WO2020063773A1 - Radio frequency resource allocation method, user equipment, and device having storage function - Google Patents

Abstract

Disclosed in the present invention are a radio frequency resource allocation method, a user equipment, and a device having a storage function. The radio frequency resource allocation method is executed by a user equipment provided with a first SIM card and a second SIM card, and comprises: upon detecting that the first SIM card sends a resource request, detecting whether the second SIM card is in a first state requiring the occupation of radio frequency resources, wherein the resource request comprises service requirements of the first SIM card; and if the second SIM card is in the first state, determining whether to allocate radio frequency resources to the first SIM card according to the service requirements of the first SIM card, wherein both the first SIM card and the second SIM card are SIM cards supporting a long-term evolution network. By means of the above method, the present invention can implement reasonable allocation of radio frequency resources of the user equipment.

Description

Radio frequency resource allocation method, user equipment and device with storage function [Technical Field]

The present invention relates to the field of communications, and in particular, to a radio frequency resource allocation method, user equipment, and a device with a storage function.

【Background technique】

With the development and deployment of LTE (LongTerm Evolution, Long Term Evolution) networks, LTE networks and 2G / 3G (second-generation communication systems / third-generation communication systems) networks coexist. In the initial stage of LTE network deployment, most of the terminals are implemented using CSFB (Circuit Switching Fallback) technology. CSFB technology refers to LTE terminals that reside on the LTE network and fall back to the CS of the 2G / 3G network when voice services need to be completed. (Circuit Switched) domain. Therefore, when CSFB technology is adopted, LTE networks mainly provide users with bandwidth data services, while voice services use 2G / 3G networks with high coverage and mature technologies.

Therefore, when a user uses an LTE phone card for voice services, it is implemented by using a terminal that supports CSFB technology. That is, when the CS service occurs on the LTE card, it needs to fall back to the 2G / 3G network. In the CSFB call process, the relevant information of the UE (User Equipment) is all on the MSC (Mobile Switching Center) side, and the MME (Mobility Management Entity) side has released its information. After returning to the LTE network, the LTE phone cartoon must be reattached on the LTE network through TAU (Tracking Area Update).

When the user equipment has two phone cards supporting the LTE network at the same time, the radio frequency resources of the user equipment can only be used by one phone card in the same time period. If the first phone card is in the attach process of CSFB and returns to the LTE network, When the second phone card also needs to use radio frequency resources for communication, the second phone card may preempt radio frequency resources, which may cause the first phone card to fail to attach and affect the normal communication of the first phone card.

[Summary of the Invention]

The present invention mainly solves how to reasonably allocate radio frequency resources of user equipment.

According to a first aspect, an embodiment of the present invention provides a method for allocating radio frequency resources. The method is performed by a user equipment provided with a first telephone card and a second telephone card. The method includes: Whether the phone card is in the first state that needs to occupy radio frequency resources, where the resource request includes the business requirements of the first phone card; if the second phone card is in the first state, it is determined whether to allocate radio frequency resources for the first phone card according to the service requirements of the first phone card Among them, the first telephone card and the second telephone card are both telephone cards supporting a long-term evolution network.

In a preferred embodiment of the present invention, after detecting whether the second phone card is in a first state that requires radio frequency resources, the method further includes: if the second phone card is in a second state that does not require radio frequency resources, it is the first state. The calling card allocates radio frequency resources.

In a preferred embodiment of the present invention, the above-mentioned determining whether to allocate radio frequency resources to the first phone card according to the service requirements of the first phone card includes: when the service requirements in the resource request of the first phone card belong to a specific service requirement, it is the first A telephone card allocates radio frequency resources; when the service requirements in the resource request of the first phone card do not belong to a specific service requirement, no radio frequency resources are allocated for the first phone card.

In a preferred embodiment of the present invention, the above-mentioned specific service requirements include an attachment requirement.

In a preferred embodiment of the present invention, the determining whether to allocate radio frequency resources for the first phone card according to the service requirements of the first phone card includes: determining whether the service needs of the first phone card are call requirements; if the service needs of the first phone card are not The call request suspends the resource request of the first calling card.

In a preferred embodiment of the present invention, after suspending the resource request of the first phone card, the method includes: setting a detection reminder to periodically remind the resource request of the first phone card to be suspended, and the user equipment responds to the detection reminder to detect the first Whether the two phone cards are in a second state not occupying radio frequency resources, so that when the second phone card is in a second state not occupying radio frequency resources, the user equipment responds to the resource request and allocates radio frequency resources to the first phone card; or, sets a detection reminder, The detection reminder is in a reminder state until the user equipment allocates radio frequency resources for the first phone card, and the detection reminder is cancelled.

In a preferred embodiment of the present invention, after suspending the resource request of the first phone card, the method includes: if it is detected that the second phone card is in a second state that does not occupy radio frequency resources, responding to the resource request and allocating radio frequency resources to the first phone card.

In a preferred embodiment of the present invention, after determining whether the service requirement of the first phone card is a call requirement, the method further includes: if the service requirement of the first phone card is a call requirement, suspending the second phone card corresponding to the first state And responds to the resource request, allocating radio frequency resources to the first phone card.

In a preferred embodiment of the present invention, the suspending the operation process of the second phone card corresponding to the first state includes: obtaining the number of times the operation process of the second phone card corresponding to the first state is suspended; if the number reaches a preset threshold , No matter whether the business requirement included in the resource request sent by the first telephone card is any task requirement, the radio frequency resources are no longer allocated to the first telephone card until the second telephone card completes the operation process corresponding to the first state.

In a preferred embodiment of the present invention, after allocating the radio frequency resources to the first phone card, the method includes: determining whether the first phone card ends the service requirement, and if the first phone card ends the service requirement, allocating radio frequency resources to the second phone card, So that the second phone card continues to complete the operation process corresponding to the first state.

In a preferred embodiment of the present invention, the above-mentioned first state is that the second phone card is performing an attachment process.

In a preferred embodiment of the present invention, the above-mentioned detecting whether the second phone card is in a first state occupying radio frequency resources includes: detecting whether the current event notification is the first event notification; the method further includes: determining whether the second phone card is attaching In the process, if the second phone card is in the attached state, the current event notification is set as the first event notification.

In a preferred embodiment of the present invention, after setting the current event notification as the first event notification, the method includes: detecting whether the second phone card has completed the attach process, and if the second phone card has completed the attach process, setting the current event notification as the first Two event notifications; the method further includes: if the current event notification is in the second event notification, in response to the resource request, allocating radio frequency resources to the first phone card.

In a preferred embodiment of the present invention, the detecting whether the second phone card has completed the attaching process includes: determining whether the second phone card has completed the attaching process by detecting whether an LTE network signal received by the second phone card is received.

In a preferred embodiment of the present invention, the above-mentioned detecting whether the second phone card has completed the attaching process includes: if a resource release request is received, determining that the second phone card has completed the attaching process.

In a preferred embodiment of the present invention, the setting the current event notification as the first event notification includes: setting an identifier corresponding to the current event notification as the first digital identifier, where the first digital identifier indicates that the current event notification is The first event notification; setting the current event notification as the second event notification includes: setting the identifier corresponding to the current event notification as the second digital identifier, where the second digital identifier indicates that the current event notification is the second event notification.

In a preferred embodiment of the present invention, if the second phone card is in the attached state, setting the current event notification as the first event notification includes: determining that the second phone card is in the second phone card when the second phone card completes the attach process using radio frequency resources. It is necessary to occupy the first state of radio frequency resources. If the first phone card sends a resource request again, it continues to determine whether to allocate resources for the first phone card according to the service requirements in the resource request of the first phone card.

In a preferred embodiment of the present invention, the first state is a call state.

In a second aspect, an embodiment of the present invention provides user equipment. The user equipment includes: a processor, a memory, and a communication circuit. The processor is coupled to the memory and the communication circuit. The memory is used to store program instructions. The processor and communication The circuit is configured to execute program instructions stored in the memory to implement the radio frequency resource allocation method as in the first aspect.

In a third aspect, an embodiment of the present invention provides a device having a storage function. The device stores program instructions, and the program instructions can be executed to implement the radio frequency resource allocation method as in the first aspect.

The beneficial effect of the present invention is: Different from the situation of the prior art, the present invention determines whether the state of the second phone card is in the first state that needs to occupy radio frequency resources when receiving the resource request of the first phone card. If the first state of radio frequency resources needs to be occupied, judging whether to allocate radio frequency resources for the first phone card according to the service requirements of the first phone card, a reasonable allocation of radio frequency resources for user equipment can be achieved.

Other features and advantages of the present invention will be explained in the following description, and partly become apparent from the description, or be understood by implementing the present invention. The objectives and other advantages of the present invention are achieved and obtained in the structures particularly pointed out in the description, the claims, and the drawings.

In order to make the above-mentioned objects, features, and advantages of the present invention more comprehensible, preferred embodiments are described below in detail with reference to the accompanying drawings, as follows.

[Brief Description of the Drawings]

In order to more clearly illustrate the specific embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the specific embodiments or the description of the prior art are briefly introduced below. Obviously, the appendixes in the following description The drawings are some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without paying creative labor.

FIG. 1 is a schematic flowchart of a first embodiment of a radio frequency resource allocation method according to the present invention; FIG.

2 is a schematic flowchart of an embodiment of a method for setting an event notification in a radio frequency resource allocation method according to the present invention;

3 is a schematic flowchart of a first embodiment of a method for determining whether to allocate a radio frequency resource for a first phone card in a radio frequency resource allocation method according to the present invention;

4 is a schematic flowchart of a second embodiment of a method for determining whether to allocate a radio frequency resource for a first phone card in a radio frequency resource allocation method according to the present invention;

5 is a schematic flowchart of a second embodiment of a radio frequency resource allocation method according to the present invention;

FIG. 6 is a schematic structural diagram of an embodiment of user equipment provided by the present invention; FIG.

FIG. 7 is a schematic structural diagram of an embodiment of a device with a storage function provided by the present invention.

【detailed description】

In order to make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are part of, but not all of, the present invention. The examples. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without making creative work fall into the protection scope of the present invention.

Please refer to FIG. 1. FIG. 1 is a schematic flowchart of a first embodiment of a radio frequency resource allocation method according to the present invention.

S101: When it is detected that the first phone card sends a resource request, it is detected whether the second phone card is in a first state that needs to occupy radio frequency resources, wherein the resource request includes a service requirement of the first phone card.

In a specific implementation scenario, at least two card slots are provided in a user equipment, and at least two phone cards can be inserted, so that a user can use at least two phone numbers simultaneously using only one user equipment. However, the radio frequency resources of the user equipment can only be used by one calling card in the same time period, and when at least two calling cards need to use radio frequency resources, radio frequency resource preemption occurs, causing at least one of the calling cards to be in progress. Forced to interrupt. If the process interrupted due to preemption of radio frequency resources is an important process, such as attachment, or a process that cannot be interrupted, such as a call, it will cause inconvenience to the user. Therefore, in this embodiment, the radio frequency resources are reasonably allocated for at least two phone cards.

In this implementation scenario, two card slots are provided in the user equipment, and two phone cards can be inserted. When each phone card needs to use resources, a resource request may be sent first, and the resource request includes the business requirements of the phone card. For example, if a telephone card needs data transmission services, a resource request including data transmission service requirements is sent to notify the user equipment to request the use of radio frequency resources for the user to perform data transmission services.

In this implementation scenario, after detecting the resource request sent by the first phone card, the user equipment detects the state of the second phone card, and determines whether the second phone card is in a first state that needs to occupy radio frequency resources. If the second phone card is in the second state that does not need to occupy radio frequency resources, it means that the radio frequency resources can be allocated to the first phone card. If the second phone card is in the first state that needs to occupy radio frequency resources, it is necessary to determine whether it can be the first phone card. Allocate radio frequency resources.

In this implementation scenario, it is determined whether the second phone card is in a first state that needs to occupy radio frequency resources by determining whether the current event notification is the first event notification. Specifically, when a phone card (a second phone card in this implementation scenario) is in a first state that needs to occupy radio frequency resources, the event notification is set as the first event notification to notify the user equipment that the current radio frequency resources have been used by the phone card. Occupy, and the process that the phone card occupies radio frequency resources cannot be interrupted. When the phone card completes the corresponding process, after the radio frequency resource is used, the event notification is set as the second event notification to notify the user equipment that the current radio frequency resource and the use are completed, and is available for other phone cards.

Specifically, please refer to FIG. 2, which is a schematic flowchart of an embodiment of a method for setting an event notification in a radio frequency resource allocation method provided by the present invention.

S201: Determine whether the second phone card is in the attachment process, and if the second phone card is in the attached state, set the current event notification as the first event notification.

In a specific implementation scenario, the first phone card and the second phone card are both phone cards supporting an LTE network, and the first state that needs to occupy radio frequency resources includes an attached state. When the LTE phone card performs voice services, it is implemented by using a terminal that supports CSFB technology. That is, when the CS service (including voice services, such as 12.2K voice service and 64K video phone service) occurs on the LTE card, it needs to fall back to the 2G / 3G network. In the CSFB call process, the relevant information of the UE (User Equipment) is all on the MSC (Mobile Switching Center) side, and the MME (Mobility Management Entity) side has released its information. After returning to the LTE network, the LTE phone cartoon must be reattached on the LTE network through TAU (Tracking Area Update). If the LTE phone card fails to attach, the phone card cannot access the LTE network, that is, it cannot perform any communication services. Therefore, the attaching process of the LTE phone card is very important, and the phone card should be prioritized to occupy radio frequency resources to successfully complete the attaching process.

Therefore, in this implementation scenario, when the user equipment determines that the second phone card is in the process of attaching, it sets the current event notification as the first event notification.

S202: Detect whether the second phone card has completed the attach process, and if the second phone card has completed the attach process, set the current event notification as a second event notification.

In a specific implementation scenario, the user equipment has determined that the second phone card is in the process of attaching. After setting the event notification to the first event notification, it continues to monitor the second phone card. When it is detected that the second phone card has completed the attach process, the current The event notification is set as a second event notification to indicate that the second phone card has completed the attach process and is in a second state that does not need to occupy radio frequency resources. In this implementation scenario, the user equipment can detect whether the second phone card has completed the attach process by detecting whether it has received the LTE network signal received by the second phone card.

In this implementation scenario, the user equipment detects the second phone card to obtain a message that the second phone card has completed the attach process. In other implementation scenarios, it may also send a resource release request to the user equipment after the second phone card completes the attach process. The user is notified that the second phone card has completed the attach process. After receiving the resource release request, the user equipment sets the current event notification as the second event notification. Further, the resource release request may include an identification of the second phone card.

In other implementation scenarios, if the second phone card has not occupied radio frequency resources, the current event notification may be the second event notification that was set last time after the second phone card was attached, or it may always be in the initial state. In this implementation, In the scenario, the initial state of the current event notification is set to the second event notification, because the second phone card has never occupied radio frequency resources, which is the same as the result of applying for the resources of the first phone card by the second phone card after it has used up the radio frequency resources. In other implementation scenarios, the initial state of the current event may also be set as the initial event notification, the effect of which is equivalent to the second event notification, which is not repeated here.

In other implementation scenarios, the first state that needs to occupy radio frequency resources may also include a call state. The call is an uninterruptible and timely communication. Therefore, if the second phone card is in the process of a call, the second phone card is in a state that requires radio frequency resources. First state. And after the second telephone cartoon conversation ends, the second telephone card is in a second state that does not need to occupy radio frequency resources. Correspondingly, when the second phone card is in the call state, the current event notification is set as the first event notification, and when the second phone card ends the call state, the current event notification is set as the second event notification.

In this implementation scenario, the event notification may be an identifier, such as a digital identifier “0” or “1”. When the event notification is set to the first event notification, the identifier is "1", and when the event notification is set to the second event notification, the identifier is "0". By reading the value of the identifier of the event notification, the user equipment can obtain whether there is currently a phone card in the first state that needs to occupy radio frequency resources. In other implementation scenarios, the event notification may also be other characters or character strings that can be modified.

S102: If the second phone card is in the first state, determine whether to allocate radio frequency resources for the first phone card according to the service requirements of the first phone card.

In this specific implementation scenario, the resource request includes the business requirements of the calling card. For example, if a telephone card needs data transmission services, a resource request including a data transmission service is sent to notify the user equipment to request the use of radio frequency resources for the user to perform data transmission services. The user equipment determines whether to allocate radio frequency resources for the first telephone card according to whether the service requirements of the first telephone card are preset service requirements.

Since the second phone card is in a first state that needs to occupy radio frequency resources at this time, when the first phone card sends a resource request, it is determined whether radio frequency resources need to be allocated for the first phone card according to the service requirements in the resource request of the first phone card. One or more specific service requirements can be preset. When the service requirements in the resource request of the first phone card belong to the specific service requirements, radio frequency resources are allocated to the first phone card. When the service requirements in the resource request of the first phone card are not When it belongs to the specific service requirement, radio frequency resources are not allocated for the first phone card.

Specifically, please refer to FIG. 3, which is a schematic flowchart of a first embodiment of a method for determining whether to allocate a radio frequency resource for a first phone card in a radio frequency resource allocation method provided by the present invention.

S301: Determine whether the service requirement of the first phone card is a call requirement.

In a specific implementation scenario, the specific service requirement is a call requirement, and the user equipment determines whether the service requirement of the first phone card included in the resource request is a call requirement. In other implementation scenarios, specific business requirements may also include attachment requirements.

In another implementation scenario, an identifier may be added to a specific service requirement, and the user equipment determines whether the service requirement belongs to a specific service requirement by reading whether the service requirement in the resource request has the identifier.

S302: If the service requirement of the first phone card is not a call requirement, suspend the resource request of the first phone card.

In a specific implementation scenario, if the service requirement of the first phone card is not a call requirement, the resource request of the first phone card is suspended, so that the second phone card uses radio frequency resources to complete the operation process corresponding to the first state. In this implementation scenario, the second telephone card can use a radio frequency resource to complete the attachment process.

In another implementation scenario, after the resource request of the first phone card is suspended, the first phone card may temporarily cancel the resource request and periodically send the resource request, so that the second phone card is in a second place that does not occupy radio frequency resources. In the state, the user equipment may respond to the resource request and allocate radio frequency resources for the first phone card.

In another implementation scenario, after the resource request of the first phone card is suspended, a detection reminder may be set to periodically remind the user device that the resource request of the first phone card is suspended, so that the user device responds to the detection reminder and detects Whether the second telephone card is in a second state that does not occupy radio frequency resources, so that when the second telephone card is in a second state that does not occupy radio frequency resources, the user equipment may respond to the resource request and allocate radio frequency resources to the first telephone card. Or the detection reminder is in a reminder state until the user equipment allocates radio frequency resources for the first phone card, and the detection reminder is cancelled.

S303: If it is detected that the second phone card is in a second state that does not occupy radio frequency resources, in response to the resource request, allocate radio frequency resources to the first phone card.

In a specific implementation scenario, after the user equipment determines that the resource request of the first phone card is suspended according to the service requirements in the resource request of the first phone card, the user equipment detects whether the second phone card is in a second state that does not occupy radio frequency resources. That is, the user equipment detects whether the second phone card has completed an operation process corresponding to the first state. In this implementation scenario, the user equipment detects that the second phone card completes the attach process and no longer occupies radio frequency resources, and then responds to the resource request sent by the first phone card, and allocates radio frequency resources to the first phone card.

In this implementation scenario, the user equipment detects the second phone card to obtain a message that the second phone card has completed the attachment process. For example, the user equipment determines whether the second phone card is complete by detecting whether it has received an LTE network signal received by the second phone card. Attach process. In other implementation scenarios, the second phone card may send a resource release request to the user equipment after completing the attach process to notify the user equipment that the second phone card has completed the attach process.

Please refer to FIG. 4, which is a schematic flowchart of a second embodiment of a method for determining whether to allocate a radio frequency resource to a first phone card in a radio frequency resource allocation method provided by the present invention.

S401: Determine whether the service requirement of the first phone card is a call requirement.

In this implementation scenario, step S401 in this embodiment is basically the same as step S301 in the first embodiment of the method for determining whether to allocate radio frequency resources for a first phone card in the radio frequency resource allocation method provided by the present invention, and is not repeated here. Go into details.

S402: If the service requirement of the first phone card is a call requirement, suspend the operation process of the second phone card corresponding to the first state, and allocate a radio frequency resource to the first phone card in response to the resource request. A calling card.

In a specific implementation scenario, specific service requirements include call requirements, and the service requirements of the first phone card are call requirements. Therefore, the user equipment responds to the resource request of the first phone card and allocates radio frequency resources to the first phone card. Since the second phone card is in the first state that needs to occupy radio frequency resources at this time, if radio frequency resources are to be allocated to the first phone card, the user equipment needs to suspend the operation process corresponding to the first state of the second phone card. For example, in this implementation scenario, the second phone card is in the attach process, and the user equipment suspends the attach process of the second phone card. In this implementation scenario, the user equipment suspends the operation process corresponding to the first state of the second phone card. For example, if the operation process corresponding to the first state is the attach process, the attach process of the second phone card is suspended. In other implementation scenarios, The user equipment suspends all communication related operations of the second phone card.

S403: determine whether the first phone card ends the service requirement, and if the first phone card ends the service requirement, allocate radio frequency resources to the second phone card, so that the second phone card continues to complete the service requirement An operation progress corresponding to the first state.

In a specific implementation scenario, after the user equipment allocates radio frequency resources to the first phone card according to the service requirements in the resource request sent by the first phone card, it is detected whether the first phone card ends the service requirement. For example, if the service demand in the resource request sent by the first phone card is a call demand, the user equipment detects whether the first phone card has completed the call service, thereby ending the call service demand.

When the first phone card has completed the service, thereby ending the service requirement, the radio frequency resources are idle, and the user equipment can allocate the radio frequency resources to the second phone card, so that the second phone card can use the radio frequency resources to continue to complete because the previous radio frequency resources were Suspended operation assigned to the first calling card. In this implementation scenario, the process in which the second phone card is suspended is the attach process. After the second phone card is allocated to a radio frequency resource, the second phone card uses the radio frequency resource to complete the attach process.

In this implementation scenario, when the second phone card uses the radio frequency resource to complete the attach process, the second phone card is in a first state that needs to occupy radio frequency resources. If the first phone card sends a resource request again, the user equipment continues to use the first phone card according to the first phone card. The service request in the resource request of the mobile terminal determines whether to allocate resources for the first calling card.

In other implementation scenarios, a parameter may be set, and this parameter may be the number of times the second phone card has completed the operation process corresponding to the first state, and if the number of times reaches a preset threshold (for example, 3 times, 5 times, etc.) Regardless of the task requirements of the service requirements included in the resource request sent by the first phone card, the radio frequency resources are no longer allocated to the first phone card until the second phone card completes the operation process corresponding to the first state.

This parameter can also be the length of time that the second calling card is suspended from completing the operation process corresponding to the first state. If the length of time reaches a preset threshold (for example, 1 minute, 3 minutes, etc.), regardless of the resources sent by the first calling card Regardless of the task requirements of the service requirements included in the request, radio frequency resources are no longer allocated to the first phone card until the second phone card completes the operation process corresponding to the first state.

In other implementation scenarios, different priorities may be assigned to various service requirements of the phone card in advance, and the resource request sent by the phone card may also include the priority of the service requirements of the phone card. After detecting the resource request, the user equipment determines whether to allocate radio frequency resources for the phone card according to the priority of the service requirements of the phone card included in the resource request. If the priority of the business requirements of the phone card is higher than or equal to a preset value, radio frequency resources are allocated to the phone card. If the priority of the business requirements of the phone card is lower than the preset value, the resource request of the phone card is suspended.

In other implementation scenarios, the user equipment may be provided with three or more card slots, and three or more phone cards may be inserted. When the user equipment detects a resource request sent by one of the phone cards A, it is detected whether the other remaining phone cards are in a first state that needs to occupy radio frequency resources. If one of the remaining phone cards B is in a first state that needs to occupy radio frequency resources, according to The service requirements included in the resource request of phone card A are used to determine whether radio frequency resources are allocated for phone card A. The specific process is basically similar to the process with two phone cards described in this embodiment. The difference is that the phone card that needs to be detected after receiving a resource request sent by a phone card includes all other phone cards, which will not be repeated here.

It can be known from the foregoing description that when a resource request sent by the first phone card is received in this embodiment, if the second phone card is in a first state that needs to occupy radio frequency resources at this time, the user equipment according to the resource request sent by the first phone card includes To determine whether to allocate radio frequency resources for the first phone card, a reasonable allocation of radio frequency resources for user equipment can be achieved, avoiding resource preemption, and affecting the normal communication of user equipment.

Please refer to FIG. 5, which is a schematic flowchart of a second embodiment of a radio frequency resource allocation method according to the present invention.

S501: When it is detected that the first phone card sends a resource request, it is detected whether the second phone card is in a first state that needs to occupy radio frequency resources, wherein the resource request includes a service requirement of the first phone card.

In this implementation scenario, step S501 in this embodiment is basically the same as step S101 in the first embodiment of the radio frequency resource allocation method provided by the present invention, and details are not described herein again.

S502: If it is detected that the second phone card is in a second state that does not occupy radio frequency resources, in response to the resource request, allocate radio frequency resources to the first phone card.

In a specific implementation scenario, since the second phone card is in a second state that does not need to occupy radio frequency resources at this time, the user equipment can directly respond to the resource request, allocate radio frequency resources to the first phone card, and there is no need to target the first phone card. The service requirement in the resource request of the mobile terminal determines whether radio frequency resources are allocated to the first phone card.

It can be known from the foregoing description that in this embodiment, when a resource request sent by the first phone card is received, if the second phone card is in a second state that does not need to occupy radio frequency resources at this time, it directly responds to the resource request and allocates radio frequency resources to the first A telephone card can realize the reasonable allocation of radio frequency resources of user equipment, avoid resource preemption, and affect the normal communication of user equipment.

Please refer to FIG. 6, which is a schematic structural diagram of an embodiment of a user equipment provided by the present invention. The user equipment 10 includes a processor 11, a memory 12, and a communication circuit 13. The processor 11 is coupled to the memory 12 and the communication circuit 13. The memory 12 is used to store program instructions, and the processor 11 and the communication circuit 13 are used to run the program instructions in the memory 12 for communication and execute the following methods:

When the processor 11 detects a resource request sent by the first telephone card through the communication circuit 13, it detects whether the second telephone card is in a first state that needs to occupy radio frequency resources through the communication circuit 13. The resource request includes the business requirements of the first phone card. If the processor 11 determines that the second phone card is in the first state, the processor 11 determines whether to allocate radio frequency resources for the first phone card according to the service requirements of the first phone card. Specifically, the processor 11 determines whether the service requirement of the first phone card is a call requirement. If the processor 11 determines that the service requirement of the first phone card is a call requirement, the processor 11 allocates radio frequency resources to the first phone card, so that the first phone card can use the radio frequency resources to complete its service requirements through the communication circuit 13. If the processor 11 determines that the service requirement of the first phone card is not a call requirement, the processor 11 suspends the resource request sent by the first phone card.

After the processor 11 allocates radio frequency resources for the first phone card, it is detected by the communication circuit 13 whether the first phone card has fulfilled its service requirements. If the first phone card has fulfilled its service requirements, the processor 11 allocates radio frequency resources to the second phone card. The second telephone card can use the radio frequency resources to complete the operation process that was previously suspended because the radio frequency resources were allocated to the first telephone card.

After the processor 11 suspends the resources sent by the first phone card, it is detected by the communication circuit 13 whether the second phone card has completed the operation process corresponding to the first state, and if the second phone card has completed the operation process corresponding to the first state, processing is performed. The processor 11 responds to the resource request of the first telephone card, and allocates radio frequency resources to the first telephone card, so that it can complete its service requirements.

It can be known from the above description that after the user equipment in this embodiment receives the resource request of the first phone card, if the second phone card is in the first state that needs to occupy radio frequency resources at this time, the user equipment is in accordance with the resource request of the first phone card. Determine whether to allocate radio frequency resources for the first phone card. If radio frequency resources are allocated to the first phone card, its business requirements are terminated on the first phone card. If the resource request of the first phone card is suspended, the radio resources are transferred after the second phone card completes the operation process corresponding to the first state. Assigned to the first phone card, so that it can use radio frequency resources to complete business requirements. A reasonable allocation of radio frequency resources of the user equipment can be achieved, so that both phone cards of the user equipment can meet the resource requirements and maintain normal communication.

Please refer to FIG. 7, which is a schematic structural diagram of an embodiment of a device with a storage function provided by the present invention. At least one program instruction 21 is stored in the device 20 having a storage function, and the program instruction 21 is used to execute the methods shown in FIGS. 1-5. In one embodiment, the device having a storage function may be a memory chip, a hard disk or a mobile hard disk or a USB flash drive, an optical disk, or other readable and writable storage tools in the device, or a server or the like.

It can be known from the foregoing description that the program instructions stored in the embodiment of the device with a storage function in this embodiment can receive the resource request of the first phone card, and if the second phone card is in the first state that needs to occupy radio frequency resources at this time, Then, the user equipment determines whether to allocate radio frequency resources for the first phone card according to the service requirements in the resource request of the first phone card. If the radio frequency resources are allocated to the first phone card, the radio frequency resources are allocated to the second phone card after the first phone card ends its service requirements, so that it can complete the operation process corresponding to the first state. Suspend, after the second phone card completes the operation process corresponding to the first state, the radio frequency resources are allocated to the first phone card, so that it can use the radio frequency resources to complete business requirements. It can realize the reasonable allocation of the radio frequency resources of the user equipment, avoid resource preemption, and affect the normal communication of the user equipment.

Different from the prior art, after the user equipment receives the resource request of the first phone card, if the second phone card is in the first state that needs to occupy radio frequency resources at this time, the user equipment judges according to the service requirements in the resource request of the first phone card Whether to allocate radio frequency resources for the first phone card. If the business requirement of the first telephone card is a call requirement, in response to the resource request of the first telephone card, radio frequency resources are allocated to the first telephone card. After the first phone card ends the service requirements, the radio frequency resources are allocated to the second phone card to complete the operation process corresponding to the first state. If the business requirement of the first phone card is not a call requirement, the resource request of the first phone card is suspended, and after detecting that the second phone card completes the operation process corresponding to the first state, radio frequency resources are allocated to the first phone card, so that It fulfills its business needs. It can realize the reasonable allocation of the radio frequency resources of the user equipment, avoid resource preemption, and affect the normal communication of the user equipment.

In addition, the terms "first", "second", "third", etc. are used for descriptive purposes only and should not be construed to indicate or imply relative importance.

Finally, it should be noted that the above embodiments are only specific implementations of the present invention, and are used to illustrate the technical solutions of the present invention, but not to limit them. The scope of protection of the present invention is not limited to this, although referring to the foregoing embodiments The present invention has been described in detail. Those skilled in the art should understand that anyone skilled in the art can still modify the technical solutions described in the foregoing embodiments or can easily think of it within the technical scope disclosed by the present invention. Changes, or equivalent replacements of some of the technical features; and these modifications, changes, or replacements do not deviate the essence of the corresponding technical solution from the spirit and scope of the technical solutions of the embodiments of the present invention, which should be covered within the protection scope of the present invention. Inside. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (20)

1. A radio frequency resource allocation method, wherein the method is performed by a user equipment provided with a first phone card and a second phone card, and includes:

   When detecting that the first phone card sends a resource request, detecting whether the second phone card is in a first state that needs to occupy radio frequency resources, wherein the resource request includes a service requirement of the first phone card;

   If the second phone card is in a first state, determining whether to allocate radio frequency resources for the first phone card according to the service requirements of the first phone card;

   The first telephone card and the second telephone card are both telephone cards supporting a long-term evolution network.
2. The method according to claim 1, wherein after the detecting whether the second phone card is in a first state that requires radio frequency resources, further comprising:

   If the second telephone card is in a second state that does not need to occupy radio frequency resources, radio frequency resources are allocated to the first telephone card.
3. The method according to claim 1, wherein the determining whether to allocate radio frequency resources for the first telephone card according to the service requirements of the first telephone card comprises:

   Allocating radio frequency resources to the first telephone card when the service requirement in the resource request of the first telephone card belongs to a specific service requirement;

   When the service requirement in the resource request of the first telephone card does not belong to the specific service requirement, no radio frequency resource is allocated for the first telephone card.
4. The method of claim 3, wherein the specific business requirement includes an attachment requirement.
5. The method according to claim 1, wherein the determining whether to allocate radio frequency resources for the first telephone card according to the service requirements of the first telephone card comprises:

   Determining whether the service requirement of the first phone card is a call requirement;

   If the service requirement of the first phone card is not a call requirement, the resource request of the first phone card is suspended.
6. The method according to claim 5, wherein after suspending the resource request of the first phone card, comprises:

   Setting a detection reminder to periodically remind that the resource request of the first phone card is suspended, and the user equipment responds to the detection reminder to detect whether the second phone card is in a second state that does not occupy radio frequency resources, so that When the second phone card is in a second state that does not occupy radio frequency resources, the user equipment responds to the resource request and allocates radio frequency resources to the first phone card;

   Or, a detection reminder is set, and the detection reminder is in a reminder state until the user equipment allocates radio frequency resources to the first phone card, and the detection reminder is cancelled.
7. The method according to claim 5, wherein after suspending the resource request of the first phone card, comprises:

   If it is detected that the second telephone card is in a second state that does not occupy radio frequency resources, in response to the resource request, radio frequency resources are allocated to the first telephone card.
8. The method according to claim 5, wherein after the determining whether the service requirement of the first phone card is a call requirement, the method further comprises:

   If the business requirement of the first phone card is a call requirement, suspending the operation process of the second phone card corresponding to the first state, and in response to the resource request, allocating radio frequency resources to the first phone card .
9. The method according to claim 8, wherein the suspending an operation process of the second phone card corresponding to the first state comprises:

   Acquiring the number of times that the second phone card has completed the operation process corresponding to the first state and is suspended;

   If the number of times reaches a preset threshold, no matter whether the business requirements included in the resource request sent by the first telephone card are any task requirements, no radio frequency resources will be allocated to the first telephone card until the second telephone card Complete the operation process corresponding to the first state.
10. The method according to claim 8, wherein after allocating radio frequency resources to the first phone card, comprises:

    Determine whether the first phone card ends the business requirement, and if the first phone card ends the business requirement, allocate radio frequency resources to the second phone card, so that the second phone card continues to complete the communication with all The operation process corresponding to the first state is described.
11. The method according to claim 1, wherein the first state is that the second phone card is performing an attachment process.
12. The method according to claim 11, wherein the detecting whether the second telephone card is in a first state occupying radio frequency resources comprises:

    Detecting whether the current event notification is the first event notification;

    The method further includes:

    Determine whether the second phone card is in the attachment process, and if the second phone card is in the attached state, set the current event notification as the first event notification.
13. The method according to claim 12, wherein after setting the current event notification as the first event notification, comprises:

    Detecting whether the second phone card has completed the attachment process, and if the second phone card has completed the attachment process, setting the current event notification as a second event notification;

    The method further includes:

    If the current event notification is in a second event notification, in response to the resource request, radio frequency resources are allocated to the first phone card.
14. The method according to claim 13, wherein the detecting whether the second phone card has completed the attaching process comprises:

    By detecting whether the LTE network signal received by the second phone card is received, it is determined whether the second phone card has completed the attachment process.
15. The method according to claim 13, wherein the detecting whether the second phone card has completed the attaching process comprises:

    If a resource release request is received, it is determined that the second phone card has completed the attach process.
16. The method according to claim 13, wherein the setting the current event notification as the first event notification comprises:

    Setting the identifier corresponding to the current event notification as a first digital identifier, where the first digital identifier indicates that the current event notification is a first event notification;

    The setting the current event notification as a second event notification includes:

    The identifier corresponding to the current event notification is set as a second digital identifier, where the second digital identifier indicates that the current event notification is a second event notification.
17. The method according to claim 13, wherein if the second phone card is in an attached state, setting the current event notification as the first event notification comprises:

    When the second phone card completes the attach process by using radio frequency resources, it is determined that the second phone card is in a first state that needs to occupy radio frequency resources. If the first phone card sends a resource request again, it continues to be based on the first phone card. The service requirements in the resource request determine whether to allocate resources for the first phone card.
18. The method according to claim 1, wherein the first state is a call state.
19. A user equipment, comprising: a processor, a memory, and a communication circuit, wherein the processor is coupled to the memory and the communication circuit;

    The memory is used to store program instructions;

    The processor and the communication circuit are configured to execute program instructions stored in the memory to implement the radio frequency resource allocation method according to any one of claims 1-8.
20. A device having a storage function, wherein program instructions are stored, and the program instructions can be executed to implement the radio frequency resource allocation method according to any one of claims 1-8.

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