METHOD AND APPARATUS FOR PROCESSING FAST RETURN MEASUREMENT TASK, STORAGE MEDIUM, AND ELECTRONIC DEVICE

A method and apparatus for processing a fast return measurement task, a storage medium, and an electronic device are provided. The method includes: determining a data service state of a terminal during a voice call; in response to determining that, when the voice call ends, the data service state is that there is no data service, performing Radio Resource Control (RRC) release on the terminal through an RRC release command; and in response to determining that the data service state is that there is data service, stopping executing other measurement tasks configured previously, and executing only the fast return measurement task on the terminal.

TECHNICAL FIELD

Embodiments of the present disclosure relate to the field of communications, and in particular, to a method and apparatus for processing a fast return measurement task, a storage medium, and an electronic device.

BACKGROUND

When conducting a call in a target system, a voice fallback user may simultaneously execute other measurement tasks. There is an upper limit on the number of measurement objects supported by a terminal, and when the voice service ends, a fast return measurement task configured by a network side for the terminal may be relatively late, which causes the following problems.

The fast return measurement task may exceed the upper limit of the number of measurement objects supported by the terminal. In this case, the terminal does not execute the fast return measurement task, and therefore cannot trigger measurement reporting to execute the operation of returning to the original system, thereby affecting a success rate index of fast return.

Even if the fast return measurement task does not exceed the upper limit of the number of measurement objects supported by the terminal, a delay index of fast return may be influenced due to the existence of other measurement tasks.

Aiming at the problems in the related art that the success rate of fast return of the terminal is low and the time delay of fast return of the terminal is large due to the existence of other measurement tasks, no solution has been proposed.

SUMMARY

The embodiments of the present disclosure provide a method and apparatus for processing a fast return measurement task, a storage medium, and an electronic device, which may at least solve the problems in the related art that the success rate of fast return of a terminal is low and the time delay of fast return of the terminal is large due to the existence of other measurement tasks.

According to the embodiments of the present disclosure, a method for processing a fast return measurement task is provided, including:determining a data service state of a terminal during a voice call;in response to determining that, when the voice call ends, the data service state is that there is no data service, performing Radio Resource Control (RRC) release on the terminal through an RRC release command; andin response to determining that the data service state is that there is data service, stopping executing other measurement tasks configured previously, and executing only the fast return measurement task on the terminal.

In an exemplary embodiment, performing the RRC release on the terminal through the RRC release command includes:sending the RRC release command to the terminal, wherein the RRC release command carries a priority order of target frequency points designated for fast return, and the RRC release command is used for instructing the terminal to return to a Fifth Generation communication (5G) system through idle state reselection according to the priority order of the target frequency points.

In an exemplary embodiment, stopping executing the other measurement tasks configured previously, and executing only the fast return measurement task on the terminal includes:deleting the other measurement tasks from a fast return measurement reconfiguration message, and caching the other measurement tasks; andat the same time, configuring the fast return measurement task for the terminal according to the priority order of the target frequency points.

In an exemplary embodiment, performing the fast return measurement task on the terminal includes:configuring execution duration for the fast return measurement task;within the execution duration, controlling the terminal to keep executing a measurement task, receiving a measurement report reported by the terminal, and controlling, according to the measurement report, the terminal to fast return to the 5G system through switching or redirection; andin a case where the execution duration is exceeded and the terminal does not return to the 5G system, deleting the fast return measurement task, and resuming the other measurement tasks.

In an exemplary embodiment, the method further includes:detecting and evaluating a channel condition, interference and other data service perception conditions of the data service, so as to obtain a detection and evaluation result;judging whether the detection evaluation result satisfies a preset condition;when the voice call ends or in a process of executing the fast return measurement task, triggering to perform blind redirection processing on the terminal of which the detection evaluation result satisfies the preset condition, so that the terminal returns to a Fifth Generation communication (5G) system through blind redirection and idle state reselection.

In an exemplary embodiment, triggering to perform the blind redirection processing on the terminal of which the detection evaluation result satisfies the preset condition includes:determining a target frequency point with the highest priority to be a redirection target frequency point according to a priority order of target frequency points designated for fast return; andsending a blind redirection command to the terminal, wherein the blind redirection command carries the redirection target frequency point and the priority order of the target frequency points, and the blind redirection command is used for instructing the terminal to return to the 5G system through blind redirection according to the redirection target frequency point, and in a case where the terminal fails in returning to the 5G system through blind redirection, return to the 5G system through idle state reselection according to the priority order of the target frequency points.

In an exemplary embodiment, judging whether the detection evaluation result satisfies the preset condition includes:judging whether a channel condition of the terminal in a serving cell satisfies a first preset threshold value, so as to obtain a first judgment result;judging whether interference on the terminal in the serving cell satisfies a second preset threshold value, so as to obtain a second judgment result;judging whether other data service perception conditions of the terminal in the serving cell satisfy a third preset threshold value, so as to obtain a third judgment result;in a case where at least one of the first judgment result, the second judgment result, and the third judgment result is positive, determining that the detection evaluation result meets the preset condition; andin a case where the first judgment result, the second judgment result and the third judgment result are all negative, determining that the detection evaluation result does not meet the preset condition.

According to another embodiment of the present disclosure, an apparatus for processing a fast return measurement task is also provided, including:a determination module, configured to determine a data service state of a terminal during a voice call;a releasing module, configured to, in response to determining that, when the voice call ends, the data service state is that there is no data service, perform Radio Resource Control (RRC) release on the terminal through an RRC release command; andan execution module, configured to, in response to determining that the data service state is that there is data service, stop executing other measurement tasks configured previously, and execute only the fast return measurement task on the terminal.

In an exemplary embodiment, the releasing module is further configured to:send the RRC release command to the terminal, wherein the RRC release command carries a priority order of target frequency points designated for fast return, and the RRC release command is used for instructing the terminal to return to a Fifth Generation communication (5G) system through idle state reselection according to the priority order of the target frequency points.

In an exemplary embodiment, the execution module includes:a deleting sub-module, configured to delete the other measurement tasks from a fast return measurement reconfiguration message, and caching the other measurement tasks; anda first configuration sub-module, configured to configure the fast return measurement task for the terminal according to the priority order of the target frequency points at the same time.

In an exemplary embodiment, the execution module includes:a second configuration sub-module, configured to configure execution duration for the fast return measurement task;a control sub-module, configured to, within the execution duration, control the terminal to keep executing a measurement task, receive a measurement report reported by the terminal, and control, according to the measurement report, the terminal to fast return to the 5G system through switching or redirection; anda recovery sub-module, configured to, in a case where the execution duration is exceeded and the terminal does not return to the 5G system, delete the fast return measurement task, and resuming the other measurement tasks.

In an exemplary embodiment, the apparatus further includes:a detection and evaluation module, configured to detect and evaluate a channel condition, interference and other data service perception conditions of the data service, so as to obtain a detection and evaluation result;a judgment module, configured to judge whether the detection evaluation result satisfies a preset condition; anda blind redirection module, configured to, when the voice call ends or in a process of executing the fast return measurement task, trigger to perform blind redirection processing on the terminal of which the detection evaluation result satisfies the preset condition, so that the terminal returns to a Fifth Generation communication (5G) system through blind redirection and idle state reselection.

In an exemplary embodiment, the blind redirection module may include:a determination sub-module, configured to determine a target frequency point with the highest priority to be a redirection target frequency point according to a priority order of target frequency points designated for fast return; anda sending sub-module, configured to send a blind redirection command to the terminal, wherein the blind redirection command carries the redirection target frequency point and the priority order of the target frequency points, and the blind redirection command is used for instructing the terminal to return to the 5G system through blind redirection according to the redirection target frequency point, and in a case where the terminal fails in returning to the 5G system through blind redirection, return to the 5G system through idle state reselection according to the priority order of the target frequency points.

In an exemplary embodiment, the judgment module is further configured to:judge whether a channel condition of the terminal in a serving cell satisfies a first preset threshold value, so as to obtain a first judgment result;judge whether interference on the terminal in the serving cell satisfies a second preset threshold value, so as to obtain a second judgment result;judge whether other data service perception conditions of the terminal in the serving cell satisfy a third preset threshold value, so as to obtain a third judgment result;in a case where at least one of the first judgment result, the second judgment result, and the third judgment result is positive, determine that the detection evaluation result meets the preset condition; andin a case where the first judgment result, the second judgment result and the third judgment result are all negative, determine that the detection evaluation result does not meet the preset condition.

According to another embodiment of the present disclosure, a computer-readable storage medium is further provided. The computer-readable storage medium stores a computer program, wherein the computer program, when running on a processor, causes the processor to execute the operations in any one of the method embodiments.

According to another embodiment of the present disclosure, also provided is an electronic device, including a memory and a processor, wherein the memory stores a computer program, and the processor is configured to run the computer program so as to execute the operations in any one of the method embodiments.

According to the embodiments of the present disclosure, a data service state of a terminal during a voice call is determined; in response to determining that, when the voice call ends, the data service state is that there is no data service, RRC release is performed on the terminal through an RRC release command; and in response to determining that the data service state is that there is data service, the execution of other measurement tasks configured previously is stopped, and only the fast return measurement task is executed on the terminal. The problems in the related art that the success rate of fast return of a terminal is low and the time delay of fast return of the terminal is large due to the existence of other measurement tasks can be solved, such that indexes such as the time delay of fast return and the success rate of fast return may be effectively improved.

DETAILED DESCRIPTION

Embodiments of the present disclosure will be described below in detail with reference to the accompanying drawings and in conjunction with embodiments.

It should be noted that, terms such as “first” and “second” in the description, claims, and accompanying drawings of the present disclosure are used to distinguish similar objects, but are not necessarily used to describe a specific sequence or order.

The method embodiments provided in the embodiments of the present disclosure may be executed in a mobile terminal, a computer terminal or a similar computing device. Taking the implementation on a mobile terminal as an example,FIG.1is a block diagram of the hardware structure of a mobile terminal for implementing a method for processing a fast return measurement task according to the embodiments of the present disclosure. As shown inFIG.1, a mobile terminal may include one or more (only one is shown inFIG.1) processors102(the processors102may include, but are not limited to, processing components such as a Micro Controller Unit (MCU) or a programmable logic device (e.g., a Field Programmable Gate Array, FPGA)) and a memory104for storing data. The mobile terminal may further include a transmission device106for a communication function and an input/output device108. A person having ordinary skill in the art may understand that the structure shown inFIG.1is merely exemplary, which does not limit the structure of the foregoing mobile terminal. For example, the mobile terminal may further include more or fewer components than shown inFIG.1, or have a different configuration from that shown inFIG.1.

The memory104may be used for storing a computer program, for example, a software program and modules of application software, such as a computer program corresponding to the method for processing the fast return measurement task in the embodiments of the present disclosure. The processor102runs the computer program stored in the memory104, so as to execute various function applications and service chain address pool slice processing, thereby realizing the described method. The memory104may include high-speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some instances, the memory104may further include a memory remotely located with respect to the processor102, and the memory remotely located may be connected to the mobile terminal over a network. Examples of such network include, but are not limited to, the Internet, an intranet, a local area network, a mobile communication network, and combinations thereof.

The transmission device106is configured to receive or transmit data via a network. Specific examples of the described network may include a wireless network provided by a communication provider of the mobile terminal. In an example, the transmission device106may include a Network Interface Controller (NIC) that may be coupled to other network devices via a base station to communicate with the Internet. In an example, the transmission device106may be a Radio Frequency (RF) module for communicating wirelessly with the Internet.

A method for processing a fast return measurement task running on the described mobile terminal or network architecture is provided in the embodiments of the present disclosure.FIG.2is a flowchart of a method for processing a fast return measurement task according to the embodiments of the present disclosure. As shown inFIG.2, the flow includes the following operations S202to S206.

At S202, a data service state of a terminal during a voice call is determined.

Considering that different bearers may adopt different transmission intervals for data packets, the data service state may be detected by respectively configuring different inactive timers for different bearers. For a determined bearer of the data service, when no data packet is transmitted beyond a specified duration, it is considered that the bearer has no data service. For all the data service bearers established for a user, it is considered that the user has no data service when none of the data service bearers has a data service.

At S204, in response to determining that, when the voice call ends, the data service state is that there is no data service, RRC release is performed on the terminal through an RRC release command.

For a user having no data service, a 4G base station directly performs RRC release, and an RRC release command carries dedicated reselection priority information according to a priority order of target frequency points designated for fast return. The higher the priority of the target frequency point is, the higher the corresponding carried dedicated reselection priority is, enabling the user to return to the 5G system through idle state reselection according to the priority order of the target frequency points designated for fast return, thereby preventing other measurement tasks in a connection state from affecting the success rate and the time delay of fast return.

At S206, in response to determining that the data service state is that there is data service, execution of other measurement tasks configured previously is stopped, and only the fast return measurement task is executed on the terminal.

In the embodiments of the present disclosure, the operation S206may include: the other measurement tasks are deleted from a fast return measurement reconfiguration message, and are cached; and at the same time, the fast return measurement task is configured for the terminal according to the priority order of the target frequency points.

For a user having a data service, a 4G base station may delete, in a fast return measurement reconfiguration message, other measurement tasks and related measurement objects (including measurement objects corresponding to fast return target frequency points) configured previously and cache the deleted other measurement tasks and related measurement objects, and at the same time, configure a new measurement task for the terminal according to the priority order of target frequency points designated for the fast return. In this way, the normal operation of the data service is ensured, while preventing other measurement tasks in the connection state from affecting the success rate and the time delay of fast return.

By the operations S202to S206, a data service state of a terminal during a voice call is determined; in response to determining that, when the voice call ends, the data service state is that there is no data service, RRC release is performed on the terminal through an RRC release command; and in response to determining that the data service state is that there is data service, the execution of other measurement tasks configured previously is stopped, and only the fast return measurement task is executed on the terminal. The problems in the related art that the success rate of fast return of a terminal is low and the time delay of fast return of the terminal is large due to the existence of other measurement tasks can be solved, such that indexes such as the time delay of fast return and the success rate of fast return may be effectively improved.

In the embodiments of the present disclosure, the operation S204may include an operation of sending the RRC release command to the terminal, wherein the RRC release command carries a priority order of target frequency points designated for fast return, and the RRC release command is used for instructing the terminal to return to a Fifth Generation communication (5G) system through idle state reselection according to the priority order of the target frequency points.

In an exemplary embodiment, for a user having a data service, in order to prevent a user's off-line problem caused by stopping other measurement tasks, a 4G base station needs to configure execution duration for a fast return measurement task; within the execution duration, the terminal is controlled to keep executing a measurement task, a measurement report reported by the terminal is received, and the terminal is controlled, according to the measurement report, to fast return to the 5G system through switching or redirection; and in a case where the execution duration is exceeded and the terminal does not return to the 5G system, the fast return measurement task is deleted, and the other measurement tasks are resumed. The execution duration may be manually and statically configured, or automatically calculated according to the number of target frequency points designated for fast return. During the execution duration, the terminal is controlled to keep performing the fast return measurement task normally, and a fast return switching or a redirection operation is normally triggered for a received fast return measurement report reported by the terminal. If the terminal does not return to the 5G system before the expiration of the execution duration, it is considered that the 5G coverage condition is not satisfied, and the 4G base station needs to delete the fast return measurement task and recover the previously cached measurement tasks.

In an exemplary embodiment, for a user having a data service, in addition to controlling the execution duration of fast return measurement to prevent a user's off-line problem caused by stopping other measurement tasks, channel condition, interference and other data service perception conditions may be further evaluated for the data service. When the voice call ends or in a process of executing the fast return measurement task, blind redirection operation may be directed triggered for a user whose detection evaluation result is poor. In some exemplary implementations, a channel condition, interference and other data service perception conditions of the data service are detected and evaluated to obtain a detection and evaluation result; whether the detection evaluation result satisfies a preset condition is judged; when the voice call ends or in a process of executing the fast return measurement task, a blind redirection processing is triggered for the terminal whose detection evaluation result meets the preset condition, so that the terminal returns to a 5G system through blind redirection and idle state reselection. In some exemplary implementations, a target frequency point with the highest priority is determined to be a redirection target frequency point according to a priority order of target frequency points designated for fast return; and a blind redirection command is sent to the terminal, wherein the blind redirection command carries the redirection target frequency point and the priority order of the target frequency points, and the blind redirection command is used for instructing the terminal to return to the 5G system through blind redirection according to the redirection target frequency point, and in a case where the terminal fails in returning to the 5G system through blind redirection, return to the 5G system through idle state reselection according to the priority order of the target frequency points.

The redirection target frequency point may carry a frequency point with a highest priority and designated for fast return, and at the same time, may carry dedicated reselection priority information according to the priority order of the target frequency points designated for fast return. The higher the priority of the target frequency point is, the higher the carried dedicated reselection priority is, and the user is controlled to return to the 5G system through blind redirection and idle state reselection according to the priority order of the target frequency points designated for fast return, thereby preventing the user from continuing to reside in the present cell and causing the off-line problem of the user. Further, the operation of judging whether the detection evaluation result satisfies the preset condition includes: judging whether a channel condition of the terminal in a serving cell satisfies a first preset threshold value, so as to obtain a first judgment result; judging whether interference on the terminal in the serving cell satisfies a second preset threshold value, so as to obtain a second judgment result; judging whether other data service perception conditions of the terminal in the serving cell satisfy a third preset threshold value, so as to obtain a third judgment result; in a case where at least one of the first judgment result, the second judgment result, and the third judgment result is positive, determining that the detection evaluation result meets the preset condition; and in a case where the first judgment result, the second judgment result and the third judgment result are all negative, determining that the detection evaluation result does not meet the preset condition.

The channel condition, interference and other data service perception conditions may be detected and evaluated based on, but are not limited to, the following judgment conditions (any judgment condition): a measurement result (including Reference Signal Received Power (RSRP), Reference Signal Received Quality (RSRQ), Signal to Interference & Noise Ratio (SINR), etc.) for a serving cell reported by the user satisfies a specified threshold (corresponding to the described first preset threshold); the interference (including but not limited to uplink SINR, Noise and Interference (NI), Modulation and Coding Scheme (MCS), Channel Quality Information (CQI), Block Error Rate (BLER), etc.) to a user in a serving cell satisfies a specified threshold (corresponding to the described second preset threshold); other data service perception conditions (including but not limited to spectrum efficiency, packet loss rate, time delay, etc.) of the user in the serving cell satisfy a specified threshold (a third preset threshold value).

In the embodiments of the present disclosure, a 4G base station evaluates, with respect to an EPS Fallback user, whether there is a data service to be performed during a voice call, and with respect to a user without a data service, performs RRC release when the voice service ends, so that the user returns to a 5G system through idle state reselection; with regard to a user having a data service, only a fast return measurement task is executed by stopping other measurement tasks, and a timer is started to control the maximum execution duration of the fast return measurement task. The technical solution may solving the problems that the success rate of fast return of a terminal is low and the time delay of fast return of the terminal is large due to the existence of other measurement tasks. By means of the method, indexes such as the time delay of fast return and the success rate of fast return can be effectively improved.

FIG.3is a schematic diagram of a method for ensuring fast return to 5G after an EPS Fallback service ends according to the embodiments of the present disclosure. As shown inFIG.3, assuming that the configuration of the priority of the target frequency points for fast return is F1>F2>F3, the method includes the following operations1to3.

At operation1, whether there is a data service during a voice call is evaluated, and a data service state is detected by respectively configuring inactive timers for different bearers. Assuming that there are five EPS Fallback users, when a voice service of a 4G system ends, UE1does not have a data service, UE2has a data service and the data service is poor (for example, an uplink SINR is lower than a specified threshold), and UE3, UE4and UE5have a data service and the data service is good.

At operation2, according to the data service state of the user when the voice service ends, the 4G base station respectively performs the following operations for the five users.

For UE1, RRC release is performed, where the RRC release command carries a dedicated reselection priority F1>F2>F3.

For UE2, the F1frequency point is selected to perform blind redirection, where a redirection command carries a dedicated reselection priority F1>F2>F3.

For UE3, UE4and UE5, other measurement tasks and related measurement objects (including the measurement objects corresponding to the target frequency points designated for fast return) configured previously are deleted, and a new fast return measurement task is configured for the terminal according to the order of F1, F2and F3, i.e., F1>F2>F3.

At operation3, with regard to UE3, UE4and UE5, the 4G base station configures execution duration of 1.5 s for the fast return measurement task, and performs a corresponding operation according to the behavior of each user.

Assuming that the data service of UE3is always good within the execution duration and the fast return is successful for UE3, there is no need to perform other additional operations in the 4G system.

Assuming that the data service of UE4becomes poor (for example, an uplink SINR is lower than a specified threshold) within the execution duration, an F1frequency point is selected to perform blind redirection on UE4, and a redirection command carries a dedicated reselection priority F1>F2>F3.

Assuming that the data service of UE5is always good within the execution duration but UE5fails in fast returning to the 5G system, and UE5still resides in the 4G system after the execution duration expires, it is considered that the 5G coverage condition is not satisfied, and the 4G base station deletes the fast return measurement task and restores the previously cached measurement tasks.

With regard to the EPS Fallback users, the 4G base station evaluates whether there is ongoing data service during a voice call, and with regard to a user without a data service, RRC release is performed when the voice service ends, so that the user returns to a 5G system through an idle state reselection; with regard to a user having a data service, only a fast return measurement task is executed by stopping other measurement tasks, and a timer is started to control the maximum execution duration of the fast return measurement task. By means of the method, indexes such as the time delay of fast return and the success rate of fast return can be effectively improved.

According to another embodiment of the present disclosure, an apparatus for processing a fast return measurement task is also provided.FIG.4is a block diagram of an apparatus for processing a fast return measurement task according to the embodiments of the present disclosure. As shown inFIG.4, the apparatus includes:a determination module42, configured to determine a data service state of a terminal during a voice call;a releasing module44, configured to, in response to determining that, when the voice call ends, the data service state is that there is no data service, perform Radio Resource Control (RRC) release on the terminal through an RRC release command; andan execution module46, configured to, in response to determining that the data service state is that there is data service, stop executing other measurement tasks configured previously, and execute only the fast return measurement task on the terminal.

In an exemplary embodiment, the releasing module44is further configured to:send the RRC release command to the terminal, wherein the RRC release command carries a priority order of target frequency points designated for fast return, and the RRC release command is used for instructing the terminal to return to a Fifth Generation communication (5G) system through idle state reselection according to the priority order of the target frequency points.

In an exemplary embodiment, the execution module46includes:a deleting sub-module, configured to delete the other measurement tasks from a fast return measurement reconfiguration message, and caching the other measurement tasks; anda first configuration sub-module, configured to configure the fast return measurement task for the terminal according to the priority order of the target frequency points at the same time.

In an exemplary embodiment, the execution module46includes:a second configuration sub-module, configured to configure execution duration for the fast return measurement task;a control sub-module, configured to, within the execution duration, control the terminal to keep executing a measurement task, receive a measurement report reported by the terminal, and control, according to the measurement report, the terminal to fast return to the 5G system through switching or redirection; anda recovery sub-module, configured to, in a case where the execution duration is exceeded and the terminal does not return to the 5G system, delete the fast return measurement task, and resuming the other measurement tasks.

FIG.5is a block diagram of an apparatus for processing a fast return measurement task according to an exemplary embodiment of the present disclosure. As shown inFIG.5, the apparatus further includes:a detection and evaluation module52, configured to detect and evaluate a channel condition, interference and other data service perception conditions of the data service, so as to obtain a detection and evaluation result;a judgment module54, configured to judge whether the detection evaluation result satisfies a preset condition; anda blind redirection module56, configured to, when the voice call ends or in a process of executing the fast return measurement task, trigger to perform blind redirection processing on the terminal of which the detection evaluation result satisfies the preset condition, so that the terminal returns to a Fifth Generation communication (5G) system through blind redirection and idle state reselection.

In an exemplary embodiment, the blind redirection module56may include:a determination sub-module, configured to determine a target frequency point with the highest priority to be a redirection target frequency point according to a priority order of target frequency points designated for fast return; anda sending sub-module, configured to send a blind redirection command to the terminal, wherein the blind redirection command carries the redirection target frequency point and the priority order of the target frequency points, and the blind redirection command is used for instructing the terminal to return to the 5G system through blind redirection according to the redirection target frequency point, and in a case where the terminal fails in returning to the 5G system through blind redirection, return to the 5G system through idle state reselection according to the priority order of the target frequency points.

In an exemplary embodiment, the judgment module is further configured to:judge whether a channel condition of the terminal in a serving cell satisfies a first preset threshold value, so as to obtain a first judgment result;judge whether interference on the terminal in the serving cell satisfies a second preset threshold value, so as to obtain a second judgment result;judge whether other data service perception conditions of the terminal in the serving cell satisfy a third preset threshold value, so as to obtain a third judgment result;in a case where at least one of the first judgment result, the second judgment result, and the third judgment result is positive, determine that the detection evaluation result meets the preset condition; andin a case where the first judgment result, the second judgment result and the third judgment result are all negative, determine that the detection evaluation result does not meet the preset condition.

The embodiments of the present disclosure also provide a computer-readable storage medium. The computer-readable storage medium stores a computer program, wherein the computer program, when running on a processor, causes the processor to execute the operations in any one of the described method embodiments.

In an exemplary embodiment, the computer-readable storage medium may include, but is not limited to, any medium that can store a computer program, such as a USB flash drive, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic disk, or an optical disc.

The embodiments of the present disclosure also provide an electronic device, including a memory and a processor. The memory stores a computer program. The processor is configured to run the computer program to execute operations in any method embodiment described above.

In an exemplary embodiment, the electronic device may further include a transmission device and an input/output device, wherein the transmission device is connected to the processor, and the input/output device is connected to the processor.

For specific examples in the embodiments of the present disclosure, reference may be made to the examples described in the foregoing embodiments and exemplary embodiments, and details are not repeatedly described herein in the embodiments of the present disclosure.

Obviously, those having ordinary skill in the art should understand that each module or each operation of the embodiments of the present disclosure can be implemented by a universal computing device, can be centralized on a single computing device or distributed on a network composed of a plurality of computing devices, and can be implemented by program codes executable for the computing devices, so that they can be stored in a storage device and executed by the computing devices. Furthermore, under some conditions, the shown or described operations can be executed in a sequence different from that described here, or they are made into integrated circuit modules respectively, or a plurality of modules or operations therein are made into a single integrated circuit module for implementation. As such, the embodiments of the present disclosure are not limited to any particular hardware and software combination.

The foregoing descriptions are merely exemplary embodiments of the present disclosure, but are not intended to limit the present disclosure. For those having ordinary skill in the art, the present disclosure may have various modifications and variations. Any modifications, equivalent replacements, improvements and the like made within the principle of the present disclosure shall belong to the scope of protection of the present disclosure.