CN111601349A - Terminal network switching method and device and terminal equipment - Google Patents

Abstract

The invention is suitable for the technical field of communication, and provides a terminal network switching method, a device and terminal equipment, wherein the method comprises the following steps: acquiring a first retransmission rate and first signal measurement data based on a first service cell, wherein the first service cell is a service cell to which a terminal is currently connected; if the first retransmission rate is higher than the preset transmission standard, switching a serving cell currently connected with the terminal; after the service cell to which the terminal is currently connected is switched, if the first signal measurement data exceeds a preset signal standard, the first service cell is listed in a temporary connection prohibition list. The invention can solve the problem that the abnormal configuration of the network still causes the abnormal data transmission condition of the network after the use switching, thereby improving the effect of network switching.

Description

Terminal network switching method and device and terminal equipment

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a terminal network switching method, an apparatus, and a terminal device.

Background

When the current mobile terminal resides in a mobile network cell, the base station mainly depends on signal measurement data, such as signal strength index and signal quality index, to measure and report signals of the serving cell and the neighboring serving cell, and then depends on the report result to switch networks, so that the mobile terminal performs mobile communication service in a better network environment.

However, the above network switching method based on signal quality and signal strength may still cause the mobile terminal to reside in a network environment with poor signal quality or abnormal signals, which may cause situations such as unsmooth data transmission, packet loss, retransmission, and flow interruption, and finally affect experiences such as internet access and communication.

Disclosure of Invention

The invention mainly aims to provide a terminal network switching method, a terminal network switching device and terminal equipment, and aims to solve the problems that a network switching mode based on signal quality and signal strength in the prior art cannot achieve a good network switching effect, and a mobile terminal still resides in a network environment with poor signal quality or abnormal signals.

In order to achieve the above object, a first aspect of embodiments of the present invention provides a terminal network switching method, including:

acquiring a first retransmission rate and first signal measurement data based on a first serving cell, wherein the first serving cell is a serving cell to which a terminal is currently connected;

if the first retransmission rate is higher than a preset transmission standard, switching a serving cell currently connected with the terminal;

after switching a service cell to which a terminal is currently connected, if the first signal measurement data exceeds a preset signal standard, listing the first service cell in a temporary connection prohibition list.

A second aspect of the present invention provides a terminal network switching apparatus, including:

a first serving cell data obtaining module, configured to obtain a first retransmission rate and first signal measurement data based on a first serving cell, where the first serving cell is a serving cell to which a terminal is currently connected;

the terminal network switching module is used for switching a service cell currently connected with the terminal if the first retransmission rate is higher than a preset transmission standard;

and the temporary connection prohibition list setting module is used for listing the first service cell into a temporary connection prohibition list after the service cell currently connected with the terminal is switched and if the first signal measurement data exceeds a preset signal standard.

A third aspect of embodiments of the present invention provides a terminal device, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, and the processor implements the steps of the method provided in the first aspect when executing the computer program.

A fourth aspect of embodiments of the present invention provides a computer-readable storage medium storing a computer program which, when executed by a processor, implements the steps of the method as provided in the first aspect above.

The embodiment of the invention provides a terminal network switching method, which analyzes the condition of a service cell currently connected with a terminal according to a first retransmission rate of a first service cell currently connected with the terminal. And when the serving cell to which the terminal is currently connected needs to be switched is obtained according to the first retransmission rate, whether the first signal measurement data of the first serving cell reaches a preset signal standard is further analyzed, so that whether the network environment where the terminal is located is good in signal but high in retransmission rate is determined, and the first serving cell with good signal but high in retransmission rate is listed in the temporary connection prohibition list, so that the situation that the terminal is connected to the first serving cell again when the terminal switches the network again is avoided. Therefore, the retransmission rate of the terminal network switching method provided by the embodiment of the invention is used as the quality index of the serving cell to judge whether to perform network switching, so that the problem that the network after switching still has abnormal data transmission due to abnormal network configuration with high retransmission rate and good signal measurement data performance is solved, and the effect of network switching is improved.

Drawings

Fig. 1 is a schematic diagram illustrating an implementation flow of a terminal network handover method according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of an implementation of step S102 in FIG. 1;

FIG. 3 is a schematic flow chart of another implementation of step S102 in FIG. 1;

fig. 4 is a schematic structural diagram of a terminal network switching apparatus according to an embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Suffixes such as "module", "part", or "unit" used to denote elements are used herein only for the convenience of description of the present invention, and have no specific meaning in themselves. Thus, "module" and "component" may be used in a mixture.

As shown in fig. 1, an embodiment of the present invention provides a terminal network handover method, which performs network handover according to a retransmission rate of a network serving cell, and includes, but is not limited to, the following steps:

s101, obtaining first retransmission rate and first signal measurement data based on a first service cell.

In the above step S101, the first serving cell is a cell providing a network service to the terminal.

The retransmission rate is used for representing the data transmission condition of the terminal in the serving cell, and if the retransmission rate is lower, the data transmission of the terminal in the serving cell is smooth; if the first retransmission rate is higher, the terminal has a large number of actions such as retransmission, repeated packet, packet loss and the like in the serving cell.

The signal measurement data is used for representing a signal strength index, a signal quality index and the like of network connection of the terminal in the serving cell, and if the signal measurement data is good in performance, namely the signal strength is high and the signal interference is low, the data transmission speed of the terminal in the serving cell is high; if the measured data of the signal is poor in performance, that is, the signal strength is low and the signal interference is high, the data transmission speed of the terminal in the serving cell is low.

And S102, if the first retransmission rate is higher than a preset transmission standard, switching a service cell currently connected with the terminal.

In step S102, the preset transmission standard is used to determine whether the retransmission rate can support the terminal to perform normal data transmission.

When the first retransmission rate is higher than the preset transmission standard, it indicates that the first serving cell with the first retransmission rate causes a large number of actions such as retransmission, repeated packet, packet loss and the like to occur in the terminal during data transmission, and at this time, the serving cell to which the terminal is currently connected needs to be switched.

In practical applications, when the first retransmission rate of the first serving cell is obtained in step S101, the uplink retransmission rate and the downlink retransmission rate of the first serving cell may be considered at the same time; the first retransmission rate may also be obtained by combining the retransmission rates of the physical layer and the data link layer in the first serving cell according to the actual situation.

S103, after the service cell to which the terminal is currently connected is switched, if the first signal measurement data exceeds a preset signal standard, the first service cell is listed in a temporary connection prohibition list.

In the above step S103, the preset signal criteria are the limit values of the signal measurement data, such as the limit value of the signal strength indicator and the limit value of the signal quality indicator.

When the first signal measurement data exceeds the predetermined signal standard, which indicates that the first signal measurement data is good when the serving cell to which the terminal is currently connected is switched according to the first retransmission rate in step S102, that is, the signal strength indicator and the signal quality indicator reach the standard, and after the serving cell to which the terminal is currently connected is switched according to the first retransmission rate, there is a possibility of switching back to the first serving cell connected before the terminal. The temporary connection prohibition list is used for indicating that the terminal cannot connect to the serving cells in the list within a preset time, for example, after the first serving cell is listed in the temporary connection prohibition list for the preset time, the temporary connection prohibition list clears the first serving cell.

In an embodiment, in the above method for switching a terminal network, when switching a serving cell to which the terminal is currently connected, the method further includes:

and shielding the service cells in the temporary connection prohibition list.

In a specific application, after the network currently used by the terminal is switched, the signal measurement data of the switched network is continuously measured, that is, the terminal network switching method shown in the above steps S101 to S103 is repeated.

According to the foregoing steps S101 to S103, it is conceivable that specific data of the preset signal standard may be defined according to signal measurement data in the network after switching, assuming that after the terminal switches the currently connected serving cell, the connected serving cell is serving cell a, and the preset signal standard takes a value according to the signal measurement data in the serving cell a, such as: the signal strength indicator in the serving cell a is-90 dbm, and the predetermined signal standard is expressed by the signal strength indicator, and the specific value is (-90 ± a) dbm, where a may be 0 or a positive number.

The embodiment of the invention also explains the realization principle of the terminal network switching method by the actual network switching process.

First, assume that the first retransmission rate of the first serving cell is 50%, the retransmission rate in the predetermined transmission standard is 30%, the first signal measurement data is represented by a signal strength indicator, which is a specific value of-90 dbm, and the predetermined signal standard is also represented by a signal strength indicator, which is a specific value of-100 dbm. As can be seen from the above step S102, the first retransmission rate in the first serving cell is higher than the preset transmission standard, and a smooth data transmission environment cannot be provided for the terminal, and at this time, the serving cell to which the terminal is currently connected needs to be switched.

Then, assuming that the network after the handover is also a third serving cell adjacent to the first serving cell, the retransmission rate of the third serving cell is 30%, and the signal strength indicator is represented by-105 dbm. As can be seen from the above step S103, the first serving cell to which the terminal is originally connected has a signal strength index higher than that defined by the preset signal standard, and the signal strength index of the third serving cell is even lower than that defined by the preset signal standard.

In practical application, the base station will rely on the signal measurement data, i.e. the signal strength index, to measure the signals of the serving cell and the neighboring serving cell and report the measured signals to the network cell to which the terminal belongs, and the network cell to which the terminal belongs switches the serving cell according to the report result, so as to make the terminal reside in a better serving cell as much as possible for mobile communication services. Therefore, when the signal strength index of the first serving cell is higher than the signal strength index of the third serving cell, the serving cell to which the terminal is currently connected is typically automatically switched to the first serving cell.

And finally, listing the first service cell with the signal strength index of-90 dbm in a temporary connection prohibition list, and after the service cell currently connected with the switching terminal is a third service cell, even if the switching is carried out again by depending on signal measurement data, namely the signal strength index, the first service cell with higher retransmission rate cannot be switched back, so that the condition that the abnormal configuration of the network causes the abnormal data transmission of the network after the switching is used is avoided, and the effect of network switching is improved.

In an embodiment, if the first retransmission rate is lower than a predetermined transmission standard, it indicates that the serving cell to which the terminal is currently connected is not switched according to the retransmission rate, and at this time, the serving cell to which the terminal is currently connected is switched according to the first signal measurement data and the second signal measurement data.

According to the terminal network switching method provided by the embodiment of the invention, the condition of the service cell currently connected with the terminal is analyzed according to the first retransmission rate of the first service cell currently connected with the terminal. And when the serving cell to which the terminal is currently connected needs to be switched is obtained according to the first retransmission rate, whether the first signal measurement data of the first serving cell reaches a preset signal standard is further analyzed, so that whether the network environment where the terminal is located is good in signal but high in retransmission rate is determined, and the first serving cell with good signal but high in retransmission rate is listed in the temporary connection prohibition list, so that the situation that the terminal is connected to the first serving cell again when the terminal switches the network again is avoided. Therefore, the retransmission rate of the terminal network switching method provided by the embodiment of the invention is used as the quality index of the serving cell to judge whether to perform network switching, so that the problem that the network after switching still has abnormal data transmission due to abnormal network configuration with high retransmission rate and good signal measurement data performance is solved, and the effect of network switching is improved.

As shown in fig. 2, an embodiment of the present invention exemplarily shows a detailed implementation manner of switching the serving cell to which the terminal is currently connected in the step S102 above, in which the serving cell to which the terminal is currently connected is switched according to the measurement data, and the detailed implementation manner includes the following steps:

s1021a, acquiring a second serving cell adjacent to the first serving cell and having a second retransmission rate, and measuring data based on a second signal of the second serving cell; the second retransmission rate is lower than the preset transmission standard;

s1022a, switching the serving cell to which the terminal is currently connected according to the second signal measurement data.

In the above steps S1021a to S1022a, first, the second serving cell is searched according to the retransmission rate, and then the serving cell currently connected to the terminal is switched according to the signal measurement data, that is, the serving cell connected to the terminal is guided to perform switching according to the report result by reporting the second signal measurement data and the first signal measurement data.

In one embodiment, one implementation manner of the step S1022a may be:

s10221, decreasing the value of the first signal measurement data, and increasing the value of the second signal measurement data.

S10222, according to the adjusted first signal measurement data and the adjusted second signal measurement data, switching the serving cell to which the terminal is currently connected to the second serving cell.

In a specific application, it is assumed that the first signal measurement data and the second signal measurement data are both signal strength indicators, and an actual measurement result is as follows: the signal strength indicator of the first serving cell is-105 dbm, the signal strength indicator of the second serving cell is-95 dbm, and the difference between the two is 10. And after adjustment, reporting the adjusted signal measurement data to the terminal, wherein the signal strength index of the first serving cell is-110 dbm, the signal strength index of the second serving cell is-90 dbm, and the difference value between the signal strength index of the first serving cell and the signal strength index of the second serving cell is 20.

Therefore, in the embodiment of the present invention, on the basis of finding the second serving cell with the second retransmission rate, the network is induced to allow the terminal to switch the serving cell connected to the terminal to the second serving cell by increasing the difference between the first measurement data and the second measurement data.

In an embodiment, in the step S102, another detailed implementation manner of switching the serving cell currently connected to the terminal when the first retransmission rate is higher than the preset transmission standard may be to switch a network card currently used by the terminal, so as to directly switch the serving cell through switching of the network card.

In practical application, if the terminal supports the application of the dual network cards and the other network card is registered to obtain normal services, the currently used network card can be automatically switched to the other network card when the first retransmission rate is higher than the preset transmission standard.

In this embodiment of the present invention, it is conceivable that, if the first retransmission rate is higher than the preset transmission standard, the network card currently used by the terminal is switched, the obtaining of the first retransmission rate and the first signal measurement data based on the first serving cell in step S101 is represented as:

and acquiring a service cell to which the original network card belongs, and acquiring third retransmission rate and third signal measurement data based on the service cell to which the original network card belongs.

Similarly, when the first retransmission rate in step S102 is higher than the preset transmission standard, the serving cell to which the terminal is currently connected is switched, which is represented as:

and when the third retransmission rate is higher than the preset transmission standard, switching the network card currently used by the terminal.

Similarly, after the serving cell currently connected to the terminal is switched in step S103, if the first signal measurement data exceeds the preset signal standard, the first serving cell is listed in a temporary connection prohibition list, which is represented as:

and if the third signal measurement data exceeds the preset signal standard, listing the service cell to which the original network card belongs into a temporary connection prohibition list.

In a specific application, after the network card currently used by the terminal is switched, the signal measurement data of the switched network card is continuously measured, and the terminal network switching method shown in the original step S101 to step S103 is used, that is, the serving cell currently connected to the terminal should be switched when the third retransmission rate is higher than the preset transmission standard.

In the embodiment of the present invention, the two ways of switching the serving cell to which the terminal is currently connected can be implemented by setting the preset transmission standard in detail.

In one embodiment, the preset transmission criterion may be divided into a first fixed value and a second fixed value.

As shown in fig. 3, when the first retransmission rate of step S102 is higher than the preset transmission standard, another detailed implementation manner of the serving cell to which the terminal is currently connected is as follows:

and S1021c, if the first retransmission rate is higher than a first fixed value, switching the network card currently used by the terminal.

S1022c, if the first retransmission rate is lower than the first fixed value but higher than the second fixed value, switching the serving cell to which the terminal is currently connected according to the signal measurement data.

In the above step S1022c, the signal measurement data may be the above second signal measurement data, and the detailed implementation steps of the serving cell to which the handover terminal is currently connected according to the signal measurement data are the same as those of the above S1021a, S1022a, S10221 and S10222.

In the above step, the switching of the serving cell is a smaller granularity behavior, and the impact on the data transmission of the upper layer is smaller than that of switching the network card, so the second fixed value is smaller than the first fixed value.

As shown in fig. 4, an embodiment of the present invention further provides a terminal network switching apparatus 40, including:

a first serving cell data obtaining module 41, configured to obtain first retransmission rate and first signal measurement data based on a first serving cell, where the first serving cell is a serving cell to which a terminal is currently connected.

In the first serving cell data obtaining module 41, the retransmission rate is used to indicate the data transmission status of the terminal in the serving cell, and if the retransmission rate is lower, the data transmission of the terminal in the serving cell is smooth; if the first retransmission rate is higher, the terminal has a large number of actions such as retransmission, repeated packet, packet loss and the like in the serving cell.

The signal measurement data is used for representing a signal strength index, a signal quality index and the like of network connection of the terminal in the serving cell, and if the signal measurement data is good in performance, namely the signal strength is high and the signal interference is low, the data transmission speed of the terminal in the serving cell is high; if the measured data of the signal is poor in performance, that is, the signal strength is low and the signal interference is high, the data transmission speed of the terminal in the serving cell is low.

And a terminal network switching module 42, configured to switch a serving cell to which the terminal is currently connected if the first retransmission rate is higher than a preset transmission standard.

In the terminal network switching module 42, a preset transmission standard is used to determine whether the retransmission rate can support the terminal to perform normal data transmission.

When the first retransmission rate is higher than the preset transmission standard, it indicates that the first serving cell with the first retransmission rate causes a large number of actions such as retransmission, repeated packet, packet loss and the like to occur in the terminal during data transmission, and at this time, the serving cell to which the terminal is currently connected needs to be switched.

In practical application, when the first retransmission rate of the first serving cell is obtained, the uplink retransmission rate and the downlink retransmission rate in the first serving cell can be considered at the same time; the first retransmission rate may also be obtained by combining the retransmission rates of the physical layer and the data link layer in the first serving cell according to the actual situation.

A temporary connection prohibition list setting module 43, configured to, after switching a serving cell to which a terminal is currently connected, list the first serving cell in a temporary connection prohibition list if the first signal measurement data exceeds a preset signal standard.

In the temporary connection prohibition list setting module 43, the preset signal criteria are limit values of signal measurement data, such as a limit value of a signal strength indicator and a limit value of a signal quality indicator.

When the first signal measurement data exceeds the preset signal standard, which indicates that the serving cell to which the terminal is currently connected is switched according to the first retransmission rate, the first signal measurement data is good in performance, namely, the signal strength index and the signal quality index reach the standard, and after the serving cell to which the terminal is currently connected is switched according to the first retransmission rate, the first serving cell connected before the terminal is switched back is possible.

The temporary connection prohibition list is used for indicating that the terminal cannot connect to the serving cells in the list within a preset time, for example, after the first serving cell is listed in the temporary connection prohibition list for the preset time, the temporary connection prohibition list clears the first serving cell.

The embodiment of the present invention further provides a terminal device, which includes a memory, a processor, and a computer program stored in the memory and capable of running on the processor, and when the processor executes the computer program, each step in the terminal network switching method described in the first embodiment is implemented.

An embodiment of the present invention further provides a storage medium, where the storage medium is a computer-readable storage medium, and a computer program is stored on the storage medium, and when the computer program is executed by a processor, the steps in the terminal network handover method according to the first embodiment are implemented.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the foregoing embodiments illustrate the present invention in detail, those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. A terminal network switching method is characterized by comprising the following steps:

acquiring a first retransmission rate and first signal measurement data based on a first serving cell, wherein the first serving cell is a serving cell to which a terminal is currently connected;

if the first retransmission rate is higher than a preset transmission standard, switching a serving cell currently connected with the terminal;

after switching a service cell to which a terminal is currently connected, if the first signal measurement data exceeds a preset signal standard, listing the first service cell in a temporary connection prohibition list.

2. The terminal network switching method of claim 1, wherein when switching the serving cell to which the terminal is currently connected, further comprising:

and shielding the service cells in the temporary connection prohibition list.

3. The method for switching the terminal network according to claim 1, wherein the switching the serving cell to which the terminal is currently connected if the first retransmission rate is higher than a predetermined transmission standard comprises:

acquiring a second serving cell which is adjacent to the first serving cell and has a second retransmission rate, and second signal measurement data based on the second serving cell; the second retransmission rate is lower than the preset transmission standard;

and switching the service cell currently connected with the terminal according to the second signal measurement data.

4. The terminal network switching method of claim 3, wherein switching the serving cell to which the terminal is currently connected according to the second signal measurement data comprises:

decreasing the value of the first signal measurement data and increasing the value of the second signal measurement data;

and switching the service cell currently connected with the terminal into the second service cell according to the adjusted first signal measurement data and the adjusted second signal measurement data.

5. The method for switching the terminal network according to claim 1, wherein the switching the serving cell to which the terminal is currently connected if the first retransmission rate is higher than a predetermined transmission standard comprises:

and switching the network card currently used by the terminal.

6. The method for switching the terminal network according to claim 1, wherein the switching the serving cell to which the terminal is currently connected if the first retransmission rate is higher than a predetermined transmission standard comprises:

if the first retransmission rate is higher than a first fixed value, switching a network card currently used by the terminal;

and if the first retransmission rate is lower than the first fixed value but higher than the second fixed value, switching the serving cell to which the terminal is currently connected according to the signal measurement data.

7. The method for terminating network handover as recited in claim 1, wherein the method further comprises:

and if the first retransmission rate is lower than a preset transmission standard, switching a service cell currently connected with the terminal according to the first signal measurement data and the second signal measurement data.

8. A terminal network switching apparatus, comprising:

a first serving cell data obtaining module, configured to obtain a first retransmission rate and first signal measurement data based on a first serving cell, where the first serving cell is a serving cell to which a terminal is currently connected;

the terminal network switching module is used for switching a service cell currently connected with the terminal if the first retransmission rate is higher than a preset transmission standard;

and the temporary connection prohibition list setting module is used for listing the first service cell into a temporary connection prohibition list after the service cell currently connected with the terminal is switched and if the first signal measurement data exceeds a preset signal standard.

9. A terminal device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor executes the computer program to perform the steps of the terminal network switching method according to any one of claims 1 to 7.

10. A storage medium which is a computer-readable storage medium having a computer program stored thereon, wherein the computer program, when executed by a processor, implements the steps of the terminal network switching method according to any one of claims 1 to 7.

Images