CN110677867B - Signal intensity display method and signal intensity display system - Google Patents
Signal intensity display method and signal intensity display system Download PDFInfo
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Abstract
The present disclosure provides a signal intensity display method and a signal intensity display system, including: responding to the terminal entering a double-connection state, respectively measuring first signal strength and second signal strength corresponding to a first network cell and a second network cell connected with the terminal every other preset time period, and generating a signal indication parameter according to the first signal strength and the second signal strength; acquiring frequency band group information of a first network cell and a second network cell, and judging whether a dual connection state is in a preset interference frequency band group or not according to the frequency band group information; when the double-connection state is judged to be in the preset interference frequency band group, signal intensity display is carried out on the same icon according to the signal indication parameter and the preset interference signal display standard; and when the double-connection state is judged not to be in the preset interference frequency band group, performing signal intensity display on the same icon according to the signal indication parameter and the preset general signal display standard.
Description
Technical Field
The present disclosure relates to the field of mobile communications technologies, and in particular, to a signal strength display method and a signal strength display system.
Background
In the state of dual connectivity of NSA, a 5G communication terminal supporting a Non-Stand Alone Network (NSA) function at present can only display the signal strength corresponding to a currently accessed 4G wireless network (Long Term Evolution, LTE, or Long Term Evolution system) in a signal column, but cannot separately indicate the signal strength of the 4G wireless network and a 5G New wireless network (5G New Radio, 5G NR, or 5G New air interface), and display the signal strength of the 5G Non-Stand Alone network lacks integrity, and a display result of the finally displayed signal strength is unclear.
Disclosure of Invention
The present disclosure is directed to at least one of the technical problems in the prior art, and provides a signal strength display method and a signal strength display system.
In order to achieve the above object, an embodiment of the present disclosure provides a signal strength display method, including:
responding to a terminal entering a double-connection state, respectively measuring a first signal strength and a second signal strength corresponding to a first network cell and a second network cell connected with the terminal every other preset time period, and generating a signal indication parameter according to the first signal strength and the second signal strength;
acquiring frequency band group information of the first network cell and the second network cell, and judging whether the dual-connection state is in a preset interference frequency band group or not according to the frequency band group information;
when the double connection state is judged to be in the preset interference frequency band group, signal intensity display is carried out on the same icon according to the signal indication parameter and a preset interference signal display standard;
and when the double-connection state is judged not to be in the preset interference frequency band group, performing signal intensity display on the same icon according to the signal indication parameter and a preset general signal display standard.
In some embodiments, the icon includes a primary display portion and a secondary display portion;
before the step of displaying the signal strength on the same icon, the method further comprises:
detecting that an anchor point of the dual connectivity state corresponds to the first network cell or the second network cell;
the step of displaying the signal strength on the same icon specifically includes:
when the anchor point is detected to correspond to the first network cell, displaying the first signal strength on the primary display part, and displaying the second signal strength on the secondary display part;
and when the anchor point is detected to correspond to the second network cell, displaying the second signal strength on the primary display part, and displaying the first signal strength on the secondary display part.
In some embodiments, the step of generating a signal indication parameter according to the first signal strength and the second signal strength specifically includes:
respectively calculating a first indication parameter and a second indication parameter corresponding to the first signal strength and the second signal strength;
and classifying and packaging the first indicating parameters and the second indicating parameters according to parameter units to obtain the signal indicating parameters.
In some embodiments, the first indication parameter comprises: at least one of a cell specific reference signal received power and a signal to interference plus noise ratio; the second indication parameter comprises: at least one of a synchronization signal reference signal received power and a channel state information reference signal received power.
To achieve the above object, an embodiment of the present disclosure provides a signal strength display system, including:
the terminal comprises a measuring module, a judging module and a judging module, wherein the measuring module is used for responding to the fact that the terminal enters a double-connection state, respectively measuring the first signal intensity and the second signal intensity corresponding to a first network cell and a second network cell which are connected with the terminal every other preset time period, and generating a signal indicating parameter according to the first signal intensity and the second signal intensity;
an obtaining module, configured to obtain frequency band group information of the first network cell and the second network cell, and determine whether the dual connectivity state is in a preset interference frequency band group according to the frequency band group information;
the first display module is used for displaying the signal strength on the same icon according to the signal indication parameter and a preset interference signal display standard when the double-connection state is judged to be in the preset interference frequency band group;
and the second display module is used for displaying the signal strength on the same icon according to the signal indication parameter and a preset general signal display standard when the double-connection state is judged not to be in the preset interference frequency band group.
In some embodiments, the icon includes a primary display portion and a secondary display portion;
the first display module includes:
a first detecting unit, configured to detect that an anchor point of the dual connectivity state corresponds to the first network cell or the second network cell;
a first display unit, configured to display the first signal strength on the primary display portion and the second signal strength on the secondary display portion when it is detected that the anchor point corresponds to the first network cell;
a second display unit, configured to display the second signal strength on the primary display portion and the first signal strength on the secondary display portion when it is detected that the anchor point corresponds to the second network cell;
the second display module includes:
a second detecting unit, configured to detect that an anchor point of the dual connectivity status corresponds to the first network cell or the second network cell;
a third display unit, configured to display the first signal strength on the primary display portion and the second signal strength on the secondary display portion when it is detected that the anchor point corresponds to the first network cell;
a fourth display unit, configured to display the second signal strength on the primary display portion and the first signal strength on the secondary display portion when it is detected that the anchor point corresponds to the second network cell;
in some embodiments, the signal strength display system further comprises:
the calculating module is used for calculating a first indicating parameter and a second indicating parameter corresponding to the first signal strength and the second signal strength respectively;
and the classification and packaging module is used for classifying and packaging the first indication parameter and the second indication parameter according to a parameter unit to obtain the signal indication parameter.
In some embodiments, the first indication parameter comprises: at least one of a cell-specific reference signal received power and a signal-to-interference-plus-noise ratio; the second indication parameter includes: at least one of a synchronization signal reference signal received power and a channel state information reference signal received power.
In order to achieve the above object, an embodiment of the present disclosure provides a communication terminal, including:
one or more processors;
a storage device having one or more programs stored thereon;
the one or more programs, when executed by the one or more processors, cause the one or more processors to implement a signal strength display method as in any one of the above embodiments.
The present disclosure has the following beneficial effects:
the embodiment of the disclosure provides a signal strength display method and a signal strength display system, which can judge whether a frequency band group corresponding to a current dual-connection state causes interference or not for a terminal entering a 5G dual-connection state, separately display signal strengths corresponding to a 4G wireless network and a 5G new wireless network according to a judgment result and based on corresponding display standards, improve integrity of dual-connection state signal strength display, and enable 5G signal strength display to be more visual.
Drawings
Fig. 1 is a flowchart of a signal strength display method according to an embodiment of the present disclosure;
fig. 2 is a flowchart of another signal strength display method provided by the embodiment of the present disclosure;
fig. 2a is a schematic diagram of a signal strength display when the signal strength display method shown in fig. 2 is adopted and the 4G wireless network and the 5G new wireless network are full;
fig. 2b is a schematic diagram of a signal strength display when the signal strength display method shown in fig. 2 is adopted and the 4G wireless network is full of signals but the 5G new wireless network is not connected or weak in signals;
fig. 2c is a schematic diagram of signal strength display when the signal strength display method shown in fig. 2 is adopted and the 4G wireless network signal is weak but the 5G new wireless network signal is full;
fig. 2d is a schematic diagram of a signal strength display when the signal strength display method shown in fig. 2 is adopted and the 4G wireless network signal is better than the 5G new wireless network signal;
fig. 3 is a flowchart of another signal strength display method provided by the embodiment of the present disclosure;
fig. 4 is a block diagram of a signal strength display system according to an embodiment of the present disclosure.
Detailed Description
In order to make those skilled in the art better understand the technical solution of the present disclosure, the signal strength display method and the signal strength display system provided by the present disclosure are described in detail below with reference to the accompanying drawings.
The signal intensity display method and the signal intensity display system provided by the disclosure can be used for judging whether a frequency band group corresponding to the current dual-connection state belongs to a preset interference frequency band group or not after detecting that the terminal enters the 5G dual-connection state terminal, and separately displaying the signal intensities of two systems corresponding to the dual-connection state according to the judgment result and based on the corresponding signal intensity display standard.
Fig. 1 is a flowchart of a signal strength display method according to an embodiment of the present disclosure. As shown in fig. 1, the method includes:
step S1, in response to the terminal entering the dual connectivity state, respectively measuring a first signal strength and a second signal strength corresponding to a first network cell and a second network cell to which the terminal is connected, every preset time period, and generating a signal indication parameter according to the first signal strength and the second signal strength.
In practical application, the terminal is a communication terminal supporting a 5G non-independent networking function, the first network cell corresponds to a 4G cell, and the second network cell corresponds to a 5G cell. Based on a Dual-connection (EN-DC) connection state of a 4G wireless Access network and a 5G New wireless network, after the terminal is started, firstly, whether a cell of the currently resident 4G wireless network (LTE) supports a non-independent networking function is judged, whether a SIM card in the terminal opens a 5G service is judged, when the cell of the currently resident 4G wireless network (LTE) supports the non-independent networking function is judged, and when the SIM card opens the 5G service, the cell of the 4G wireless Network (NR) is tried to be connected with the cell of the 5G New wireless Network (NR) through the cell of the 4G wireless network (LTE), after the cell of the 5G New wireless Network (NR) is added, the terminal displays an identifier corresponding to the 5G network, and a display flow of signal intensity of the Dual-connection state is carried out.
In practical application, the signal strength of a current 4G wireless network (LTE) cell and a 5G new wireless Network (NR) cell is measured according to a Radio Resource Control (RRC) reconfiguration message issued by a network.
Step S2, obtaining frequency band group information of the first network cell and the second network cell, and determining whether the dual connectivity state is in a preset interference frequency band group according to the frequency band group information.
In practical applications, for a dual-connection status frequency band with a special combination, due to harmonic interference and intermodulation interference, the signal strength of the dual-connection status frequency band changes during reception, and accordingly, the signal indication parameters are affected. For example, when the 4G wireless network (LTE) Band3 and the 5G new wireless Network (NR) n78 frequency Band are connected in a dual mode, the reference sensitivity on the n78 frequency Band is decreased, that is, the receiving sensitivity of the terminal is decreased, and accordingly, the frequency Band group is different from the non-interfered dual-connection state frequency Band group, and the corresponding interference signal display standard is stricter than the general signal display standard.
In step S2, if the dual connectivity status is determined to be in the preset interference band group, step S3 is executed; when the dual connectivity status is determined not to be in the preset interference band group, step S4 is executed.
And step S3, according to the signal indication parameters and the preset interference signal display standard, displaying the signal intensity on the same icon.
The terminal stores a general signal display standard which can be used under the condition of a general network in advance according to actual application requirements, and stores a plurality of specific interference signal display standards aiming at a specific interference frequency band group.
For example, for a dual connectivity status band group that does not generate interference, the following general signaling standards are adopted:
4G wireless network (LTE) universal signal display standard:
LTE signal | Air conditioner | 1 |
2 |
3 lattices | 4 lattices | |
CRS-RSRP(dBm) | <-120 | -120~<-118 | -118~<-114 | -114~<-105 | >-105 | |
SINR | <3 | 3-10 | 11~15 | 16~25 | >25 |
5G new radio Network (NR) universal signal display standard:
NR Signal | Hollow core | 1 |
2 |
3 lattices | 4 lattices | |
SS-RSRP(dBm) | <-115 | -115~<-113 | -113~<-110 | -110~<-100 | >-100 | |
SINR | <3 | 3-10 | 11~15 | 16~25 | >25 |
For the frequency band group with double connection states and interference, the following interference signal display standards are adopted:
4G wireless network (LTE) interference signal display standard:
LTE signal | Air conditioner | 1 |
2 |
3 checks | 4 checks | |
CRS-RSRP(dBm) | <-115 | -115~<-113 | -113~<-110 | -110~<-103 | >-103 | |
SINR | <3 | 3-10 | 11~15 | 16~25 | >25 |
5G New radio Network (NR) interference signal display Standard:
NR Signal | Hollow core | 1 |
2 |
3 lattices | 4 checks | |
SS-RSRP(dBm) | <-115 | -115~<-113 | -113~<-110 | -110~<-100 | >-100 | |
SINR | <3 | 3-10 | 11~15 | 16~25 | >25 |
The signal display standards are specific to the signal bar display mode, and may adopt, for example, a sky line, a circle, or other specific signal forms using a grid number as a measure. The header part uses various signal strength indicators, i.e., signal indicating parameters generated in step S1, including: cell-specific Reference Signal-to-Reference Signal Receiving Power (CRS-RSRP) and Signal-to-Interference plus Noise Ratio (SINR) for 4G wireless network (LTE) signals; for 5G New radio Network (NR) signals, the synchronization Signal-Reference Signal Receiving Power (SS-RSRP) and the Signal to interference plus noise ratio (SINR) are used.
It should be noted that the signal display standard of the terminal may be preset according to actual application requirements, and the multiple signal display standards are only one specific implementation manner provided by the present disclosure, and do not limit the technical solution of the present disclosure.
And step S4, according to the signal indication parameters and the preset general signal display standard, displaying the signal intensity on the same icon.
The embodiment of the disclosure provides a signal strength display method, which can be used for acquiring the signal strength and frequency band group information of a cell accessed by a terminal in a 5G dual-connection state, and selecting a corresponding signal display standard to display the signal strength by judging whether the current dual-connection state is in a preset interference frequency band group according to the frequency band group information.
Fig. 2 is a flowchart of another signal strength display method according to an embodiment of the disclosure. Wherein the icon includes a primary display portion and a secondary display portion. As shown in fig. 2, the method not only includes steps S1 to S4, but also includes, before the step of displaying the signal strength on the same icon is executed in step S3:
step S301, detecting that the anchor point in the dual connectivity state corresponds to the first network cell or the second network cell.
In step S301, it is detected that the anchor point in the Dual connection state corresponds to the first network cell or the second network cell, that is, it is determined that the terminal is currently in a Dual connection (EN-DC) connection state between the 4G Radio Access network and the 5G New Radio network or a Dual connection (New Radio and Evolved Universal Radio Access-Dual Connectivity, for short, NE-DC) connection state between the 5G New Radio network and the 4G Radio Access network.
In step S301, the detection result thereof is used to control the execution of step S302 and step S303.
In step S3, the step of displaying the signal strength on the same icon specifically includes:
step S302, when it is detected that the anchor point corresponds to the first network cell, displaying the first signal strength on the primary display portion and displaying the second signal strength on the secondary display portion according to the signal indication parameter and the preset interference signal display standard.
Step S303, when it is detected that the anchor point corresponds to the second network cell, displaying the second signal strength on the primary display portion and displaying the first signal strength on the secondary display portion according to the signal indication parameter and the preset interference signal display standard.
In steps S302 and S303, the signal corresponding to the cell as the anchor is displayed on the primary display portion and the signal corresponding to the cell added by the anchor is displayed on the secondary display portion according to the detection result in step S301.
Accordingly, in step S4, before the step of displaying the signal strength on the same icon is executed, the method further includes:
step S401, detecting that the anchor point in the dual connectivity state corresponds to the first network cell or the second network cell.
In step S401, the detection result thereof is used to control the execution of step S402 and step S403.
In step S4, the step of displaying the signal strength on the same icon specifically includes:
step S402, when detecting that the anchor point corresponds to the first network cell, displaying the first signal strength on the primary display part and the second signal strength on the secondary display part according to the signal indication parameter and the preset general signal display standard.
And step S403, when it is detected that the anchor point corresponds to the second network cell, displaying the second signal strength on the primary display part and the first signal strength on the secondary display part according to the signal indication parameter and a preset general signal display standard.
Fig. 2a is a schematic diagram of signal strength display when the 4G wireless network (LTE) and the 5G new wireless Network (NR) are full by using the signal strength display method shown in fig. 2. In step S301, when it is detected that the anchor point in the dual connectivity state corresponds to the first network cell, as shown in fig. 2a, the vertical section is a main display section for displaying the signal strength of the 4G wireless network (LTE), and the circular section is a secondary display section for displaying the signal strength of the 5G new wireless Network (NR).
The terminal 4G wireless network (LTE) and the terminal 5G new wireless Network (NR) have good signals, and a full grid is displayed on a vertical grid part and a solid circle part.
Fig. 2b is a schematic diagram of signal strength display when the signal strength display method shown in fig. 2 is adopted and the 4G wireless network (LTE) is full of signals but the 5G new wireless Network (NR) is not connected or weak in signals. In step S301, when it is detected that the anchor point in the dual connectivity state corresponds to the first network cell, as shown in fig. 2b, the vertical section is a main display section for displaying the signal strength of the 4G wireless network (LTE), and the circular section is a secondary display section for displaying the signal strength of the 5G new wireless Network (NR).
The signal of the 4G wireless network (LTE) of the terminal is good, but the signal of the 5G new wireless Network (NR) is weak or is not actually accessed with the terminal, a full lattice is displayed on a vertical lattice part, and a hollow circle is displayed on a circle part.
Fig. 2c is a schematic diagram of signal strength display when the signal strength display method shown in fig. 2 is adopted and the 4G wireless network (LTE) signal is weak but the 5G new wireless Network (NR) signal is full. In step S301, when it is detected that the anchor point in the dual connectivity state corresponds to the first network cell, as shown in fig. 2c, the vertical section is a primary display section for displaying the signal strength of the 4G wireless network (LTE), and the circular section is a secondary display section for displaying the signal strength of the 5G new wireless Network (NR).
The terminal 4G wireless network (LTE) signal is weak, but the 5G new wireless Network (NR) signal is good, and the circle part only shows a full grid. At this time, if the signal display of the 4G wireless network (LTE) is changed into 0 grid according to the signal indication parameter and the corresponding signal display standard, the connection between the terminal and the 4G wireless network (LTE) is lost, the terminal immediately exits the double connection state, and the signal display of the 5G new wireless Network (NR) is also changed into 0 grid.
Fig. 2d is a schematic diagram of signal strength display when the signal strength display method shown in fig. 2 is adopted and the 4G wireless network (LTE) signal is better than the 5G new wireless Network (NR) signal. In step S301, when it is detected that the anchor point in the dual connectivity state corresponds to the first network cell, as shown in fig. 2d, the vertical section is a main display section for displaying the signal strength of the 4G wireless network (LTE), and the circular section is a secondary display section for displaying the signal strength of the 5G new wireless Network (NR).
In practical applications, the 4G radio network (LTE) signal will be slightly better than the 5G new radio Network (NR) signal in the common case.
It should be noted that the signal display form of the terminal may be preset according to the actual application requirement, and the multiple signal display diagrams are only one specific implementation manner provided by the present disclosure, and do not limit the technical solution of the present disclosure.
The embodiment of the disclosure provides a signal strength display method, which can be used for detecting the connection state of the current dual-connection state of a terminal and displaying the signal strength of signals corresponding to the dual-connection state in a primary mode and a secondary mode according to a detection result.
Fig. 3 is a flowchart of another signal strength display method according to an embodiment of the disclosure. As shown in fig. 3, the method not only includes steps S1 to S4, but also includes the steps of generating the signal indication parameter according to the first signal strength and the second signal strength in step S1, specifically including:
step S101, a first indication parameter and a second indication parameter corresponding to the first signal strength and the second signal strength are respectively calculated.
And S102, classifying and packaging the first indicating parameters and the second indicating parameters according to parameter units to obtain signal indicating parameters.
Wherein a plurality of signal received power (RSRP) in each indication parameter is classified and packed, for example, according to a count unit of decibel-milliwatt (dBm).
In some embodiments, the first indication parameter comprises: at least one of a cell-specific reference signal received power (CRS-RSRP) and a signal-to-interference-plus-noise ratio (SINR); the second indication parameter includes: at least one of a synchronization Signal Reference Signal received Power (SS-RSRP) and a Channel State Information Reference Signal Receiving Power (CSI-RSRP).
The embodiment of the disclosure provides a signal strength display method, which can be used for respectively calculating indication parameters of two signals corresponding to a dual-connection state according to corresponding signal display standards, and then performing signal strength display according to the signal indication parameters.
Fig. 4 is a block diagram of a signal strength display system according to an embodiment of the present disclosure. The signal strength display system can be used for realizing the signal strength display method provided by each embodiment. As shown in fig. 4, the system includes: the device comprises a measuring module 1, an obtaining module 2, a first display module 3 and a second display module 4.
The measurement module 1 is configured to measure, in response to the terminal entering a dual connectivity state, first signal strength and second signal strength corresponding to a first network cell and a second network cell connected to the terminal at intervals of a preset time period, and generate a signal indication parameter according to the first signal strength and the second signal strength.
And the obtaining module 2 is configured to obtain frequency band group information of the first network cell and the second network cell, and determine whether the dual connectivity state is in a preset interference frequency band group according to the frequency band group information.
And the first display module 3 is configured to, when the acquisition module 2 determines that the dual connectivity state is in the preset interference frequency band group, perform signal strength display on the same icon according to the signal indication parameter and the preset interference signal display standard.
And the second display module 4 is configured to, when the acquisition module 2 determines that the dual connectivity state is not in the preset interference frequency band group, perform signal strength display on the same icon according to the signal indication parameter and the preset general signal display standard.
In some embodiments, the icon includes a primary display portion and a secondary display portion.
The first display module includes: a first detection unit 301, a first display unit 302, and a second display unit 303.
The first detecting unit 301 is configured to detect that an anchor point in the dual connectivity state corresponds to the first network cell or the second network cell.
A first display unit 302, configured to display the first signal strength on the primary display portion and the second signal strength on the secondary display portion when the first detection unit 301 detects that the anchor point corresponds to the first network cell.
A second display unit 303, configured to display the second signal strength on the primary display portion and the first signal strength on the secondary display portion when the first detection unit 301 detects that the anchor point corresponds to the second network cell.
The second display module includes: a second detection unit 401, a third display unit 402, and a fourth display unit 403.
The second detecting unit 401 is configured to detect that the anchor point in the dual connectivity status corresponds to the first network cell or the second network cell.
A third display unit 402, configured to display the first signal strength on the primary display portion and the second signal strength on the secondary display portion when the second detection unit 401 detects that the anchor point corresponds to the first network cell.
A fourth display unit 403, configured to display the second signal strength on the primary display portion and the first signal strength on the secondary display portion when the second detection unit 401 detects that the anchor point corresponds to the second network cell.
In some embodiments, the signal strength display system further comprises: a calculation module 101 and a classification packaging module 102.
The calculating module 101 is configured to calculate a first indicating parameter and a second indicating parameter corresponding to the first signal strength and the second signal strength, respectively.
And the classification and packaging module 102 is configured to classify and package the first indication parameter and the second indication parameter according to the parameter unit to obtain a signal indication parameter.
In some embodiments, the first indication parameter comprises: at least one of a cell specific reference signal received power and a signal to interference plus noise ratio; the second indication parameter includes: at least one of a synchronization signal reference signal received power and a channel state information reference signal received power.
It should be noted that, for the specific execution process of each module and the relation between each module in this embodiment, reference may be made to the corresponding contents in the foregoing signal strength display method embodiment, and details are not described here again.
The signal strength display system provided by the embodiment of the disclosure can acquire the signal strength and the frequency band group information of the cell accessed by the terminal in the 5G dual-connection state, detect the connection state of the current dual-connection state, and determine whether the current dual-connection state is in the preset interference frequency band group according to the frequency band group information, thereby selecting the corresponding signal display standard and performing signal strength display according to the signal indication parameter and the connection state information.
The embodiment of the present disclosure further provides a communication terminal, including:
one or more processors;
a storage device having one or more programs stored thereon;
the one or more programs, when executed by the one or more processors, cause the one or more processors to implement any of the signal strength display methods as in the above embodiments.
It is to be understood that the above embodiments are merely exemplary embodiments that are employed to illustrate the principles of the present disclosure, and that the present disclosure is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the disclosure, and these are to be considered as the scope of the disclosure.
Claims (9)
1. A signal strength display method, comprising:
responding to a terminal entering a double-connection state, respectively measuring a first signal strength and a second signal strength corresponding to a first network cell and a second network cell connected with the terminal every other preset time period, and generating a signal indication parameter according to the first signal strength and the second signal strength;
acquiring frequency band group information of the first network cell and the second network cell, and judging whether the dual-connection state is in a preset interference frequency band group or not according to the frequency band group information;
when the double connection state is judged to be in the preset interference frequency band group, signal intensity display is carried out on the same icon according to the signal indication parameter and a preset interference signal display standard;
and when the double-connection state is judged not to be in the preset interference frequency band group, performing signal intensity display on the same icon according to the signal indication parameter and a preset general signal display standard.
2. The signal strength display method of claim 1 wherein the icon comprises a primary display portion and a secondary display portion;
before the step of displaying the signal strength on the same icon, the method further comprises:
detecting that an anchor point of the dual connectivity state corresponds to the first network cell or the second network cell;
the step of displaying the signal intensity on the same icon specifically includes:
when the anchor point is detected to correspond to the first network cell, displaying the first signal strength on the primary display part, and displaying the second signal strength on the secondary display part;
and when the anchor point is detected to correspond to the second network cell, displaying the second signal strength on the primary display part, and displaying the first signal strength on the secondary display part.
3. The signal strength display method according to claim 1, wherein the step of generating a signal indication parameter according to the first signal strength and the second signal strength specifically comprises:
respectively calculating a first indication parameter and a second indication parameter corresponding to the first signal strength and the second signal strength;
and classifying and packaging the first indicating parameters and the second indicating parameters according to parameter units to obtain the signal indicating parameters.
4. The signal strength display method according to claim 3, wherein the first indication parameter comprises: at least one of a cell specific reference signal received power and a signal to interference plus noise ratio; the second indication parameter comprises: at least one of a synchronization signal reference signal received power and a channel state information reference signal received power.
5. A signal strength display system, comprising:
the terminal comprises a measuring module, a judging module and a sending module, wherein the measuring module is used for responding to the fact that the terminal enters a double-connection state, respectively measuring a first signal strength and a second signal strength corresponding to a first network cell and a second network cell which are connected with the terminal every other preset time period, and generating a signal indicating parameter according to the first signal strength and the second signal strength;
an obtaining module, configured to obtain frequency band group information of the first network cell and the second network cell, and determine whether the dual connectivity state is in a preset interference frequency band group according to the frequency band group information;
the first display module is used for displaying the signal strength on the same icon according to the signal indication parameter and the preset interference signal display standard when the double-connection state is judged to be in the preset interference frequency band group;
and the second display module is used for displaying the signal strength on the same icon according to the signal indication parameter and a preset general signal display standard when the double-connection state is judged not to be in the preset interference frequency band group.
6. The signal strength display system of claim 5 wherein the icon comprises a primary display portion and a secondary display portion;
the first display module includes:
a first detecting unit, configured to detect that an anchor point of the dual connectivity state corresponds to the first network cell or the second network cell;
a first display unit, configured to display the first signal strength on the primary display portion and the second signal strength on the secondary display portion when it is detected that the anchor point corresponds to the first network cell;
a second display unit, configured to display the second signal strength on the primary display portion and the first signal strength on the secondary display portion when it is detected that the anchor point corresponds to the second network cell;
the second display module includes:
a second detecting unit, configured to detect that an anchor point of the dual connectivity status corresponds to the first network cell or the second network cell;
a third display unit, configured to display the first signal strength on the primary display portion and the second signal strength on the secondary display portion when it is detected that the anchor point corresponds to the first network cell;
a fourth display unit, configured to display the second signal strength on the primary display portion and the first signal strength on the secondary display portion when it is detected that the anchor point corresponds to the second network cell.
7. The signal strength display system of claim 5, further comprising:
the calculating module is used for calculating a first indicating parameter and a second indicating parameter corresponding to the first signal strength and the second signal strength respectively;
and the classification and packaging module is used for classifying and packaging the first indication parameter and the second indication parameter according to a parameter unit to obtain the signal indication parameter.
8. The signal strength display system of claim 7 wherein the first indicator parameter comprises: at least one of a cell-specific reference signal received power and a signal-to-interference-plus-noise ratio; the second indication parameter includes: at least one of a synchronization signal reference signal received power and a channel state information reference signal received power.
9. A communication terminal, comprising:
one or more processors;
a storage device having one or more programs stored thereon;
the one or more programs, when executed by the one or more processors, cause the one or more processors to implement the signal strength display method of any of claims 1-4.
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