CN106648494B - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment. The information processing method is applied to an electronic device, and the electronic device at least comprises a processing unit; the electronic device has a plurality of usage modes, and the electronic device further comprises a plurality of sensing units; the method comprises the following steps: the processing unit acquires data acquired by the plurality of sensing units; judging whether the electronic equipment is in a first use mode or not according to the acquired data collected by the plurality of sensing units; wherein the first usage mode is one of the plurality of usage modes. By utilizing the scheme, the purposes of integrating multiple use modes into the electronic equipment and effectively judging the use mode corresponding to the current application scene are achieved.

Description

Information processing method and electronic equipment

The application is applied for 3, 12 and 2012, and the application number is as follows: 201210064140.6, title of the invention: an information processing method and a divisional application of an electronic device are provided.

Technical Field

The present invention relates to the field of electronic devices, and in particular, to an information processing method and an electronic device.

Background

With the development of science and technology, various electronic devices are continuously abundant and convenient for the public life. Because the electronic equipment has the advantages of convenience, rapidness, resource saving and the like when used for processing information, the electronic equipment becomes an indispensable part in life or work of people.

In terms of portability, usability and the like, the tablet personal computer has obvious advantages compared with a traditional notebook, and the strength of the notebook lies in stronger hardware performance, terminal systems, software applications and the like. Therefore, due to the characteristics of the notebook and the tablet, many consumers can buy the notebook and the tablet at the same time to adapt to different application scenarios.

Therefore, how to integrate multiple usage modes such as a notebook computer and a tablet computer into an electronic device and effectively determine the usage mode corresponding to the current application scenario is a focus of attention.

Disclosure of Invention

In order to solve the foregoing technical problems, embodiments of the present invention provide an information processing method and an electronic device, so as to integrate multiple usage modes into one electronic device and effectively determine a usage mode corresponding to a current application scenario, where the technical scheme is as follows:

an information processing method is applied to an electronic device, and the electronic device is at least provided with a processing unit; the electronic device has a plurality of usage modes, and the electronic device further comprises a plurality of sensing units; the method comprises the following steps:

the processing unit acquires data acquired by the plurality of sensing units;

judging whether the electronic equipment is in a first use mode or not according to the acquired data collected by the plurality of sensing units;

wherein the first usage mode is one of the plurality of usage modes.

The embodiment of the invention also provides an information processing method, which is applied to electronic equipment, wherein the electronic equipment is at least provided with a processing unit; the electronic device is provided with a first body, a second body and a connecting part for connecting the first body and the second body; the electronic device further comprises a plurality of sensing units; the method comprises the following steps:

the processing unit acquires data acquired by the plurality of sensing units;

and judging the included angle between the first body and the horizontal plane and/or the included angle between the second body and the horizontal plane according to the acquired data acquired by the plurality of sensing units.

The embodiment of the invention also provides an information processing method, which is applied to the electronic equipment, wherein the electronic equipment at least comprises a processing unit; the electronic device has a plurality of usage modes; the method comprises the following steps:

the processing unit determines whether the electronic device is in a first usage mode; wherein the first usage mode is one of the plurality of usage modes;

when the processing unit determines that the electronic equipment is in a first usage mode, controlling an application program running in the electronic equipment so that the attribute of the application program is matched with the first usage mode.

The embodiment of the invention also provides an information processing method which is applied to an electronic device, wherein the electronic device at least comprises a processing unit, the electronic device has a plurality of using modes, and the electronic device also comprises an external unit; the method comprises the following steps:

the processing unit determines whether the electronic device is in a first usage mode; wherein the first usage mode is one of the plurality of usage modes;

and when the processing unit determines that the electronic equipment is in a first use mode, controlling the working state of the peripheral unit to be matched with the first use mode.

The embodiment of the invention also provides an information processing method, which is suitable for an electronic device, wherein the electronic device at least comprises a processing unit; the electronic device has a plurality of usage modes; the method comprises the following steps:

the processing unit determines whether the electronic device is in a first usage mode; wherein the first usage mode is one of the plurality of usage modes;

when the processing unit determines that the electronic equipment is in a first usage mode, an operating system in the electronic equipment is controlled so that the operating system is matched with the first usage mode.

The embodiment of the invention also provides electronic equipment which is provided with a first body, a second body and a rotating shaft for connecting the first body and the second body; the second body can rotate 360 degrees relative to the first body through the rotating shaft;

the electronic device has multiple use modes and comprises a processor and at least two gravity sensors, wherein the at least two gravity sensors comprise a first gravity sensor arranged on a first body and a second gravity sensor arranged on a second body;

the first gravity sensor is used for acquiring a first included angle between a sensitive shaft in the first gravity sensor and the gravity direction when the second body rotates relative to the first body;

the second gravity sensor is used for collecting a second included angle between a sensitive shaft in the second gravity sensor and the gravity direction when the second body rotates relative to the first body;

the processor is used for judging whether the electronic equipment is in a first use mode according to the acquired first included angle and the acquired second included angle; wherein the first usage mode is one of a plurality of usage modes.

The embodiment of the invention also provides electronic equipment which is provided with a first body, a second body and a rotating shaft for connecting the first body and the second body; the second body can rotate 360 degrees relative to the first body through the rotating shaft;

the electronic equipment has a plurality of using modes and at least comprises a processor, at least one first gravity sensor arranged on a first body and at least one distance sensor arranged on a second body;

the first gravity sensor is used for acquiring a first included angle between a sensitive shaft in the first gravity sensor and the gravity direction when the second body rotates relative to the first body;

the distance sensor is used for collecting the object close distance when the second body rotates relative to the first body;

the processor is used for judging whether the electronic equipment is in a first use mode or not according to the acquired first included angle and the object approaching distance; wherein the first usage mode is one of a plurality of usage modes.

In the technical scheme provided by the embodiment of the invention, the electronic equipment has multiple use modes and at least comprises a processing unit and a plurality of sensing units; in the operation process of the electronic equipment, the processing unit acquires the data collected by the plurality of sensing units and judges whether the electronic equipment is in one of the plurality of use modes according to the collected data. Compared with the prior art, the electronic equipment in the scheme is provided with multiple use modes, and the use mode corresponding to the current application scene can be judged according to the data collected by the sensing unit.

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, and 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 these drawings without creative efforts.

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

fig. 2 is a schematic diagram illustrating four usage modes of an electronic device according to an embodiment of the present invention;

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

FIG. 4 is a schematic diagram of a gravity sensor for angle measurement;

FIG. 5 is a third flowchart of an information processing method according to an embodiment of the present invention;

FIG. 6 is a fourth flowchart of an information processing method according to an embodiment of the present invention;

fig. 7 is a fifth flowchart of an information processing method according to an embodiment of the present invention;

fig. 8 is a sixth flowchart of an information processing method according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of an electronic device according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of an electronic device according to a second embodiment of the invention;

fig. 11 is a seventh flowchart of an information processing method according to an embodiment of the present invention;

fig. 12 is an eighth flowchart of an information processing method according to an embodiment of the present invention;

fig. 13 is a ninth flowchart of an information processing method according to an embodiment of the present invention;

fig. 14 is a tenth flowchart of an information processing method according to an embodiment of the present invention;

fig. 15 is an eleventh flowchart of an information processing method according to an embodiment of the present invention.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to integrate multiple usage modes into an electronic device and effectively determine the usage mode corresponding to the current application scenario, embodiments of the present invention provide an information processing method and an electronic device.

First, an information processing method according to an embodiment of the present invention will be described below.

It should be noted that the information processing method provided by the embodiment of the present invention is applicable to an electronic device, which at least has a processing unit and is provided with a plurality of usage modes and a plurality of sensing units. Wherein, the multiple use modes can be as follows: notebook usage mode, tablet usage mode, etc.; the sensing unit may be a gravity sensor, a distance sensor, or the like. It is understood that the electronic device may be a cell phone, a notebook, etc.

As shown in fig. 1, an information processing method may include:

s101, a processing unit in the electronic equipment acquires data acquired by a plurality of sensing units;

in the operation process of the electronic equipment, a plurality of sensing units arranged in the electronic equipment acquire corresponding data about the electronic equipment in real time, and a processing unit in the electronic equipment acquires the data acquired by the plurality of sensing units in real time and performs subsequent processing according to the acquired data.

It will be appreciated that the data collected by the different types of sensing units may be different, for example: when the sensing unit is a gravity sensor, according to the working principle of the gravity sensor, the acquired data can be the included angle between the sensitive axis in the gravity sensor and the gravity direction; when the sensing unit is a distance sensor, the acquired data can be the distance of an object approaching the distance sensor according to the working principle of the distance sensor.

S102, the processing unit judges whether the electronic equipment is in a first use mode according to the acquired data collected by the plurality of sensing units.

The first usage mode is one of multiple usage modes in the electronic device.

After the processing unit acquires the data acquired by the plurality of sensing units, the processing unit judges the use mode required by the electronic equipment in the current application scene according to the acquired data acquired by the sensing units. For example: the processing unit can judge that the electronic equipment corresponds to a notebook usage mode or a tablet computer usage mode in the current application scene according to the acquired data.

It can be understood that the types of data collected by different sensing units are different, and the specific determination manner of the processing unit when determining the usage mode of the electronic device by using the collected data is also different.

In this embodiment, an electronic device has multiple usage modes, and at least includes a processing unit and multiple sensing units; in the operation process of the electronic equipment, the processing unit acquires the data collected by the plurality of sensing units and judges whether the electronic equipment is in one of the plurality of use modes according to the collected data. Compared with the prior art, the electronic equipment in the scheme is provided with multiple use modes, and the use mode corresponding to the current application scene can be judged according to the data collected by the sensing unit.

An information processing method provided by the present invention is described below with reference to specific embodiments.

It should be noted that, the electronic device to which the information processing method provided in the embodiment of the present invention is applied includes a first body, a second body, and a rotating shaft connecting the first body and the second body, wherein the second body can rotate 360 degrees via the first body; the electronic device includes a processing unit, four usage modes, a first gravity sensor, and a second gravity sensor.

As shown in fig. 2, the electronic device may have four usage modes including a notebook usage mode, a tablet usage mode, a tent usage mode, and a standing usage mode, wherein an opening/closing angle α of the first body and the second body is 0 to 180 degrees in the notebook usage mode suitable for daily work, an opening/closing angle α of the first body and the second body is 360 degrees in the tablet usage mode suitable for touch application, an opening/closing angle α of the first body and the second body is about 300 degrees in the tent usage mode suitable for viewing movies, photographs, and the like, and an opening/closing angle α of the first body and the second body is about 300 degrees in the standing usage mode suitable for scenario explanation, scenario exhibition, and the like.

It can be understood that the usage mode of the electronic device is not limited to the notebook usage mode, the tablet computer usage mode, the tent usage mode and the standing usage mode, and other usage modes may be added according to the user usage requirement; meanwhile, the sensing unit is not limited to the first gravity sensor and the second gravity sensor, and other gravity sensors can be additionally arranged in practical application.

As shown in fig. 3, an information processing method may include:

s201, a processing unit in the electronic equipment acquires data acquired by a first gravity sensor and a second gravity sensor;

in this embodiment, the collected data at least includes a first included angle between a sensitive axis of the first gravity sensor and the gravity direction and a second included angle between the sensitive axis of the second gravity sensor and the gravity direction. For ease of understanding, the gravity sensor is briefly described below:

the gravity sensor is a sensor for converting motion and gravity into electric signals, and is mainly used for measuring parameters such as an inclination angle, an inertia force, impact and vibration. When the inclination angle of the platform is measured, a gravity sensor is placed on the measured platform, the sensitive axis of the gravity sensor is consistent with the axial direction of the inclined platform, and the gravity sensor is parallel to the horizontal plane in a horizontal state, as shown in fig. 4, wherein a is the inclination angle of the platform along a certain direction; the mass block of the gravity sensor is subjected to a component g of the gravitational acceleration g in the oblique direction_aThe effect of (2) causes a shift, which changes the output voltage of the gravity sensor. If the output of the gravity sensor in the horizontal state is V₀The output is V when the inclination angle is a_aAnd the output under the action of lg acceleration is V, then:

V_a＝V/g×sina×lg+V₀

namely:

a＝arcsin[(V_a-V₀)/V]

by using the above formula, the inclination angle of the plane in a certain direction can be conveniently obtained.

It will be appreciated that, since it is necessary to measure the angle with respect to the first and second bodies, the first and second gravity sensors need to be arranged on different bodies, for example: the first gravity sensor is arranged on the first body, and the second gravity sensor is arranged on the second body; alternatively, the first gravity sensor is provided on the second body, and the second gravity sensor is provided on the first body.

For example, the first gravity sensor may be provided at the first body, and the second gravity sensor may be provided at the second body. Wherein, the first body is a host end, and the second body is a display end; the direction of a sensitive shaft in the first gravity sensor is parallel to the thickness of the first body, and the positive direction is perpendicular to the use surface of the first body; the direction of a sensitive shaft in the second gravity sensor is the direction parallel to the thickness of the second body, and the positive direction is the direction perpendicular to the use surface of the second body. The correspondence relationship between the collected combination of the first included angle and the second included angle and the usage mode may be as shown in table 1.

Mode of use	First included angle (degree)	Second included angle (degree)
			Notebook computer	0	0～180
Tablet personal computer	180	180
			Tent type	0～90	90～180
Vertical type	180	90～180

TABLE 1

As can be seen from table 1, the combinations of the first included angle and the second included angle corresponding to different usage modes are different, and therefore, after the first included angle and the second included angle are determined, the usage mode corresponding to the current application scene can be determined according to the preset corresponding relationship.

For another example: the first gravity sensor may be disposed on the first body, and the second gravity sensor may be disposed on the second body; wherein, the first body is a host end, and the second body is a display end; the direction of a sensitive shaft in the first gravity sensor is parallel to the first body and the thickness, and the positive direction is perpendicular to the use surface of the first body and faces outwards; the direction of a sensitive shaft in the second gravity sensor is parallel to the thickness of the second body, and the positive direction is perpendicular to the use surface of the second body; the correspondence relationship between the collected combined usage modes of the first included angle and the second included angle may be as shown in table 2.

Mode of use	First included angle (degree)	Second included angle (degree)
			Notebook computer	180	0～180
Tablet personal computer	0	0
			Tent type	0～90	90～180
Vertical type	0	0～90

TABLE 2

As can be seen from table 2, the combinations of the first included angle and the second included angle corresponding to different usage modes are different, and therefore, after the first included angle and the second included angle are determined, the usage mode corresponding to the current application scene can be determined according to the preset corresponding relationship.

Therefore, the corresponding relation between the included angle combination and the use mode is set according to the body where the first gravity sensor and the second gravity sensor are located and the direction of the sensitive shaft, and the included angle combination and the use mode have unique correspondence.

S202, judging whether the electronic equipment is in a first use mode according to the acquired data collected by the first gravity sensor and the second gravity sensor.

Wherein the first usage mode is one of the plurality of usage modes.

After a first included angle between the sensitive axis in the first gravity sensor and the gravity direction and a second included angle between the sensitive axis in the second gravity sensor and the gravity direction are obtained, a use mode corresponding to the current application scene of the electronic equipment can be judged according to the first included angle and the second included angle.

As shown in table 1 or table 2, the combinations of the first included angle and the second included angle corresponding to different usage modes are different, and therefore, after the first included angle and the second included angle are obtained, the usage mode corresponding to the electronic device in the current application scene can be determined according to the corresponding relationship between the combination of the first included angle and the second included angle and the usage mode.

In the embodiment, an electronic device has four use modes and at least comprises a processing unit, a first gravity sensor and a second gravity sensor; in the operation process of the electronic equipment, the processing unit acquires data acquired by the first gravity sensor and the second gravity sensor and judges whether the electronic equipment is in one of four use modes according to the acquired data. Compared with the prior art, the electronic equipment in the scheme is provided with four use modes, and the use mode corresponding to the current application scene can be judged according to the data collected by the first gravity sensor and the second gravity sensor.

An information processing method provided by the present invention is described below with reference to another specific embodiment.

Similarly, it should be noted that the electronic device to which the information processing method provided in this embodiment is applied has a first body, a second body and a rotating shaft connecting the first body and the second body, and the second body can rotate 360 degrees by the first body; the electronic device further includes a processing unit, four usage modes, a first gravity sensor, and a distance sensor.

As shown in fig. 2, the electronic device has four usage modes that may include: a laptop use mode, a tablet use mode, a tent use mode, and a stand-up use mode. For a detailed description of the four usage modes, reference may be made to the above embodiments.

It can be understood that the usage mode of the electronic device is not limited to the notebook usage mode, the tablet computer usage mode, the tent usage mode and the standing usage mode, and other usage modes may be added according to the user usage requirement; meanwhile, the sensing unit is not limited to the first gravity sensor and the distance sensor, and other gravity sensors or distance sensors can be additionally arranged in practical application.

As shown in fig. 5, an information processing method may include:

s301, a processing unit in the electronic equipment acquires data acquired by a first gravity sensor and a distance sensor;

in this embodiment, the acquired data at least includes a first included angle between a sensitive axis of the first gravity sensor and the gravity direction, and an object approaching distance detected by the distance sensor. The distance sensor generally measures distance by using the principle of a flight time method so as to detect the approach distance of an object; the so-called "time-of-flight method" is a method of calculating the distance to an object by time intervals by emitting a particularly short light pulse and measuring the time from the emission of this light pulse to the reflection of this light pulse back by the object.

It can be understood that, as shown in table 1 or table 2, in the first included angle collected by the first gravity sensor, four usage modes correspond to three included angle ranges, that is, when the first gravity sensor is disposed on the first body, the notebook usage mode and the tent usage mode can be accurately distinguished, and the upright usage mode and the tablet computer usage mode cannot be distinguished. Therefore, in this embodiment, the first gravity sensor may be disposed on the first body, and the distance sensor may be disposed on the second body housing, so as to distinguish the tablet computer usage mode and the upright usage mode according to the distance between the first body and the distance acquired by the distance sensor.

For example, a first gravity sensor may be provided on the first body and a distance sensor may be provided on the second body housing. Wherein, the first body is a host end, and the second body is a display end; the direction of a sensitive shaft in the first gravity sensor is parallel to the thickness of the first body, and the positive direction is perpendicular to the use surface of the first body; the data collected by the distance sensor is the first body approach distance. The correspondence between the collected first included angle and the first body approach distance and the usage mode may be as shown in table 3.

Mode of use	First included angle (degree)	First body approach distance
			Notebook computer	0	Is not equal to 0
Tablet personal computer	180	0
			Tent type	0～90	Is not equal to 0
Vertical type	180	Is not equal to 0

TABLE 3

As can be seen from table 3, the combinations of the first included angle and the first body proximity distance corresponding to different usage modes are different, and therefore, after the first included angle and the first body proximity distance are determined, the usage mode corresponding to the current application scenario can be determined according to the preset corresponding relationship shown in table 3.

For another example: the first gravity sensor may be disposed on the first body, and the distance sensor may be disposed on the housing of the second body; wherein, the first body is a host end, and the second body is a display end; the direction of a sensitive shaft in the first gravity sensor is parallel to the first body and the thickness, and the positive direction is perpendicular to the use surface of the first body and faces outwards; the data collected by the distance sensor is the first body approach distance; the correspondence relationship between the collected combination of the first included angle and the first body approach distance and the usage mode may be as shown in table 4.

TABLE 4

S302, judging whether the electronic equipment is in a first use mode according to the acquired data collected by the first gravity sensor and the distance sensor;

wherein the first usage mode is one of the plurality of usage modes.

After a first included angle between a sensitive shaft in the first gravity sensor and the gravity direction and a first body approach distance collected by the distance sensor are obtained, a current corresponding use mode of the electronic equipment can be judged according to the first included angle and the first body approach distance.

As shown in table 3 or table 4, the combination of the first included angle and the first body approaching distance uniquely corresponds to one usage mode, and therefore, after the first included angle and the first body approaching distance are obtained, the current usage mode of the electronic device can be determined according to the combination of the first included angle and the first body approaching distance.

In this embodiment, an electronic device has four usage modes, and at least includes a processing unit, a first gravity sensor, and a distance sensor; in the operation process of the electronic equipment, the processing unit acquires data collected by the first gravity sensor and the distance sensor and judges whether the electronic equipment is in one of four use modes according to the collected data. Compared with the prior art, the electronic equipment in the scheme is provided with four use modes, and the use mode corresponding to the current application scene can be judged according to the data collected by the first gravity sensor and the distance sensor.

Furthermore, after the usage mode of the electronic device corresponding to the current application scenario is determined, the attribute of the application program may be adjusted according to the determined usage mode. Therefore, the embodiment of the invention also provides another information processing method.

It should be noted that, the electronic device to which the information processing method provided in this embodiment is applied has a first body, a second body and a rotating shaft connecting the first body and the second body, and the second body can rotate 360 degrees by the first body; the electronic device further comprises a processing unit, four use modes and a plurality of sensing units. As shown in fig. 2, the electronic device has four usage modes that may include: a laptop use mode, a tablet use mode, a tent use mode, and a stand-up use mode. Meanwhile, the plurality of sensing units includes at least a first gravity sensor and a second gravity sensor, or at least a first gravity sensor and a distance sensor.

It can be understood that the usage mode of the electronic device is not limited to the notebook usage mode, the tablet computer usage mode, the tent usage mode and the standing usage mode, and other usage modes may be added according to the user usage requirement; meanwhile, the sensing unit is not limited to the first gravity sensor and the second gravity sensor, or the first gravity sensor and the distance sensor, and in practical application, other sensors may be additionally arranged.

As shown in fig. 6, an information processing method may include:

s401, a processing unit in the electronic equipment acquires data acquired by a plurality of sensing units;

s402, the processing unit judges whether the electronic equipment is in a first use mode according to the acquired data collected by the plurality of sensing units, and if so, the processing unit executes the step S403; otherwise, not processing;

when the plurality of sensing units at least comprise a first gravity sensor and a second gravity sensor, the collected data at least comprise a first included angle between a sensitive shaft in the first gravity sensor and the gravity direction and a second included angle between the sensitive shaft in the second gravity sensor and the gravity direction. At this time, the manner of determining whether the electronic device is in the first usage mode according to the data collected by the plurality of sensing units is similar to that of steps S201 to S202, and is not described herein again.

When the plurality of sensing units at least comprise the first gravity sensor and the distance sensor, the acquired data at least comprise a first included angle between a sensitive axis in the first gravity sensor and the gravity direction and an object approaching distance detected by the distance sensor. At this time, the manner of determining whether the electronic device is in the first usage mode according to the data collected by the plurality of sensing units is similar to that of steps S301 to S302, and is not described herein again.

S403, the processing unit controls an application running in the electronic device so that the attribute of the application matches the first usage pattern.

The attributes of the application include a window size, an application text size, a display parameter or a display direction, and the like.

For example, when the first usage mode is a tent usage mode, the processing unit controls an application running in the electronic device, specifically:

the processing unit rotates the display direction of the application program to make the application program conform to the viewing habit of the user.

In this embodiment, the electronic device has four usage modes, and has a processing unit and a plurality of sensing units; after the processing unit judges the use mode corresponding to the current application scene according to the data collected by the sensing unit, the attribute of the current application program is adjusted to be matched with the determined use mode, so that the current application program conforms to the use habit of the user.

Furthermore, after the usage mode corresponding to the current application scene of the electronic device is determined, the working state of the corresponding peripheral unit can be adjusted according to the determined usage mode, so as to achieve the purpose of effectively utilizing the peripheral. Therefore, the embodiment of the invention also provides another information processing method.

It should be noted that, the electronic device to which the information processing method provided in this embodiment is applied has a first body, a second body and a rotating shaft connecting the first body and the second body, and the second body can rotate 360 degrees by the first body; the electronic device includes a processing unit, four usage modes, a plurality of sensing units, and a peripheral unit. As shown in fig. 2, the electronic device has four usage modes that may include: a laptop use mode, a tablet use mode, a tent use mode, and a stand-up use mode. Meanwhile, the plurality of sensing units includes at least a first gravity sensor and a second gravity sensor, or at least a first gravity sensor and a distance sensor. It can be understood that the electronic device entity corresponding to the peripheral unit may be a camera, a physical keyboard, and the like.

It can be understood that the usage mode of the electronic device is not limited to the notebook usage mode, the tablet computer usage mode, the tent usage mode and the standing usage mode, and other usage modes may be added according to the user usage requirement; meanwhile, the sensing unit is not limited to the first gravity sensor and the second gravity sensor, or the first gravity sensor and the distance sensor, and in practical application, other sensors may be additionally arranged.

As shown in fig. 7, an information processing method may include:

s501, a processing unit in the electronic equipment acquires data acquired by a plurality of sensing units;

s502, the processing unit judges whether the electronic equipment is in a first use mode according to the acquired data collected by the plurality of sensing units, and if so, the processing unit executes the step S503; otherwise, not processing;

when the plurality of sensing units at least comprise a first gravity sensor and a second gravity sensor, the collected data at least comprise a first included angle between a sensitive shaft in the first gravity sensor and the gravity direction and a second included angle between the sensitive shaft in the second gravity sensor and the gravity direction. At this time, the manner of determining whether the electronic device is in the first usage mode according to the data collected by the plurality of sensing units is similar to that of steps S201 to S202, and is not described herein again.

When the plurality of sensing units at least comprise the first gravity sensor and the distance sensor, the acquired data at least comprise a first included angle between a sensitive axis in the first gravity sensor and the gravity direction and an object approaching distance detected by the distance sensor. At this time, the manner of determining whether the electronic device is in the first usage mode according to the data collected by the plurality of sensing units is similar to that of steps S301 to S302, and is not described herein again.

S503, when the processing unit determines that the electronic device is in the first usage mode, the processing unit controls the working state of the peripheral unit to match the first usage mode.

Wherein the operating state comprises: an enable state, a disable state, a power save state, etc.

For example: when the use mode corresponding to the current application scene of the electronic equipment is judged to be the use mode of the tablet computer, the physical keyboard can be set to be in a use prohibition state so as to avoid the phenomenon of misoperation caused by contact with the fulcrum; when the use mode corresponding to the current application scene of the electronic equipment is judged to be the tent use mode, the camera can be set to be in a use prohibition state, and the touch application mode of the screen is started.

In this embodiment, the electronic device has four usage modes, and has a processing unit and a plurality of sensing units; after the processing unit judges the use mode corresponding to the current application scene according to the data collected by the sensing unit, the working state of the current peripheral unit is controlled to be matched with the determined use mode, and then the peripheral unit is effectively utilized.

Furthermore, after the electronic device is determined to be in the first usage mode, the operating system of the electronic device may be adjusted according to the first usage mode to better meet the requirements of the current application scenario.

It should be noted that, the electronic device to which the information processing method provided in this embodiment is applied has a first body, a second body and a rotating shaft connecting the first body and the second body, and the second body can rotate 360 degrees by the first body; the electronic device includes a processing unit, four usage modes, a plurality of sensing units, and a peripheral unit. As shown in fig. 2, the electronic device has four usage modes that may include: a laptop use mode, a tablet use mode, a tent use mode, and a stand-up use mode. Meanwhile, the plurality of sensing units includes at least a first gravity sensor and a second gravity sensor, or at least a first gravity sensor and a distance sensor.

It can be understood that the usage mode of the electronic device is not limited to the notebook usage mode, the tablet computer usage mode, the tent usage mode and the standing usage mode, and other usage modes may be added according to the user usage requirement; meanwhile, the sensing unit is not limited to the first gravity sensor and the second gravity sensor, or the first gravity sensor and the distance sensor, and in practical application, other sensors may be additionally arranged.

As shown in fig. 8, an information processing method may include:

s601, a processing unit in the electronic equipment acquires data acquired by a plurality of sensing units;

s602, the processing unit judges whether the electronic equipment is in a first use mode according to the acquired data collected by the plurality of sensing units, and if so, the processing unit executes the step S603; otherwise, not processing;

when the plurality of sensing units at least comprise a first gravity sensor and a second gravity sensor, the collected data at least comprise a first included angle between a sensitive shaft in the first gravity sensor and the gravity direction and a second included angle between the sensitive shaft in the second gravity sensor and the gravity direction. At this time, the manner of determining whether the electronic device is in the first usage mode according to the data collected by the plurality of sensing units is similar to that of steps S201 to S202, and is not described herein again.

When the plurality of sensing units at least comprise the first gravity sensor and the distance sensor, the acquired data at least comprise a first included angle between a sensitive axis in the first gravity sensor and the gravity direction and an object approaching distance detected by the distance sensor. At this time, the manner of determining whether the electronic device is in the first usage mode according to the data collected by the plurality of sensing units is similar to that of steps S301 to S302, and is not described herein again.

S603, when the electronic equipment is determined to be in the first use mode, the processing unit controls an operating system in the electronic equipment so that the operating system is matched with the first use mode.

It should be noted that, when the first usage mode is a tablet computer usage mode, since the tablet computer usage mode has a touch application requirement, an intelligent operating system is generally required, and the step of controlling the operating system in the electronic device by the processing unit may specifically be:

the processing unit switches the current running operating system in the electronic equipment into an android operating system.

When the first usage mode is a notebook usage mode, the windows system may meet a usage requirement of a user, and at this time, the processing unit controls an operating system in the electronic device, which may specifically be:

and the processing unit switches the current operating system in the electronic equipment into a windows system.

In this embodiment, the electronic device has four usage modes, and has a processing unit and a plurality of sensing units; after the processing unit judges the corresponding use mode in the current application scene according to the data collected by the sensing unit, the current operating system is adjusted to be the operating system corresponding to the determined use mode so as to better accord with the current application scene.

Correspondingly, the embodiment of the invention also provides electronic equipment, which is provided with a first body, a second body and a rotating shaft for connecting the first body and the second body; the second body can rotate 360 degrees relative to the first body through the rotating shaft;

the electronic device has multiple usage modes, as shown in fig. 9, the electronic device further includes a processor 110, at least two gravity sensors, the at least two gravity sensors include a first gravity sensor 120 disposed on the first body and a second gravity sensor 130 disposed on the second body;

the first gravity sensor 120 is configured to acquire a first included angle between a sensitive axis in the first gravity sensor 120 and a gravity direction when the second body rotates relative to the first body;

the second gravity sensor 130 is used for acquiring a second included angle between a sensitive axis in the second gravity sensor 130 and the gravity direction when the second body rotates relative to the first body;

the processor 130 is configured to determine whether the electronic device is in a first usage mode according to the obtained first included angle and the obtained second included angle; wherein the first usage mode is one of a plurality of usage modes.

It should be noted that the electronic device may be a notebook, a mobile phone, or the like, and the multiple usage modes may include: a notebook use mode, a tablet use mode, a tent use mode, and a standing use mode, but is not limited to these four use modes.

By utilizing the electronic equipment provided by the embodiment of the invention, the purposes of integrating multiple use modes into one electronic equipment and effectively judging the use mode corresponding to the current application scene are achieved.

Correspondingly, the embodiment of the invention also provides electronic equipment, which is provided with a first body, a second body and a rotating shaft for connecting the first body and the second body; the second body can rotate 360 degrees relative to the first body through the rotating shaft;

the electronic device has a plurality of usage modes, as shown in fig. 10, the electronic device at least comprises a processor 210, at least one first gravity sensor 220 arranged at a first body, and at least one distance sensor 230 arranged at a second body;

the first gravity sensor 220 is used for acquiring a first included angle between a sensitive axis in the first gravity sensor 220 and the gravity direction when the second body rotates relative to the first body;

the distance sensor 230 is used for collecting the object close distance when the second body rotates relative to the first body;

the processor is used for judging whether the electronic equipment is in a first use mode according to the acquired first included angle and the object approaching distance; wherein the first usage mode is one of a plurality of usage modes.

It should be noted that the electronic device may be a notebook, a mobile phone, or the like, and the multiple usage modes may include: a notebook use mode, a tablet use mode, a tent use mode, and a standing use mode, but is not limited to these four use modes.

By utilizing the electronic equipment provided by the embodiment of the invention, the purposes of integrating multiple use modes into one electronic equipment and effectively judging the use mode corresponding to the current application scene are achieved.

Furthermore, on the basis of the two electronic devices provided by the embodiment of the invention, in order to ensure the wide viewing angle performance of the electronic device and further meet the requirement of watching by multiple people, the electronic device can adopt a 13.3-inch IPS capacitive touch screen; in order to effectively reduce the thickness of the machine body, a power interface on the side surface of the machine body can be square; in order to realize multi-touch for meeting special applications (such as piano), the electronic equipment can adopt a ten-touch capacitive screen touch technology; due to the relation of touch characteristics, the electronic equipment can be pre-installed with a Windows 8 operating system (Beta); for portability, when the electronic equipment is a notebook, the electronic equipment can be set to be a 16.9 mm ultrathin body, and 1.47 kilograms; in order to quickly return to the main interface of the electronic equipment when a program is run in the use process of the tablet computer, a 'Win' key can be arranged on a screen shaft of the electronic equipment so as to quickly switch to the main interface.

Meanwhile, the electronic equipment can support 2-second quick awakening through the bottom layer acceleration technology of EE2.0, so that a user can easily carry the electronic equipment, use the electronic equipment when the electronic equipment is started and use the electronic equipment, and move and interconnect the electronic equipment at any time; in the aspect of hardware configuration, a brand new third generation Corei7 processor of an Intel Ivy Bridge platform can be carried, and 8GB RAM and 256GB SSD storage capacity are configured, so that the entertainment and office performance is higher than that of an ARM architecture product; in the aspect of interfaces, the electronic equipment can be provided with a USB2.0 interface and a USB3.0 interface, the HDMI high-definition interface is selected to complete the task of audio and video output, and then a multifunctional card reader and a headset jack which are necessary for the electronic equipment are arranged.

The embodiment of the invention also provides an information processing method, which is used for determining the included angle between the first body and the horizontal plane and/or the included angle between the second body and the horizontal plane in the electronic equipment and further utilizing the determined included angle to perform specific processing.

It should be noted that, the information processing method provided by the embodiment of the present invention is applicable to an electronic device, where the electronic device at least has a processing unit, a first body, a second body, and a connecting member for connecting the first body and the second body; also, the electronic device further includes a plurality of sensing units.

As shown in fig. 11, an information processing method may include:

s701, a processing unit of the electronic equipment acquires data collected by a plurality of sensing units;

in the operation process of the electronic equipment, a plurality of sensing units arranged in the electronic equipment acquire corresponding data about the electronic equipment in real time, and a processing unit in the electronic equipment acquires the data acquired by the plurality of sensing units in real time and performs subsequent processing according to the acquired data.

It can be understood that, because the included angle between the first body and the horizontal plane and/or the included angle between the second body and the horizontal plane needs to be determined subsequently, in practical application, a gravity sensor is usually adopted as a sensing unit, and the included angle between the current body and the positive horizontal direction is determined according to the collected sensitive axis and the gravity direction. Of course, the sensing unit is not limited to a gravity sensor, and other sensors capable of determining the information of the included angle may be used.

S702, the processing unit judges the included angle between the first body and the horizontal plane and/or the included angle between the second body and the horizontal plane according to the acquired data collected by the plurality of sensing units.

After the processing unit acquires the data acquired by the plurality of sensing units, the processing unit judges the included angle between the first body and the horizontal plane and/or the included angle between the second body and the horizontal plane in the current application scene according to the acquired data acquired by the sensing units.

When the included angle between the body and the horizontal plane is determined, the positive direction corresponding to the horizontal direction needs to be determined in advance to determine a uniform included angle determination standard.

In this embodiment, a plurality of sensing units are preset in the electronic device, and in the operation process of the electronic device, the processing unit acquires data collected by the sensing units in real time, and determines an included angle between the first body and the horizontal plane and/or an included angle between the second body and the horizontal plane according to the collected data, so that specific processing can be performed by using the determined included angle.

The above information processing method provided by the present invention is described below with reference to a specific embodiment.

It should be noted that the information processing method provided by this embodiment is applicable to an electronic device, which at least has a processing unit, a first body, a second body, and a connecting member for connecting the first body and the second body; also, the electronic device further includes a first gravity sensor and a second gravity sensor. Wherein the first gravity sensor may be disposed on the first body, and the second gravity sensor may be disposed on the second body. It is understood by those skilled in the art that the positions where the first gravity sensor and the second gravity sensor are disposed are not limited to the positions described in the present embodiment; meanwhile, the plurality of sensing units are not limited to the first gravity sensor and the second gravity sensor, and in practical application, other gravity sensors can be additionally arranged on the first body and/or the second body.

As shown in fig. 12, an information processing method may include:

s801, acquiring data acquired by a first gravity sensor and a second gravity sensor by a processing unit of the electronic equipment;

in this embodiment, the collected data at least includes a first included angle between a sensitive axis of the first gravity sensor and the gravity direction and a second included angle between the sensitive axis of the second gravity sensor and the gravity direction.

It will be appreciated that the included angles collected will be different for different directions of arrangement of the axes of sensitivity. For example: the direction of the sensitive axis of the first gravity sensor can be parallel to the thickness of the first body and the positive direction is vertical to the use surface of the first body; or the direction of the sensitive axis of the first gravity sensor can be a direction parallel to the thickness of the first body and a positive direction perpendicular to the use surface of the first body; the first included angles corresponding to the arrangement directions of the two sensitive shafts are different.

S802, the processing unit judges the included angle between the first body and the horizontal plane and/or the included angle between the second body and the horizontal plane according to the acquired data collected by the first gravity sensor and the second gravity sensor.

After a first included angle between the sensitive shaft in the first gravity sensor and the gravity direction and a second included angle between the sensitive shaft in the second gravity sensor and the gravity direction are obtained, an included angle between the first body and the horizontal plane and/or an included angle between the second body and the horizontal plane can be judged according to the first included angle and the second included angle.

When the included angle between the body and the horizontal plane is determined, the positive direction corresponding to the horizontal direction needs to be determined in advance to determine a uniform included angle determination standard.

In this embodiment, the first gravity sensor is disposed on the first body, the second gravity sensor is disposed on the second body, and in the operation process of the electronic device, the processing unit acquires data collected by the first gravity sensor and the second gravity sensor in real time, and determines an included angle between the first body and the horizontal plane and/or an included angle between the second body and the horizontal plane according to the collected data, so as to perform specific processing by using the determined included angle.

The embodiment of the invention also provides an information processing method, so that the current application program conforms to the watching habit of a user under the condition that the electronic equipment has multiple modes.

It should be noted that the electronic device to which the information processing method provided by the embodiment of the present invention is applied at least has a processing unit; also, the electronic device has a plurality of usage modes.

As shown in fig. 13, an information processing method may include:

s901, the processing unit of the electronic device determines whether the electronic device is in a first usage mode, and if so, executes step S902; otherwise, not processing;

wherein, the first usage mode is one of a plurality of usage modes. In the first usage mode, the application program of the electronic device corresponds to a specific attribute. For example: the electronic device has the above four usage modes: the electronic device comprises a notebook use mode, a tablet computer use mode, a tent use mode and a standing use mode, wherein the tent use mode is that the screen direction is rotated relative to other use modes, so that after the electronic device is determined to be in the tent use mode, the attribute of the current application program needs to be adjusted to meet the watching habit of a user.

The method for determining whether the electronic device is in the first usage mode may be: the electronic device is at least provided with a first gravity sensor and a second gravity sensor, and whether the electronic device is in a first use mode is determined according to a first included angle between a sensing axis in the first gravity sensor and the gravity direction and a second included angle between the sensing axis in the second gravity sensor and the gravity direction, which are collected, wherein the specific manner can be seen in steps S201 to S202. Alternatively, the manner of determining whether the electronic device is in the first usage mode may be: at least a first gravity sensor and a distance sensor are arranged in the electronic device, and whether the electronic device is in the first use mode is determined according to a first included angle between a sensitive axis in the first gravity sensor and a gravity direction and an object approaching distance detected by the distance sensor, which can be seen in steps S301 to S302.

It can be understood by those skilled in the art that the manner of determining whether the electronic device is in the first usage mode is not limited to the manner described in this embodiment, and other manners may also be adopted in practical applications, which is not limited herein.

S902, controlling an application running in the electronic device so that an attribute of the application matches the first usage mode.

The attributes of the application include a window size, an application text size, a display parameter or a display direction, and the like.

After determining that the electronic device is in the first usage mode, in order to meet the viewing habit of the user, the currently running application program needs to be controlled so that the attribute of the application program matches with the first usage mode. For example: when the first usage mode is a tent usage mode, the processing unit controls an application program running in the electronic device, and specifically may be:

the processing unit rotates the display direction of the application program so as to enable the display direction to be in line with the watching habit of a user.

In this embodiment, the electronic device is provided with a plurality of usage modes. After the use mode required by the electronic equipment in the current application scene is judged to be the first use mode, the currently running application program is adjusted, so that the attribute of the application program is matched with the first use mode, and the purpose of conforming to the watching habit of a user is achieved.

The embodiment of the invention also provides an information processing method, so that the working state of the peripheral unit is matched with the use mode corresponding to the current scene under the condition that the electronic equipment has multiple use modes.

It should be noted that the electronic device to which the information processing method provided by the embodiment of the present invention is applied at least has a processing unit; the electronic device has a plurality of usage modes and a peripheral unit.

As shown in fig. 14, an information processing method may include:

s1001, the processing unit of the electronic equipment judges whether the electronic equipment is in a first use mode, if so, the step S1002 is executed; otherwise, not processing;

wherein, the first usage mode is one of a plurality of usage modes. In the first usage mode, the peripheral unit of the electronic device corresponds to a specific operating state. For example: the electronic device has the above four usage modes: the electronic equipment comprises a notebook computer use mode, a tablet computer use mode, a tent use mode and a standing use mode, wherein in the tablet computer use mode, a physical keyboard area is in contact with a fulcrum, so that misoperation is easy to occur, and therefore after the electronic equipment is determined to be in the tablet computer use mode, the physical keyboard needs to be set to be in a forbidden state, so that misoperation is avoided.

The manner of determining whether the electronic device is in the first usage mode is similar to step S901 of the above embodiment, and is not repeated here.

S1002, controlling the working state of the peripheral unit to be matched with the first use mode.

Wherein the operating state may include: an enable state, a disable state, a power save state, etc.

For example: when the use mode corresponding to the current application scene of the electronic equipment is judged to be the use mode of the tablet personal computer, the keyboard can be set to be in a use prohibition state so as to avoid misoperation caused by contact with the fulcrum; when the usage mode required by the current application scene of the electronic equipment is judged to be the tent usage mode, the camera can be set to the use prohibition state.

In this embodiment, the electronic device has multiple usage modes, and after the processing unit determines the usage mode corresponding to the current application scenario, the processing unit controls the working state of the current peripheral unit to match the determined usage mode, so that the peripheral unit is effectively utilized.

The embodiment of the invention also provides an information processing method, so that the operating system is matched with the use mode corresponding to the current application scene under the condition that the electronic equipment has multiple use modes.

It should be noted that the electronic device to which the information processing method provided by the embodiment of the present invention is applied at least has a processing unit; also, the electronic device has a plurality of usage modes.

As shown in fig. 15, an information processing method may include:

s1101, judging whether the electronic equipment is in a first use mode or not by a processing unit of the electronic equipment, and if so, executing a step S1102; otherwise, not processing;

wherein the first usage mode is one of the plurality of usage modes.

The manner of determining whether the electronic device is in the first usage mode is similar to step S901 of the above embodiment, and is not repeated here.

S1102, controlling an operating system in the electronic equipment to enable the operating system to be matched with the first use mode.

Because the operating system requirements are different in different usage modes, after the first usage mode of the electronic device is determined, the operating system can be switched to the operating system matched with the current usage mode.

For example, when the first usage mode is a tablet computer usage mode, since the tablet computer usage mode generally requires an intelligent operating system, the processing unit controls the operating system in the electronic device, specifically:

the processing unit switches the current running operating system in the electronic equipment into an android operating system.

When the first usage mode is a notebook usage mode, the windows system may meet a usage requirement of a user, and at this time, the processing unit controls an operating system in the electronic device, specifically:

and the processing unit switches the current operating system in the electronic equipment into a windows system.

In this embodiment, the electronic device has four usage modes, and has a processing unit and a plurality of sensing units; after the processing unit judges the corresponding use mode in the current application scene according to the data collected by the sensing unit, the current operating system is adjusted to be the operating system corresponding to the determined use mode so as to better meet the requirements of the current application scene.

The foregoing is directed to embodiments of the present invention, and it is understood that various modifications and improvements can be made by those skilled in the art without departing from the spirit of the invention.

Claims (16)

1. An information processing method is applied to an electronic device, and the electronic device is at least provided with a processing unit; wherein the electronic device has a plurality of usage modes, the plurality of usage modes at least comprising: a notebook use mode, a tablet computer use mode, a tent use mode, and a standing use mode;

the electronic equipment is provided with a first body, a second body and a rotating shaft for connecting the first body and the second body, and the second body can rotate 360 degrees relative to the first body through the rotating shaft;

and the electronic device further comprises a plurality of sensing units;

the method comprises the following steps:

the processing unit acquires data acquired by the plurality of sensing units;

judging whether the electronic equipment is in a first use mode or not according to the acquired data collected by the plurality of sensing units;

wherein the first usage mode is one of the plurality of usage modes;

when the processing unit determines that the electronic device is in a first use mode, the processing unit switches a currently running operating system in the electronic device to an operating system matched with the first use mode, wherein different use modes correspond to different operating systems.

2. The method according to claim 1, wherein when the first usage mode is a tablet usage mode, the processing unit switches a currently running operating system in the electronic device to an operating system matching the first usage mode, specifically:

and the processing unit switches the current operating system in the electronic equipment into an android operating system.

3. The method according to claim 1, wherein when the first usage mode is a notebook usage mode, the processing unit switches a currently running operating system in the electronic device to an operating system matching the first usage mode, specifically:

and the processing unit switches the current operating system in the electronic equipment into a windows system.

4. The method according to claim 1, wherein the plurality of sensing units comprises at least a first gravity sensor and a second gravity sensor, and the collected data comprises at least a first angle between a sensitive axis of the first gravity sensor and a gravity direction and a second angle between a sensitive axis of the second gravity sensor and the gravity direction.

5. The method of claim 4, wherein the plurality of sensing units comprises at least a first gravity sensor and a second gravity sensor, the first gravity sensor being disposed on a first body and the second gravity sensor being disposed on a second body.

6. The method according to claim 1, wherein the plurality of sensing units comprises at least a first gravity sensor and a distance sensor, and the collected data comprises at least a first angle between a sensitive axis of the first gravity sensor and a gravity direction and an object approaching distance detected by the distance sensor.

7. The method of claim 6, wherein the plurality of sensing units comprises at least a first gravity sensor disposed on a first body and a distance sensor disposed on a second body.

8. The method according to claim 1, wherein when the processing unit determines that the electronic device is in a first usage mode, the processing unit controls an application running in the electronic device such that an attribute of the application matches the first usage mode.

9. The method of claim 8, wherein the property of the application comprises a window size, an application text size, a display parameter, or a display orientation.

10. The method according to claim 8, wherein when the first usage mode is a tent usage mode, the processing unit controls an application running in the electronic device, specifically:

the processing unit rotates the display direction of the application program so as to enable the display direction to be in line with the watching habit of a user.

11. The method of claim 1, wherein the electronic device further comprises: and the processing unit controls the working state of the peripheral unit to be matched with the first use mode when the processing unit determines that the electronic equipment is in the first use mode.

12. The method of claim 11, wherein the operating state comprises: enable state, disable state, power save state.

13. An information processing method is applied to an electronic device, and the electronic device at least comprises a processing unit; the electronic device is provided with a first body, a second body and a connecting part for connecting the first body and the second body; the electronic device has a plurality of usage modes, the plurality of usage modes including at least: a notebook use mode, a tablet computer use mode, a tent use mode, and a standing use mode; characterized in that the electronic device further comprises a plurality of sensing units; the method comprises the following steps:

the processing unit acquires data acquired by the plurality of sensing units;

judging the included angle between the first body and the horizontal plane and/or the included angle between the second body and the horizontal plane according to the acquired data acquired by the plurality of sensing units;

the plurality of sensing units comprise at least a first gravity sensor and a second gravity sensor; the acquired data at least comprises a first included angle between a sensitive shaft in the first gravity sensor and the gravity direction and a second included angle between the sensitive shaft in the second gravity sensor and the gravity direction;

the processing unit judges whether the electronic equipment is in a first use mode according to the acquired first included angle and the acquired second included angle;

wherein the first usage mode is one of the plurality of usage modes;

when the electronic equipment is determined to be in a first use mode, the processing unit switches a currently running operating system in the electronic equipment to an operating system matched with the first use mode, wherein different use modes correspond to different operating systems.

14. The method of claim 13, wherein the plurality of sensors comprises at least a first gravity sensor disposed on a first body and a second gravity sensor disposed on a second body.

15. An electronic device, characterized in that the electronic device has a first body, a second body and a rotating shaft connecting the first body and the second body; the second body can rotate 360 degrees relative to the first body through the rotating shaft;

the electronic device has multiple use modes and comprises a processor and at least two gravity sensors, wherein the at least two gravity sensors comprise a first gravity sensor arranged on a first body and a second gravity sensor arranged on a second body; the plurality of usage modes includes at least: a notebook use mode, a tablet computer use mode, a tent use mode, and a standing use mode;

the first gravity sensor is used for acquiring a first included angle between a sensitive shaft in the first gravity sensor and the gravity direction when the second body rotates relative to the first body;

the second gravity sensor is used for collecting a second included angle between a sensitive shaft in the second gravity sensor and the gravity direction when the second body rotates relative to the first body;

the processor is used for judging whether the electronic equipment is in a first use mode according to the acquired first included angle and the acquired second included angle; wherein the first usage mode is one of a plurality of usage modes;

when the electronic equipment is determined to be in the first use mode, the processor is further configured to switch a currently running operating system in the electronic equipment to an operating system matched with the first use mode, where different use modes correspond to different operating systems.

16. An electronic device, characterized in that the electronic device has a first body, a second body and a rotating shaft connecting the first body and the second body; the second body can rotate 360 degrees relative to the first body through the rotating shaft;

the electronic equipment has a plurality of using modes and at least comprises a processor, at least one first gravity sensor arranged on a first body and at least one distance sensor arranged on a second body; the plurality of usage modes includes at least: a notebook use mode, a tablet computer use mode, a tent use mode, and a standing use mode;

the first gravity sensor is used for acquiring a first included angle between a sensitive shaft in the first gravity sensor and the gravity direction when the second body rotates relative to the first body;

the distance sensor is used for collecting the object close distance when the second body rotates relative to the first body;

the processor is used for judging whether the electronic equipment is in a first use mode or not according to the acquired first included angle and the object approaching distance; wherein the first usage mode is one of a plurality of usage modes;

when the electronic equipment is determined to be in the first use mode, the processor is further configured to switch a currently running operating system in the electronic equipment to an operating system matched with the first use mode, where different use modes correspond to different operating systems.

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