CN114257680A - Caller identification method, user equipment and storage medium - Google Patents
Caller identification method, user equipment and storage medium Download PDFInfo
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- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/57—Arrangements for indicating or recording the number of the calling subscriber at the called subscriber's set
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- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
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Abstract
The embodiment of the application provides a method for displaying an incoming call, user equipment, a computer program product, electronic equipment and a storage medium, wherein the method comprises the following steps: receiving a call request, outputting a caller ID display interface on a display screen of the user equipment, wherein the caller ID display interface comprises an answer icon, a reject icon and a sliding icon, the answer icon is positioned on one side of the display screen, the reject icon is positioned on the other side of the display screen, the sliding icon is positioned between the answer icon and the reject icon, and the answer icon and/or the reject icon is a dynamic icon, the dynamic type of the dynamic icon includes rotation and/or scaling, the rotation amplitude and/or the scaling amplitude of the dynamic icon is determined based on the audio decibel of the incoming call ringtone, if the sliding icon slides to the answer icon, the call request is answered, if the sliding icon slides to the refusing icon, the call request is hung up, and the rotating and/or zooming dynamic icon is output on the display screen, so that the diversification and flexibility of the incoming call display can be realized, and the conversation experience of the user is improved.
Description
Technical Field
The present application relates to the field of communications technologies, and in particular, to a method for displaying an incoming call, user equipment, a computer program product, electronic equipment, and a storage medium.
Background
With the widespread use of user equipment and the development of user equipment related technologies, user equipment with an incoming call display function can display related incoming call information on a display screen of the user equipment. The incoming call information comprises one or more of the telephone number information of the caller, the name information of the caller and the number attribution information. Therefore, the user can process the current incoming call according to the incoming call information, such as answering and hanging up.
In the prior art, the user equipment can display an answer icon and a reject icon through a display screen of the user equipment, the user can select the answer icon to answer the incoming call in a clicking or sliding mode, the reject icon can also select the reject icon to hang up the incoming call in a clicking or sliding mode, and the answer icon and the reject icon are static icons.
However, in the process of implementing the present application, the inventors found that at least the following problems exist by the means in the above prior art: the answer icon and the reject icon are in a static state, so that the incoming call display mode lacks flexibility.
Disclosure of Invention
In order to solve the foregoing technical problem, embodiments of the present application provide a method for displaying an incoming call, user equipment, a computer program product, electronic equipment, and a storage medium.
According to an aspect of an embodiment of the present application, an embodiment of the present application provides a method for displaying an incoming call, including:
receiving a call request;
outputting a caller ID display interface on a display screen of the user equipment, wherein the caller ID display interface comprises an answering icon, a rejecting icon and a sliding icon, the answering icon is positioned on one side of the display screen, the rejecting icon is positioned on the other side of the display screen, the sliding icon is positioned between the answering icon and the rejecting icon, the answering icon and/or the rejecting icon are dynamic icons, the dynamic types of the dynamic icons comprise rotation and/or zooming, and the rotation amplitude and/or the zooming amplitude of the dynamic icons are determined based on the audio decibel of the incoming call ringtone;
if the sliding icon slides to the answering icon, answering the call request;
and if the sliding icon slides to the refusing icon, hanging up the call request.
In the embodiment of the application, the flexibility of the caller identification can be improved and the conversation experience of the user can be enhanced by outputting the rotatable dynamic icon on the display screen and/or outputting the scalable dynamic icon on the display screen.
For example, specifically, when receiving a call request, the user equipment acquires a preset incoming call ringtone, and determines a rotation amplitude of the answer icon and a rotation amplitude of the reject icon according to the incoming ringtone, or determines a scaling amplitude of the answer icon and a scaling amplitude of the reject icon according to the incoming ringtone.
For another example, when the user equipment acquires the incoming call ringtone, the audio decibel of the incoming ringtone is determined, the rotation amplitude of the answer icon and the rotation amplitude of the rejection icon can be determined according to the audio decibel, and the scaling amplitude of the answer icon and the scaling amplitude of the rejection icon can be determined according to the audio decibel.
The audio decibel is proportional to the rotation amplitude, i.e., the higher the audio decibel is, the larger the rotation amplitude is, and the lower the audio decibel is, the smaller the rotation amplitude is.
The audio decibel is proportional to the zoom level, i.e., the higher the audio decibel is, the larger the zoom level is, and the lower the audio decibel is, the smaller the zoom level is.
In some embodiments, the answer icon is located on the right side of the display screen, the reject icon is located on the left side of the display screen, and the rotation and/or scaling magnitude of the answer icon is determined based on the audio decibel of the incoming ringtone corresponding to the right channel of the user device, and the rotation and/or scaling magnitude of the reject icon is determined based on the audio decibel of the incoming ringtone corresponding to the left channel of the user device.
For example, the user equipment determines that the incoming call ringtone corresponds to the audio decibel of the left channel of the user equipment, and determines the rotation amplitude of the rejection icon according to the audio decibel of the left channel; the user equipment determines that the incoming call ringtone corresponds to the audio decibel of the right sound channel of the user equipment, and determines the rotation amplitude of the answering icon according to the audio decibel of the right sound channel.
If the user equipment determines that the incoming call ringtone corresponds to the audio decibel of the left sound channel of the user equipment, the user equipment determines the scaling amplitude of the rejection icon according to the audio decibel of the left sound channel; the user equipment determines that the incoming call ringtone corresponds to the audio decibel of the right channel of the user equipment, and determines the zoom amplitude of the answering icon according to the audio decibel of the right channel.
Of course, while the user equipment determines the rotation amplitude of the rejection icon according to the audio decibel of the left channel and determines the rotation amplitude of the answer icon according to the audio decibel of the right channel, the user equipment may determine the scaling amplitude of the rejection icon according to the audio decibel of the left channel and determine the scaling amplitude of the answer icon according to the audio decibel of the right channel.
In some embodiments, the slide icon is located on a vertical center line of the display screen, the listen icon is located on a right side of the slide icon, and the reject icon is located on a left side of the slide icon.
In some embodiments, the caller identification interface further comprises: the frequency spectrum line corresponding to the audio decibel of the left channel between the sliding icon and the refusing icon, and the frequency spectrum line corresponding to the audio decibel of the right channel between the sliding icon and the answering icon.
For example, the user equipment generates a spectrum line corresponding to the audio decibel of the left channel, and displays the spectrum line between the sliding icon and the rejection icon; and the user equipment generates a spectrum line corresponding to the audio decibel of the right channel and displays the spectrum line between the sliding icon and the answering icon.
In some embodiments, the method further comprises:
determining an incoming call reminding mode of the user equipment;
and if the incoming call reminding mode comprises a vibration mode, controlling the user equipment to vibrate according to the audio decibel of the left sound channel and/or the audio decibel of the right sound channel.
For example, if the user equipment determines that the incoming call alert mode includes a vibration mode, the user equipment may control vibration of the user equipment according to the audio decibel of the left channel, may also control vibration of the user equipment according to the audio decibel of the right channel, and may also control vibration of the user equipment according to the audio decibel of the left channel and the audio decibel of the right channel.
It is worth mentioning that, in this embodiment, the user equipment controls the vibration of the user equipment on the basis of outputting the rotating dynamic icon, so that multiple experiences in hearing, vision and touch are provided for the user, the incoming call experience of the user is enriched, the flexibility of incoming call reminding is realized, and the reliability of the incoming call reminding is improved.
In some embodiments, the direction of rotation of the answer icon and the reject icon includes at least one of:
the rotation directions of the answer icon and the rejection icon are both right;
the rotation directions of the answer icon and the rejection icon are both towards the left;
the rotation direction of the answer icon is rightward, and the rotation direction of the reject icon is leftward;
the rotation direction of the answer icon is towards the left, and the rotation direction of the reject icon is towards the right.
That is, the rotation direction of the receiving icon and the rotation direction of the rejecting icon may be the same or different.
According to another aspect of the embodiments of the present application, there is also provided a user equipment, including:
a communication module for receiving a call request;
an output module, configured to output a caller id display interface on a display screen of the user equipment, where the caller id display interface includes an answer icon, a reject icon, and a sliding icon, the answer icon is located on one side of the display screen, the reject icon is located on the other side of the display screen, the sliding icon is located between the answer icon and the reject icon, the answer icon and/or the reject icon is a dynamic icon, a dynamic type of the dynamic icon includes rotation and/or scaling, and a rotation amplitude and/or a scaling amplitude of the dynamic icon is determined based on an audio decibel of a ring tone;
the answering module is used for answering the call request if the sliding icon slides to the answering icon;
and the hanging-up module is used for hanging up the call request if the sliding icon slides to the refused icon.
In some embodiments, the answer icon is located on the right side of the display screen, the reject icon is located on the left side of the display screen, the rotation and/or scaling magnitude of the answer icon is determined based on the audio decibel of the incoming ringtone corresponding to the right channel of the user device, and the rotation and/or scaling magnitude of the reject icon is determined based on the audio decibel of the incoming ringtone corresponding to the left channel of the user device.
In some embodiments, the slide icon is located on a vertical center line of the display screen, the listen icon is located on a right side of the slide icon, and the reject icon is located on a left side of the slide icon.
In some embodiments, the caller identification interface further comprises: the frequency spectrum line corresponding to the audio decibel of the left channel between the sliding icon and the refusing icon, and the frequency spectrum line corresponding to the audio decibel of the right channel between the sliding icon and the answering icon.
In some embodiments, the user equipment further comprises:
the determining module is used for determining the incoming call reminding mode of the user equipment;
and the vibration module is used for controlling the user equipment to vibrate according to the audio decibel of the left sound channel and/or the audio decibel of the right sound channel if the incoming call reminding mode comprises a vibration mode.
In some embodiments, the direction of rotation of the answer icon and the reject icon includes at least one of:
the rotation directions of the answer icon and the rejection icon are both right;
the rotation directions of the answer icon and the rejection icon are both towards the left;
the rotation direction of the answer icon is rightward, and the rotation direction of the reject icon is leftward;
the rotation direction of the answer icon is towards the left, and the rotation direction of the reject icon is towards the right.
According to another aspect of the embodiments of the present application, there is also provided a computer storage medium having stored thereon computer instructions, which, when executed by a processor, cause the method of any of the above embodiments to be performed.
According to another aspect of embodiments of the present application, there is also provided a computer program product, which when run on a processor, causes the method of any of the above embodiments to be performed.
According to another aspect of the embodiments of the present application, there is also provided an electronic device, including:
at least one processor; and
a memory communicatively coupled to the at least one processor; wherein,
the memory stores computer instructions executable by the at least one processor, the computer instructions being executable by the at least one processor to cause the method of any of the above embodiments to be performed.
Drawings
The drawings are included to provide a further understanding of the embodiments of the application and are not intended to limit the application. Wherein,
FIG. 1 is a schematic diagram of an incoming call display interface in the related art;
FIG. 2 is a schematic diagram of a caller identification interface according to an embodiment of the present application;
FIG. 3 is a schematic diagram of a caller identification interface according to another embodiment of the present application;
FIG. 4 is a schematic diagram of a caller identification interface according to another embodiment of the present application;
FIG. 5 is a schematic diagram of a caller identification interface according to another embodiment of the present application;
FIG. 6 is a schematic diagram of a caller identification interface according to another embodiment of the present application;
FIG. 7 is a schematic diagram of a caller identification interface according to another embodiment of the present application;
FIG. 8 is a schematic diagram of a caller identification interface according to another embodiment of the present application;
FIG. 9 is a schematic diagram of a caller identification interface according to another embodiment of the present application;
FIG. 10 is a schematic diagram of a caller identification interface according to another embodiment of the present application;
FIG. 11 is a schematic diagram of a caller identification interface according to another embodiment of the present application;
FIG. 12 is a flowchart illustrating a method of displaying caller identification according to an embodiment of the present application;
FIG. 13 is a flowchart illustrating a method for caller identification according to another embodiment of the present application;
fig. 14 is a schematic diagram of a user equipment according to an embodiment of the present application;
fig. 15 is a schematic structural diagram of a mobile phone according to an embodiment of the present application;
fig. 16 is a block diagram of an electronic device according to an embodiment of the present application.
Detailed Description
Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.
The method for displaying the incoming call in the embodiment of the present application may be applied to an application scenario based on a call request initiated by an instant messaging tool, where the instant messaging tool includes, but is not limited to, incoming call answering, wechat, QQ, flyletter, flybook, Facebook (Facebook), and the like, and the present application is not limited thereto.
To avoid detailed descriptions, the method for displaying an incoming call according to the embodiment of the present application is exemplarily described by taking an instant messaging tool as an incoming call answering and a user equipment as a mobile phone as an example.
Referring to fig. 1, fig. 1 is a schematic interface diagram of a caller identification according to an embodiment of the present application.
When the mobile phone receives a call request, the answer icon and the reject icon can be respectively displayed on the display screen of the mobile phone. For example, the answer icon and the reject icon may both be located at a position below the display screen of the mobile phone, as shown in fig. 1; for another example, the answer icon and the reject icon may be both located above the display screen of the mobile phone; for another example, one of the answer icon and the reject icon is positioned above the display screen of the mobile phone, and the other is positioned below the display screen of the mobile phone; for another example, the answer icon and the reject icon may be both located on one side of the display screen of the mobile phone, such as both located on the left side or both located on the right side; as another example, one of the answer icon and the reject icon may be located on one side of the cell phone display while the other may be located on the other side of the cell phone display, and so on.
In a possible implementation scheme, the user can click the answer icon to answer the call request, and the user can click the reject icon to hang up the call request.
Similarly, the display position of the sliding icon is not limited, and the position relationship between the sliding icon and the answering icon and the position relationship between the sliding icon and the rejecting icon are not limited in the embodiment.
In a possible implementation scheme, as shown in fig. 1, a sliding icon may be displayed at a position below the display screen of the mobile phone, and the sliding icon may be a circular icon as shown in fig. 1, of course, the sliding icon may also be an icon in other shapes, such as an oval icon, a square icon, an irregular graphic icon, and the like.
As shown in fig. 1, the sliding icon may be displayed on a center line of a vertical direction of a screen of the mobile phone, and the answer icon and the reject icon may be respectively displayed on left and right sides of the sliding icon.
If the icon on the right side of the sliding icon is an answering icon, the user can press the sliding icon to slide to the right side to answer the incoming call, and press the sliding icon to slide to the left side to hang up the incoming call; if the icon on the left side of the sliding icon is the answering icon, the user can press the sliding icon to slide to the right side to hang up the incoming call, and press the sliding icon to slide to the left side to answer the incoming call.
In order to improve the flexibility of the caller identification and improve the conversation experience of the user, the caller identification interface can be a dynamic caller identification interface, so that the diversification and the flexibility of the caller identification are realized, and the conversation experience of the user is improved.
The following describes the technical solutions of the present application and how to solve the above technical problems with specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.
Referring to fig. 2, fig. 2 is a schematic diagram of a caller id display interface according to another embodiment of the present application.
As shown in fig. 2, when the mobile phone receives a call request, the mobile phone may display an answer icon and a reject icon on the mobile phone display screen, where the answer icon and the reject icon are both located below the mobile phone display screen, and a sliding icon is further disposed below the mobile phone display screen, where the sliding icon may be a circular icon as shown in fig. 2, and the sliding icon is disposed at a position of a center line of the mobile phone display screen in a vertical direction, and the answer icon and the reject icon may be disposed on left and right sides of the sliding icon respectively.
It should be noted that, in this embodiment, the answer icon and the reject icon may be dynamic icons, where the dynamic type of the dynamic icon may be rotation, that is, the answer icon and the reject icon are rotatable icons.
For example, in one possible implementation, as shown in the left diagram of fig. 2, the listen icon and the reject icon may be rotated to the right, and the effect of the right rotation may be seen in the right diagram of fig. 2.
In one possible implementation, the rotation of the answer icon and the reject icon to the right may be the same or different.
For example, the listening icon is rotated to the right by an amount equal to the rejection icon; for another example, the rotation amplitude of the receiving icon to the right side is larger than that of the rejecting icon to the right side; as another example, the listening icon may be rotated to the right by a lesser amount than the rejecting icon.
In one possible implementation, the handset may determine the magnitude of the rotation of the answer and reject icons to the right based on the ring tone of the incoming call.
The incoming call ringtone can be selected by a user and set based on a mobile phone; the ring tone may also be set by a system providing an instant messaging tool, and the like, which is not limited in this embodiment.
For example, the mobile phone may analyze the incoming ringtone to obtain the attribute information. If the mobile phone analyzes the volume of the mobile phone ring, the audio decibel is obtained; for another example, the mobile phone analyzes the note of the mobile phone ring to obtain the audio melody; for another example, the mobile phone may analyze the notes of the mobile phone ring tone to obtain the audio beat, and so on.
In a possible implementation scheme, the mobile phone may specifically determine the amplitude of the rightward rotation of the answer icon and the reject icon based on the attribute information of the incoming ringtone, for example, the mobile phone may determine the amplitude of the rightward rotation of the answer icon and the reject icon based on at least one of audio decibels, audio melodies, and audio beats.
Now, the following description is exemplarily given by taking the mobile phone to determine the amplitude of the rightward rotation of the answer icon and the reject icon based on the audio decibel as an example:
the method comprises the steps that the mobile phone determines the audio decibels of the incoming call ringtone corresponding to the left sound channel of the mobile phone, determines the audio decibels of the incoming ringtone corresponding to the right sound channel of the mobile phone, determines the rightward rotation amplitude of the left icon on the display screen of the mobile phone according to the audio decibels of the left sound channel, and determines the rightward rotation amplitude of the right icon on the display screen of the mobile phone according to the audio decibels of the right sound channel.
It should be noted that, for any audio decibel, the mobile phone may control the rotation amplitude of the answer icon and the rejection icon based on the initial positions of the answer icon and the rejection icon (e.g., the positions of the icons in the left diagram in fig. 2) in combination with the audio decibel, or may control the rotation amplitude of the answer icon and the rejection icon in combination with the current audio decibel based on the previous audio decibel of the current audio decibel.
In one possible implementation, when the amplitude of the rightward rotation of the answer icon and/or the reject icon reaches a preset amplitude threshold, the answer icon and/or the reject icon rotates to the left side, as shown in fig. 3, and may rotate to the right side again when the answer icon and/or the reject icon rotates to the left side to an initial state (i.e., the position of the icon in the left diagram in fig. 2), and so on. Of course, when the listen icon and/or the reject icon are rotated to the left to the original state, the amplitude threshold may continue to be rotated to the left (as in the left diagram of fig. 4) and then to the right (as in the right diagram of fig. 4), and so on.
That is, the listen icon and the reject icon may be rotated back and forth according to their respective corresponding magnitudes.
It should be noted that the amplitude threshold for the rightward rotation may be the same as or different from the amplitude threshold for the leftward rotation. And the amplitude threshold may be understood as the maximum value of the amplitude of the right-hand rotation, or alternatively, the maximum value of the amplitude of the left-hand rotation.
In another possible implementation, the threshold value of the amplitude of the left rotation may be replaced by a preset position of the left rotation, and the threshold value of the amplitude of the right rotation may be replaced by a preset position of the right rotation.
In another possible implementation, the threshold value of the amplitude of the left rotation may be replaced by a preset time of the left rotation, and the threshold value of the amplitude of the right rotation may be replaced by a preset time of the right rotation.
In a possible implementation scheme, the answer icon may be located on the right side of the sliding icon, and the reject icon may be located on the left side of the sliding icon, so that the user may press the sliding icon to slide to the right side to answer the call request, or press the sliding icon to slide to the left side to hang up the call request.
In another possible implementation scheme, the answer icon may be located on the left side of the sliding icon, and the reject icon may be located on the right side of the sliding icon, so that the user may press the sliding icon to slide to the left side to answer the call request, or press the sliding icon to slide to the right side to hang up the call request.
In one possible implementation, the listening icon and the rejecting icon are different colors, for example, the listening icon may be green and the rejecting icon may be red.
Based on the above analysis, in one possible implementation, the listening icon and the rejecting icon may be rotated to the right, and the effect after the rotation to the right may be seen in the right diagram of fig. 2, while in another possible listening icon and rejecting icon may be rotated to the left, and the effect after the rotation to the left may be seen in the right diagram of fig. 5.
It should be noted that, the method for implementing the left-side rotation of the answer icon and the reject icon may refer to the description of the right-side rotation of the answer icon and the reject icon, which is not described herein again.
Of course, in another possible implementation scheme, the rotation directions of the answer icon and the reject icon may be different, for example, the answer icon may be rotated to the left, and the reject icon may be rotated to the right; alternatively, the answer icon may be rotated to the right and the reject icon may be rotated to the left.
For example, if the accept icon is located on the right side of the slide icon and the reject icon is located on the left side of the slide icon, then when the accept icon is rotated to the left, the reject icon is rotated to the right, as shown in fig. 6.
For another example, if the received icon is located on the right side of the sliding icon and the rejected icon is located on the left side of the sliding icon, then when the received icon is rotated to the right, the rejected icon is rotated to the left, as shown in fig. 7.
If the accept icon is located on the left side of the slide icon and the reject icon is located on the right side of the slide icon, then when the accept icon is rotated to the left, the reject icon is rotated to the right, as shown in fig. 7.
If the accept icon is located on the left side of the slide icon and the reject icon is located on the right side of the slide icon, then when the accept icon is rotated to the left, the reject icon is rotated to the right, as shown in fig. 6.
Based on the above embodiments, the answer icon and the reject icon may be dynamic icons, and specifically, may be dynamic icons that can be rotated, and in other embodiments, the dynamic type may also be zooming, that is, the answer icon and the reject icon are scalable icons.
For example, as shown in fig. 8, the diagram shown in the middle of fig. 8 reveals the listen icon and the reject icon in the related art, while in one possible implementation of the present embodiment, the listen icon and the reject icon may be enlarged as shown in the left diagram of fig. 8. And in another possible implementation of this embodiment, the answer icon and the reject icon may be reduced, as shown in the right diagram of fig. 8.
It should be noted that, regarding the specific principle that the answer icon and the reject icon are enlarged or reduced, reference may be made to the principle of rotation of the answer icon and the reject icon in the foregoing embodiment, for example, the mobile phone determines the scaling amplitude of the answer icon and the reject icon based on the audio decibel (and may include the audio decibel of the left channel and the audio decibel of the right channel), and performs scaling processing on the answer icon and the reject icon based on the determined scaling amplitude, and so on, which is not described herein again.
And it should be understood that the mobile phone may process the listen icon and the reject icon from a single dimension (i.e., one of rotation and scaling), or may process the listen icon and the reject icon from two dimensions (i.e., two of rotation and scaling), which is not limited in this application.
That is, the mobile phone may perform rotation processing on the listen icon and the reject icon, may perform scaling processing on the listen icon and the reject icon, or may perform scaling processing on the listen icon and the reject icon while performing rotation processing on the listen icon and the reject icon.
Based on the above analysis, it can be known that the answer icon and the reject icon are dynamic icons, the mobile phone can determine dynamic information of the dynamic icon based on the incoming call ringtone, and the dynamic information can be a rotation amplitude of the dynamic icon, that is, the mobile phone can determine the rotation amplitude of the dynamic icon based on the incoming ringtone and specifically determine the rotation amplitude of the dynamic icon based on the audio decibel of the incoming ringtone.
As shown in fig. 9, in one possible implementation, the mobile phone may determine a spectral line of the left channel in audio decibels, and display the spectral line of the left channel in audio decibels between the sliding icon and the icon located on the left side of the sliding icon, and the mobile phone may determine a spectral line of the right channel in audio decibels, and display the spectral line of the right channel in audio decibels between the sliding icon and the icon located on the right side of the sliding icon.
It should be noted that the amplitudes of the spectral lines corresponding to different audio decibels are different, for example, when the audio decibel is larger, the amplitude of the corresponding spectral line may be relatively larger, and when the audio decibel is smaller, the amplitude of the corresponding spectral line may be relatively smaller. Here, the amplitude may be understood as a variation range between the highest point and the lowest point of the spectrum line in the vertical direction (i.e., in the Y-axis direction).
As can be seen from the above description, the mobile phone can display the spectrum line and display the static answer icon and the rejection icon, while in another possible implementation scheme, the mobile phone can display the dynamic answer icon and the rejection icon when displaying the spectrum line.
As shown in fig. 10 and 11, the mobile phone displays the spectrum line, and displays a dynamic answer icon and a dynamic reject icon based on the incoming call ringtone. Moreover, as can be seen from fig. 10 and 11, the larger the audio decibel is, the larger the rotation amplitude of the dynamic icon is, and the larger the zoom amplitude of the dynamic icon is, the larger the amplitude of the spectral line is; the smaller the audio decibel is, the smaller the rotation amplitude of the dynamic icon is, and the smaller the zoom amplitude of the dynamic icon is, the smaller the amplitude of the spectral line is.
Based on the above analysis, the embodiments of the present application provide a method for displaying a caller id different from that in the related art, and the method for displaying a caller id in the embodiments of the present application is now described as follows with reference to the above embodiments and fig. 12. Fig. 12 is a flowchart illustrating a method for displaying an incoming call according to an embodiment of the present application.
As shown in fig. 12, the method includes:
s101: a call request is received.
S102: outputting a call display interface on a display screen of user equipment, wherein the call display interface comprises an answering icon, a refusing icon and a sliding icon, the answering icon is positioned on one side of the display screen, the refusing icon is positioned on the other side of the display screen, the sliding icon is positioned between the answering icon and the refusing icon, the answering icon and/or the refusing icon are dynamic icons, and the dynamic type of the dynamic icons comprises rotation and/or scaling;
s103: if the sliding icon slides to the answering icon, answering the call request; and if the sliding icon slides to the refusing icon, hanging up the call request.
The user equipment may be a terminal device with a caller identification function, for example, the user equipment may be a mobile phone, a smart watch, an iPad, or the like described in the above embodiments, and the application is not limited thereto.
For example, as shown in FIG. 2, the answer icon may be located on the right side (or left side) of the display screen, the reject icon may be located on the left side (or left side) of the caller identification interface, and both the answer icon and the reject icon may be dynamic icons that are rotated to the right.
The answer icon and the reject icon may be respectively located on two sides of the sliding icon, and the sliding icon may be located on a central line of the display screen in the numerical direction, which may specifically refer to any one of the embodiments in fig. 2 to 11.
For another example, as shown in fig. 5, the answer icon may be located on the right side (or left side) of the caller id interface, the reject icon may be located on the left side (or left side) of the caller id interface, and both the answer icon and the reject icon may be dynamic icons that are rotated to the left side.
It should be noted that, in this embodiment, the user equipment outputs the rotating dynamic icon on the display screen, and the rotating dynamic icon may be a rotatable answering icon or a rotatable rejecting icon, so that diversification and flexibility of incoming call display can be achieved, and the conversation experience of the user is improved.
In some embodiments, the direction of rotation of the listen icon and the reject icon includes at least one of:
the direction of rotation of the answer icon and the reject icon are both to the right (as shown in fig. 2).
The direction of rotation for the listen icon and the reject icon are both to the left (left view as shown in fig. 5).
The rotation direction of the answer icon is right and the rotation direction of the reject icon is left.
For example, as shown in fig. 7, if the answer icon is located on the right side of the incoming call display interface and the reject icon is located on the left side of the incoming call display interface, the rotation direction of the answer icon is rightward and the rotation direction of the reject icon is leftward.
The direction of rotation of the answer icon is to the left and the direction of rotation of the reject icon is to the right.
For example, as shown in fig. 7, if the accept icon is located on the left side of the display screen and the reject icon is located on the right side of the display screen, the rotation direction of the accept icon is left and the rotation direction of the reject icon is right.
For another example, the dynamic type of the dynamic icon may be zoom, that is, the accept icon and/or the reject icon may be a zoomed dynamic icon, as shown in the left diagram of fig. 8, and the user equipment may output the enlarged accept icon and/or reject icon on the display screen; as shown in the right diagram of fig. 8, the user device may output the scaled-down pick-up icon and/or the reject icon on the display screen.
Based on the above analysis, the mobile phone may determine the rotation amplitude and/or the zoom amplitude of the dynamic icon (i.e. the answer icon and/or the reject icon) based on the ring tone, taking the answer icon on the right side of the display screen and the reject icon on the left side of the display screen as an example, and the implementation principle is explained as follows with reference to fig. 13. Fig. 13 is a flowchart illustrating a method for displaying an incoming call according to another embodiment of the present application.
As shown in fig. 13, the method includes:
s201: a call request is received.
S202: and determining that the incoming call ringtone corresponds to the audio decibel of the left sound channel of the user equipment, and determining that the incoming call ringtone corresponds to the audio decibel of the right sound channel of the user equipment.
S203: and determining the rotation amplitude and/or the scaling amplitude of the rejection icon according to the audio decibel of the left channel, and determining the rotation amplitude and/or the scaling amplitude of the listening icon according to the audio decibel of the right channel.
For example, the user equipment may preset a mapping relationship between the audio decibels and the rotation amplitude, determine, based on the mapping relationship, the rotation amplitude of the rejection icon corresponding to the audio decibel of the left channel when the audio decibel of the left channel is determined, and determine, based on the mapping relationship, the rotation amplitude of the rejection icon corresponding to the audio decibel of the right channel when the audio decibel of the right channel is determined.
Similarly, the user equipment may preset a mapping relationship between the audio decibel and the zoom amplitude, determine, based on the mapping relationship, the zoom amplitude of the rejectable icon corresponding to the audio decibel of the left channel when the audio decibel of the left channel is determined, and determine, based on the mapping relationship, the zoom amplitude of the rejectable icon corresponding to the audio decibel of the right channel when the audio decibel of the right channel is determined.
S204: and determining a spectral line corresponding to the audio decibel of the left channel, and determining a spectral line corresponding to the audio decibel of the right channel.
S205: outputting a caller id display interface on a display screen of the user equipment, where the caller id display interface includes a reject icon, an answer icon, and a sliding icon, the sliding icon is located on a center line of the display screen in a vertical direction, the reject icon is located on a left side of the sliding icon, the answer icon is located on a right side of the sliding icon, and the reject icon and the answer icon change (rotate and/or zoom) on the display screen based on a respective rotation amplitude and/or zoom amplitude, and the caller id display interface further includes a spectral line corresponding to an audio decibel of a left channel between the sliding icon and the reject icon and a spectral line corresponding to an audio decibel of a right channel between the sliding icon and the answer icon, which may be specifically referred to any one of embodiments in fig. 9 to 11.
S206: if the sliding icon slides to the answering icon, answering the call request; and if the sliding icon slides to the refusing icon, hanging up the call request.
It is worth mentioning that, in some embodiments, on the basis of any of the above embodiments, the user equipment may further control the vibration of the user equipment when outputting the caller id interface.
For example, the user device may determine whether the incoming call alert mode of the user device includes a vibration mode, and if so, the user device may control the user device to vibrate according to the audio decibel of the left channel and/or the audio decibel of the right channel.
Specifically, the user equipment may control the user equipment to vibrate according to the audio decibel of the left channel, may also control the user equipment to vibrate according to the audio decibel of the right channel, and may also control the user equipment to vibrate according to the audio decibel of the left channel and the audio decibel of the right channel.
The mapping relationship between the audio decibels and the vibration intensity can be preset, and if the user equipment controls the user equipment to vibrate according to the audio decibels of the left channel, the vibration intensity corresponding to the audio decibels of the left channel can be determined based on the mapping relationship, and the user equipment is controlled to execute vibration based on the vibration intensity; if the user equipment controls the user equipment to vibrate according to the audio decibel of the right channel, determining the vibration intensity corresponding to the audio decibel of the right channel based on the mapping relation, and controlling the user equipment to execute vibration based on the vibration intensity; if the user equipment controls the user equipment to vibrate according to the audio decibels of the left channel and the right channel, the average value of the audio decibel of the left channel and the audio decibel of the right channel can be determined, the vibration intensity corresponding to the average value is determined based on the mapping relation, and the user equipment is controlled to execute vibration based on the vibration intensity.
In some embodiments, the audio decibel is proportional to the vibration intensity, i.e., the greater the audio decibel, the greater the vibration intensity, and the smaller the audio decibel, the lesser the vibration intensity.
It is worth mentioning that, in this embodiment, the user equipment controls the vibration of the user equipment based on the vibration intensity on the basis of outputting the rotating dynamic icon, so that multiple experiences in hearing, vision and touch are provided for the user, the incoming call experience of the user is enriched, the flexibility of incoming call reminding is realized, and the reliability of incoming call reminding is improved.
According to another aspect of the embodiments of the present application, a user equipment is further provided, which is configured to perform the method for displaying an incoming call described in any of the above embodiments, for example, the method for displaying an incoming call shown in fig. 12 and/or fig. 13 is performed, and the user equipment may output the schematic diagram of the incoming call display interface shown in any of fig. 2 to fig. 11 based on the method for displaying an incoming call performed by the user equipment.
Referring to fig. 14, fig. 14 is a schematic diagram of a user equipment according to an embodiment of the present application.
As shown in fig. 14, the user equipment includes:
a communication module 11, configured to receive a call request;
an output module 12, configured to output a caller id display interface on a display screen of the user equipment, where the caller id display interface includes an answer icon, a reject icon, and a sliding icon, the answer icon is located on one side of the display screen, the reject icon is located on the other side of the display screen, the sliding icon is located between the answer icon and the reject icon, the answer icon and/or the reject icon is a dynamic icon, and a dynamic type of the dynamic icon includes rotation and/or scaling.
The answering module 13 is configured to answer the call request if the sliding icon slides to the answering icon;
and a hang-up module 14, configured to hang up the call request if the sliding icon slides to the reject icon.
In some embodiments, the magnitude of the rotation and/or the magnitude of the scaling of the dynamic icon is determined based on the incoming ringtone.
In some embodiments, the rotation magnitude and/or the scaling magnitude is determined based on an audio decibel of the incoming ringtone.
In some embodiments, the answer icon is located on the right side of the display screen, the reject icon is located on the left side of the display screen, the rotation and/or scaling magnitude of the answer icon is determined based on the audio decibel of the incoming ringtone corresponding to the right channel of the user device, and the rotation and/or scaling magnitude of the reject icon is determined based on the audio decibel of the incoming ringtone corresponding to the left channel of the user device.
In some embodiments, the caller identification interface further comprises: the answer icon is positioned on the right side of the sliding icon, and the reject icon is positioned on the left side of the sliding icon.
In some embodiments, the caller identification interface further comprises: the frequency spectrum line corresponding to the audio decibel of the left channel between the sliding icon and the refusing icon, and the frequency spectrum line corresponding to the audio decibel of the right channel between the sliding icon and the answering icon.
As can be seen in fig. 14, in some embodiments, the user equipment further includes:
a determining module 15, configured to determine an incoming call reminding mode of the user equipment;
and the vibration module 16 is configured to control the user equipment to vibrate according to the audio decibel of the left channel and/or the audio decibel of the right channel if the incoming call reminding mode includes a vibration mode.
In some embodiments, the direction of rotation of the answer icon and the reject icon includes at least one of:
the rotation directions of the answer icon and the rejection icon are both right;
the rotation directions of the answer icon and the rejection icon are both towards the left;
the rotation direction of the answer icon is rightward, and the rotation direction of the reject icon is leftward;
the rotation direction of the answer icon is towards the left, and the rotation direction of the reject icon is towards the right.
Based on the above analysis, the user equipment may be a mobile phone, wherein the structure of the mobile phone can refer to fig. 15.
As shown in fig. 15, the mobile phone may include a processor 110, an external memory interface 120, an internal memory 121, a Universal Serial Bus (USB) interface 130, a charging management module 140, a power management module 141, a battery 142, an antenna 1, an antenna 2, a mobile communication module 150, a wireless communication module 160, an audio module 170, a speaker 170A, a receiver 170B, a microphone 170C, an earphone interface 170D, a sensor 180, a button 190, a motor 191, an indicator 192, a camera 193, a display screen 194, a Subscriber Identity Module (SIM) card interface 195, and the like.
It should be understood that the structure illustrated in the present embodiment does not constitute a specific limitation to the mobile phone. In other embodiments of the present application, the handset may include more or fewer components than shown, or combine certain components, or split certain components, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.
In some embodiments, processor 110 may include one or more interfaces. The interface may include an integrated circuit (I2C) interface, an integrated circuit built-in audio (I2S) interface, a Pulse Code Modulation (PCM) interface, a universal asynchronous receiver/transmitter (UART) interface, a Mobile Industry Processor Interface (MIPI), a general-purpose input/output (GPIO) interface, a Subscriber Identity Module (SIM) interface, and/or a Universal Serial Bus (USB) interface, etc. The USB interface 130 is an interface conforming to the USB standard specification, and may specifically be a Mini USB interface, a Micro USB interface, a USB Type C interface, or the like. The USB interface 130 may be used to connect a charger to charge a mobile phone, or may be used to transmit data between the mobile phone and a peripheral device. And the earphone can also be used for connecting an earphone and playing audio through the earphone.
It should be understood that the interface connection relationship between the modules in the embodiment of the present invention is only schematically illustrated, and does not form a limitation on the structure of the mobile phone. In other embodiments of the present application, the mobile phone may also adopt different interface connection manners or a combination of multiple interface connection manners in the above embodiments.
The charging management module 140 is configured to receive charging input from a charger. The charger may be a wireless charger or a wired charger. In some wired charging embodiments, the charging management module 140 may receive charging input from a wired charger via the USB interface 130. In some wireless charging embodiments, the charging management module 140 may receive a wireless charging input through a wireless charging coil of the cell phone. The charging management module 140 may also supply power to the mobile phone through the power management module 141 while charging the battery 142.
The power management module 141 is used to connect the battery 142, the charging management module 140 and the processor 110. The power management module 141 receives input from the battery 142 and/or the charge management module 140, and supplies power to the processor 110, the internal memory 121, the display 194, the camera 193, the wireless communication module 160, and the like. The power management module 141 may also be used to monitor parameters such as battery capacity, battery cycle count, battery state of health (leakage, impedance), etc. In some other embodiments, the power management module 141 may also be disposed in the processor 110. In other embodiments, the power management module 141 and the charging management module 140 may be disposed in the same device.
The wireless communication function of the mobile phone can be realized by the antenna 1, the antenna 2, the mobile communication module 150, the wireless communication module 160, the modem processor, the baseband processor, and the like. The antennas 1 and 2 are used for transmitting and receiving electromagnetic wave signals. Each antenna in the handset may be used to cover a single or multiple communication bands. Different antennas can also be multiplexed to improve the utilization of the antennas. For example: the antenna 1 may be multiplexed as a diversity antenna of a wireless local area network. In other embodiments, the antenna may be used in conjunction with a tuning switch.
The mobile communication module 150 may provide a solution including wireless communication of 2G/3G/4G/5G, etc. applied to a mobile phone. The mobile communication module 150 may include at least one filter, switch, power amplifier, low noise amplifier, etc. The mobile communication module 150 may receive the electromagnetic wave from the antenna 1, filter, amplify, etc. the received electromagnetic wave, and transmit the electromagnetic wave to the modem processor for demodulation. The mobile communication module 150 may also amplify the signal modulated by the modem processor, and convert the signal into electromagnetic wave through the antenna 1 to radiate the electromagnetic wave. In some embodiments, at least some of the functional modules of the mobile communication module 150 may be disposed in the processor 110. In some embodiments, at least some of the functional modules of the mobile communication module 150 may be disposed in the same device as at least some of the modules of the processor 110.
The modem processor may include a modulator and a demodulator. The modulator is used for modulating a low-frequency baseband signal to be transmitted into a medium-high frequency signal. The demodulator is used for demodulating the received electromagnetic wave signal into a low-frequency baseband signal. The demodulator then passes the demodulated low frequency baseband signal to a baseband processor for processing. The low frequency baseband signal is processed by the baseband processor and then transferred to the application processor. The application processor outputs a sound signal through an audio device (not limited to the speaker 170A, the receiver 170B, etc.), for example, the application processor outputs music corresponding to the call request through the audio device, or displays an image or video through the display screen 194, for example, the application processor outputs a caller id display interface as shown in any one of the embodiments of fig. 2 to 11 through the display screen. In some embodiments, the modem processor may be a stand-alone device. In other embodiments, the modem processor may be provided in the same device as the mobile communication module 150 or other functional modules, independent of the processor 110.
The wireless communication module 160 may provide solutions for wireless communication including Wireless Local Area Networks (WLAN), bluetooth, Global Navigation Satellite System (GNSS), Frequency Modulation (FM), NFC, Infrared (IR), and the like, which are applied to the mobile phone. The wireless communication module 160 may be one or more devices integrating at least one communication processing module. The wireless communication module 160 receives electromagnetic waves via the antenna 2, performs frequency modulation and filtering processing on electromagnetic wave signals, and transmits the processed signals to the processor 110. The wireless communication module 160 may also receive a signal to be transmitted from the processor 110, perform frequency modulation and amplification on the signal, and convert the signal into electromagnetic waves through the antenna 2 to radiate the electromagnetic waves.
In some embodiments, the handset antenna 1 is coupled to the mobile communication module 150 and the handset antenna 2 is coupled to the wireless communication module 160 so that the handset can communicate with the network and other devices via wireless communication techniques. The wireless communication technologies may include GSM, GPRS, CDMA, WCDMA, TD-SCDMA, LTE, GNSS, WLAN, NFC, FM, and/or IR technologies, among others. The GNSS may include a Global Positioning System (GPS), a global navigation satellite system (GLONASS), a beidou navigation satellite system (BDS), a quasi-zenith satellite system (QZSS), and/or a Satellite Based Augmentation System (SBAS).
The mobile phone can realize the display function through the GPU, the display screen 194, the application processor and the like. The GPU is a microprocessor for image processing, and is connected to the display screen 194 and an application processor. The GPU is used to perform mathematical and geometric calculations for graphics rendering. The processor 110 may include one or more GPUs that execute instructions to generate or change display information.
The display screen 194 is used to display images, video, and the like. The display screen 194 includes a display panel. The display panel may adopt a Liquid Crystal Display (LCD), an organic light-emitting diode (OLED), an active-matrix organic light-emitting diode (active-matrix organic light-emitting diode, AMOLED), a flexible light-emitting diode (FLED), a miniature, a Micro-oeld, a quantum dot light-emitting diode (QLED), and the like. In some embodiments, the cell phone may include 1 or N display screens 194, with N being a positive integer greater than 1.
The cell phone may implement a camera function via the ISP, one or more cameras 193, video codec, GPU, one or more display screens 194, and application processor, among others.
The NPU is a neural-network (NN) computing processor that processes input information quickly by using a biological neural network structure, for example, by using a transfer mode between neurons of a human brain, and can also learn by itself continuously. The NPU can realize the applications of intelligent cognition and the like of the mobile phone, for example: image recognition, face recognition, speech recognition, text understanding, and the like.
The external memory interface 120 may be used to connect an external memory card, such as a Micro SD card, to extend the storage capability of the mobile phone. The external memory card communicates with the processor 110 through the external memory interface 120 to implement a data storage function. For example, data files such as music, photos, videos, and the like are saved in the external memory card.
Internal memory 121 may be used to store one or more computer programs, including instructions. The processor 110 may execute the above-mentioned instructions stored in the internal memory 121, so as to enable the handset to execute the voice switching method provided in some embodiments of the present application, and various functional applications, data processing, and the like. The internal memory 121 may include a program storage area and a data storage area. Wherein, the storage program area can store an operating system; the storage area may also store one or more application programs (e.g., gallery, contacts, etc.), etc. The data storage area can store data (such as photos, contacts and the like) created in the use process of the mobile phone and the like. In addition, the internal memory 121 may include a high-speed random access memory, and may further include a nonvolatile memory, such as at least one magnetic disk storage device, a flash memory device, a universal flash memory (UFS), and the like. In some embodiments, the processor 110 may cause the mobile phone to execute the method for displaying the incoming call provided in the embodiments of the present application, and various functional applications and data processing by executing instructions stored in the internal memory 121 and/or instructions stored in a memory provided in the processor 110.
The mobile phone can implement audio functions through the audio module 170, the speaker 170A, the receiver 170B, the microphone 170C, the earphone interface 170D, and the application processor. Such as music playing, recording, etc. The audio module 170 is configured to convert digital audio information into an analog audio signal for output, and also configured to convert an analog audio input into a digital audio signal. The audio module 170 may also be used to encode and decode audio signals. In some embodiments, the audio module 170 may be disposed in the processor 110, or some functional modules of the audio module 170 may be disposed in the processor 110. The speaker 170A, also called a "horn", is used to convert the audio electrical signal into an acoustic signal. The handset can listen to music through the speaker 170A or listen to a hands-free conversation. The receiver 170B, also called "earpiece", is used to convert the electrical audio signal into an acoustic signal. When the mobile phone receives a call or voice information, the receiver 170B can be close to the ear to receive voice. The microphone 170C, also referred to as a "microphone," is used to convert sound signals into electrical signals. When making a call or transmitting voice information, the user can input a voice signal to the microphone 170C by speaking the user's mouth near the microphone 170C. The handset may be provided with at least one microphone 170C. In other embodiments, the mobile phone may be provided with two microphones 170C to achieve the noise reduction function in addition to collecting the sound signal. In other embodiments, the mobile phone may further include three, four or more microphones 170C to collect sound signals, reduce noise, identify sound sources, and implement directional recording functions. The headphone interface 170D is used to connect a wired headphone. The headset interface 170D may be the USB interface 130, may be an open mobile electronic device platform (OMTP) standard interface of 3.5mm, and may also be a CTIA (cellular telecommunications industry association) standard interface.
The sensors 180 may include a pressure sensor 180A, a gyroscope sensor 180B, an air pressure sensor 180C, a magnetic sensor 180D, an acceleration sensor 180E, a distance sensor 180F, a proximity light sensor 180G, a fingerprint sensor 180H, a temperature sensor 180J, a touch sensor 180K, an ambient light sensor 180L, a bone conduction sensor 180M, and the like.
The pressure sensor 180A is used for sensing a pressure signal, and converting the pressure signal into an electrical signal. In some embodiments, the pressure sensor 180A may be disposed on the display screen 194. The pressure sensor 180A can be of a wide variety, such as a resistive pressure sensor, an inductive pressure sensor, a capacitive pressure sensor, and the like. The capacitive pressure sensor may be a sensor comprising at least two parallel plates having an electrically conductive material. When a force acts on the pressure sensor 180A, the capacitance between the electrodes changes. The mobile phone determines the intensity of the pressure according to the change of the capacitance. When a touch operation is applied to the display screen 194, the mobile phone detects the intensity of the touch operation according to the pressure sensor 180A. The mobile phone can also calculate the touched position according to the detection signal of the pressure sensor 180A. In some embodiments, the touch operations that are applied to the same touch position but different touch operation intensities may correspond to different operation instructions. For example: and when the touch operation with the touch operation intensity smaller than the first pressure threshold value acts on the short message application icon, executing an instruction for viewing the short message. And when the touch operation with the touch operation intensity larger than or equal to the first pressure threshold value acts on the short message application icon, executing an instruction of newly building the short message.
The gyro sensor 180B may be used to determine the motion attitude of the handset. In some embodiments, the angular velocity of the handpiece about three axes (i.e., the x, y, and z axes) may be determined by the gyro sensor 180B. The gyro sensor 180B may be used for photographing anti-shake. Illustratively, when the shutter is pressed, the gyroscope sensor 180B detects the shake angle of the mobile phone, calculates the distance to be compensated for the lens module according to the shake angle, and allows the lens to counteract the shake of the mobile phone through reverse movement, thereby achieving anti-shake. The gyro sensor 180B may also be used for navigation, body sensing game scenes, and the like.
The acceleration sensor 180E can detect the magnitude of acceleration of the cellular phone in various directions (typically three axes). When the mobile phone is static, the size and the direction of gravity can be detected. The method can also be used for recognizing the posture of the electronic equipment, and is applied to horizontal and vertical screen switching, pedometers and other applications.
A distance sensor 180F for measuring a distance. The handset can measure distance by infrared or laser. In some embodiments, the scene is photographed and the cell phone may utilize the distance sensor 180F for ranging to achieve fast focus.
The proximity light sensor 180G may include, for example, a Light Emitting Diode (LED) and a light detector, such as a photodiode. The light emitting diode may be an infrared light emitting diode. The mobile phone emits infrared light outwards through the light emitting diode. The handset uses a photodiode to detect infrared reflected light from nearby objects. When sufficient reflected light is detected, it can be determined that there is an object near the handset. When insufficient reflected light is detected, the handset can determine that there are no objects near the handset. The mobile phone can detect that the mobile phone is held by a user and close to the ear for conversation by using the proximity light sensor 180G so as to automatically extinguish the screen and achieve the purpose of saving electricity. The proximity light sensor 180G may also be used in a holster mode, a pocket mode automatically unlocks and locks the screen.
The ambient light sensor 180L is used to sense the ambient light level. The mobile phone may adaptively adjust the brightness of the display screen 194 according to the perceived ambient light level. The ambient light sensor 180L may also be used to automatically adjust the white balance when taking a picture. The ambient light sensor 180L may also cooperate with the proximity light sensor 180G to detect whether the mobile phone is in a pocket, so as to prevent accidental touch.
A fingerprint sensor 180H (also referred to as a fingerprint recognizer) for collecting a fingerprint. The mobile phone can utilize the collected fingerprint characteristics to realize fingerprint unlocking, access to an application lock, fingerprint photographing, fingerprint incoming call answering and the like.
Touch sensor 180K, which may also be referred to as a touch panel or touch sensitive surface. The touch sensor 180K may be disposed on the display screen 194, and the touch sensor 180K and the display screen 194 form a touch screen, which is also called a touch screen. The touch sensor 180K is used to detect a touch operation applied thereto or nearby. The touch sensor can communicate the detected touch operation to the application processor to determine the touch event type. Visual output associated with the touch operation may be provided through the display screen 194. In other embodiments, the touch sensor 180K may be disposed on the surface of the mobile phone at a different position than the display screen 194.
The bone conduction sensor 180M may acquire a vibration signal. In some embodiments, the bone conduction sensor 180M may acquire a vibration signal of the human vocal part vibrating the bone mass. The bone conduction sensor 180M may also contact the human pulse to receive the blood pressure pulsation signal. In some embodiments, the bone conduction sensor 180M may also be disposed in a headset, integrated into a bone conduction headset. The audio module 170 may analyze a voice signal based on the vibration signal of the bone mass vibrated by the sound part acquired by the bone conduction sensor 180M, so as to implement a voice function. The application processor can analyze heart rate information based on the blood pressure beating signal acquired by the bone conduction sensor 180M, so as to realize the heart rate detection function.
The keys 190 include a power-on key, a volume key, and the like. The keys 190 may be mechanical keys or touch keys. The mobile phone may receive a key input, and generate a key signal input related to user setting and function control of the mobile phone.
The SIM card interface 195 is used to connect a SIM card. The SIM card can be attached to and detached from the mobile phone by being inserted into the SIM card interface 195 or being pulled out from the SIM card interface 195. The mobile phone can support 1 or N SIM card interfaces, and N is a positive integer greater than 1. The SIM card interface 195 may support a Nano SIM card, a Micro SIM card, a SIM card, etc. The same SIM card interface 195 can be inserted with multiple cards at the same time. The types of the plurality of cards may be the same or different. The SIM card interface 195 may also be compatible with different types of SIM cards. The SIM card interface 195 may also be compatible with external memory cards. The mobile phone realizes functions of communication, data communication and the like through interaction of the SIM card and a network. In some embodiments, the handset employs eSIM, namely: an embedded SIM card. The eSIM card can be embedded in the mobile phone and cannot be separated from the mobile phone.
According to another aspect of the embodiments of the present application, an electronic device and a readable storage medium are also provided.
Referring to fig. 16, fig. 16 is a block diagram of an electronic device according to an embodiment of the present application.
The electronic device is intended to mean various electronic devices which can be used for telephone communication and can display a caller identification interface, such as a cellular phone, a smart phone, a wearable device and the like. The components shown herein, their connections and relationships, and their functions, are meant to be examples only, and are not meant to limit implementations of the present application that are described and/or claimed herein.
As shown in fig. 16, the electronic apparatus includes: one or more processors 201, memory 202, and interfaces for connecting the various components, including high-speed interfaces and low-speed interfaces. The various components are interconnected using different buses and may be mounted on a common motherboard or in other manners as desired. The processor may process instructions for execution within the electronic device, including instructions stored in or on the memory to display graphical information of a GUI on an external input/output apparatus (such as a display device coupled to the interface). In other embodiments, multiple processors and/or multiple buses may be used, along with multiple memories and multiple memories, as desired. Also, multiple electronic devices may be connected, with each device providing portions of the necessary operations (e.g., as a server array, a group of blade servers, or a multi-processor system). Fig. 16 illustrates an example of one processor 201.
The memory 202 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to use of the electronic device, and the like. Further, the memory 202 may include high speed random access memory, and may also include non-transitory memory, such as at least one magnetic disk storage device, flash memory device, or other non-transitory solid state storage device. In some embodiments, the memory 202 may optionally include memory located remotely from the processor 201, which may be connected to the electronic device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.
The electronic device may further include: an input device 203 and an output device 204. The processor 201, the memory 202, the input device 203, and the output device 204 may be connected by a bus or other means, and the bus connection is exemplified in fig. 16.
The input device 203 may receive input numeric or character information and generate key signal inputs related to user settings and function control of the electronic apparatus, such as an input device of a touch screen, a touch pad, a pointing stick, and the like. The output device 104 may include a display device, such as the display screen described in the above embodiments, and the output device may be used to output a schematic diagram of the caller id interface shown in any one of fig. 2 to 11. In some implementations, the display device can be a touch screen.
Various implementations of the systems and techniques described here can be realized in digital electronic circuitry, integrated circuitry, application specific ASICs (application specific integrated circuits), computer hardware, firmware, software, and/or combinations thereof. These various embodiments may include: implemented in one or more computer programs that are executable and/or interpretable on a programmable system including at least one programmable processor, which may be special or general purpose, receiving data and instructions from, and transmitting data and instructions to, a storage system, at least one input device, and at least one output device.
These computer programs (also known as programs, software applications, or code) include machine instructions for a programmable processor, and may be implemented using high-level procedural and/or object-oriented programming languages, and/or assembly/machine languages. As used herein, the terms "machine-readable medium" and "computer-readable medium" refer to any computer program product, apparatus, and/or device (e.g., magnetic discs, optical disks, memory, Programmable Logic Devices (PLDs)) used to provide machine instructions and/or data to a programmable processor, including a machine-readable medium that receives machine instructions as a machine-readable signal. The term "machine-readable signal" refers to any signal used to provide machine instructions and/or data to a programmable processor.
To provide for interaction with a user, the systems and techniques described here can be implemented on a computer having: a display device (e.g., a CRT (cathode ray tube) or LCD (liquid crystal display) monitor) for displaying information to a user; and a keyboard and a pointing device (e.g., a mouse or a trackball) by which a user can provide input to the computer. Other kinds of devices may also be used to provide for interaction with a user; for example, feedback provided to the user can be any form of sensory feedback (e.g., visual feedback, auditory feedback, or tactile feedback); and input from the user may be received in any form, including acoustic, speech, or tactile input.
The systems and techniques described here can be implemented in a computing system that includes a back-end component (e.g., as a data server), or that includes a middleware component (e.g., an application server), or that includes a front-end component (e.g., a user computer having a graphical user interface or a web browser through which a user can interact with an implementation of the systems and techniques described here), or any combination of such back-end, middleware, or front-end components. The components of the system can be interconnected by any form or medium of digital data communication (e.g., a communication network). Examples of communication networks include: local Area Networks (LANs), Wide Area Networks (WANs), and the Internet.
The computer system may include clients and servers. A client and server are generally remote from each other and typically interact through a communication network. The relationship of client and server arises by virtue of computer programs running on the respective computers and having a client-server relationship to each other.
It should be understood that various forms of the flows shown above may be used, with steps reordered, added, or deleted. For example, the steps described in the present application may be executed in parallel, sequentially, or in different orders, as long as the desired results of the technical solution of the present application can be achieved, and the present invention is not limited thereto.
The above-described embodiments should not be construed as limiting the scope of the present application. It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and substitutions may be made in accordance with design requirements and other factors. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application.
Claims (15)
1. A method for displaying incoming calls, the method being applied to a user equipment, the method comprising:
receiving a call request;
outputting a caller ID display interface on a display screen of the user equipment, wherein the caller ID display interface comprises an answering icon, a rejecting icon and a sliding icon, the answering icon is positioned on one side of the display screen, the rejecting icon is positioned on the other side of the display screen, the sliding icon is positioned between the answering icon and the rejecting icon, the answering icon and/or the rejecting icon are dynamic icons, the dynamic types of the dynamic icons comprise rotation and/or zooming, and the rotation amplitude and/or the zooming amplitude of the dynamic icons are determined based on the audio decibel of the incoming call ringtone;
if the sliding icon slides to the answering icon, answering the call request;
and if the sliding icon slides to the refusing icon, hanging up the call request.
2. The method of claim 1, wherein the answer icon is located on a right side of the display screen and the reject icon is located on a left side of the display screen, wherein a rotation and/or scaling magnitude of the answer icon is determined based on an audio decibel of the incoming ringtone corresponding to a right channel of the user device and wherein a rotation and/or scaling magnitude of the reject icon is determined based on an audio decibel of the incoming ringtone corresponding to a left channel of the user device.
3. The method of claim 2, wherein the sliding icon is located on a vertical center line of the display screen, the listening icon is located on a right side of the sliding icon, and the rejecting icon is located on a left side of the sliding icon.
4. The method of claim 3, wherein the caller identification interface further comprises: the frequency spectrum line corresponding to the audio decibel of the left channel between the sliding icon and the refusing icon, and the frequency spectrum line corresponding to the audio decibel of the right channel between the sliding icon and the answering icon.
5. The method according to any one of claims 2 to 4, further comprising:
determining an incoming call reminding mode of the user equipment;
and if the incoming call reminding mode comprises a vibration mode, controlling the user equipment to vibrate according to the audio decibel of the left sound channel and/or the audio decibel of the right sound channel.
6. The method of any of claims 1-5, wherein the direction of rotation of the answer icon and the reject icon comprises at least one of:
the rotation directions of the answer icon and the rejection icon are both right;
the rotation directions of the answer icon and the rejection icon are both towards the left;
the rotation direction of the answer icon is rightward, and the rotation direction of the reject icon is leftward;
the rotation direction of the answer icon is towards the left, and the rotation direction of the reject icon is towards the right.
7. A user equipment, the user equipment comprising:
a communication module for receiving a call request;
an output module, configured to output a caller id display interface on a display screen of the user equipment, where the caller id display interface includes an answer icon, a reject icon, and a sliding icon, the answer icon is located on one side of the display screen, the reject icon is located on the other side of the display screen, the sliding icon is located between the answer icon and the reject icon, the answer icon and/or the reject icon is a dynamic icon, a dynamic type of the dynamic icon includes rotation and/or scaling, and a rotation amplitude and/or a scaling amplitude of the dynamic icon is determined based on an audio decibel of a ring tone;
the answering module is used for answering the call request if the sliding icon slides to the answering icon;
and the hanging-up module is used for hanging up the call request if the sliding icon slides to the refused icon.
8. The UE of claim 7, wherein the answer icon is located on a right side of the display screen, wherein the reject icon is located on a left side of the display screen, wherein a rotation and/or scaling of the answer icon is determined based on an audio decibel of the incoming ringtone corresponding to a right channel of the UE, and wherein a rotation and/or scaling of the reject icon is determined based on an audio decibel of the incoming ringtone corresponding to a left channel of the UE.
9. The user device of claim 8, wherein the sliding icon is located on a vertical centerline of the display screen, the listen icon is located on a right side of the sliding icon, and the reject icon is located on a left side of the sliding icon.
10. The user device of claim 9, wherein the caller identification interface further comprises: the frequency spectrum line corresponding to the audio decibel of the left channel between the sliding icon and the refusing icon, and the frequency spectrum line corresponding to the audio decibel of the right channel between the sliding icon and the answering icon.
11. The user equipment according to any of claims 8-10, wherein the user equipment further comprises:
the determining module is used for determining the incoming call reminding mode of the user equipment;
and the vibration module is used for controlling the user equipment to vibrate according to the audio decibel of the left sound channel and/or the audio decibel of the right sound channel if the incoming call reminding mode comprises a vibration mode.
12. The user equipment according to any of claims 7 to 11, wherein the direction of rotation of the listen icon and the reject icon comprises at least one of:
the rotation directions of the answer icon and the rejection icon are both right;
the rotation directions of the answer icon and the rejection icon are both towards the left;
the rotation direction of the answer icon is rightward, and the rotation direction of the reject icon is leftward;
the rotation direction of the answer icon is towards the left, and the rotation direction of the reject icon is towards the right.
13. A computer storage medium having stored thereon computer instructions which, when executed by a processor, cause the method of any of claims 1 to 6 to be performed.
14. A computer program product, characterized in that it causes the method of any of claims 1 to 6 to be performed when run on a processor.
15. An electronic device, comprising:
at least one processor; and
a memory communicatively coupled to the at least one processor; wherein,
the memory stores computer instructions executable by the at least one processor, the computer instructions being executable by the at least one processor to cause the method of any one of claims 1 to 6 to be performed.
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