CN105446574B - A kind of information processing method and electronic equipment - Google Patents

Abstract

The invention discloses a kind of information processing method and electronic equipment, wherein method includes：It controls the display unit and shows communicative indication interface, the communicative indication interface includes M region, wherein each region is corresponding with object identity in M region, and the M region corresponds to M object identity；The first sensed parameter is obtained by the sensing unit, first sensed parameter, which characterizes the first area in the M region, has one second electronic equipment；The first configuration information is obtained according to first sensed parameter, first configuration information characterizes configuration information corresponding with the first object identity of the first area；Based on the data transmission channel established with second electronic equipment, first configuration information is sent to second electronic equipment, so that second electronic equipment, which is automatically based upon first configuration information, is adjusted the operating mode characterized in first object identity.

Description

Information processing method and electronic equipment

Technical Field

The present invention relates to electronic device control technologies in the field of wireless communications, and in particular, to an information processing method and an electronic device.

Background

At present, when a user returns home, the user does not want to be disturbed by a working telephone, and then the working mode of the electronic equipment is set, wherein the working mode comprises the modes of setting an incoming call firewall, switching incoming calls into a mute mode and the like. However, with the above operations, the user is often required to open the corresponding operation interface and then select a function, which is troublesome to operate and may also affect the operation efficiency and the use experience of the user.

Disclosure of Invention

In view of this, an object of the present invention is to provide an information processing method and an electronic device, which can reduce operations performed by a user on a second electronic device, and improve operation efficiency and use experience of the user.

The invention provides an information processing method, which is applied to first electronic equipment, wherein the first electronic equipment comprises a sensing unit and a display unit, and the method comprises the following steps:

controlling the display unit to display a communication display interface, wherein the communication display interface comprises M areas, each area in the M areas corresponds to an object identifier, and the M areas correspond to the M object identifiers;

obtaining a first induction parameter through the induction unit, wherein the first induction parameter represents that a first area in the M areas is provided with a second electronic device;

obtaining first configuration information according to the first induction parameter, wherein the first configuration information represents configuration information corresponding to a first object identifier of the first area;

and sending the first configuration information to the second electronic equipment based on a data transmission channel established with the second electronic equipment, so that the second electronic equipment automatically adjusts the working mode represented by the first object identifier based on the first configuration information.

The present invention also provides an electronic device, including:

the communication display interface comprises M areas, wherein each area in the M areas corresponds to an object identifier, and the M areas correspond to the M object identifiers;

the sensing unit is used for obtaining a first sensing parameter, and the first sensing parameter represents that a first area in the M areas is provided with a second electronic device;

the information processing unit is used for obtaining first configuration information according to the first induction parameter, and the first configuration information represents configuration information corresponding to a first object identifier of the first area; and sending the first configuration information to the second electronic equipment based on a data transmission channel established with the second electronic equipment, so that the second electronic equipment automatically adjusts the working mode represented by the first object identifier based on the first configuration information.

According to the information processing method and the electronic device, when the second electronic device is determined to be in one of the plurality of areas relative to the first electronic device, the configuration information can be obtained according to the object identifier corresponding to the area and is sent to the second electronic device, and therefore the second electronic device can be automatically switched to the working mode corresponding to the object identifier. Therefore, the operation of the user on the second electronic device is reduced, the second electronic device can automatically enter a mode expected by the user only through the corresponding operation interface of the first electronic device, and therefore the operation efficiency and the use experience of the user can be improved.

Drawings

FIG. 1 is a first flowchart illustrating an information processing method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an operational scenario of an embodiment of the present invention;

FIG. 3 is a flowchart illustrating a second information processing method according to an embodiment of the present invention;

FIG. 4 is a third schematic flow chart illustrating an information processing method according to an embodiment of the present invention;

FIG. 5 is a first schematic view of an electronic device according to an embodiment of the present invention;

fig. 6 is a schematic diagram of a second electronic device according to an embodiment of the invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The first embodiment,

The present embodiment provides an information processing method, which may be applied to a first electronic device, where the first electronic device includes a sensing unit and a display unit, as shown in fig. 1, the method includes:

step 101: controlling the display unit to display a communication display interface, wherein the communication display interface comprises M areas, each area in the M areas corresponds to an object identifier, and the M areas correspond to the M object identifiers;

step 102: obtaining a first induction parameter through the induction unit, wherein the first induction parameter represents that a first area in the M areas is provided with a second electronic device;

step 103: obtaining first configuration information according to the first induction parameter, wherein the first configuration information represents configuration information corresponding to a first object identifier of the first area;

step 104: and sending the first configuration information to the second electronic device based on a data transmission channel established between the first electronic device and the second electronic device, so that the second electronic device automatically adjusts the working mode represented by the first object identifier based on the first configuration information.

Here, the first electronic device may be a large screen device 21 as shown in fig. 2, and the second electronic device may be a smartphone 22 as shown in fig. 2.

The controlling the display unit to display the communication display interface may include:

when the first electronic equipment is switched from a first working state to a second working state, controlling the display unit to display a display graphic display interface; the power consumption of the first working state is greater than the power consumption of the second working state, for example, the first working state may be an awake state, that is, a state in which a user operates a large-screen device; the second working state can be a dormant state, namely a state that a user does not operate the large-screen device for a period of time;

or, the method may include setting, by the user, the first electronic device so that the first electronic device displays a communication display interface.

The communication display interface may be an interface displayed in the large-screen device 21 as shown in fig. 2, where the communication display interface includes four regions, that is, a first region 211, a second region 212, a third region 213, and a fourth region 214, and it is understood that four regions are illustrated here, and actually, one region, two regions, or ten regions may be included, and the examples given in this embodiment do not limit the number.

Preferably, the obtaining of the first sensing parameter by the sensing unit, where the first sensing parameter indicates that a first area of the M areas has a second electronic device, may include two cases:

the first type is a case that the second electronic device is placed on the first electronic device and the two are in contact, the sensing unit may be a touch screen, the touch screen detects a position of the second electronic device, and which of the M regions the second electronic device is located in is determined according to the position of the second electronic device; the method for detecting the position of the second electronic device by the touch screen is the prior art, and is not described herein again;

the second is a case that the second electronic device is not in contact with the first electronic device, the sensing unit may be an infrared sensor, the position of the second electronic device is detected by arranging a plurality of infrared sensors around the second electronic device, the position of the vertical projection of the second electronic device is further obtained, the position of the vertical projection is taken as the position of the second electronic device, and which area of the M areas the second electronic device is located in is determined according to the position of the second electronic device; the method for detecting the spatial position of the second electronic device by the infrared sensor is the prior art, and is not described herein again.

Preferably, after the step 104, the method may further include:

detecting the position of the second electronic equipment in real time, and when the second electronic equipment is switched from the first area to a second area, obtaining a second induction parameter, wherein the second induction parameter represents that the second area in the M areas is provided with the second electronic equipment; acquiring second configuration information according to the second induction parameter, wherein the second configuration information represents configuration information corresponding to a second object identifier of the second area;

and sending the configuration information corresponding to the second object identifier to the second electronic device based on a data transmission channel established with the second electronic device, so that the second electronic device automatically adjusts based on the configuration information and is in a working mode represented by the second object identifier.

Preferably, the working mode represented by the object identifier of each region may be preset according to an actual situation, for example, the working mode may be preset to an anti-interference working mode, a mute working mode, a color adjustment working mode, a brightness adjustment working mode, a volume adjustment working mode, and the like;

in addition, the different regions may correspond to the same working mode or different working modes, for example, as shown in fig. 2, four regions may respectively correspond to different working modes, the object identifier of the first region may correspond to a color adjustment working mode, the object identifier of the second region may correspond to an anti-interference working mode, the object identifier of the third region may correspond to a mute working mode, and the object identifier of the fourth region may correspond to a brightness adjustment working mode. The four regions may also correspond in part to the same mode of operation, for example where both the first region and the second region may be in an anti-tamper mode of operation.

In the following description, with reference to fig. 2 as an example, it is assumed that the first region 211 is in the mute mode, the second region 212 is in the brightness adjustment mode,

acquiring a first sensing parameter through a sensing unit, and determining that the smart phone 22 is in the first area 211; obtaining a first object identifier corresponding to the first area 211 according to the first sensing parameter, and obtaining configuration information according to the first object identifier; sending the configuration information to the smart phone 22, so that the smart phone 22 adjusts based on the configuration information and is in a mute mode;

further, when the smart phone 22 moves from the first area 211 to the second area 212, the sensing unit obtains a second sensing parameter, obtains a second object identifier corresponding to the second area 212 according to the second sensing parameter, obtains corresponding configuration information, and sends the configuration information corresponding to the second object identifier to the smart phone 22, so that the smart phone 22 performs adjustment according to the configuration information, and is switched from the mute mode to the brightness adjustment mode.

By adopting the scheme, when the second electronic device is determined to be in one of the plurality of areas relative to the first electronic device, the configuration information can be acquired according to the object identifier corresponding to the area and sent to the second electronic device, so that the second electronic device can be automatically switched to the working mode corresponding to the object identifier. Therefore, the operation of the user on the second electronic device is reduced, the second electronic device can automatically enter a mode expected by the user only through the corresponding operation interface of the first electronic device, and therefore the operation efficiency and the use experience of the user can be improved.

Example II,

The present embodiment provides an information processing method, which may be applied to a first electronic device, where the first electronic device includes a sensing unit and a display unit, as shown in fig. 3, the method includes:

step 301: controlling the display unit to display a communication display interface, wherein the communication display interface comprises M areas, each area in the M areas corresponds to an object identifier, and the M areas correspond to the M object identifiers;

step 302: obtaining a first induction parameter through the induction unit, wherein the first induction parameter represents that a first area in the M areas is provided with a second electronic device;

step 303: obtaining first configuration information according to the first induction parameter, wherein the first configuration information represents configuration information corresponding to a first object identifier of the first area;

step 304: sending the first configuration information to the second electronic device based on a data transmission channel established with the second electronic device, so that the second electronic device automatically adjusts a working mode represented by the first object identifier based on the first configuration information;

step 305: obtaining a second sensing parameter of the second electronic device in the first area through the sensing unit, wherein the second sensing parameter represents the movement of the second electronic device in the first area;

step 306: and sending a first adjusting instruction to the second electronic equipment based on a data transmission channel established between the first electronic equipment and the second electronic equipment, wherein the first adjusting instruction is used for controlling the second electronic equipment to adjust in a corresponding working mode.

Here, the first electronic device may be a large screen device 21 as shown in fig. 2, and the second electronic device may be a smartphone 22 as shown in fig. 2.

The controlling the display unit to display the communication display interface may include:

when the first electronic equipment is switched from a first working state to a second working state, controlling the display unit to display a display graphic display interface; the power consumption of the first working state is greater than the power consumption of the second working state, for example, the first working state may be an awake state, that is, a state in which a user operates a large-screen device; the second working state can be a dormant state, namely a state that a user does not operate the large-screen device for a period of time;

or, the method may include setting, by the user, the first electronic device so that the first electronic device displays a communication display interface.

The communication display interface may be an interface displayed in the large-screen device 21 as shown in fig. 2, where the communication display interface includes four regions, that is, a first region 211, a second region 212, a third region 213, and a fourth region 214, and it is understood that four regions are illustrated here, and actually, one region, two regions, or ten regions may be included, and the examples given in this embodiment do not limit the number.

Preferably, the obtaining of the first sensing parameter by the sensing unit, where the first sensing parameter indicates that a first area of the M areas has a second electronic device, may include two cases:

the first type is a case that the second electronic device is placed on the first electronic device and the two are in contact, the sensing unit may be a touch screen, the touch screen detects a position of the second electronic device, and which of the M regions the second electronic device is located in is determined according to the position of the second electronic device; the method for detecting the position of the second electronic device by the touch screen is the prior art, and is not described herein again;

the second is a case that the second electronic device is not in contact with the first electronic device, the sensing unit may be an infrared sensor, the position of the second electronic device is detected by arranging a plurality of infrared sensors around the second electronic device, the position of the vertical projection of the second electronic device is further obtained, the position of the vertical projection is taken as the position of the second electronic device, and which area of the M areas the second electronic device is located in is determined according to the position of the second electronic device; the method for detecting the spatial position of the second electronic device by the infrared sensor is the prior art, and is not described herein again.

Preferably, the manner of establishing the data transmission channel provided in this embodiment has at least the following two ways:

establishing a data transmission channel with the second electronic device through the wireless communication unit, wherein the wireless communication unit may be a WLAN function, that is, the first electronic device is used as a wireless Access Point (AP), and is connected with the second electronic device through the WLAN function to establish the data transmission channel; or, the wireless communication unit may also be a Bluetooth (BT) unit, that is, the first electronic device and the second electronic device respectively start their own bluetooth functions, and after finding each other, a data transmission channel is established;

or, a data connection code is generated, and the data connection code is displayed in the first area through the display unit, so that the second electronic device collects the data connection code and establishes a data transmission channel through its own collection unit, for example, after step 303 is completed, the first electronic device has determined that the second electronic device is in the first area, and when a data channel needs to be established with the second electronic device, a data connection code is generated, which may be a two-dimensional code, so that the second electronic device may scan the two-dimensional code through the opened camera, and then establish the data channel according to the prior art, which is not described herein.

Preferably, the working mode represented by the object identifier of each region may be preset according to an actual situation, for example, the working mode may be preset to an anti-interference working mode, a mute working mode, a color adjustment working mode, a brightness adjustment working mode, a volume adjustment working mode, and the like;

in addition, the different regions may correspond to the same working mode or different working modes, for example, as shown in fig. 2, four regions may respectively correspond to different working modes, the object identifier of the first region may correspond to a color adjustment working mode, the object identifier of the second region may correspond to an anti-interference working mode, the object identifier of the third region may correspond to a mute working mode, and the object identifier of the fourth region may correspond to a brightness adjustment working mode. The four regions may also correspond in part to the same mode of operation, for example where both the first region and the second region may be in an anti-tamper mode of operation.

Preferably, the movement of the second electronic device in the first area in step 305 may be that the second electronic device 22 moves along the direction of the arrow as shown in fig. 2;

correspondingly, in step 306, the first adjustment instruction is used to control the second electronic device to perform adjustment in the corresponding working mode, and may specifically determine the specific adjustment according to the working mode, for example, when the working mode is a brightness adjustment working mode, as shown in fig. 2, when the second electronic device 22 moves along the arrow direction, it may indicate that the volume of the external sound emitted by the second electronic device 22 is decreased; alternatively, when the operation mode is the mute mode, the display brightness of the second electronic device 22 may be reduced as shown by moving the second electronic device 22 in the direction of the arrow in fig. 2. Which kind of specific adjustment corresponds to which kind of specific working mode can be set and adjusted according to the actual situation, which is not described herein.

Preferably, the step 306 of controlling the second electronic device to adjust in the corresponding operating mode may further include: determining the size of the adjustment amplitude according to the moving distance or the moving speed of the second electronic equipment in the first area; for example, when the moving distance is smaller than a preset threshold, the adjustment amplitude of the second electronic device is a first amplitude, and when the moving distance is not smaller than the preset threshold, the adjustment amplitude of the second electronic device is a second amplitude, where the second amplitude is larger than the first amplitude.

It can be understood that the adjustment according to the movement of the second electronic device may be performed for a part of the operation modes, such as a brightness adjustment operation mode, a color adjustment operation mode, a volume adjustment operation mode, and the like;

the disturbance prevention working mode or the mute working mode can not be adjusted according to the movement of the second electronic equipment; or, when the movement of the second electronic device is detected, prompt information may be displayed, whether to adjust the preset parameters for the second electronic device is inquired, and when the determined response information is obtained, the preset parameters are adjusted correspondingly; the preset parameters may be brightness, color, and other parameters.

Preferably, after the step 306, the method may further include:

detecting the location of the second electronic device in real-time,

when the second electronic device is switched from the first area to a second area, obtaining a second induction parameter, wherein the second induction parameter represents that the second area in the M areas is provided with a second electronic device; acquiring second configuration information according to the second induction parameter, wherein the second configuration information represents configuration information corresponding to a second object identifier of the second area;

and sending the configuration information corresponding to the second object identifier to the second electronic device based on a data transmission channel established with the second electronic device, so that the second electronic device automatically adjusts based on the configuration information and is in a working mode represented by the second object identifier.

In the following description, with reference to fig. 2 as an example, it is assumed that the first region 211 is in the mute mode, the second region 212 is in the brightness adjustment mode,

acquiring a first sensing parameter through a sensing unit, and determining that the smart phone 22 is in the first area 211; obtaining a first object identifier corresponding to the first area 211 according to the first sensing parameter, and obtaining configuration information according to the first object identifier; sending the configuration information to the smart phone 22, so that the smart phone 22 adjusts based on the configuration information and is in a mute mode;

further, when the smart phone 22 moves from the first area 211 to the second area 212, the sensing unit obtains a second sensing parameter, obtains a second object identifier corresponding to the second area 212 according to the second sensing parameter, obtains corresponding configuration information, and sends the configuration information corresponding to the second object identifier to the smart phone 22, so that the smart phone 22 performs adjustment according to the configuration information, and is switched from the mute mode to the brightness adjustment mode.

By adopting the scheme, when the second electronic device is determined to be in one of the plurality of areas relative to the first electronic device, the configuration information can be acquired according to the object identifier corresponding to the area and sent to the second electronic device, so that the second electronic device can be automatically switched to the working mode corresponding to the object identifier. In addition, the second electronic device can be adjusted in the corresponding operating mode according to the movement of the second electronic device in one area. Therefore, the operation of the user on the second electronic device is reduced, the second electronic device can automatically enter a mode expected by the user only through the corresponding operation interface of the first electronic device, and therefore the operation efficiency and the use experience of the user can be improved.

Example III,

The present embodiment provides an information processing method, which may be applied to a first electronic device, where the first electronic device includes a sensing unit and a display unit, as shown in fig. 4, the method includes:

step 401: controlling the display unit to display a communication display interface, wherein the communication display interface comprises M areas, each area in the M areas corresponds to an object identifier, and the M areas correspond to the M object identifiers;

step 402: obtaining a first induction parameter through the induction unit, wherein the first induction parameter represents that a first area in the M areas is provided with a second electronic device; acquiring an Identification (ID) of the second electronic device;

step 403: obtaining first configuration information according to the first induction parameter, wherein the first configuration information represents configuration information corresponding to a first object identifier of the first area;

step 404: and sending the first configuration information to the second electronic equipment based on the ID of the second electronic equipment and a data transmission channel established by the corresponding second electronic equipment, so that the second electronic equipment automatically adjusts the working mode represented by the first object identifier based on the configuration information.

Here, the first electronic device may be a large screen device 21 as shown in fig. 2, and the second electronic device may be a smartphone 22 as shown in fig. 2.

The controlling the display unit to display the communication display interface may include:

when the first electronic equipment is switched from a first working state to a second working state, controlling the display unit to display a display graphic display interface; the power consumption of the first working state is greater than the power consumption of the second working state, for example, the first working state may be an awake state, that is, a state in which a user operates a large-screen device; the second working state can be a dormant state, namely a state that a user does not operate the large-screen device for a period of time;

or, the method may include setting, by the user, the first electronic device so that the first electronic device displays a communication display interface.

The communication display interface may be an interface displayed in the large-screen device 21 as shown in fig. 2, where the communication display interface includes four regions, that is, a first region 211, a second region 212, a third region 213, and a fourth region 214, and it is understood that four regions are illustrated here, and actually, one region, two regions, or ten regions may be included, and the examples given in this embodiment do not limit the number.

Preferably, the working mode represented by the object identifier of each region may be preset according to an actual situation, for example, the working mode may be preset to an anti-interference working mode, a mute working mode, a color adjustment working mode, a brightness adjustment working mode, a volume adjustment working mode, and the like;

in addition, the different regions may correspond to the same working mode or different working modes, for example, as shown in fig. 2, four regions may respectively correspond to different working modes, the object identifier of the first region may correspond to a color adjustment working mode, the object identifier of the second region may correspond to an anti-interference working mode, the object identifier of the third region may correspond to a mute working mode, and the object identifier of the fourth region may correspond to a brightness adjustment working mode. The four regions may also correspond in part to the same mode of operation, for example where both the first region and the second region may be in an anti-tamper mode of operation.

Preferably, the obtaining of the first sensing parameter by the sensing unit, where the first sensing parameter indicates that a first area of the M areas has a second electronic device, may include two cases:

the first type is a case that the second electronic device is placed on the first electronic device and the two are in contact, the sensing unit may be a touch screen, the touch screen detects a position of the second electronic device, and which of the M regions the second electronic device is located in is determined according to the position of the second electronic device; the method for detecting the position of the second electronic device by the touch screen is the prior art, and is not described herein again;

the second is a case that the second electronic device is not in contact with the first electronic device, the sensing unit may be an infrared sensor, the position of the second electronic device is detected by arranging a plurality of infrared sensors around the second electronic device, the position of the vertical projection of the second electronic device is further obtained, the position of the vertical projection is taken as the position of the second electronic device, and which area of the M areas the second electronic device is located in is determined according to the position of the second electronic device; the method for detecting the spatial position of the second electronic device by the infrared sensor is the prior art, and is not described herein again.

Preferably, the manner of establishing the data transmission channel provided in this embodiment has at least the following two ways:

establishing a data transmission channel with the second electronic device through the wireless communication unit, wherein the wireless communication unit may be a WLAN function, that is, the first electronic device is used as a wireless Access Point (AP), and is connected with the second electronic device through the WLAN function to establish the data transmission channel; or, the wireless communication unit may also be a Bluetooth (BT) unit, that is, the first electronic device and the second electronic device respectively start their own bluetooth functions, and after finding each other, a data transmission channel is established;

or, a data connection code is generated, and the data connection code is displayed in the first area through the display unit, so that the second electronic device collects the data connection code and establishes a data transmission channel through its own collection unit, for example, after step 403 is completed, when the first electronic device has determined that the second electronic device is in the first area and needs to establish a data channel with the second electronic device, a data connection code is generated, which may be a two-dimensional code, so that the second electronic device may scan the two-dimensional code through the opened camera, and then establish a data channel according to the prior art, which is not described herein.

Preferably, the method of acquiring an Identification (ID) of the second electronic device may include: when wireless connection is established with second electronic equipment, the MAC address of the second electronic equipment is acquired, and the ID of the second electronic equipment is identified by the MAC address;

alternatively, the ID of the second electronic device may be determined by detecting the radio frequency identifier of the second electronic device through its own radio frequency identifier detection antenna.

It can be understood that, by collecting the IDs of the second electronic devices, the first electronic device can control a plurality of second electronic devices at the same time, for example, as shown in fig. 2, when one smart phone 22 is located in the first area 211 and another smart phone 23 is located in the second area 212, it is necessary to identify the smart phone 22 and the smart phone 23 respectively, and then send the configuration information corresponding to the first area 211 to the smart phone 22 and send the configuration information corresponding to the second area 212 to the smart phone 23 respectively; therefore, one electronic device can control a plurality of second electronic devices at the same time, and the purpose of improving the operation efficiency of a plurality of users is achieved.

Preferably, after the above steps are completed, the method may further include: obtaining a second sensing parameter of the second electronic device in the first area through the sensing unit, wherein the second sensing parameter represents the movement of the second electronic device in the first area; and sending a first adjusting instruction to the second electronic equipment based on a data transmission channel established between the first electronic equipment and the second electronic equipment, wherein the first adjusting instruction is used for controlling the second electronic equipment to adjust in a corresponding working mode.

The second electronic device 22 may move in the first area as shown in fig. 2, and move in the direction of the arrow;

correspondingly, the first adjustment instruction is used to control the second electronic device to perform adjustment in the corresponding working mode, and may specifically determine the specific adjustment according to the working mode, for example, when the working mode is a brightness adjustment working mode, as shown in fig. 2, when the second electronic device 22 moves along the arrow direction, it may indicate that the volume of the second electronic device 22 is decreased; alternatively, when the operation mode is the mute mode, the display brightness of the second electronic device 22 may be reduced as shown by moving the second electronic device 22 in the direction of the arrow in fig. 2. Which kind of specific adjustment corresponds to which kind of specific working mode can be set and adjusted according to the actual situation, which is not described herein.

Preferably, the controlling the second electronic device to adjust in the corresponding working mode may further include: determining the size of the adjustment amplitude according to the moving distance or the moving speed of the second electronic equipment in the first area; for example, when the moving distance is smaller than a preset threshold, the adjustment amplitude of the second electronic device is a first amplitude, and when the moving distance is not smaller than the preset threshold, the adjustment amplitude of the second electronic device is a second amplitude, where the second amplitude is larger than the first amplitude.

Preferably, the method may further comprise: detecting the position of the second electronic equipment in real time, and when the second electronic equipment is switched from the first area to a second area, obtaining a second induction parameter, wherein the second induction parameter represents that the second area in the M areas is provided with the second electronic equipment; acquiring second configuration information according to the second induction parameter, wherein the second configuration information represents configuration information corresponding to a second object identifier of the second area;

and sending the configuration information corresponding to the second object identifier to the second electronic device based on a data transmission channel established with the second electronic device, so that the second electronic device automatically adjusts based on the configuration information and is in a working mode represented by the second object identifier.

It can be understood that the adjustment according to the movement of the second electronic device may be performed for a part of the operation modes, such as a brightness adjustment operation mode, a color adjustment operation mode, a volume adjustment operation mode, and the like;

the disturbance prevention working mode or the mute working mode can not be adjusted according to the movement of the second electronic equipment; or, when the movement of the second electronic device is detected, prompt information may be displayed, whether to adjust the preset parameters for the second electronic device is inquired, and when the determined response information is obtained, the preset parameters are adjusted correspondingly; the preset parameters may be brightness, color, and other parameters.

In the following description, with reference to fig. 2 as an example, it is assumed that the first region 211 is in the mute mode, the second region 212 is in the brightness adjustment mode,

acquiring a first sensing parameter through a sensing unit, and determining that the smart phone 22 is in the first area 211; obtaining a first object identifier corresponding to the first area 211 according to the first sensing parameter, and obtaining configuration information according to the first object identifier; sending the configuration information to the smart phone 22, so that the smart phone 22 adjusts based on the configuration information and is in a mute mode;

further, when the smart phone 22 moves from the first area 211 to the second area 212, the sensing unit obtains a second sensing parameter, obtains a second object identifier corresponding to the second area 212 according to the second sensing parameter, obtains corresponding configuration information, and sends the configuration information corresponding to the second object identifier to the smart phone 22, so that the smart phone 22 performs adjustment according to the configuration information, and is switched from the mute mode to the brightness adjustment mode.

By adopting the scheme, when the second electronic device is determined to be in one of the plurality of areas relative to the first electronic device, the configuration information can be acquired according to the object identifier corresponding to the area and sent to the second electronic device, so that the second electronic device can be automatically switched to the working mode corresponding to the object identifier. In addition, the second electronic device can be adjusted in the corresponding operating mode according to the movement of the second electronic device in one area. Therefore, the operation of the user on the second electronic device is reduced, the second electronic device can automatically enter a mode expected by the user only through the corresponding operation interface of the first electronic device, and therefore the operation efficiency and the use experience of the user can be improved.

Example four,

The present embodiment provides an electronic device, as shown in fig. 5, the electronic device includes:

the display unit 51 is configured to display a communication display interface, where the communication display interface includes M regions, where each region in the M regions corresponds to an object identifier, and the M regions correspond to M object identifiers;

the sensing unit 52 is configured to obtain a first sensing parameter, where the first sensing parameter indicates that a first area of the M areas has a second electronic device;

the information processing unit 53 is configured to obtain first configuration information according to the first sensing parameter, where the first configuration information represents configuration information corresponding to a first object identifier of the first area; and sending the first configuration information to the second electronic equipment based on a data transmission channel established with the second electronic equipment, so that the second electronic equipment automatically adjusts the working mode represented by the first object identifier based on the first configuration information.

Here, the first electronic device may be a large screen device 21 as shown in fig. 2, and the second electronic device may be a smartphone 22 as shown in fig. 2.

The controlling the display unit to display the communication display interface may include:

when the first electronic equipment is switched from a first working state to a second working state, controlling the display unit to display a display graphic display interface; the power consumption of the first working state is greater than the power consumption of the second working state, for example, the first working state may be an awake state, that is, a state in which a user operates a large-screen device; the second working state can be a dormant state, namely a state that a user does not operate the large-screen device for a period of time;

or, the method may include setting, by the user, the first electronic device so that the first electronic device displays a communication display interface.

The communication display interface may be an interface displayed in the large-screen device 21 as shown in fig. 2, where the communication display interface includes four regions, that is, a first region 211, a second region 212, a third region 213, and a fourth region 214, and it is understood that four regions are illustrated here, and actually, one region, two regions, or ten regions may be included, and the examples given in this embodiment do not limit the number.

Preferably, the working mode represented by the object identifier of each region may be preset according to an actual situation, for example, the working mode may be preset to an anti-interference working mode, a mute working mode, a color adjustment working mode, a brightness adjustment working mode, a volume adjustment working mode, and the like;

in addition, the different regions may correspond to the same working mode or different working modes, for example, as shown in fig. 2, four regions may respectively correspond to different working modes, the object identifier of the first region may correspond to a color adjustment working mode, the object identifier of the second region may correspond to an anti-interference working mode, the object identifier of the third region may correspond to a mute working mode, and the object identifier of the fourth region may correspond to a brightness adjustment working mode. The four regions may also correspond in part to the same mode of operation, for example where both the first region and the second region may be in an anti-tamper mode of operation.

Preferably, the obtaining of the first sensing parameter by the sensing unit, where the first sensing parameter indicates that a first area of the M areas has a second electronic device, may include two cases:

the first type is a case that the second electronic device is placed on the first electronic device and the two are in contact, the sensing unit may be a touch screen, the touch screen detects a position of the second electronic device, and which of the M regions the second electronic device is located in is determined according to the position of the second electronic device; the method for detecting the position of the second electronic device by the touch screen is the prior art, and is not described herein again;

the second is a case that the second electronic device is not in contact with the first electronic device, the sensing unit may be an infrared sensor, the position of the second electronic device is detected by arranging a plurality of infrared sensors around the second electronic device, the position of the vertical projection of the second electronic device is further obtained, the position of the vertical projection is taken as the position of the second electronic device, and which area of the M areas the second electronic device is located in is determined according to the position of the second electronic device; the method for detecting the spatial position of the second electronic device by the infrared sensor is the prior art, and is not described herein again.

Preferably, the sensing unit 52 may be further configured to detect a position of the second electronic device in real time, and obtain a second sensing parameter when the second electronic device switches from the first area to a second area, where the second sensing parameter indicates that the second area of the M areas has a second electronic device; correspondingly, the information processing unit 53 is further configured to obtain second configuration information according to the second sensing parameter, where the second configuration information represents configuration information corresponding to a second object identifier of the second area; and sending the configuration information corresponding to the second object identifier to the second electronic device based on a data transmission channel established with the second electronic device, so that the second electronic device automatically adjusts based on the configuration information and is in a working mode represented by the second object identifier.

In the following description, with reference to fig. 2 as an example, it is assumed that the first region 211 is in the mute mode, the second region 212 is in the brightness adjustment mode,

acquiring a first sensing parameter through a sensing unit, and determining that the smart phone 22 is in the first area 211; obtaining a first object identifier corresponding to the first area 211 according to the first sensing parameter, and obtaining configuration information according to the first object identifier; sending the configuration information to the smart phone 22, so that the smart phone 22 adjusts based on the configuration information and is in a mute mode;

further, when the smart phone 22 moves from the first area 211 to the second area 212, the sensing unit obtains a second sensing parameter, obtains a second object identifier corresponding to the second area 212 according to the second sensing parameter, obtains corresponding configuration information, and sends the configuration information corresponding to the second object identifier to the smart phone 22, so that the smart phone 22 performs adjustment according to the configuration information, and is switched from the mute mode to the brightness adjustment mode.

By adopting the scheme, when the second electronic device is determined to be in one of the plurality of areas relative to the first electronic device, the configuration information can be acquired according to the object identifier corresponding to the area and sent to the second electronic device, so that the second electronic device can be automatically switched to the working mode corresponding to the object identifier. Therefore, the operation of the user on the second electronic device is reduced, the second electronic device can automatically enter a mode expected by the user only through the corresponding operation interface of the first electronic device, and therefore the operation efficiency and the use experience of the user can be improved.

Example V,

The present embodiment provides an electronic device, as shown in fig. 6, the electronic device includes:

the display unit 61 is configured to display a communication display interface, where the communication display interface includes M regions, where each region in the M regions corresponds to an object identifier, and the M regions correspond to M object identifiers;

the sensing unit 62 is configured to obtain a first sensing parameter, where the first sensing parameter indicates that a first area of the M areas has a second electronic device;

the information processing unit 63 is configured to obtain first configuration information according to the first sensing parameter, where the first configuration information represents configuration information corresponding to a first object identifier of the first area; and sending the first configuration information to the second electronic equipment based on a data transmission channel established with the second electronic equipment, so that the second electronic equipment automatically adjusts the working mode represented by the first object identifier based on the first configuration information.

Here, the first electronic device may be a large screen device 21 as shown in fig. 2, and the second electronic device may be a smartphone 22 as shown in fig. 2.

The controlling the display unit to display the communication display interface may include:

when the first electronic equipment is switched from a first working state to a second working state, controlling the display unit to display a display graphic display interface; the power consumption of the first working state is greater than the power consumption of the second working state, for example, the first working state may be an awake state, that is, a state in which a user operates a large-screen device; the second working state can be a dormant state, namely a state that a user does not operate the large-screen device for a period of time;

or, the method may include setting, by the user, the first electronic device so that the first electronic device displays a communication display interface.

The communication display interface may be an interface displayed in the large-screen device 21 as shown in fig. 2, where the communication display interface includes four regions, that is, a first region 211, a second region 212, a third region 213, and a fourth region 214, and it is understood that four regions are illustrated here, and actually, one region, two regions, or ten regions may be included, and the examples given in this embodiment do not limit the number.

Preferably, the working mode represented by the object identifier of each region may be preset according to an actual situation, for example, the working mode may be preset to an anti-interference working mode, a mute working mode, a color adjustment working mode, a brightness adjustment working mode, a volume adjustment working mode, and the like;

in addition, the different regions may correspond to the same working mode or different working modes, for example, as shown in fig. 2, four regions may respectively correspond to different working modes, the object identifier of the first region may correspond to a color adjustment working mode, the object identifier of the second region may correspond to an anti-interference working mode, the object identifier of the third region may correspond to a mute working mode, and the object identifier of the fourth region may correspond to a brightness adjustment working mode. The four regions may also correspond in part to the same mode of operation, for example where both the first region and the second region may be in an anti-tamper mode of operation.

Preferably, the obtaining of the first sensing parameter by the sensing unit, where the first sensing parameter indicates that a first area of the M areas has a second electronic device, may include two cases:

the first type is a case that the second electronic device is placed on the first electronic device and the two are in contact, the sensing unit may be a touch screen, the touch screen detects a position of the second electronic device, and which of the M regions the second electronic device is located in is determined according to the position of the second electronic device; the method for detecting the position of the second electronic device by the touch screen is the prior art, and is not described herein again;

the second is a case that the second electronic device is not in contact with the first electronic device, the sensing unit may be an infrared sensor, the position of the second electronic device is detected by arranging a plurality of infrared sensors around the second electronic device, the position of the vertical projection of the second electronic device is further obtained, the position of the vertical projection is taken as the position of the second electronic device, and which area of the M areas the second electronic device is located in is determined according to the position of the second electronic device; the method for detecting the spatial position of the second electronic device by the infrared sensor is the prior art, and is not described herein again.

Preferably, the electronic device further includes: and a wireless communication unit 64, configured to establish a data transmission channel with the second electronic device. The wireless communication unit may be a WLAN function, that is, the first electronic device serves as a wireless Access Point (AP), and is connected to the second electronic device through the WLAN function to establish a data transmission channel; or, the wireless communication unit may also be a Bluetooth (BT) unit, that is, the first electronic device and the second electronic device respectively start their own bluetooth functions, and after finding each other, a data transmission channel is established.

The sensing unit is further configured to obtain a second sensing parameter of the second electronic device in the first area, where the second sensing parameter represents movement of the second electronic device in the first area; correspondingly, the information processing unit is further configured to send a first adjustment instruction to the second electronic device based on a data transmission channel established between the first electronic device and the second electronic device, where the first adjustment instruction is used to control the second electronic device to perform adjustment in a corresponding working mode.

The movement of the second electronic device in the first area may be, as shown in fig. 2, the second electronic device 22 moves along the arrow direction; correspondingly, the first adjustment instruction is used to control the second electronic device to perform adjustment in the corresponding working mode, and may specifically determine the specific adjustment according to the working mode, for example, when the working mode is a brightness adjustment working mode, as shown in fig. 2, when the second electronic device 22 moves along the arrow direction, it may indicate that the volume of the second electronic device 22 is decreased; alternatively, when the operation mode is the mute mode, the display brightness of the second electronic device 22 may be reduced as shown by moving the second electronic device 22 in the direction of the arrow in fig. 2. Which kind of specific adjustment corresponds to which kind of specific working mode can be set and adjusted according to the actual situation, which is not described herein.

Preferably, the information processing unit 63 is further configured to determine the magnitude of the adjustment amplitude according to the moving distance or the moving speed of the second electronic device in the first area; for example, when the moving distance is smaller than a preset threshold, the adjustment amplitude of the second electronic device is a first amplitude, and when the moving distance is not smaller than the preset threshold, the adjustment amplitude of the second electronic device is a second amplitude, where the second amplitude is larger than the first amplitude.

Preferably, the sensing unit 62 is further configured to detect a position of the second electronic device in real time, and obtain a second sensing parameter when the second electronic device switches from the first area to a second area, where the second sensing parameter indicates that the second area of the M areas has a second electronic device; acquiring second configuration information according to the second induction parameter, wherein the second configuration information represents configuration information corresponding to a second object identifier of the second area;

correspondingly, the information processing unit 63 is further configured to send, based on a data transmission channel established between the wireless communication unit 64 and the second electronic device, configuration information corresponding to the second object identifier to the second electronic device, so that the second electronic device automatically adjusts based on the configuration information and is in a working mode represented by the second object identifier.

The information processing unit is further used for acquiring an identification ID of the second electronic equipment; and sending the first configuration information to the second electronic equipment based on the ID of the second electronic equipment and a data transmission channel established by the corresponding second electronic equipment.

Preferably, the method of acquiring an Identification (ID) of the second electronic device may include: when wireless connection is established with second electronic equipment, the MAC address of the second electronic equipment is acquired, and the ID of the second electronic equipment is identified by the MAC address;

alternatively, the ID of the second electronic device may be determined by detecting the radio frequency identifier of the second electronic device through its own radio frequency identifier detection antenna.

It can be understood that, by collecting the IDs of the second electronic devices, the first electronic device can control a plurality of second electronic devices at the same time, for example, as shown in fig. 2, when one smart phone 22 is located in the first area 211 and another smart phone 23 is located in the second area 212, it is necessary to identify the smart phone 22 and the smart phone 23 respectively, and then send the configuration information corresponding to the first area 211 to the smart phone 22 and send the configuration information corresponding to the second area 212 to the smart phone 23 respectively; therefore, one electronic device can control a plurality of second electronic devices at the same time, and the purpose of improving the operation efficiency of a plurality of users is achieved.

Preferably, the sensing unit may further obtain a second sensing parameter of the second electronic device in the first area, where the second sensing parameter is indicative of movement of the second electronic device in the first area; and sending a first adjusting instruction to the second electronic equipment based on a data transmission channel established between the first electronic equipment and the second electronic equipment, wherein the first adjusting instruction is used for controlling the second electronic equipment to adjust in a corresponding working mode.

The sensing unit is further configured to obtain a second sensing parameter of the second electronic device in the first area, where the second sensing parameter represents movement of the second electronic device in the first area; correspondingly, the information processing unit is further configured to send a first adjustment instruction to the second electronic device based on a data transmission channel established between the first electronic device and the second electronic device, where the first adjustment instruction is used to control the second electronic device to perform adjustment in a corresponding working mode.

The second electronic device 22 may move in the first area as shown in fig. 2, and move in the direction of the arrow; correspondingly, the first adjustment instruction is used to control the second electronic device to perform adjustment in the corresponding working mode, and may specifically determine the specific adjustment according to the working mode, for example, when the working mode is a brightness adjustment working mode, as shown in fig. 2, when the second electronic device 22 moves along the arrow direction, it may indicate that the volume of the second electronic device 22 is decreased; alternatively, when the operation mode is the mute mode, the display brightness of the second electronic device 22 may be reduced as shown by moving the second electronic device 22 in the direction of the arrow in fig. 2. Which kind of specific adjustment corresponds to which kind of specific working mode can be set and adjusted according to the actual situation, which is not described herein.

Preferably, the controlling the second electronic device to adjust in the corresponding working mode may further include: determining the size of the adjustment amplitude according to the moving distance or the moving speed of the second electronic equipment in the first area; for example, when the moving distance is smaller than a preset threshold, the adjustment amplitude of the second electronic device is a first amplitude, and when the moving distance is not smaller than the preset threshold, the adjustment amplitude of the second electronic device is a second amplitude, where the second amplitude is larger than the first amplitude.

Preferably, the sensing unit is further configured to detect a position of the second electronic device in real time, and when the second electronic device is switched from the first area to a second area, obtain a second sensing parameter, where the second sensing parameter indicates that the second area of the M areas has a second electronic device; acquiring second configuration information according to the second induction parameter, wherein the second configuration information represents configuration information corresponding to a second object identifier of the second area;

correspondingly, the information processing unit is further configured to send, based on a data transmission channel established with the second electronic device, configuration information corresponding to the second object identifier to the second electronic device, so that the second electronic device automatically adjusts based on the configuration information and is in a working mode represented by the second object identifier.

It can be understood that the adjustment according to the movement of the second electronic device may be performed for a part of the operation modes, such as a brightness adjustment operation mode, a color adjustment operation mode, a volume adjustment operation mode, and the like;

the disturbance prevention working mode or the mute working mode can not be adjusted according to the movement of the second electronic equipment; or, when the movement of the second electronic device is detected, prompt information may be displayed, whether to adjust the preset parameters for the second electronic device is inquired, and when the determined response information is obtained, the preset parameters are adjusted correspondingly; the preset parameters may be brightness, color, and other parameters.

In the following description, with reference to fig. 2 as an example, it is assumed that the first region 211 is in the mute mode, the second region 212 is in the brightness adjustment mode,

acquiring a first sensing parameter through a sensing unit, and determining that the smart phone 22 is in the first area 211; obtaining a first object identifier corresponding to the first area 211 according to the first sensing parameter, and obtaining configuration information according to the first object identifier; sending the configuration information to the smart phone 22, so that the smart phone 22 adjusts based on the configuration information and is in a mute mode;

further, when the smart phone 22 moves from the first area 211 to the second area 212, the sensing unit obtains a second sensing parameter, obtains a second object identifier corresponding to the second area 212 according to the second sensing parameter, obtains corresponding configuration information, and sends the configuration information corresponding to the second object identifier to the smart phone 22, so that the smart phone 22 performs adjustment according to the configuration information, and is switched from the mute mode to the brightness adjustment mode.

By adopting the scheme, when the second electronic device is determined to be in one of the plurality of areas relative to the first electronic device, the configuration information can be acquired according to the object identifier corresponding to the area and sent to the second electronic device, so that the second electronic device can be automatically switched to the working mode corresponding to the object identifier. In addition, the second electronic device can be adjusted in the corresponding operating mode according to the movement of the second electronic device in one area. Therefore, the operation of the user on the second electronic device is reduced, the second electronic device can automatically enter a mode expected by the user only through the corresponding operation interface of the first electronic device, and therefore the operation efficiency and the use experience of the user can be improved.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.

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, that is, 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, all the functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may be separately used as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: a mobile storage device, 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 above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. An information processing method is applied to first electronic equipment, wherein the first electronic equipment comprises a sensing unit and a display unit, and the method comprises the following steps:

controlling the display unit to display a communication display interface, wherein the communication display interface comprises M areas, each area in the M areas corresponds to an object identifier, and the M areas correspond to the M object identifiers;

obtaining a first induction parameter through the induction unit, wherein the first induction parameter represents that a first area in the M areas is provided with a second electronic device;

obtaining first configuration information according to the first induction parameter, wherein the first configuration information represents configuration information corresponding to a first object identifier of the first area;

and sending the first configuration information to the second electronic equipment based on a data transmission channel established with the second electronic equipment, so that the second electronic equipment automatically adjusts the working mode represented by the first object identifier based on the first configuration information.

2. The method of claim 1, further comprising:

establishing a data transmission channel with the second electronic equipment through a wireless communication unit;

or,

and generating a data connection code, and displaying the data connection code in the first area through a display unit so that the second electronic equipment acquires the data connection code and establishes a data transmission channel through an acquisition unit of the second electronic equipment.

3. The method of claim 1, wherein after sending the first configuration information to the second electronic device, the method further comprises:

obtaining a second sensing parameter of the second electronic device in the first area through the sensing unit, wherein the second sensing parameter represents the movement of the second electronic device in the first area;

and sending a first adjusting instruction to the second electronic equipment based on a data transmission channel established between the first electronic equipment and the second electronic equipment, wherein the first adjusting instruction is used for controlling the second electronic equipment to adjust in a corresponding working mode.

4. The method of claim 1, wherein the controlling the display unit to display a communication display interface comprises:

when the first working state is switched to the second working state, controlling the display unit to display a display graphic display interface; wherein the power consumption of the first operating state is greater than the power consumption of the second operating state.

5. The method according to any one of claims 1 to 4,

after the first sensing parameter is obtained by the sensing unit, the method further includes: acquiring an identification ID of the second electronic equipment;

correspondingly, the sending the first configuration information to the second electronic device based on the data transmission channel established with the second electronic device includes:

and sending the first configuration information to the second electronic equipment based on the ID of the second electronic equipment and a data transmission channel established by the corresponding second electronic equipment.

6. An electronic device, the electronic device comprising:

the communication display interface comprises M areas, wherein each area in the M areas corresponds to an object identifier, and the M areas correspond to the M object identifiers;

the sensing unit is used for obtaining a first sensing parameter, and the first sensing parameter represents that a first area in the M areas is provided with a second electronic device;

the information processing unit is used for obtaining first configuration information according to the first induction parameter, and the first configuration information represents configuration information corresponding to a first object identifier of the first area; and sending the first configuration information to the second electronic equipment based on a data transmission channel established with the second electronic equipment, so that the second electronic equipment automatically adjusts the working mode represented by the first object identifier based on the first configuration information.

7. The electronic device of claim 6, further comprising:

and the wireless communication unit is used for establishing a data transmission channel with the second electronic equipment.

8. The electronic device of claim 6,

the sensing unit is further configured to obtain a second sensing parameter of the second electronic device in the first area, where the second sensing parameter represents movement of the second electronic device in the first area;

correspondingly, the information processing unit is further configured to send a first adjustment instruction to the second electronic device based on a data transmission channel established between the first electronic device and the second electronic device, where the first adjustment instruction is used to control the second electronic device to perform adjustment in a corresponding working mode.

9. The electronic device according to claim 6, wherein the information processing unit is further configured to control the display unit to display a graphical display interface when switching from the first operating state to the second operating state; wherein the power consumption of the first operating state is greater than the power consumption of the second operating state.

10. The electronic device of any of claims 6-9,

the information processing unit is further used for acquiring an identification ID of the second electronic equipment; and sending the first configuration information to the second electronic equipment based on the ID of the second electronic equipment and a data transmission channel established by the corresponding second electronic equipment.