WO2019084934A1 - Receiving resource pool configuration method, user equipment and network device - Google Patents

Abstract

Disclosed are a receiving resource pool configuration method, a user equipment (UE), a network device and a computer storage medium. The method comprises: determining whether a user equipment needs to perform data transmission on a second frequency, and obtaining a determination result; on the basis of the determination result, determining whether a receiving resource pool configured by a network side needs to be obtained via a first frequency, wherein the first frequency is different from the second frequency.

Description

Configuration method, user equipment and network equipment for receiving resource pool Technical field

The present invention relates to the field of communication processing technologies, and in particular, to a method for configuring a receiving resource pool, a user equipment (UE), a network device, and a computer storage medium.

Background technique

The vehicle networking system is a kind of side-link transmission technology (SL, Sidelink, side-link) based on LTE-D2D. Different from the traditional LTE system, the communication data is received or transmitted through the base station, and the vehicle networking system adopts the terminal. The way to communicate directly to the terminal, thus having higher spectral efficiency and lower transmission delay. In 3GPP Rel-14, the vehicle networking technology (V2X) is standardized, and two transmission modes are defined, namely mode 3 and mode 4, respectively:

Mode 3: The transmission resource of the in-vehicle terminal is allocated by the base station, and the in-vehicle terminal transmits data on the side line according to the resource allocated by the base station; the base station may allocate a single transmission resource for the terminal, or may allocate a semi-static to the terminal. The resources transferred.

Mode 4: The vehicle terminal adopts a transmission mode of sensing + reservation. The vehicle terminal obtains a set of available transmission resources by means of interception in the resource pool, and the terminal randomly selects one resource from the set for data transmission.

However, as the in-vehicle terminal (user equipment) is capable of performing multi-carrier (multi-frequency) data transceiving processing, how to enable the user equipment to acquire a receiving resource pool that can be used by another frequency has become a technical problem that needs to be solved now.

Summary of the invention

To solve the above technical problem, an embodiment of the present invention provides a method for configuring a receiving resource pool, a user equipment (UE), a network device, and a computer storage medium.

A method for configuring a receiving resource pool, which is applied to a user equipment, includes:

Determining whether the user equipment needs to perform data transmission on the second frequency, and obtain a judgment result;

And determining, according to the determination result, whether a receiving resource pool configured by the network side needs to be acquired by using the first frequency; wherein the first frequency is different from the second frequency.

The embodiment of the invention provides a method for configuring a receiving resource pool, which is applied to a network device, and includes:

Determining whether the user equipment needs to perform data transmission on the second frequency, and obtain a judgment result;

And determining, according to the determining result, whether the receiving resource pool needs to be sent to the user equipment by using the first frequency; wherein the first frequency is different from the second frequency.

An embodiment of the present invention provides a user equipment, including:

The first processing unit determines whether the user equipment needs to perform data transmission on the second frequency, and obtains a determination result; and determines, according to the determination result, whether the receiving resource pool configured by the network side needs to be acquired by using the first frequency; One frequency is different from the second frequency.

The embodiment of the invention provides a network device, including:

The second processing unit determines whether the user equipment needs to perform data transmission on the second frequency, and obtains a determination result; and determines, according to the determination result, whether the receiving resource pool needs to be sent to the user equipment by using the first frequency; The first frequency is different from the second frequency.

Embodiments of the present invention provide a user equipment, including: a processor and a memory for storing a computer program capable of running on a processor,

Wherein the processor is configured to perform the steps of the foregoing method when the computer program is run.

Embodiments of the present invention provide a network device, including: a processor and a memory for storing a computer program capable of running on a processor,

Wherein the processor is configured to perform the steps of the foregoing method when the computer program is run.

A computer storage medium provided by an embodiment of the present invention, the computer storage medium is stored There are computer executable instructions that, when executed, implement the aforementioned method steps.

The technical solution of the embodiment of the present invention can determine whether the network side configuration is obtained by using the first frequency, whether the user equipment needs to send data on the second frequency when the user equipment can transmit and receive on multiple frequencies. Receive resource pool. In this way, the problem of resource configuration of the user equipment can be solved when the user equipment is in a multi-carrier scenario.

DRAWINGS

1 is a schematic flowchart 1 of a method for configuring a receiving resource pool according to an embodiment of the present invention;

2 is a schematic flowchart 2 of a method for configuring a receiving resource pool according to an embodiment of the present invention;

3 is a schematic structural diagram of a user equipment according to an embodiment of the present invention;

4 is a schematic structural diagram of a network device according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a hardware architecture according to an embodiment of the present invention.

Detailed ways

The embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Embodiment 1

An embodiment of the present invention provides a method for configuring a receiving resource pool, which is applied to a user equipment, as shown in FIG. 1 , and includes:

Step 101: Determine whether the user equipment needs to perform data transmission on the second frequency, and obtain a judgment result.

Step 102: Determine, according to the determination result, whether a receiving resource pool configured by the network side needs to be acquired by using the first frequency, where the first frequency is different from the second frequency.

Here, the user equipment may be a terminal device in a car network. In addition, the first frequency may be a frequency at which the current user equipment communicates with the network side, and the second frequency may be understood as The standard frequency, which is the frequency at which the user equipment is to be connected.

Specifically, in the foregoing step 101, the determining whether the user equipment needs to perform data transmission on the second frequency includes:

Whether the user equipment needs to perform data transmission on the second frequency is determined based on whether the user equipment needs to perform internal or external PLMN communication on the second frequency.

The determining whether the user equipment needs to perform data transmission on the second frequency, whether the user equipment needs to perform internal or external PLMN communication on the second frequency, includes:

Determining that the user equipment needs to perform data transmission on the second frequency when the user equipment needs to perform internal PLMN communication on the second frequency;

When the user equipment needs to perform external PLMN communication on the second frequency, it is determined that the user equipment does not need to perform data transmission on the second frequency.

It should be noted that this embodiment is directed to whether data transmission is being performed on the second frequency, and does not limit whether data reception is performed on the second frequency.

That is to say, when the user equipment needs to perform internal PLMN (Public Land Mobile Network) communication at the second frequency, the user equipment needs to receive and transmit data through the internal PLMN, and therefore, the user equipment needs to be determined. Data transmission is performed on the second frequency; conversely, if the user equipment communicates only in the external PLMN, data transmission on the second frequency may not be required, but data reception may still be performed.

When the step 102 is performed, the determining, according to the determination result, whether the receiving resource pool configured by the network side needs to be acquired by using the first frequency, includes:

When the result of the determination is that data transmission needs to be performed on the second frequency, an RRC connection is established with the network side by using the first frequency, and a receiving resource pool configured by the network side is obtained by using dedicated RRC signaling.

The receiving resource pool can be understood as including the communication sub-frequency on the second frequency. The resource pool; that is, when receiving the receiving resource pool configured by the network side, the user equipment may receive the resource included in the receiving resource pool, select a resource from the sending resource pool, and send the data to perform data through the second frequency. Receive and send.

The manner of establishing an RRC connection by using the first frequency may be: the user equipment (UE) sends an RRC Connection Request message (RRC Connection Request) to the network side through the uplink CCCH, to request to establish an RRC connection;

Correspondingly, the network side may determine that the UE is established on the RRC dedicated channel according to the cause of the RRC connection request and the system resource status, and allocate the RNTI, the radio resource, and other resources (such as the L1 and L2 resources) to the UE.

Further, the method further includes: establishing, by the first frequency, an RRC connection with the network side, and acquiring the receiving resource pool configured by the network side by using dedicated RRC signaling, the method further includes:

And receiving, by the network side, the broadcast message sent by the first frequency, and determining whether the broadcast message includes the receiving resource pool configured by the network side.

or,

Receiving, by the network side, the broadcast message sent by the first frequency, determining whether the indication of the second frequency is included in the broadcast message.

In addition, the method may further include: receiving, by the network side, a broadcast message sent by using the first frequency, and determining whether the broadcast message includes a transmission resource pool configured by the network side for the terminal device.

Specifically, when the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side is received by the first frequency, the broadcast message includes the receiving resource pool configured by the network side, Then, the receiving resource pool can be obtained directly from the broadcast message;

If the result of the determination is that the data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, it is determined that the broadcast message does not include the receiving resource pool configured by the network side. And establishing an RRC connection with the network side by using the first frequency, and acquiring a receiving resource pool configured by the network side by using dedicated RRC signaling.

Or, after the judgment of the sending resource pool is included, the broadcast message sent by the network side by the first frequency may be included when the determining result is that data transmission needs to be performed on the second frequency, where the broadcast message includes If there is a sending resource pool configured on the network side, the sending resource pool may be directly obtained from the broadcast message;

If the result of the determination is that the data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, it is determined that the broadcast message does not include the transmission resource pool configured by the network side. And establishing an RRC connection with the network side by using the first frequency, and acquiring a sending resource pool configured by the network side by using dedicated RRC signaling.

That is to say, the network side can receive the resource pool through the first frequency transmission, and if not sent, establish an RRC connection through the first frequency and acquire the receiving resource pool.

or,

When the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, and the broadcast message includes the indication of the second frequency on the network side, The first frequency establishes an RRC connection with the network side, and acquires a receiving resource pool configured by the network side by using dedicated RRC signaling;

If the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, the broadcast message does not include the indication of the second frequency on the network side. Then, the connection RRC connection is not established; at this time, the broadcast message can be obtained directly to the second frequency.

In addition, the foregoing step 102 may further include: determining, according to the determining result, whether the receiving resource pool configured by the network side needs to be obtained by using the first frequency, including:

When the result of the determination is that data transmission is not required on the second frequency, it is determined that the receiving resource pool configured by the network side is not required to be acquired by the first frequency.

When the determining does not need to obtain the receiving resource pool configured by the network side by using the first frequency, the method further includes:

Receiving a broadcast message by using the second frequency, obtaining a receiving resource pool configured by the network side from the broadcast message sent by the second frequency.

That is to say, when it is not necessary to acquire the receiving resource pool by using the first frequency, the broadcast message sent by the second frequency may be received, and then the broadcast resource of the second frequency is detected whether there is a receiving resource pool configured by the network side.

In combination with the foregoing solution, in this embodiment, "whether or not transmission needs to be performed on the target frequency 2" can be applied to the scenario: for the intra-PLMN case, the user can transmit on the frequency 2, but for the inter-PLMN, the user cannot be at the frequency 2 Send on. Therefore, "whether it is necessary to transmit on the target frequency 2" can also be expressed by "whether or not intra/inter-PLMN communication needs to be performed on the target frequency 2".

If the transmission needs to be performed, access the cell at the current frequency 1, that is, establish an RRC connection, thereby obtaining a receiving resource pool from the dedicated RRC signaling;

Further, the current judgment can be made only for individual cases, for example:

When the cell at frequency 1 (first frequency) does not include a transmission resource pool in the broadcast message;

When the cell at frequency 1 (first frequency) does not include a receiving resource pool in the broadcast message;

The cell at frequency 1 contains an indication of frequency 2 (second frequency) in the broadcast message.

If the transmission is not required, there is no need to establish a connection. At this time, the broadcast information can be received by going to the target frequency (second frequency), thereby obtaining the receiving resource pool.

It can be seen that, by adopting the foregoing solution, it is possible to determine whether to acquire the network side configuration by using the first frequency, whether the user equipment needs to perform data transmission on the second frequency when the user equipment can transmit and receive on multiple frequencies. Receive resource pools. In this way, the problem of resource configuration of the user equipment can be solved when the user equipment is in a multi-carrier scenario.

Embodiment 2

An embodiment of the present invention provides a method for configuring a receiving resource pool, which is applied to a network device, as shown in FIG. 2, and includes:

Step 201: Determine whether the user equipment needs to perform data transmission on the second frequency, and obtain a judgment result.

Step 202: Determine, according to the determination result, whether a receiving resource pool needs to be sent to the user equipment by using the first frequency, where the first frequency is different from the second frequency.

Here, the user equipment may be a terminal device in a car network. In addition, the first frequency may be a frequency at which the current user equipment communicates with the network side, and the second frequency may be understood as a target frequency, that is, a frequency to which the user equipment is to be connected.

Specifically, in the foregoing step 201, the determining whether the user equipment needs to perform data transmission on the second frequency includes:

Whether the user equipment needs to perform data transmission on the second frequency is determined based on whether the user equipment needs to perform internal or external PLMN communication on the second frequency.

The determining whether the user equipment needs to perform data transmission on the second frequency, whether the user equipment needs to perform internal or external PLMN communication on the second frequency, includes:

Determining that the user equipment needs to perform data transmission on the second frequency when the user equipment needs to perform internal PLMN communication on the second frequency;

When the user equipment needs to perform external PLMN communication on the second frequency, it is determined that the user equipment does not need to perform data transmission on the second frequency.

It should be noted that this embodiment is directed to whether data transmission is being performed on the second frequency, and does not limit whether data reception is performed on the second frequency.

That is to say, when the user equipment needs to perform internal PLMN (Public Land Mobile Network) communication at the second frequency, the user equipment needs to receive and transmit data through the internal PLMN, and therefore, the user equipment needs to be determined. Data transmission is performed on the second frequency; conversely, if the user equipment communicates only in the external PLMN, data transmission on the second frequency may not be required, but data reception may still be performed.

When the step 202 is performed, the determining, according to the determining result, whether to send the receiving resource pool to the user equipment by using the first frequency, includes:

When the result of the determination is that data transmission needs to be performed on the second frequency, an RRC connection is established with the user equipment by using the first frequency, and a receiving resource pool is sent to the user equipment by using dedicated RRC signaling.

The receiving resource pool can be understood as a resource pool that includes a communication sub-frequency on the second frequency; that is, when receiving the receiving resource pool configured on the network side, the user equipment can receive resources included in the resource pool. Receiving, selecting a resource from the sending resource pool for transmission, and receiving and transmitting data through the second frequency.

The manner of establishing an RRC connection by using the first frequency may be: the user equipment (UE) sends an RRC Connection Request message (RRC Connection Request) to the network side through the uplink CCCH, to request to establish an RRC connection;

Correspondingly, the network side may determine that the UE is established on the RRC dedicated channel according to the cause of the RRC connection request and the system resource status, and allocate the RNTI, the radio resource, and other resources (such as the L1 and L2 resources) to the UE.

Further, before the establishing an RRC connection with the user equipment by using the first frequency, and sending the resource pool for the second frequency to the user equipment by using dedicated RRC signaling, the method further includes:

It is determined whether the broadcast resource of the first frequency includes a receiving resource pool.

or,

Determining whether the indication of the second frequency is included in the broadcast message of the first frequency.

In addition, the method may further include: determining whether the broadcast resource of the first frequency includes a receiving resource pool.

Specifically, when the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side by using the first frequency is received, the broadcast message includes the network The receiving resource pool configured by the side can directly obtain the receiving resource pool from the broadcast message;

If the result of the determination is that the data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, it is determined that the broadcast message does not include the receiving resource pool configured by the network side. And establishing an RRC connection with the network side by using the first frequency, and acquiring a receiving resource pool configured by the network side by using dedicated RRC signaling.

or,

When the result of the determination is that the data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, the broadcast message includes the transmission resource pool configured by the network side, and directly Obtain a sending resource pool in the broadcast message;

If the result of the determination is that the data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, it is determined that the broadcast message does not include the transmission resource pool configured by the network side. And establishing an RRC connection with the network side by using the first frequency, and acquiring a sending resource pool configured by the network side by using dedicated RRC signaling.

That is to say, the network side can receive the resource pool through the first frequency transmission, and if not sent, establish an RRC connection through the first frequency and acquire the receiving resource pool.

or,

When the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, and the broadcast message includes the indication of the second frequency on the network side, The first frequency establishes an RRC connection with the network side, and acquires a receiving resource pool configured by the network side by using dedicated RRC signaling;

If the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, the broadcast message does not include the indication of the second frequency on the network side. Then, the connection RRC connection is not established; at this time, the broadcast message can be obtained directly to the second frequency.

In addition, based on the determination result, determining whether it is necessary to use the first frequency to the use The user equipment sends and receives the resource pool, including:

When the result of the determination is that data transmission is not required on the second frequency, it is determined that the receiving resource pool is not required to be sent to the user equipment by using the first frequency.

When the determining does not need to send the receiving resource pool to the user equipment by using the first frequency, the method further includes:

The user equipment is notified to receive a broadcast message through the second frequency, and the receiving resource pool is obtained from the broadcast message sent by the second frequency.

That is to say, when it is not necessary to acquire the receiving resource pool by using the first frequency, the broadcast message sent by the second frequency may be received, and then the broadcast resource of the second frequency is detected whether there is a receiving resource pool configured by the network side.

In combination with the foregoing solution, the embodiment may be specifically: “whether or not to transmit on the target frequency 2” may be applied to the scenario: for the intra-PLMN case, the user may send on the frequency 2, but for the inter-PLMN, the user cannot Send on frequency 2. Therefore, "whether it is necessary to transmit on the target frequency 2" can also be expressed by "whether or not intra/inter-PLMN communication needs to be performed on the target frequency 2".

If the transmission needs to be performed, access the cell at the current frequency 1, that is, establish an RRC connection, thereby obtaining a receiving resource pool from the dedicated RRC signaling;

Further, the current judgment can be made only for individual cases, for example:

When the cell at frequency 1 (first frequency) does not include a transmission resource pool in the broadcast message;

When the cell at frequency 1 (first frequency) does not include a receiving resource pool in the broadcast message;

The cell at frequency 1 contains an indication of frequency 2 (second frequency) in the broadcast message.

If the transmission is not required, there is no need to establish a connection. At this time, the broadcast information can be received by going to the target frequency (second frequency), thereby obtaining the receiving resource pool.

In Rel-15, eV2x is extended to a multi-carrier scenario, that is, one UE can transmit and receive on more than one carrier at the same time. By adopting the scheme provided by this embodiment, the frequency 1 is the first A network on a frequency (different from the target frequency 2, the target frequency 2 is also the second frequency) indicates whether the user needs to access the cell on the current frequency 1, that is, establishes an RRC connection, thereby obtaining a receiving resource pool from the dedicated RRC signaling. .

It can be seen that, by adopting the foregoing solution, it is possible to determine whether to acquire the network side configuration by using the first frequency, whether the user equipment needs to perform data transmission on the second frequency when the user equipment can transmit and receive on multiple frequencies. Receive resource pools. In this way, the problem of resource configuration of the user equipment can be solved when the user equipment is in a multi-carrier scenario.

Embodiment 3

An embodiment of the present invention provides a user equipment, as shown in FIG. 3, including:

The first processing unit 31 determines whether the user equipment needs to perform data transmission on the second frequency, and obtains a determination result; and determines, according to the determination result, whether the receiving resource pool configured by the network side needs to be acquired by using the first frequency; The first frequency is different from the second frequency.

Here, the user equipment may be a terminal device in a car network. In addition, the first frequency may be a frequency at which the current user equipment communicates with the network side, and the second frequency may be understood as a target frequency, that is, a frequency to which the user equipment is to be connected.

Specifically, the first processing unit 31 determines whether the user equipment needs to perform data transmission on the second frequency based on whether the user equipment needs to perform internal or external PLMN communication on the second frequency.

The first processing unit 31, when the user equipment needs to perform internal or external PLMN communication on the second frequency, determines whether the user equipment needs to perform data transmission on the second frequency, and the user equipment When the internal PLMN communication needs to be performed on the second frequency, it is determined that the user equipment needs to perform data transmission on the second frequency;

When the user equipment needs to perform external PLMN communication on the second frequency, it is determined that the user equipment does not need to perform data transmission on the second frequency.

It should be noted that this embodiment is directed to whether data transmission is being performed on the second frequency, and It is not limited whether or not data reception is performed on the second frequency.

That is to say, when the user equipment needs to perform internal PLMN (Public Land Mobile Network) communication at the second frequency, the user equipment needs to receive and transmit data through the internal PLMN, and therefore, the user equipment needs to be determined. Data transmission is performed on the second frequency; conversely, if the user equipment communicates only in the external PLMN, data transmission on the second frequency may not be required, but data reception may still be performed.

The user equipment further includes:

The first communication unit 32, when the result of the determination is that data transmission needs to be performed on the second frequency, establishes an RRC connection with the network side through the first frequency, and acquires a receiving resource pool configured by the network side by using dedicated RRC signaling.

The receiving resource pool can be understood as a resource pool that includes a communication sub-frequency on the second frequency; that is, when receiving the receiving resource pool configured on the network side, the user equipment can receive resources included in the resource pool. Receiving, selecting a resource from the sending resource pool for transmission, and receiving and transmitting data through the second frequency.

The manner of establishing an RRC connection by using the first frequency may be: the user equipment (UE) sends an RRC Connection Request message (RRC Connection Request) to the network side through the uplink CCCH, to request to establish an RRC connection;

Correspondingly, the network side may determine that the UE is established on the RRC dedicated channel according to the cause of the RRC connection request and the system resource status, and allocate the RNTI, the radio resource, and other resources (such as the L1 and L2 resources) to the UE.

Further, the first communication unit receives a broadcast message sent by the network side through the first frequency;

The first processing unit determines whether the broadcast resource includes the receiving resource pool configured by the network side.

Or,

The first processing unit determines whether the indication of the second frequency on the network side is included in the broadcast message.

In addition, the first processing unit may be configured to receive a broadcast message sent by the network side by using the first frequency, and determine whether the broadcast message includes a transmission resource pool configured by the network side for the terminal device.

Specifically, when the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side is received by the first frequency, the broadcast message includes the receiving resource pool configured by the network side, Then, the receiving resource pool can be obtained directly from the broadcast message;

If the result of the determination is that the data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, it is determined that the broadcast message does not include the receiving resource pool configured by the network side. And establishing an RRC connection with the network side by using the first frequency, and acquiring a receiving resource pool configured by the network side by using dedicated RRC signaling.

Or, after the judgment of the sending resource pool is included, the broadcast message sent by the network side by the first frequency may be included when the determining result is that data transmission needs to be performed on the second frequency, where the broadcast message includes If there is a sending resource pool configured on the network side, the sending resource pool may be directly obtained from the broadcast message;

If the result of the determination is that the data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, it is determined that the broadcast message does not include the transmission resource pool configured by the network side. And establishing an RRC connection with the network side by using the first frequency, and acquiring a sending resource pool configured by the network side by using dedicated RRC signaling.

That is to say, the network side can receive the resource pool through the first frequency transmission, and if not sent, establish an RRC connection through the first frequency and acquire the receiving resource pool, and/or send the resource pool.

or,

When the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, the broadcast message includes the network side And indicating, by the first frequency, establishing an RRC connection with the network side by using the first frequency, and acquiring a receiving resource pool configured by the network side by using dedicated RRC signaling;

If the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, the broadcast message does not include the indication of the second frequency on the network side. Then, the connection RRC connection is not established; at this time, the broadcast message can be obtained directly to the second frequency.

In addition, the first processing unit determines that it is not necessary to acquire a receiving resource pool configured by the network side by using the first frequency when the determining result is that data transmission is not required on the second frequency.

When the determining does not need to obtain the receiving resource pool configured by the network side by using the first frequency, the method further includes:

Receiving a broadcast message by using the second frequency, obtaining a receiving resource pool configured by the network side from the broadcast message sent by the second frequency.

That is to say, when it is not necessary to acquire the receiving resource pool by using the first frequency, the broadcast message sent by the second frequency may be waited for, and then the broadcast resource of the second frequency is detected whether there is a receiving resource pool configured by the network side.

In combination with the foregoing solution, the embodiment may specifically include:

"Do you need to transmit on the target frequency 2" can be applied to the scenario: for the intra-PLMN case, the user can transmit on frequency 2, but for the inter-PLMN, the user cannot transmit on frequency 2. Therefore, "whether it is necessary to transmit on the target frequency 2" can also be expressed by "whether or not intra/inter-PLMN communication needs to be performed on the target frequency 2".

If the transmission needs to be performed, access the cell at the current frequency 1, that is, establish an RRC connection, thereby obtaining a receiving resource pool from the dedicated RRC signaling;

Further, the current judgment can be made only for individual cases, for example:

When the cell at frequency 1 (first frequency) does not include a transmission resource pool in the broadcast message;

When the cell at frequency 1 (first frequency) does not include a receiving resource pool in the broadcast message;

The cell at frequency 1 contains an indication of frequency 2 (second frequency) in the broadcast message.

If the transmission is not required, there is no need to establish a connection. At this time, the broadcast information can be received by going to the target frequency (second frequency), thereby obtaining the receiving resource pool.

It can be seen that, by adopting the foregoing solution, it is possible to determine whether to acquire the network side configuration by using the first frequency, whether the user equipment needs to perform data transmission on the second frequency when the user equipment can transmit and receive on multiple frequencies. Receive resource pools. In this way, the problem of resource configuration of the user equipment can be solved when the user equipment is in a multi-carrier scenario.

Embodiment 4

An embodiment of the present invention provides a network device, as shown in FIG. 4, including:

The second processing unit 41 determines whether the user equipment needs to perform data transmission on the second frequency, and obtains a determination result; and determines, according to the determination result, whether the receiving resource pool needs to be sent to the user equipment by using the first frequency; The first frequency is different from the second frequency.

Here, the user equipment may be a terminal device in a car network. In addition, the first frequency may be a frequency at which the current user equipment communicates with the network side, and the second frequency may be understood as a target frequency, that is, a frequency to which the user equipment is to be connected.

Specifically, the second processing unit 41 determines whether the user equipment needs to perform data transmission on the second frequency based on whether the user equipment needs to perform internal or external PLMN communication on the second frequency.

The second processing unit 41 determines that the user equipment needs to perform data transmission on the second frequency when the user equipment needs to perform internal PLMN communication on the second frequency.

When the user equipment needs to perform external PLMN communication on the second frequency, it is determined that the user equipment does not need to perform data transmission on the second frequency.

It should be noted that this embodiment is directed to whether data transmission is being performed on the second frequency, and does not limit whether data reception is performed on the second frequency.

That is, when the user equipment needs to perform internal PLMN at the second frequency (Public Land) When the Mobile Network (Public Land Mobile Network) communicates, the user equipment needs to receive and transmit data through the internal PLMN. Therefore, it is determined that the user equipment needs to transmit data on the second frequency; conversely, if the user equipment is only in the external PLMN. Communication, it is not necessary to perform data transmission on the second frequency, but data reception can still be performed.

The network device further includes:

The second communication unit 42, when the result of the determination is that data transmission needs to be performed on the second frequency, establish an RRC connection with the user equipment by using the first frequency, and send and receive to the user equipment by using dedicated RRC signaling. Resource pool.

The receiving resource pool can be understood as a resource pool that includes a communication sub-frequency on the second frequency; that is, when receiving the receiving resource pool configured on the network side, the user equipment can receive resources included in the resource pool. Receiving, selecting a resource from the sending resource pool for transmission, and receiving and transmitting data through the second frequency.

The manner of establishing an RRC connection by using the first frequency may be: the user equipment (UE) sends an RRC Connection Request message (RRC Connection Request) to the network side through the uplink CCCH, to request to establish an RRC connection;

Correspondingly, the network side may determine that the UE is established on the RRC dedicated channel according to the cause of the RRC connection request and the system resource status, and allocate the RNTI, the radio resource, and other resources (such as the L1 and L2 resources) to the UE.

Further, before the establishing an RRC connection with the user equipment by using the first frequency, and sending a resource pool for the second frequency to the user equipment by using dedicated RRC signaling, the second processing unit 41 determines Whether a receiving resource pool is included in a broadcast message of a frequency.

or,

The second processing unit 41 determines whether an indication for the second frequency is included in the broadcast message of the first frequency.

Alternatively, the second processing unit 41 determines whether the broadcast message of the first frequency includes the transmission Resource pool.

Specifically, or

When the result of the determination is that the data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, the broadcast message includes the transmission resource pool configured by the network side, and directly Obtain a sending resource pool in the broadcast message;

If the result of the determination is that the data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, it is determined that the broadcast message does not include the transmission resource pool configured by the network side. And establishing an RRC connection with the network side by using the first frequency, and acquiring a sending resource pool configured by the network side by using dedicated RRC signaling.

That is to say, the network side can receive the resource pool through the first frequency transmission, and if not sent, establish an RRC connection through the first frequency and acquire the receiving resource pool.

or,

When the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, and the broadcast message includes the indication of the second frequency on the network side, The first frequency establishes an RRC connection with the network side, and acquires a receiving resource pool configured by the network side by using dedicated RRC signaling;

If the result of the determination is that data transmission needs to be performed on the second frequency, and the broadcast message sent by the network side through the first frequency is received, the broadcast message does not include the indication of the second frequency on the network side. Then, the connection RRC connection is not established; at this time, the broadcast message can be obtained directly to the second frequency.

In addition, the second processing unit 41 determines that it is not necessary to send a receiving resource pool to the user equipment by using the first frequency when the determining result is that data transmission is not required on the second frequency.

When the determining does not need to send the receiving resource pool to the user equipment by using the first frequency, the method further includes:

The user equipment is notified to receive a broadcast message through the second frequency, and the receiving resource pool is obtained from the broadcast message sent by the second frequency.

That is to say, when it is not necessary to acquire the receiving resource pool by using the first frequency, the broadcast message sent by the second frequency may be received, and then the broadcast resource of the second frequency is detected whether there is a receiving resource pool configured by the network side.

In combination with the foregoing solution, the embodiment may be specifically:

"Do you need to transmit on the target frequency 2" can be applied to the scenario: for the intra-PLMN case, the user can transmit on frequency 2, but for the inter-PLMN, the user cannot transmit on frequency 2. Therefore, "whether it is necessary to transmit on the target frequency 2" can also be expressed by "whether or not intra/inter-PLMN communication needs to be performed on the target frequency 2".

If the transmission needs to be performed, access the cell at the current frequency 1, that is, establish an RRC connection, thereby obtaining a receiving resource pool from the dedicated RRC signaling;

Further, the current judgment can be made only for individual cases, for example:

When the cell at frequency 1 (first frequency) does not include a transmission resource pool in the broadcast message;

When the cell at frequency 1 (first frequency) does not include a receiving resource pool in the broadcast message;

The cell at frequency 1 contains an indication of frequency 2 (second frequency) in the broadcast message.

If the transmission is not required, there is no need to establish a connection. At this time, the broadcast information can be received by going to the target frequency (second frequency), thereby obtaining the receiving resource pool.

In Rel-15, eV2x is extended to a multi-carrier scenario, that is, one UE can transmit and receive on more than one carrier at the same time. By adopting the scheme provided by this embodiment, how the network on the frequency 1, that is, the first frequency (which is different from the target frequency 2, the target frequency 2, that is, the second frequency), indicates whether the user needs to access the cell on the current frequency 1, that is, An RRC connection is established to obtain a receive resource pool from dedicated RRC signaling.

It can be seen that, by adopting the above solution, when a user equipment can transmit and receive on multiple frequencies, based on whether the user equipment needs to transmit data on the second frequency, It is determined whether the receiving resource pool configured on the network side is acquired through the first frequency. In this way, the problem of resource configuration of the user equipment can be solved when the user equipment is in a multi-carrier scenario.

The embodiment of the present invention further provides a hardware component architecture of the user equipment or the network device. As shown in FIG. 5, the method includes at least one processor 51, a memory 52, and at least one network interface 53. The various components are coupled together by a bus system 54. It will be appreciated that bus system 54 is used to implement connection communication between these components. The bus system 54 includes, in addition to the data bus, a power bus, a control bus, and a status signal bus. However, for clarity of description, various buses are labeled as bus system 54 in FIG.

It is to be understood that the memory 52 in the embodiments of the present invention may be a volatile memory or a non-volatile memory, or may include both volatile and non-volatile memory.

In some embodiments, memory 52 stores elements, executable modules or data structures, or a subset thereof, or their extension set:

Operating system 521 and application 522.

The processor 51 is configured to be able to process the method steps of the foregoing Embodiment 1 or Embodiment 2, and details are not described herein.

The embodiment of the present invention provides a computer storage medium, where the computer storage medium stores computer executable instructions, and when the computer executable instructions are executed, the method steps of the first embodiment or the second embodiment are implemented.

Embodiments of the Invention The above apparatus may be stored in a computer readable storage medium if it is implemented in the form of a software function module and sold or used as a standalone product. Based on such understanding, the technical solution of the embodiments of the present invention may be embodied in the form of a software product in essence or in the form of a software product stored in a storage medium, including a plurality of instructions. A computer device (which may be a personal computer, server, or network device, etc.) is caused to perform all or part of the methods described in various embodiments of the present invention. The foregoing storage medium includes: a U disk, a mobile hard disk, a read only memory (ROM, Read Only) A variety of media that can store program code, such as a memory, a disk, or an optical disk. Thus, embodiments of the invention are not limited to any specific combination of hardware and software.

Correspondingly, an embodiment of the present invention further provides a computer storage medium, wherein a computer program is configured, and the computer program is configured to execute a data scheduling method according to an embodiment of the present invention.

While the preferred embodiments of the present invention have been disclosed for purposes of illustration, those skilled in the art will recognize that various modifications, additions and substitutions are possible, and the scope of the invention should not be limited to the embodiments described above.

Claims (39)

1. A configuration method for receiving a resource pool, which is applied to user equipment, including:

   Determining whether the user equipment needs to perform data transmission on the second frequency, and obtain a judgment result;

   And determining, according to the determination result, whether a receiving resource pool configured by the network side needs to be acquired by using the first frequency; wherein the first frequency is different from the second frequency.
2. The method of claim 1, wherein the determining whether the user equipment needs to transmit data on the second frequency comprises:

   Whether the user equipment needs to perform data transmission on the second frequency is determined based on whether the user equipment needs to perform internal or external PLMN communication on the second frequency.
3. The method of claim 2, wherein the determining whether the user equipment needs to perform data transmission on the second frequency based on whether the user equipment needs to perform internal or external PLMN communication on the second frequency comprises:

   Determining that the user equipment needs to perform data transmission on the second frequency when the user equipment needs to perform internal PLMN communication on the second frequency;

   When the user equipment needs to perform external PLMN communication on the second frequency, it is determined that the user equipment does not need to perform data transmission on the second frequency.
4. The method according to claim 1, wherein the determining, according to the determination result, whether the receiving resource pool configured by the network side needs to be acquired by using the first frequency comprises:

   When the result of the determination is that data transmission needs to be performed on the second frequency, an RRC connection is established with the network side by using the first frequency, and a receiving resource pool configured by the network side is obtained by using dedicated RRC signaling.
5. The method according to claim 4, wherein the method further comprises: establishing, by the first frequency, an RRC connection with the network side, and obtaining the receiving resource pool configured by the network side by using dedicated RRC signaling, the method further comprising:

   Receiving, by the network side, a broadcast message sent by using the first frequency, determining whether the broadcast message is in the broadcast message A receiving resource pool configured with the network side is included.
6. The method according to claim 4, wherein the method further comprises: establishing, by the first frequency, an RRC connection with the network side, and obtaining the receiving resource pool configured by the network side by using dedicated RRC signaling, the method further comprising:

   Receiving, by the network side, the broadcast message sent by the first frequency, determining whether the indication of the second frequency is included in the broadcast message.
7. The method according to claim 4, wherein the method further comprises: establishing, by the first frequency, an RRC connection with the network side, and obtaining the receiving resource pool configured by the network side by using dedicated RRC signaling, the method further comprising:

   The receiving, by the network side, the broadcast message sent by the first frequency, and determining whether the broadcast message includes a sending resource pool configured by the network side for the terminal device.
8. The method according to claim 1, wherein the determining, according to the determination result, whether the receiving resource pool configured by the network side needs to be acquired by using the first frequency comprises:

   When the result of the determination is that data transmission is not required on the second frequency, it is determined that the receiving resource pool configured by the network side is not required to be acquired by the first frequency.
9. The method according to claim 8, wherein the method further comprises: when determining that the receiving resource pool configured by the network side is not acquired by using the first frequency, the method further comprises:

   Receiving a broadcast message by using the second frequency, obtaining a receiving resource pool configured by the network side from the broadcast message sent by the second frequency.
10. A method for configuring a receiving resource pool, which is applied to a network device, and includes:

    Determining whether the user equipment needs to perform data transmission on the second frequency, and obtain a judgment result;

    And determining, according to the determining result, whether the receiving resource pool needs to be sent to the user equipment by using the first frequency; wherein the first frequency is different from the second frequency.
11. The method of claim 10, wherein the determining whether the user equipment needs to transmit data on the second frequency comprises:

    Whether the user equipment needs to perform data transmission on the second frequency is determined based on whether the user equipment needs to perform internal or external PLMN communication on the second frequency.
12. The method of claim 11, wherein the determining whether the user equipment needs to transmit data on the second frequency based on whether the user equipment needs to perform internal or external PLMN communication on the second frequency comprises:

    Determining that the user equipment needs to perform data transmission on the second frequency when the user equipment needs to perform internal PLMN communication on the second frequency;

    When the user equipment needs to perform external PLMN communication on the second frequency, it is determined that the user equipment does not need to perform data transmission on the second frequency.
13. The method of claim 10, wherein the determining, according to the determining result, whether the receiving of the receiving resource pool needs to be sent to the user equipment by using the first frequency comprises:

    When the result of the determination is that data transmission needs to be performed on the second frequency, an RRC connection is established with the user equipment by using the first frequency, and a receiving resource pool is sent to the user equipment by using dedicated RRC signaling.
14. The method according to claim 13, wherein said establishing an RRC connection with said user equipment by said first frequency, and transmitting a resource pool for said second frequency to said user equipment by dedicated RRC signaling The method also includes:

    It is determined whether the broadcast resource of the first frequency includes a receiving resource pool.
15. The method according to claim 13, wherein said establishing an RRC connection with said user equipment by said first frequency, and transmitting a resource pool for said second frequency to said user equipment by dedicated RRC signaling The method also includes:

    Determining whether the indication of the second frequency is included in the broadcast message of the first frequency.
16. The method according to claim 13, wherein said establishing an RRC connection with said user equipment by said first frequency, and transmitting a resource pool for said second frequency to said user equipment by dedicated RRC signaling The method also includes:

    It is determined whether the broadcast resource of the first frequency includes a sending resource pool.
17. The method of claim 10, wherein the determining, according to the determining result, whether the receiving of the receiving resource pool needs to be sent to the user equipment by using the first frequency comprises:

    When the result of the determination is that data transmission is not required on the second frequency, it is determined that the receiving resource pool is not required to be sent to the user equipment by using the first frequency.
18. The method according to claim 17, wherein the method further comprises: when the determining does not need to send the receiving resource pool to the user equipment by using the first frequency, the method further comprises:

    The user equipment is notified to receive a broadcast message through the second frequency, and the receiving resource pool is obtained from the broadcast message sent by the second frequency.
19. A user equipment comprising:

    The first processing unit determines whether the user equipment needs to perform data transmission on the second frequency, and obtains a determination result; and determines, according to the determination result, whether the receiving resource pool configured by the network side needs to be acquired by using the first frequency; One frequency is different from the second frequency.
20. The user equipment according to claim 19, wherein said first processing unit determines whether said user equipment needs to be on a second frequency based on whether said user equipment needs to perform internal or external PLMN communication on a second frequency Send data.
21. The user equipment according to claim 20, wherein the first processing unit determines that the user equipment needs to be performed on a second frequency when the user equipment needs to perform internal PLMN communication on the second frequency. Data transmission

    When the user equipment needs to perform external PLMN communication on the second frequency, it is determined that the user equipment does not need to perform data transmission on the second frequency.
22. The user equipment of claim 19, wherein the user equipment further comprises:

    The first communication unit, when the result of the determination is that data transmission needs to be performed on the second frequency, establishes an RRC connection with the network side by using the first frequency, and acquires a receiving resource pool configured by the network side by using dedicated RRC signaling.
23. The user equipment according to claim 22, wherein the first communication unit receives a broadcast message sent by the network side through the first frequency;

    The first processing unit determines whether the broadcast resource includes the receiving resource pool configured by the network side.
24. The user equipment according to claim 23, wherein the first communication unit receives a broadcast message sent by the network side through the first frequency;

    The first processing unit determines whether the indication of the second frequency on the network side is included in the broadcast message.
25. The user equipment according to claim 22, wherein the first communication unit receives a broadcast message sent by the network side through the first frequency;

    The first processing unit determines whether the broadcast resource configured by the network side is included in the broadcast message.
26. The user equipment according to claim 19, wherein the first processing unit determines that it is not necessary to acquire the network side configuration by using the first frequency when the determination result is that data transmission is not required on the second frequency. Resource pool.
27. The user equipment according to claim 26, wherein said first communication unit receives a broadcast message through a second frequency;

    The first processing unit obtains a receiving resource pool configured by the network side from the broadcast message sent by the second frequency.
28. A network device, including:

    The second processing unit determines whether the user equipment needs to perform data transmission on the second frequency, and obtains a determination result; and determines, according to the determination result, whether the receiving resource pool needs to be sent to the user equipment by using the first frequency; The first frequency is different from the second frequency.
29. The network device according to claim 28, wherein said second processing unit determines based on whether said user equipment needs to perform internal or external PLMN communication on a second frequency Whether the user equipment needs to perform data transmission on the second frequency.
30. The network device according to claim 29, wherein said second processing unit determines that said user equipment needs to be performed on a second frequency when said user equipment needs to perform internal PLMN communication on said second frequency Data transmission

    When the user equipment needs to perform external PLMN communication on the second frequency, it is determined that the user equipment does not need to perform data transmission on the second frequency.
31. The network device of claim 29, wherein the network device further comprises:

    a second communication unit, when the result of the determination is that data transmission needs to be performed on the second frequency, establish an RRC connection with the user equipment by using the first frequency, and send the receiving resource to the user equipment by using dedicated RRC signaling. Pool.
32. The network device according to claim 31, wherein the second processing unit determines whether a broadcast resource of the first frequency includes a receiving resource pool.
33. The network device according to claim 31, wherein said second processing unit determines whether an indication for the second frequency is included in the broadcast message of the first frequency.
34. The network device according to claim 31, wherein the second processing unit determines whether a broadcast resource of the first frequency is included in the broadcast message.
35. The network device according to claim 29, wherein the second processing unit determines that the data is not required to be sent to the user equipment by using the first frequency when the determining result is that data transmission is not required on the second frequency Receive resource pools.
36. The network device according to claim 35, wherein the second processing unit notifies the user equipment to receive a broadcast message through the second frequency, and obtain a receiving resource pool from the broadcast message sent by the second frequency.
37. A user equipment comprising: a processor and a memory for storing a computer program executable on the processor,

    Wherein the processor is configured to execute any one of claims 1-9 when the computer program is executed The steps of the method described.
38. A network device comprising: a processor and a memory for storing a computer program capable of running on the processor,

    Wherein the processor is operative to perform the steps of the method of any one of claims 10-18 when the computer program is run.
39. A computer storage medium storing computer executable instructions that, when executed, implement the method steps of any of claims 1-18.

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