CN107995562B

CN107995562B - Information processing method and device

Info

Publication number: CN107995562B
Application number: CN201810001459.1A
Authority: CN
Inventors: 高宇
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2018-01-02
Filing date: 2018-01-02
Publication date: 2020-11-20
Anticipated expiration: 2038-01-02
Also published as: CN107995562A

Abstract

The embodiment of the application discloses an information processing method and device, wherein a setting mode parameter for indicating how an electronic device is set is obtained, and audio output of the electronic device is automatically configured according to the setting mode parameter, so that the audio output of the electronic device is changed along with the change of the setting mode of the electronic device, the probability that a user manually adjusts the audio output of the electronic device can be reduced, and user operation is simplified.

Description

Information processing method and device

Technical Field

The present application relates to the field of electronic technologies, and in particular, to an information processing method and apparatus.

Background

With the development of electronic technology, more and more electronic devices with audio output function are available, such as televisions, stereos, and all-in-one computers. However, in the using process of the electronic device, the user needs to manually adjust the sound effect equalizer to adjust the sound effect of the electronic device, so that the operation of the user is cumbersome.

Therefore, how to simplify the user operation becomes an urgent problem to be solved.

Disclosure of Invention

The application aims to provide an information processing method and device so as to simplify user operation.

In order to achieve the purpose, the application provides the following technical scheme:

an information processing method comprising:

obtaining a placement mode parameter, the placement mode parameter being a parameter indicating how the electronic device is placed;

determining an audio output parameter corresponding to the setting mode parameter according to the setting mode parameter;

configuring the electronic device in accordance with the audio output parameters such that an audio output of the electronic device matches a placement of the electronic device.

In the above method, preferably, the installation mode parameter includes an installation mode parameter; the obtaining the placement mode parameters comprises:

acquiring first sensing information, wherein the first sensing information is associated with an accessory for arranging the electronic equipment;

and processing the first sensing information to obtain an installation mode parameter associated with the accessory.

acquiring second sensing information through a pressure sensor and/or a distance sensor; the pressure sensor and/or the distance sensor are/is arranged in at least one preset area of the electronic equipment, and the preset area is associated with the installation mode of the electronic equipment;

and processing the second induction information to obtain the installation mode parameters.

The method above, preferably, the installation mode parameter further includes an installation orientation parameter; the obtaining the placement mode parameters comprises:

obtaining angle sensing information, wherein the angle sensing information is associated with the orientation of the electronic equipment;

and processing the angle sensing information to obtain the installation orientation parameter.

The method preferably, wherein the audio output of the electronic device matches with the position of the electronic device, and comprises:

and the audio output of the electronic equipment is matched with the influenced condition of the audio output component in the electronic equipment after the electronic equipment is arranged.

The method preferably further comprises the following steps: a sound emitting direction parameter, and/or an output power parameter;

the electronic equipment comprises at least two audio output components, and the physical orientation of the at least two audio output components can be adjusted; the audio output parameters are the sound output direction parameters representing the physical orientation of the audio output component; the configuring the electronic device according to the audio output parameters includes: determining a target audio output component according to the audio output component identification mark carried in the sound outputting direction parameter; configuring the target audio output component according to the physical orientation parameter corresponding to the identification mark of the target audio output component so as to adjust the physical orientation of the target audio output component;

alternatively, the first and second electrodes may be,

the electronic equipment comprises at least two types of audio output components, and the audio output components of different types have different output sound effects; wherein, among at least some of the categories of audio output components, each category includes at least two audio output components that differ in physical orientation; the audio output parameter is a sound output direction parameter for representing whether the audio output component outputs audio or not; the configuring the electronic device according to the audio output parameters includes: determining a target audio output component according to the audio output component identification mark carried in the sound outputting direction parameter; configuring the target audio output component according to the parameter whether audio output is performed or not corresponding to the identification mark of the target audio output component so as to adjust whether audio output is performed or not on the target audio output component;

alternatively, the first and second electrodes may be,

the electronic equipment comprises at least two audio output components, wherein at least part of the audio output components are provided with at least two sound cavities, and the sound outlet holes of different sound cavities are in different directions; the audio output parameters are parameters representing the sound emitting direction of a working sound cavity of the audio output component; the configuring the electronic device according to the audio output parameters includes: determining a target audio output component according to the audio output component identification mark carried in the sound outputting direction parameter; and configuring the target audio output component according to the working sound cavity parameters corresponding to the identification mark of the target audio output component so as to adjust the working sound cavity of the target audio output component.

An information processing apparatus comprising: a processor, and a memory and an audio output component communicatively coupled with the processor;

the processor is configured to obtain a placement mode parameter, the placement mode parameter being a parameter indicating how the electronic device is placed; determining an audio output parameter corresponding to the setting mode parameter according to the setting mode parameter; configuring the audio output component according to the audio output parameters so that the audio output of the electronic equipment is matched with the arrangement of the electronic equipment.

In the above apparatus, preferably, the installation mode parameter includes an installation mode parameter;

the device further comprises:

a mounting member operable to mount an accessory;

the induction component is arranged corresponding to the installation component and used for acquiring first induction information, and the first induction information is associated with an accessory for arranging the electronic equipment;

the processor is specifically configured to process the first sensing information to obtain an installation mode parameter associated with the accessory when obtaining the installation mode parameter.

Alternatively, the first and second electrodes may be,

the device further comprises:

a mounting member operable to mount an accessory;

the pressure sensor and/or the distance sensor are/is arranged corresponding to the mounting part and used for acquiring second induction information; the pressure sensor and/or the distance sensor are/is arranged in at least one preset area of the electronic equipment, and the preset area is associated with the installation mode of the electronic equipment.

And the processor is specifically used for processing the second induction information when obtaining the installation mode parameter to obtain the installation mode parameter.

The above device, preferably, the installation mode parameter further includes an installation orientation parameter; the device further comprises:

an angle sensor for acquiring angle sensing information associated with an orientation of the electronic device;

the processor is specifically configured to process the angle sensing information to obtain the installation orientation parameter when obtaining the installation mode parameter.

The above-described apparatus, preferably,

the audio output components comprise at least two, wherein the physical orientation of the at least two audio output components can be adjusted; the audio output parameters are the sound output direction parameters representing the physical orientation of the audio output component; or at least part of the audio output components are provided with at least two sound cavities, and the sound outlets of different sound cavities are in different directions; the audio output parameters are parameters representing the sound emitting direction of a working sound cavity of the audio output component;

alternatively, the first and second electrodes may be,

the audio output components at least comprise two types, and the audio output components of different types have different output sound effects; wherein, among at least some of the categories of audio output components, each category includes at least two audio output components that differ in physical orientation; the audio output parameter is a sound output direction parameter for representing whether the audio output component outputs audio.

According to the scheme, the information processing method and the information processing device, the setting mode parameter for indicating how the electronic equipment is set is obtained, and the audio output of the electronic equipment is automatically configured according to the setting mode parameter, so that the audio output of the electronic equipment is changed along with the change of the setting mode of the electronic equipment, the probability that a user manually adjusts the audio output of the electronic equipment can be reduced, and the user operation is simplified.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart of an implementation of an information processing method according to an embodiment of the present application;

fig. 2 is a flowchart of an implementation of obtaining a placement mode parameter according to an embodiment of the present application;

fig. 3 is a flowchart of another implementation of obtaining a placement mode parameter according to an embodiment of the present application;

FIG. 4 is a flowchart of another implementation of obtaining a placement mode parameter according to an embodiment of the present disclosure;

FIG. 5 is a flowchart of another implementation of obtaining a placement mode parameter according to an embodiment of the present disclosure;

FIG. 6 is a flowchart of another implementation for obtaining an installation orientation parameter according to an embodiment of the present disclosure;

fig. 7 is a schematic structural diagram of an information processing apparatus according to an embodiment of the present application.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be practiced otherwise than as specifically illustrated.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

The information processing method provided by the embodiment of the application is applied to the electronic equipment, and the electronic equipment is provided with at least two audio output components. The electronic equipment can be an intelligent television, a computer all-in-one machine and the like.

Referring to fig. 1, fig. 1 is a flowchart of an implementation of an information processing method according to an embodiment of the present application, which may include:

step S11: a placement mode parameter is obtained, which is a parameter indicating how the electronic device is placed.

When a user places the electronic device, the user can select one of a plurality of placement modes to place the electronic device according to the preference of the user, for example, the user can directly place the electronic device on a table top, or hang the electronic device on a wall, or hang the electronic device on a television bracket, and when the electronic device is placed on the table top, the user can select whether to place the electronic device against the wall or in the middle of the table, and the like.

The above-mentioned parameters of the placement mode may be parameters selected by a user manually on a configuration interface provided by the electronic device. Several placement mode options are provided in the configuration interface, and for each placement mode, more refined placement mode parameters in that placement mode are also set to facilitate more accurate determination of the placement mode of the electronic device.

Step S12: and determining an audio output parameter corresponding to the setting mode parameter according to the obtained setting mode parameter.

The audio output parameters corresponding to the placement mode parameters may be determined according to a preset correspondence between the placement mode parameters and the audio output parameters.

The audio output parameters corresponding to the placement mode parameters may be: the electronic equipment can achieve the audio output parameter with better sound effect, even the best sound effect, under the installation mode represented by the installation mode parameter.

The corresponding relationship between the installation mode parameters and the audio output parameters can be obtained in advance through experiments.

The audio output parameters may include at least one of several parameters listed below: the sound emitting direction parameter and the output power parameter.

Step S13: configuring the electronic device in accordance with the determined audio output parameters such that the audio output of the electronic device matches the placement of the electronic device.

Specifically, the audio output component of the electronic device is configured according to the determined audio output parameter, so that the audio output of the electronic device is matched with the arrangement of the electronic device. The matching of the audio output of the electronic device with the placement of the electronic device means that, in the actual placement mode of the electronic device, the sound effect of the electronic device is better or even optimal in that mode. That is to say, in each installation mode, the electronic device can achieve a better sound effect, even an optimal sound effect, in the installation mode, and the electronic device is prevented from being configured by using fixed audio output parameters, so that the audio output of the electronic device is not matched with the installation of the electronic device, and the sound effect of the electronic device is poor, even the worst condition occurs.

According to the information processing method provided by the embodiment of the application, the setting mode parameter for indicating how the electronic equipment is set is obtained, and the audio output of the electronic equipment is automatically configured according to the setting mode parameter, so that the audio output of the electronic equipment is changed along with the change of the setting mode of the electronic equipment, and the sound effect of the electronic equipment can be better or even optimal in each setting mode, so that the probability of manually adjusting the audio output of the electronic equipment by a user can be reduced, and the user operation is simplified.

Alternatively, the placement mode parameters may be obtained based on the sensing component. The mounting mode parameter may include an installation mode parameter that characterizes on which accessory the electronic device is mounted.

In an alternative embodiment, an implementation flowchart of obtaining the parameters of the positioning mode provided in the present application is shown in fig. 2, and may include:

step S21: first sensing information is acquired, wherein the first sensing information is associated with an accessory for placing an electronic device.

The sensing component for generating the first sensing information may be disposed in at least one preset area of the electronic device, where the at least one preset area is associated with a certain installation manner of the electronic device (for convenience of description, referred to as a first installation manner). Therefore, whether the electronic equipment is arranged on the first accessory corresponding to the first installation mode can be judged according to the first sensing information.

Alternatively, the first and second electrodes may be,

the sensing component for generating the first sensing information is arranged in a plurality of preset areas of the electronic equipment, and the preset areas are associated with a plurality of installation modes of the electronic equipment. The preset areas corresponding to different installation modes are at least partially different, so that the electronic equipment can be judged to be installed on the accessory corresponding to the installation mode according to the induction information generated by the induction component in the preset area corresponding to each installation mode.

Step S22: and processing the first sensing information to obtain an installation mode parameter associated with the accessory.

The mounting mode parameter may indicate whether the electronic device is mounted on a first accessory, and if the mounting mode parameter indicates that the electronic device is not mounted on the first accessory, the electronic device is mounted on a second accessory different from the first accessory.

Alternatively, the first and second electrodes may be,

the mounting mode parameter characterizes on which accessory the electronic device is mounted.

In another alternative embodiment, another implementation flowchart for obtaining the parameters of the positioning mode provided in the present application is shown in fig. 3, and may include:

step S31: and acquiring second sensing information, namely a pressure value through the pressure sensor.

The mounting area of the pressure sensor is associated with the manner in which the electronic device is mounted. For example:

when the electronic device is placed on a desktop, the electronic device is usually placed on the desktop through a support configured for the electronic device, and therefore, a pressure sensor may be disposed in a contact area (for convenience of description, referred to as a first area) between the support of the electronic device and the desktop, so that whether the electronic device is placed on the desktop can be detected according to the pressure sensor in the first area. In order to improve the detection accuracy, two or more pressure sensors may be provided in the first region. To further improve the detection accuracy, the two or more pressure sensors in the first region may be evenly distributed and/or symmetrically distributed.

When the electronic device is hung on a wall, the electronic device is usually hung on a bracket fixed on the wall through a mounting part at the back of the electronic device, so that a pressure sensor can be arranged in a contact area (for convenience of description, recorded as a second area) between the mounting part at the back of the electronic device and the bracket on the wall, and whether the electronic device is hung on the wall or not can be monitored according to the pressure sensor in the area. In order to improve the detection accuracy, two or more pressure sensors may be provided in the second region. To further improve the detection accuracy, the two or more pressure sensors in the second region may be evenly distributed and/or symmetrically distributed.

In an alternative implementation, pressure sensors may be provided in both the first and second regions.

In some application scenarios, the electronic device may be installed in the above two modes, for example, the common installation mode of a home television is either hanging on a wall or placing on a desktop. In this regard, in an alternative implementation, a pressure sensor may be provided only in the first region or only in the second region.

Step S32: and processing the second induction information to obtain the installation mode parameters.

If the pressure sensors are arranged in the first area and the second area, whether the electronic equipment is placed on a desktop or not can be judged according to the pressure values collected by the pressure sensors in the first area, and whether the electronic equipment is hung on a wall or not can be judged according to the pressure values collected by the pressure sensors in the second area. Specifically, if at least a preset number of pressure sensors in the first area acquire pressure values larger than a preset first threshold value, it is determined that the electronic device is placed on a desktop. And if the pressure values acquired by at least a preset number of pressure sensors in the second area are all larger than a preset second threshold value, determining that the electronic equipment is hung on the wall.

If only the first area is provided with the pressure sensors, if the pressure values collected by at least a preset number of the pressure sensors in the first area are all larger than a preset first threshold value, the electronic equipment is determined to be placed on the desktop, and if not, the electronic equipment is determined to be hung on the wall.

Similarly, if only the second area is provided with the pressure sensors, if at least a preset number of pressure sensors in the second area acquire pressure values which are all larger than a preset second threshold value, it is determined that the electronic equipment is hung on the wall, and if not, it is determined that the electronic equipment is placed on the desktop.

In yet another alternative embodiment, a flowchart of another implementation of obtaining the parameters of the positioning mode provided in this application is shown in fig. 4, and may include:

step S41: and acquiring second sensing information, namely a distance value through the distance sensor.

The installation area of the distance sensor is associated with the installation manner of the electronic device. For example:

when the electronic device is placed on a desktop, the electronic device is usually placed on the desktop through a support configured for the electronic device, and the height of the support is small, so that at least one distance sensor may be disposed in a lower frame region (for convenience, denoted as a third region) of the electronic device to detect a distance between the electronic device and the desktop. And detecting whether the electronic equipment is placed on the desktop or not through the distance sensor in the third area.

When the electronic device is hung on a wall, the back of the electronic device is very close to the wall surface, and therefore, at least one distance sensor may be disposed in a back area (for convenience of description, denoted as a fourth area) of the electronic device to detect the distance between the electronic device and the wall surface. And detecting whether the electronic equipment is hung on the wall or not through the distance sensor in the fourth area.

In an alternative implementation, distance sensors may be provided in both the third and fourth regions.

In another alternative implementation, a distance sensor may be provided only in the third region or only in the fourth region.

In order to improve the detection accuracy, two or more distance sensors may be provided in each of the third region and the fourth region. To further improve the detection accuracy, two or more distance sensors within the same area may be evenly distributed and/or symmetrically distributed.

Step S42: and processing the second induction information to obtain the installation mode parameters.

If the pressure sensors are arranged in the third area and the fourth area, whether the electronic equipment is placed on a desktop or not can be judged according to the distance value collected by the distance sensor in the third area, and whether the electronic equipment is hung on a wall or not can be judged according to the distance value collected by the distance sensor in the fourth area. Specifically, if the difference between the distance values collected by at least a preset number of distance sensors in the third area and the preset distance values is within a preset range (that is, the absolute value of the difference is smaller than a preset third threshold), it is determined that the electronic device is placed on the desktop. The preset distance value is the distance between the desktop and the lower frame of the electronic equipment when the electronic equipment is placed on the desktop through the support, and the preset distance value is fixed because the height of the support is fixed. And if at least the distance values acquired by the preset number of distance sensors in the fourth area are smaller than a preset fourth threshold value, determining that the electronic equipment is hung on the wall.

In addition, when the electronic device is placed on the desk surface, the electronic device may be placed close to the wall, that is, closer to the wall, or may be placed in the middle of the desk, that is, farther from the wall. Specifically, if at least a preset number of distance values detected by the distance sensors in the fourth area are smaller than a preset fourth threshold value, the electronic equipment is determined to be placed on the desktop close to the wall, and otherwise, the electronic equipment is determined to be placed in the middle of the desk.

If only the third area is provided with the distance sensors, if the difference values between the distance values collected by at least a preset number of distance sensors in the third area and the preset distance values are all within a preset range (namely the absolute value of the difference value is smaller than a preset third threshold), it is determined that the electronic equipment is placed on the desktop. Otherwise, determining that the electronic equipment is hung on the wall.

Similarly, if only the fourth area is provided with the distance sensors, it is determined that the electronic device is hung on the wall if at least a preset number of distance values collected by the distance sensors in the fourth area are all smaller than a preset fourth threshold value. Otherwise, the electronic equipment is determined to be placed on the desktop.

In yet another alternative embodiment, a flowchart of another implementation of obtaining the parameters of the positioning mode provided in this application is shown in fig. 5, and may include:

step S51: and acquiring second sensing information through the pressure sensor and the distance sensor, wherein the second sensing information comprises a pressure value and a distance value.

As previously mentioned, the pressure sensor may be disposed in the first area and/or the second area of the electronic device, and the distance sensor may be disposed in the third area and/or the fourth area. Then:

whether the electronic equipment is placed on the desktop or not can be detected according to the pressure sensor in the first area and the distance sensor in the third area; and detecting whether the electronic equipment is hung on the wall according to the pressure sensor in the second area and the distance sensor in the fourth area.

Step S52: and processing the second induction information to obtain the installation mode parameters.

And if the pressure values collected by at least a preset number of pressure sensors in the first area are all larger than a preset first threshold value, and the difference values between the distance values collected by at least a preset number of distance sensors in the third area and the preset distance values are all within a preset range (namely the absolute value of the difference value is smaller than a preset third threshold value), determining that the electronic equipment is placed on the desktop.

And if the pressure values collected by at least a preset number of pressure sensors in the second area are all larger than a preset second threshold value, and the distance values collected by at least a preset number of distance sensors in the fourth area are all smaller than a preset fourth threshold value, determining that the electronic equipment is hung on the wall.

If the electronic equipment is not placed on the desktop or hung on the wall, then:

if the pressure values collected by at least a preset number of the pressure sensors in the second area are all larger than a preset second threshold value, and the distance values collected by at least a preset number of the distance sensors in the fourth area are all larger than a preset fourth threshold value, it is determined that the electronic equipment is hung on the suspended bracket (namely, the periphery of the electronic equipment is relatively spacious).

In this embodiment, the pressure sensor and the distance sensor are combined to detect the mounting manner of the electronic device, so that the detection accuracy is improved, and the detection range is expanded, that is, more mounting manners of the electronic device can be detected.

In an optional embodiment, the installation mode parameter may further include an installation orientation parameter. Then, an implementation flowchart for obtaining the installation orientation parameter provided by the present application is shown in fig. 6, and may include:

step S61: angle sensing information is obtained, the angle sensing information being associated with an orientation of the electronic device.

In some cases, the electronic device is not convenient for the user to view after being installed in a certain installation mode, and the orientation of the electronic device needs to be adjusted, for example, when the electronic device is hung on a wall at a higher position, the display screen of the electronic device needs to be inclined downwards. However, the orientation of the electronic device is different, and the influence on the audio output of the electronic device may be different, so in the embodiment of the present application, the orientation of the electronic device is also detected in addition to the installation manner of the electronic device.

Step S62: and processing the angle sensing information to obtain an installation orientation parameter.

In the embodiment of the application, on the basis of detecting the installation mode of the electronic equipment, the installation direction of the electronic equipment is further detected, namely, on the basis of determining the installation mode of the electronic equipment, the arrangement mode of the electronic equipment is further distinguished, so that the audio output parameters of the electronic equipment can be further adjusted, and the audio output of the electronic equipment is more matched with the arrangement of the electronic equipment.

For example, the electronic device is also hung on a wall, and in a home use scene, the use habit of the user is to head up the electronic device, so that when the electronic device is hung on the wall, the display screen of the electronic device is generally parallel to the wall surface. In some public places, when the electronic device is hung on a wall, the hanging height is usually high and the display screen is also tilted downward, in order to facilitate viewing by more people. In the two installation modes in the two scenes, the electronic equipment is configured by using the same audio output parameter, and the audio output of the electronic equipment may be different, so that the audio output of the electronic equipment can be more matched with the arrangement mode of the electronic equipment by adjusting the audio output parameter of the electronic equipment according to the installation mode parameter and the installation orientation parameter of the electronic equipment.

In an alternative embodiment, the matching of the audio output of the electronic device and the placement of the electronic device may specifically be:

the audio output of the electronic device is matched with the affected condition of the audio output component in the electronic device after the electronic device is arranged.

That is, the audio output of the electronic device is matched with the affected condition of the audio output component in the electronic device, so as to reduce or eliminate the affected condition of the audio output component, or to make the audio output effect of the electronic device not affected by the arrangement mode of the electronic device, or to make the audio output effect of the electronic device less affected.

The matching of the audio output of the electronic device and the affected condition of the audio output component in the electronic device after the electronic device is installed may include: the audio output of the electronic device matches the blocked condition of the audio output component after the electronic device is positioned.

For example, when the electronic device is hung on a wall, the lower space around the electronic device is relatively empty, the speaker capable of adjusting the main volume can be controlled to emit sound to the lower space, and the speaker responsible for bass and surround sounds can emit sound to the wall to enhance surround and bass effects.

In an alternative embodiment, at least two audio output components may be included in the electronic device, the physical orientation of which may be adjusted, and, correspondingly,

if the audio output parameter is a sound output direction parameter representing a physical orientation of the audio output component, one implementation manner of configuring the electronic device according to the audio output parameter may be:

and determining a target audio output component according to the audio output component identification mark carried in the sound outputting direction parameter.

And configuring the target audio output component according to the physical orientation parameter corresponding to the identification mark of the target audio output component so as to adjust the physical orientation of the target audio output component.

That is, the direction of sound output by the audio output component may be changed by adjusting the physical orientation of the audio output component.

In this embodiment, the purpose of changing the blocked condition of the audio output component is achieved by adjusting the physical orientation of the audio output component.

If the audio output parameter is an output power parameter, one implementation manner of configuring the electronic device according to the audio output parameter may be as follows:

and determining a target audio output component according to the audio output component identification carried in the output power parameter.

And configuring the target audio output component according to the power value corresponding to the identification mark of the target audio output component so as to adjust the output power of the target audio output component.

By adjusting the output power of the target audio output component, the intensity of the sound output by the audio output component is matched with the blocking condition of the audio output component, so that a better audio output effect is achieved.

For example, in a certain installation mode, when there is a block in the sound output direction of the target audio output component, a better audio output effect can be achieved by outputting audio with less power.

If the audio output parameters include both a sound outputting direction parameter representing a physical orientation of the audio output component and an output power parameter, an implementation manner of configuring the electronic device according to the audio output parameters may be as follows:

and determining a first target audio output component according to the audio output component identification carried in the sound outputting direction parameter, and determining a second target audio output component according to the audio output component identification carried in the output power parameter.

Configuring the first target audio output component according to the physical orientation parameter corresponding to the identification mark of the first target audio output component so as to adjust the physical orientation of the first target audio output component; and configuring the second target audio output component according to the power value corresponding to the identification mark of the second target audio output component so as to adjust the output power of the second target audio output component.

In an alternative embodiment, the electronic device may include at least two types of audio output components, and the audio output components of different types have different output sound effects; wherein, among at least some of the categories of audio output components, each category includes at least two audio output components that differ in physical orientation. That is, at least two audio output components of the same class constitute an array of audio output components that can produce a directed sound.

The audio output components may include, but are not limited to, at least two of the following enumerated categories: a center channel sound box, a left channel sound box, a right channel sound box, a surround channel sound box, a subwoofer, a bass sound box and the like.

Accordingly, the method can be used for solving the problems that,

if the audio output parameter is a sound outputting direction parameter for representing whether the audio output component outputs audio or not; one implementation of configuring the electronic device according to the audio output parameters may be:

And configuring the target audio output component according to the parameter whether audio output is performed or not corresponding to the identification mark of the target audio output component so as to adjust whether audio output is performed or not on the target audio output component.

In the embodiment of the application, a plurality of audio output components of the same category are arranged, the orientations of the audio output components are different, and the installation positions of the audio output components are the same. If the audio output component of the category needs to make a sound in a preset direction, the audio output component towards the preset direction only needs to be controlled to make a sound, and other audio output components of the category do not make a sound.

In this embodiment, whether the audio output components in different orientations in the audio output component array pronounce or not is adjusted, so that the purpose of adjusting the blocking condition of the audio output components of the same category is achieved.

By adjusting the output power of the target audio output component, the intensity of the sound output by the audio output component is matched with the blocked condition of the audio output component.

If the audio output parameter includes both a sound outputting direction parameter representing whether the audio output component performs audio output and an output power parameter, an implementation manner of configuring the electronic device according to the audio output parameter may be:

Configuring the first target audio output component according to the parameter whether audio output is performed or not corresponding to the first target audio output component identification mark so as to adjust whether audio output is performed or not on the first target audio output component; and configuring the second target audio output component according to the power value corresponding to the identification mark of the second target audio output component so as to adjust the output power of the second target audio output component.

In an alternative embodiment, the electronic device may comprise at least two audio output components, wherein at least some of the audio output components are provided with at least two sound cavities, and the sound outlets of different sound cavities are oriented differently. That is, the same audio output component comprises at least two sound chambers, the sound outlets of different sound chambers being oriented differently. If the audio output component needs to output sound beyond the specific direction, the working sound cavity of the audio output component is adjusted to be the sound cavity with the sound outlet facing the specific direction.

If the audio output parameter is a sound output direction parameter representing a working sound cavity of the audio output component, one implementation manner of configuring the electronic device according to the audio output parameter may be:

And configuring the target audio output component according to the working sound cavity parameters corresponding to the identification mark of the target audio output component so as to adjust the working sound cavity of the target audio output component.

In this embodiment, the purpose of adjusting the blocked condition of the audio output component is achieved by adjusting the working sound cavity of the audio output component.

If the audio output parameter includes both a sound outputting direction parameter representing a working sound cavity of the audio output component and an output power parameter, an implementation manner of configuring the electronic device according to the audio output parameter may be as follows:

Corresponding to the method embodiment, the present application further provides an information processing apparatus, as shown in fig. 7, which is a schematic structural diagram of the information processing apparatus provided in the embodiment of the present application, and the information processing apparatus may include:

a processor 71, a memory 72 and an audio output component 73 communicatively coupled to the processor 71; wherein the content of the first and second substances,

the processor 71 is configured to obtain a placement mode parameter, which is a parameter indicating how the electronic device is placed; determining an audio output parameter corresponding to the installation mode parameter according to the installation mode parameter; the audio output component 73 is configured in accordance with the audio output parameters such that the audio output of the electronic device matches the placement of the electronic device.

The audio output part 73 may include at least two.

The information processing apparatus provided in the embodiment of the application obtains the installation mode parameter indicating how the electronic device is installed, and automatically configures the audio output of the electronic device according to the installation mode parameter, so that the audio output of the electronic device changes along with the change of the installation mode of the electronic device, and the sound effect of the electronic device can be better or even optimal in each installation mode, thereby reducing the probability of manually adjusting the audio output of the electronic device by a user, and simplifying the user operation.

The installation mode parameter may include an installation mode parameter.

In an optional embodiment, the information processing apparatus provided in the present application may further include:

a mounting member for mounting an accessory.

The sensing component is arranged corresponding to the mounting component and used for acquiring first sensing information, and the first sensing information is associated with an accessory for arranging the electronic equipment;

the processor 71, when obtaining the installation mode parameter, may specifically be configured to process the first sensed information to obtain an installation mode parameter associated with the accessory.

a mounting member operable to mount an accessory;

the pressure sensor and/or the distance sensor are arranged corresponding to the mounting component and are used for acquiring second induction information; the pressure sensor and/or the distance sensor are/is arranged in at least one preset area of the electronic equipment, and the preset area is related to the installation mode of the electronic equipment.

The processor 71 may be specifically configured to process the second sensing information to obtain the installation mode parameter when obtaining the installation mode parameter.

In an alternative embodiment, the installation mode parameter may further include an installation orientation parameter; the information processing apparatus provided by the present application may further include:

an angle sensor for acquiring angle-sensing information associated with an orientation of the electronic device;

the processor 71 may be specifically configured to process the angle sensing information to obtain the installation orientation parameter when obtaining the installation mode parameter.

In an alternative embodiment, the physical orientation of at least two of audio output components 73 may be adjustable, and the audio output parameter may be a voicing direction parameter that characterizes the physical orientation of the audio output components. The process of configuring the audio output component 73 by the processor 71 according to the audio output parameters can refer to the foregoing method embodiments, and will not be described in detail here.

In this embodiment, the physical orientation of audio output component 73 is adjustable, i.e., audio output component 73 is rotatable.

The purpose of adjusting the blocking condition of the audio output component is achieved by adjusting the physical orientation of the audio output component.

In an alternative embodiment, at least some of the at least two audio output components 73 are provided with at least two sound cavities, and the sound outlets of different sound cavities are oriented differently; the audio output parameter may be a sound outlet direction parameter characterizing a working sound cavity of the audio output component. The process of configuring the audio output component 73 by the processor 71 according to the audio output parameters can refer to the foregoing method embodiments, and will not be described in detail here.

In an alternative embodiment, the at least two audio output components 73 comprise at least two types of audio output components, the different types of audio output components having different output sound effects; wherein, among at least some of the categories of audio output components, each category includes at least two audio output components that differ in physical orientation; the audio output parameter may be a sound output direction parameter characterizing whether the audio output component performs audio output. The process of configuring the audio output component 73 by the processor 71 according to the audio output parameters can refer to the foregoing method embodiments, and will not be described in detail here.

In this embodiment, among at least some of the categories of audio output components, each category of audio output components includes at least two audio output components that differ in physical orientation to form an array of audio output components that are directionally soundable.

The purpose of adjusting the blocking condition of the audio output components of the same category is achieved by adjusting whether the audio output components in different directions in the audio output component array pronounce or not.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

It should be understood that the technical problems can be solved by combining and combining the features of the embodiments from the claims.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. An information processing method characterized by comprising:

configuring the electronic device according to the audio output parameters so that the audio output of the electronic device matches the placement of the electronic device;

wherein the installation mode parameters comprise installation mode parameters and installation orientation parameters; the obtaining the placement mode parameters comprises: setting an induction component in a preset area of the electronic equipment, and obtaining installation mode parameters of the electronic equipment through the induction component;

if the audio output parameter is a sound outputting direction parameter representing a physical orientation of the audio output component, determining the audio output parameter corresponding to the placement mode parameter according to the placement mode parameter includes: determining a physical orientation parameter of an audio output component within the electronic device based on the mounting manner parameter and the mounting orientation parameter;

wherein configuring the electronic device according to the audio output parameters comprises:

determining a target audio output component according to the audio output component identification mark carried in the sound outputting direction parameter;

2. The method of claim 1, wherein the placement mode parameters include installation mode parameters; the obtaining the placement mode parameters comprises:

3. The method of claim 1, wherein the placement mode parameters include installation mode parameters; the obtaining the placement mode parameters comprises:

4. The method according to claim 2 or 3, wherein the obtaining of the placement mode parameters comprises:

5. The method of claim 1, wherein the audio output of the electronic device matches the placement of the electronic device, comprising:

6. The method of claim 1, wherein the audio output parameters include at least: a sound emitting direction parameter, and/or an output power parameter;

alternatively, the first and second electrodes may be,

7. An information processing apparatus characterized by comprising: a processor, and a memory and an audio output component communicatively coupled with the processor;

the processor is configured to obtain a placement mode parameter, the placement mode parameter being a parameter indicating how the electronic device is placed; determining an audio output parameter corresponding to the setting mode parameter according to the setting mode parameter; configuring the audio output component according to the audio output parameters so that the audio output of the electronic equipment is matched with the arrangement of the electronic equipment;

if the audio output parameter is a sound outputting direction parameter representing a physical orientation of the audio output component, determining the audio output parameter corresponding to the placement mode parameter according to the placement mode parameter includes: determining a physical orientation parameter of an audio output component within the electronic device based on the mounting manner parameter and the mounting orientation parameter; wherein configuring the electronic device according to the audio output parameters comprises:

8. The apparatus of claim 7, wherein the placement mode parameters comprise installation mode parameters;

the device further comprises:

a mounting member operable to mount an accessory;

the processor is specifically configured to process the first sensing information when obtaining the installation mode parameter, so as to obtain an installation mode parameter associated with the accessory;

alternatively, the first and second electrodes may be,

the device further comprises:

a mounting member operable to mount an accessory;

the pressure sensor and/or the distance sensor are/is arranged corresponding to the mounting part and used for acquiring second induction information; the pressure sensor and/or the distance sensor are/is arranged in at least one preset area of the electronic equipment, and the preset area is associated with the installation mode of the electronic equipment;

9. The apparatus of claim 8, wherein the placement mode parameters further comprise an installation orientation parameter; the device further comprises:

10. The apparatus of claim 7,

alternatively, the first and second electrodes may be,