponding to each V0, and adjust the value of D1 until the terminal is no longer frequently activated. The value of D1 is recorded, and the function f1() is estimated from the recorded V0, D0, D1 data. The criterion for frequent activation in this embodiment may also be set according to a specific network environment. For example, if the frequency activated during the set time is greater than the set activation frequency threshold, it may be determined to be frequently activated; otherwise, it is determined to be infrequently activated. .

In this embodiment, the first speed monitoring module 31, the first data volume monitoring module 32, and the first processing module 33 in the user terminal may be used by a central processing unit (CPU) in the user terminal in an actual application. (Central Processing Unit), a digital signal processor (DSP), or a Field-Programmable Gate Array (FPGA) implementation; the first transmitting module 34 of the user terminal may be used in an actual application. The transmit antenna or transmitter in the user terminal is implemented.

5 is a schematic structural diagram of a base station according to Embodiment 2 of the present invention; as shown in FIG. 5, the base station 4 in this embodiment includes a first receiving module 41 and a first control module 42;

The first receiving module 41 is configured to receive the compensated first data amount sent by the user terminal 3; the compensated first data amount is the amount of data currently reported by the user terminal according to the current moving speed of the user terminal. The amount of data obtained after the activation compensation process is performed;

The first control module 42 is configured to activate the secondary carrier corresponding to the user terminal 3 when the first data amount after the compensation received by the first receiving module 41 is greater than or equal to the activation data threshold. Live treatment.

In the embodiment, the first receiving module 41 in the base station may be implemented by a receiving antenna or a receiver in the base station; the first control module 42 in the base station may be used in an actual application. The CPU, DSP or FPGA in the base station is implemented.

Embodiment 3:

FIG. 6 is a schematic diagram of a communication system according to Embodiment 3 of the present invention; as shown in FIG. 6, the embodiment provides a communication system, including a user terminal 5 and a base station 6; in the process of deactivating the secondary carrier:

The user terminal 5 is configured to acquire its current moving speed, obtain the amount of data currently reported by itself, and perform deactivation compensation processing on the obtained data amount according to the obtained moving speed to obtain the compensated second data amount, and The compensated second data amount is sent to the base station 6;

The base station 6 is configured to perform deactivation processing on the secondary carrier corresponding to the user terminal 5 when the received second data amount is less than or equal to the deactivation data amount threshold.

Specifically, FIG. 7 is a schematic structural diagram of a user terminal according to Embodiment 3 of the present invention; as shown in FIG. 7, the user terminal 5 in this embodiment includes: a second speed monitoring module 51, a second data volume monitoring module 52, and a second a second processing module 53 and a second sending module 54; wherein

The second speed monitoring module 51 is configured to acquire a current moving speed of the user terminal;

The second data volume monitoring module 52 is configured to acquire the amount of data currently reported by the user terminal;

The second processing module 53 is configured to perform a deactivation compensation process on the data amount obtained by the second data amount monitoring module 52 according to the moving speed obtained by the second speed monitoring module 51 to obtain a compensated second data amount. ;

The second sending module 54 is configured to send the compensated second data amount obtained by the second processing module 53 to the base station 6 for the base station 6 to perform secondary carrier deactivation determination.

The process of the second processing module 53 performing deactivation compensation processing on the data amount according to the moving speed of the user terminal includes:

Specifically, the current moving speed of the user terminal is v0, the currently reported data amount is d0, and the second data amount after compensation is D2, specifically, D2=f2(v0, d0); the function in this embodiment F2() can also be set according to the actual network environment. For example, the second processing module 53 can actually collect a speed value v0 that is frequently deactivated by a group of terminals and a data amount d0 corresponding to each v0, and adjust the value of D2 until the terminal does not After deactivating frequently, the value of D2 is recorded, and the function f2() is estimated from the recorded v0, d0, and D2 data. The criterion for frequent deactivation in this embodiment may also be set according to a specific network environment. For example, if the frequency of deactivation in the set time is greater than the set deactivation frequency threshold, it may be determined to be frequently deactivated; otherwise, the determination is Inactive for infrequent activation.

In this embodiment, the second speed monitoring module 51, the second data volume monitoring module 52, and the second processing module 53 in the user terminal may be used by the CPU, DSP or FPGA in the user terminal in practical applications. The second sending module 54 in the user terminal can be implemented by a transmitting antenna or a transmitter in the user terminal in an actual application.

FIG. 8 is a schematic structural diagram of a base station according to Embodiment 3 of the present invention; as shown in FIG. 8, the base station 6 in this embodiment includes: a second receiving module 61 and a second control module 62;

The second receiving module 61 is configured to receive the compensated second data amount sent by the user terminal 5;

The second control module 62 is configured to perform the secondary carrier corresponding to the user terminal 5 when the second data amount after the compensation received by the second receiving module 61 is less than or equal to the deactivation data amount threshold. Activate processing.

In the embodiment, the second receiving module 61 in the base station may be implemented by a receiving antenna or a receiver in the base station; the second control module 62 in the base station may be used in an actual application. The CPU, DSP or FPGA in the base station is implemented.

Embodiment 4:

For a better understanding of the invention, the invention will be further described below with a completed activation and deactivation control process. FIG. 9 is a schematic flowchart of an activation and deactivation control process according to Embodiment 4 of the present invention. Referring to FIG. 9, the method includes:

Step 901: The secondary carrier of the user terminal is currently in an inactive state, and the user terminal acquires its current moving speed and obtains the amount of data currently reported by itself.

Step 902: The user terminal performs activation compensation processing on the data amount currently reported by the user terminal according to the current moving speed of the user to obtain the compensated first data amount.

Step 903: The user terminal sends the first data amount after the activation compensation is performed to the base station.

Step 904: After receiving the compensated first data amount sent by the user terminal, the base station determines whether it is greater than or equal to a preset activation data volume threshold. If yes, go to step 905; otherwise, go to step 911.

Step 905: The base station performs activation processing on the secondary carrier corresponding to the user terminal.

Step 906: The secondary carrier of the user terminal is currently in an active state, and the user terminal acquires its current moving speed and obtains the amount of data currently reported by itself.

Step 907: The user terminal performs deactivation compensation processing on the data amount currently reported by the user terminal according to the current moving speed of the user to obtain the compensated second data amount.

Step 908: The user terminal sends the second data amount after the deactivation compensation is performed to the base station.

Step 909: After receiving the compensated second data amount sent by the user terminal, the base station determines whether it is less than or equal to the preset deactivation data volume threshold. If yes, go to step 910; otherwise, go to step 911.

Step 910: The base station performs deactivation processing on the secondary carrier corresponding to the user terminal.

Step 911: End.

Those skilled in the art will appreciate that embodiments of the present invention can be provided as a method, system, or computer program product. Accordingly, the present invention can take the form of a hardware embodiment, a software embodiment, or a combination of software and hardware. Moreover, the invention can take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage and optical storage, etc.) including computer usable program code.

The present invention has been described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (system), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or FIG. These computer program instructions can be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing device to produce a machine for the execution of instructions for execution by a processor of a computer or other programmable data processing device. Means for implementing the functions specified in one or more of the flow or in a block or blocks of the flow chart.

The computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device. The apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.

These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device. The instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram.

The above description is only an embodiment of the embodiment of the present invention, and it should be noted that the technical field is A number of modifications and refinements can be made by those skilled in the art without departing from the principles of the embodiments of the present invention. These improvements and modifications should also be considered as the scope of protection of the embodiments of the present invention.

Industrial applicability

In the embodiment of the present invention, after the activation control process of the secondary carrier, the user terminal performs activation compensation processing on the currently reported data amount based on its current moving speed, and then sends the data to the base station, and the base station is based on the received activated compensation process. The first data amount and the activation data amount threshold are subjected to activation determination processing; in the deactivation control process for the secondary carrier, the user terminal may also perform deactivation compensation processing on the currently reported data amount based on its current moving speed, and then retransmit For the base station, the base station performs the deactivation determination process based on the received second data amount after the activation compensation process and the deactivation data volume threshold. The solution of the embodiment of the present invention can prevent the user terminal from performing the short process during the moving process. Frequent activation and deactivation processes can improve the stability of the secondary carrier and improve the satisfaction of the user experience.

Claims

A secondary carrier activation method, the method comprising:

The user terminal acquires its current moving speed and obtains the amount of data currently reported by itself;

Performing an activation compensation process on the data amount according to the moving speed to obtain a compensated first data amount;

And transmitting the compensated first data amount to the base station for the base station to perform secondary carrier activation determination.
The secondary carrier activation method according to claim 1, wherein the first data amount obtained by performing the activation compensation processing on the data amount according to the moving speed comprises:

Substituting the current moving speed of the user terminal and the currently reported data amount into a preset activation compensation function to obtain a compensated first data amount;

The determining process of the activation compensation function includes:

The user terminal preliminarily acquires at least one actual speed value when the activation frequency is greater than the set activation frequency threshold and the actual data amount corresponding to each actual speed value; adjusting the value of the first data amount corresponding to each actual data amount until the When the activation frequency of the user terminal is less than or equal to the set activation frequency threshold, the value of the first data amount is recorded, and the activation compensation function is determined according to the recorded actual speed value, the actual data amount, and the first data amount.
A secondary carrier activation method, the method comprising:

Receiving, by the base station, the compensated first data amount sent by the user terminal, where the compensated first data amount is an amount of data obtained by the user terminal performing activation compensation processing on the data amount currently reported by the user terminal according to the current moving speed of the user;

When the compensated first data amount is greater than or equal to the activation data amount threshold, the secondary carrier corresponding to the user terminal is activated.
A secondary carrier activation method, the method comprising:

The user terminal acquires its current moving speed and obtains the amount of data currently reported by itself;

The user terminal performs activation compensation processing on the data amount according to the moving speed to obtain a compensated first data amount;

The user terminal sends the compensated first data amount to the base station;

The base station receives the compensated first data amount sent by the user terminal, and performs activation processing on the secondary carrier corresponding to the user terminal when the compensated first data amount is greater than or equal to the activation data amount threshold.
A secondary carrier deactivation method, the method comprising:

The user terminal acquires its current moving speed and obtains the amount of data currently reported by itself;

Performing a deactivation compensation process on the data amount according to the moving speed to obtain a compensated second data amount;

And transmitting the compensated second data amount to the base station for the base station to perform secondary carrier deactivation determination.
The secondary carrier deactivation method according to claim 5, wherein the second data amount obtained by performing the deactivation compensation processing on the data amount according to the moving speed comprises:

Substituting the current moving speed of the user terminal and the currently reported data amount into a preset deactivation compensation function to obtain a second amount of data after compensation;

The determining process of the deactivation compensation function includes:

The user terminal preliminarily collects at least one actual speed value when the deactivation frequency is greater than the set deactivation frequency threshold and the actual data amount corresponding to each actual speed value; and adjusts the value of the second data amount corresponding to each actual data amount until When the deactivation frequency of the user terminal is less than or equal to the set deactivation frequency threshold, the value of the second data amount is recorded, and the compensation function is determined to be activated according to the recorded actual speed value, the actual data amount, and the second data amount.
A secondary carrier deactivation method, the method comprising:

Receiving, by the base station, the compensated second data quantity sent by the user terminal, where the compensated second data quantity is performed by the user terminal according to the current current moving speed of the data amount that is currently reported by the user terminal. Deactivate the amount of data obtained after the compensation process;

When the compensated second data amount is less than or equal to the deactivation data amount threshold, the secondary carrier corresponding to the user terminal is deactivated.
A secondary carrier deactivation method includes:

The user terminal acquires its current moving speed and obtains the amount of data currently reported by itself;

The user terminal performs a deactivation compensation process on the data amount according to the moving speed to obtain a compensated second data amount;

The user terminal sends the compensated second data amount to the base station;

The base station receives the compensated second data amount sent by the user terminal, and deactivates the secondary carrier corresponding to the user terminal when the compensated second data amount is less than or equal to the deactivation data amount threshold.
A user terminal includes: a first speed monitoring module, a first data amount monitoring module, a first processing module, and a first sending module; wherein

The first speed monitoring module is configured to acquire a current moving speed of the user terminal;

The first data volume monitoring module is configured to acquire the amount of data currently reported by the user terminal;

The first processing module is configured to perform an activation compensation process on the data amount obtained by the first data amount monitoring module according to the moving speed acquired by the first speed monitoring module to obtain a compensated first data amount. ;

The first sending module is configured to send the compensated first data amount processed by the first processing module to a base station, where the base station performs a secondary carrier activation determination.
The user terminal according to claim 9, wherein the first processing module performs an activation compensation process on the data amount according to the moving speed, including:

Substituting the current moving speed of the user terminal and the currently reported data amount into a preset activation compensation function to obtain a compensated first data amount;

The determining process of the activation compensation function includes:

The user terminal preliminarily acquires at least one actual speed value when the activation frequency is greater than the set activation frequency threshold and the actual data amount corresponding to each actual speed value; adjusting the value of the first data amount corresponding to each actual data amount until the When the activation frequency of the user terminal is less than or equal to the set activation frequency threshold, the value of the first data amount is recorded, and the activation compensation function is determined according to the recorded actual speed value, the actual data amount, and the first data amount.
A base station includes: a first receiving module and a first control module; wherein

The first receiving module is configured to receive the compensated first data amount sent by the user terminal, where the compensated first data amount is that the user terminal activates the data amount that is currently reported by the user terminal according to the current moving speed of the user. The amount of data obtained after the compensation process;

The first control module is configured to perform activation processing on the secondary carrier corresponding to the user terminal when the compensated first data amount is greater than or equal to the activation data amount threshold.
A communication system includes: a user terminal and a base station; wherein

The user terminal is configured to acquire its current moving speed, obtain the amount of data currently reported by itself, perform activation compensation processing on the data amount according to the moving speed, and obtain a compensated first data amount, and Transmitting the first amount of data to the base station;

The base station is configured to perform activation processing on the secondary carrier corresponding to the user terminal when the compensated first data amount is greater than or equal to the activation data amount threshold.
A user terminal includes: a second speed monitoring module, a second data amount monitoring module, a second processing module, and a second sending module; wherein

The second speed monitoring module is configured to acquire a current moving speed of the user terminal;

The second data volume monitoring module is configured to acquire the amount of data currently reported by the user terminal;

The second processing module is configured to perform deactivation compensation processing on the data amount acquired by the second data amount monitoring module according to the moving speed acquired by the second speed monitoring module Obtaining a second amount of data after compensation;

The second sending module is configured to send the compensated second data amount obtained by the second processing module to the base station, where the base station performs secondary carrier deactivation determination.
The user terminal according to claim 13, wherein the second processing module performs a deactivation compensation process on the data amount according to the moving speed, including:

Substituting the current moving speed of the user terminal and the currently reported data amount into a preset deactivation compensation function to obtain a second amount of data after compensation;

The determining process of the deactivation compensation function includes:

The user terminal preliminarily collects at least one actual speed value when the deactivation frequency is greater than the set deactivation frequency threshold and the actual data amount corresponding to each actual speed value; and adjusts the value of the second data amount corresponding to each actual data amount until When the deactivation frequency of the user terminal is less than or equal to the set deactivation frequency threshold, the value of the second data amount is recorded, and the compensation function is determined to be activated according to the recorded actual speed value, the actual data amount, and the second data amount.
A base station includes: a second receiving module and a second control module; wherein

The second receiving module is configured to receive the compensated second data amount sent by the user terminal, where the compensated second data amount is that the user terminal performs the data amount that is currently reported by the user terminal according to the current moving speed of the user terminal. The amount of data obtained after the compensation process is activated;

The second control module is configured to perform deactivation processing on the secondary carrier corresponding to the user terminal when the compensated second data amount is less than or equal to the deactivation data amount threshold.
A communication system includes: a user terminal and a base station; wherein

The user terminal is configured to acquire its current moving speed, obtain the amount of data currently reported by itself, and perform a deactivation compensation process on the data amount according to the moving speed to obtain a compensated second data amount, and Transmitting the second amount of data to the base station;

The base station is configured to perform deactivation processing on the secondary carrier corresponding to the user terminal when the compensated second data amount is less than or equal to the deactivation data volume threshold.
A storage medium storing computer executable instructions for performing the secondary carrier activation method of claim 1 or 2.
A storage medium storing computer executable instructions for performing the secondary carrier activation method of claim 3.
A storage medium storing computer executable instructions for performing the secondary carrier deactivation method of claim 5 or 6.
A storage medium storing computer executable instructions for performing the secondary carrier deactivation method of claim 7.