CN111596566A - Electronic equipment real-time sharing method and system - Google Patents

Abstract

A real-time sharing method and a real-time sharing system for electronic equipment are disclosed, wherein the method comprises the following steps: acquiring a first coordinate of the active electronic equipment relative to a space origin; the active electronic device activates the passive electronic device; acquiring a second coordinate of the passive electronic equipment relative to the space origin; calculating a mathematical relationship of the second coordinate to the first coordinate; taking the active electronic equipment as an origin, and calculating a third coordinate of the passive electronic equipment relative to the origin according to the mathematical relationship; and displaying the third coordinate on the active electronic equipment. According to the electronic equipment real-time sharing method and system, the coordinate relation between the active electronic equipment and the passive electronic equipment is obtained by determining the coordinate of the active electronic equipment and determining the coordinate of the passive electronic equipment, so that a user can find the passive electronic equipment easily when knowing the position of the active electronic equipment, and the intelligence of home equipment is improved.

Description

Electronic equipment real-time sharing method and system

Technical Field

The invention belongs to the technical field of intelligent equipment data sharing, and particularly relates to a real-time sharing method and system for electronic equipment.

Background

The smart home is the research subject of the existing intense heat, has various actual products and has a very wide market.

In a household, generally, each electronic device is independent from another, which may bring functional independence, but sometimes may not be convenient for a user to find a desired electronic device, for example, when the user is not well accustomed to placing articles, the user often forgets the position of the desired electronic device.

Disclosure of Invention

In order to solve the above problems, the present invention provides a real-time sharing method for electronic devices, the method comprising the steps of:

acquiring a first coordinate of the active electronic equipment relative to a space origin;

the active electronic device activates the passive electronic device;

acquiring a second coordinate of the passive electronic equipment relative to the space origin;

calculating a mathematical relationship of the second coordinate to the first coordinate;

taking the active electronic equipment as an origin, and calculating a third coordinate of the passive electronic equipment relative to the origin according to the mathematical relationship;

and displaying the third coordinate on the active electronic equipment.

Preferably, before the acquiring the first coordinate of the active electronic device relative to the origin of the space, the method further comprises the steps of:

acquiring three-dimensional information of a first space where the active electronic equipment is located;

acquiring three-dimensional information of a second space where the passive electronic equipment is located;

constructing a third space according to the three-dimensional information of the first space and the second space; wherein the third space is a minimum space including the first space and the second space;

determining a point in the third space as the origin of the space.

Preferably, the acquiring three-dimensional information of the first space where the active electronic device is located includes:

the active electronic device transmits a signal towards the first spatial boundary;

and the active electronic equipment receives the reflected signals of the first space boundary and acquires the three-dimensional information of the first space according to all the reflected signals and the transmitted signals.

Preferably, the acquiring the three-dimensional information of the second space where the passive electronic device is located includes:

the active electronic device controls the passive electronic device to emit signals towards the second space boundary;

and the passive electronic equipment receives the reflected signals of the second space boundary and acquires the three-dimensional information of the second space according to all the reflected signals and the transmitted signals.

Preferably, before the acquiring the three-dimensional information of the first space where the active electronic device is located, the method further includes the steps of:

finding out central points of the active electronic equipment and the passive electronic equipment;

paired and adjacent signal transmitters and signal receivers are provided directly in front of, directly behind, directly above, directly below, directly left of, and directly right of respective center points on the surfaces of the active type electronic device and the passive type electronic device, respectively.

Preferably, before the acquiring the first coordinate of the active electronic device relative to the origin of the space, the method further comprises the steps of:

regarding both the active electronic device and the passive electronic device as point objects;

acquiring two-dimensional information of a first plane where the active electronic equipment is located;

acquiring two-dimensional information of a second plane where the passive electronic equipment is located; wherein the first plane is parallel to the second plane;

constructing a third plane according to the two-dimensional information of the first plane and the second plane; wherein the third plane is parallel to the first plane and the second plane, respectively, and comprises projections of the first plane and the second plane on themselves;

determining a point in the third plane as the origin of space.

Preferably, the acquiring the two-dimensional information of the first plane where the active electronic device is located includes:

the active electronic device transmits a signal towards the first planar boundary;

and the active electronic equipment receives the reflected signals of the first plane boundary and acquires the two-dimensional information of the first plane according to all the reflected signals and the transmitted signals.

Preferably, the acquiring the two-dimensional information of the second plane where the passive electronic device is located includes:

the active electronic device controls the passive electronic device to emit signals towards the second plane boundary;

and the passive electronic equipment receives the reflected signal of the second plane boundary and acquires the two-dimensional information of the second plane according to all the reflected signals and the transmitted signals.

Preferably, before said treating both said active type electronic device and said passive type electronic device as point objects, further comprising the steps of:

finding out central points of the active electronic equipment and the passive electronic equipment;

pairs of adjacent signal transmitters and signal receivers are provided right in front of, right behind, right to the left, and right of respective center points on the surfaces of the active type electronic device and the passive type electronic device, respectively.

The invention also provides a real-time sharing system of the electronic equipment, which comprises:

the active electronic equipment is used for acquiring a first coordinate of the active electronic equipment relative to the space origin and controlling the passive electronic equipment;

the passive electronic equipment is activated by the active electronic equipment and acquires a second coordinate of the passive electronic equipment relative to the space origin;

the server is used for calculating the mathematical relation between the second coordinate and the first coordinate, taking the active electronic equipment as an origin, calculating a third coordinate of the passive electronic equipment relative to the origin according to the mathematical relation, and displaying the third coordinate on the active electronic equipment;

the active electronic device and the passive electronic device are provided with paired and adjacent signal transmitters and signal receivers at preset positions on the surfaces, and the active electronic device and the passive electronic device are in communication connection.

According to the electronic equipment real-time sharing method and system, the coordinate relation between the active electronic equipment and the passive electronic equipment is obtained by determining the coordinate of the active electronic equipment and determining the coordinate of the passive electronic equipment, so that a user can find the passive electronic equipment easily when knowing the position of the active electronic equipment, and the intelligence of home equipment is improved.

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 schematic flowchart of an embodiment 1 of a real-time sharing method for electronic devices according to the present invention;

fig. 2 is a schematic flowchart of an embodiment 2 of a real-time sharing method for electronic devices according to the present invention;

fig. 3 is a schematic flowchart of an embodiment 6 of a real-time sharing method for electronic devices according to the present invention;

fig. 4 is a schematic structural diagram of a real-time sharing system of electronic devices according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Example 1

As shown in fig. 1, in an embodiment of the present application, the present application provides a real-time sharing method for electronic devices, where the method includes:

s101: acquiring a first coordinate of the active electronic equipment relative to a space origin;

s102: the active electronic device activates the passive electronic device;

s103: acquiring a second coordinate of the passive electronic equipment relative to the space origin;

s104: calculating a mathematical relationship of the second coordinate to the first coordinate;

s105: taking the active electronic equipment as an origin, and calculating a third coordinate of the passive electronic equipment relative to the origin according to the mathematical relationship;

s106: and displaying the third coordinate on the active electronic equipment.

This is further illustrated by example 1.

In the embodiment of the application, the active electronic device is a mobile phone, the passive electronic device is a television, the mobile phone can control the television, the mobile phone and the television are placed in a room, the origin of space is a room corner point, a first coordinate of the mobile phone relative to the room corner point is firstly obtained, then the mobile phone controls the television to obtain a second coordinate of the mobile phone relative to the room corner point, then a mathematical relationship between the first coordinate and the second coordinate is calculated, at the moment, the mobile phone is taken as the origin, a third coordinate of the television relative to the mobile phone is calculated according to the mathematical relationship, and the third coordinate is displayed on the mobile phone.

Example 2

As shown in fig. 2, in the embodiment of the present application, before the obtaining the first coordinate of the active electronic device relative to the origin of the space in step S101, the method further includes the steps of:

s201: acquiring three-dimensional information of a first space where the active electronic equipment is located;

s202: acquiring three-dimensional information of a second space where the passive electronic equipment is located;

s203: constructing a third space according to the three-dimensional information of the first space and the second space; wherein the third space is a minimum space including the first space and the second space;

s204: determining a point in the third space as the origin of the space.

In the embodiment of the present application, the three-dimensional information needs to include multiple aspects according to specific forms of the first space and the second space, for example, when the first space and the second space are cuboids, the three-dimensional information includes lengths, widths, and heights of the first space and the second space; when the first space and the second space are spheres, the three-dimensional information comprises the radius of the first space and the radius of the second space; when the first space and the second space are irregular polyhedrons, the three-dimensional information includes included angles and lengths of the components of the first space and the second space. In summary, the three-dimensional information needs to be able to represent the first space and the second space mathematically and uniquely, i.e. based on the three-dimensional information, the first space and the second space can be modeled on a computer.

Further, in the embodiment of the present application, for convenience of calculation, the first space and the second space are cubes, and the third space is a smallest cube capable of completely surrounding the first space and the second space, where the origin of the space is a point where one corner of the smallest surrounding cube is located.

Example 3

In this embodiment of the application, the acquiring, in step S201, the three-dimensional information of the first space where the active electronic device is located includes:

the active electronic device transmits a signal towards the first spatial boundary;

and the active electronic equipment receives the reflected signals of the first space boundary and acquires the three-dimensional information of the first space according to all the reflected signals and the transmitted signals.

In the embodiment of the application, the active electronic device transmits a signal towards the cube where the active electronic device is located and receives a reflected signal, and the first space boundary can be well determined through a plurality of signal feedback information and time differences, so that the first space is determined and modeled on a computer together with the active electronic device.

Example 4

In this embodiment of the application, the acquiring of the three-dimensional information of the second space where the passive electronic device is located in step S202 includes:

the active electronic device controls the passive electronic device to emit signals towards the second space boundary;

and the passive electronic equipment receives the reflected signals of the second space boundary and acquires the three-dimensional information of the second space according to all the reflected signals and the transmitted signals.

In the embodiment of the application, the active electronic device controls the passive electronic device to transmit and receive signals towards the cube where the passive electronic device is located, and the second space boundary can be well determined through a plurality of signal feedback information and time differences, so that the second space is determined and is modeled on a computer together with the passive electronic device.

Furthermore, the active electronic device and the passive electronic device can be provided with signal transmitting and receiving devices, so that information collection of the space where the active electronic device and the passive electronic device are located is realized. Of course, it is also possible to provide corresponding signal transmitting and receiving means on the active type electronic device and the passive type electronic device.

Example 5

In this embodiment of the present application, before the step S201 of obtaining the three-dimensional information of the first space where the active electronic device is located, the method further includes the steps of:

finding out central points of the active electronic equipment and the passive electronic equipment;

paired and adjacent signal transmitters and signal receivers are provided directly in front of, directly behind, directly above, directly below, directly left of, and directly right of respective center points on the surfaces of the active type electronic device and the passive type electronic device, respectively.

In the embodiment of the present application, the signal transmitter and the signal receiver are provided at predetermined positions on the surfaces of the active type electronic device and the passive type electronic device, so that the above-described signal transmitting and receiving operations can be performed. Through signal transmission and reception, three-dimensional information of a space where the three-dimensional information is located can be well collected, and modeling operation on a computer is assisted. The signal transmitter and the signal receiver may be an infrared transmitter and an infrared receiver, and the installation positions thereof may be increased as appropriate to improve the modeling accuracy.

Example 6

As shown in fig. 3, in the embodiment of the present application, before the obtaining the first coordinate of the active electronic device relative to the origin of the space in step S101, the method further includes the steps of:

s301: regarding both the active electronic device and the passive electronic device as point objects;

s302: acquiring two-dimensional information of a first plane where the active electronic equipment is located;

s303: acquiring two-dimensional information of a second plane where the passive electronic equipment is located; wherein the first plane is parallel to the second plane;

s304: constructing a third plane according to the two-dimensional information of the first plane and the second plane; wherein the third plane is parallel to the first plane and the second plane, respectively, and comprises projections of the first plane and the second plane on themselves;

s305: determining a point in the third plane as the origin of space.

In the embodiment of the present application, according to the size of the active electronic device and the passive electronic device, both the active electronic device and the passive electronic device may be regarded as point objects, for example, when the volume ratio of the active electronic device and the passive electronic device is smaller than the spatial ratio of the active electronic device and the passive electronic device, the calculation difficulty may be reduced by regarding the active electronic device and the passive electronic device as point objects.

In the embodiment of the present application, when both the active electronic device and the passive electronic device are regarded as point objects, in order to facilitate calculation, the space where the active electronic device and the passive electronic device are located may be reduced to a two-dimensional study object for processing, that is, two-dimensional information of a first plane where the active electronic device is located and a second plane where the passive electronic device is located is obtained, coordinate information of the first plane and the second plane on a third plane is obtained, a relative position between the two can be obtained, and then a point is determined on the third plane as the origin of the space.

Further, for convenience of calculation, the first plane, the second plane and the third plane are all square.

Example 7

In this embodiment of the application, the obtaining the two-dimensional information of the first plane where the active electronic device is located in step S302 includes:

the active electronic device transmits a signal towards the first planar boundary;

and the active electronic equipment receives the reflected signals of the first plane boundary and acquires the two-dimensional information of the first plane according to all the reflected signals and the transmitted signals.

In the embodiment of the application, the active electronic device transmits signals towards the square where the active electronic device is located and receives the reflected signals, and the first plane boundary can be well determined through a plurality of signal feedback information and time differences, so that the first plane is determined and modeled on a computer together with the active electronic device.

Example 8

In this embodiment of the application, the acquiring, in step S303, the two-dimensional information of the second plane where the passive electronic device is located includes:

the active electronic device controls the passive electronic device to emit signals towards the second plane boundary;

and the passive electronic equipment receives the reflected signal of the second plane boundary and acquires the two-dimensional information of the second plane according to all the reflected signals and the transmitted signals.

In the embodiment of the application, the active electronic device controls the passive electronic device to transmit signals towards the square where the passive electronic device is located and receive reflected signals, and through a plurality of signal feedback information and time differences, the boundary of the second plane can be well determined, so that the second plane is determined and modeled on a computer together with the passive electronic device.

Example 9

In the embodiment of the present application, before considering both the active electronic device and the passive electronic device as point objects in step S301, the method further includes:

finding out central points of the active electronic equipment and the passive electronic equipment;

pairs of adjacent signal transmitters and signal receivers are provided right in front of, right behind, right to the left, and right of respective center points on the surfaces of the active type electronic device and the passive type electronic device, respectively.

In the embodiment of the present application, the signal transmitter and the signal receiver are provided at predetermined positions on the surfaces of the active type electronic device and the passive type electronic device, so that the above-described signal transmitting and receiving operations can be performed. Through signal transmission and reception, two-dimensional information of the plane where the signal is located can be well collected, and modeling operation on a computer is assisted. The signal transmitter and the signal receiver may be an infrared transmitter and an infrared receiver, and the installation positions thereof may be increased as appropriate to improve the modeling accuracy.

As shown in fig. 4, in the embodiment of the present application, the present invention further provides a real-time sharing system for electronic devices, where the system includes:

the active electronic device 401 is configured to obtain a first coordinate of the active electronic device with respect to a spatial origin, and control the passive electronic device 402;

a passive electronic device 402, configured to be activated by the active electronic device 401 and obtain a second coordinate of the passive electronic device with respect to the spatial origin;

a server 403, configured to calculate a mathematical relationship between the second coordinate and the first coordinate, use the active electronic device 401 as an origin, calculate a third coordinate of the passive electronic device 402 relative to the origin according to the mathematical relationship, and display the third coordinate on the active electronic device 401;

the active electronic device 401 and the passive electronic device 402 are provided with paired and adjacent signal transmitters and signal receivers at preset positions on the surfaces thereof, and the active electronic device 401 and the passive electronic device 402 are in communication connection.

In the embodiment of the present application, the active electronic device 401 is provided with an active signal transmitter 4011 and an active signal receiver 4012, and the passive electronic device 402 is provided with a passive signal transmitter 4021 and a passive signal receiver 4022. The active signal transmitter 4011 may transmit a signal toward a first space or a first plane where the active electronic device 401 is located, and the active signal receiver 4012 may receive a reflected signal reflected by a boundary of the first space or a boundary of the first plane, so that a first coordinate of the active electronic device 401 in the first space or the first plane may be determined; likewise, a second coordinate of the passive electronic device 402 in a second space or a second plane may also be determined; the server 403 may calculate a mathematical relationship between the first coordinate and the second coordinate, and determine a third coordinate of the passive electronic device 402 with respect to the active electronic device 401 (origin) based on the mathematical relationship with the active electronic device 401 as the origin, so as to conveniently know where the passive electronic device 402 is.

The following examples are further illustrative.

When the user is in room a, with a cell phone around him, he needs to find the charger but does not know the specific location of the charger (assuming the charger is in room B). The user can control the mobile phone to transmit and receive signals in the room A, and the mobile phone can determine a first coordinate in the room C (the minimum space including the room A and the room B, in this example, the whole room) according to the signals transmitted by the mobile phone; then the user controls the mobile phone to enable the charger to transmit and receive signals (the mobile phone and the charger can be preset with corresponding control relations), and at the moment, the charger can determine a second coordinate of the charger in the room C; the computer obtains the first coordinate and the second coordinate, calculates the mathematical relationship between the first coordinate and the second coordinate, simultaneously regards the mobile phone as an origin, calculates a third coordinate of the charger relative to the mobile phone according to the mathematical relationship, and displays the third coordinate on the mobile phone, at the moment, a user can conveniently know the position of the charger relative to the mobile phone, for example, at the position of 2m in front of the left of the mobile phone, and can conveniently find the charger.

According to the electronic equipment real-time sharing method and system, the coordinate relation between the active electronic equipment and the passive electronic equipment is obtained by determining the coordinate of the active electronic equipment and determining the coordinate of the passive electronic equipment, so that a user can find the passive electronic equipment easily when knowing the position of the active electronic equipment, and the intelligence of home equipment is improved.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. A real-time sharing method for electronic equipment is characterized by comprising the following steps:

acquiring a first coordinate of the active electronic equipment relative to a space origin;

the active electronic device activates the passive electronic device;

acquiring a second coordinate of the passive electronic equipment relative to the space origin;

calculating a mathematical relationship of the second coordinate to the first coordinate;

taking the active electronic equipment as an origin, and calculating a third coordinate of the passive electronic equipment relative to the origin according to the mathematical relationship;

and displaying the third coordinate on the active electronic equipment.

2. The real-time sharing method for electronic devices according to claim 1, further comprising, before said obtaining the first coordinates of the active electronic device with respect to the origin of space, the steps of:

acquiring three-dimensional information of a first space where the active electronic equipment is located;

acquiring three-dimensional information of a second space where the passive electronic equipment is located;

constructing a third space according to the three-dimensional information of the first space and the second space; wherein the third space is a minimum space including the first space and the second space;

determining a point in the third space as the origin of the space.

3. The real-time sharing method for electronic devices of claim 2, wherein the obtaining the three-dimensional information of the first space where the active electronic device is located comprises:

the active electronic device transmits a signal towards the first spatial boundary;

and the active electronic equipment receives the reflected signals of the first space boundary and acquires the three-dimensional information of the first space according to all the reflected signals and the transmitted signals.

4. The real-time sharing method for electronic devices according to claim 2, wherein the acquiring three-dimensional information of the second space where the passive electronic device is located includes:

the active electronic device controls the passive electronic device to emit signals towards the second space boundary;

and the passive electronic equipment receives the reflected signals of the second space boundary and acquires the three-dimensional information of the second space according to all the reflected signals and the transmitted signals.

5. The real-time sharing method for electronic devices of claim 2, further comprising, before the obtaining the three-dimensional information of the first space in which the active electronic device is located:

finding out central points of the active electronic equipment and the passive electronic equipment;

paired and adjacent signal transmitters and signal receivers are provided directly in front of, directly behind, directly above, directly below, directly left of, and directly right of respective center points on the surfaces of the active type electronic device and the passive type electronic device, respectively.

6. The real-time sharing method for electronic devices according to claim 1, further comprising, before said obtaining the first coordinates of the active electronic device with respect to the origin of space, the steps of:

regarding both the active electronic device and the passive electronic device as point objects;

acquiring two-dimensional information of a first plane where the active electronic equipment is located;

acquiring two-dimensional information of a second plane where the passive electronic equipment is located; wherein the first plane is parallel to the second plane;

constructing a third plane according to the two-dimensional information of the first plane and the second plane; wherein the third plane is parallel to the first plane and the second plane, respectively, and comprises projections of the first plane and the second plane on themselves;

determining a point in the third plane as the origin of space.

7. The method according to claim 6, wherein the obtaining the two-dimensional information of the first plane where the active electronic device is located includes:

the active electronic device transmits a signal towards the first planar boundary;

and the active electronic equipment receives the reflected signals of the first plane boundary and acquires the two-dimensional information of the first plane according to all the reflected signals and the transmitted signals.

8. The real-time sharing method for electronic devices according to claim 6, wherein the acquiring the two-dimensional information of the second plane where the passive electronic device is located includes:

the active electronic device controls the passive electronic device to emit signals towards the second plane boundary;

and the passive electronic equipment receives the reflected signal of the second plane boundary and acquires the two-dimensional information of the second plane according to all the reflected signals and the transmitted signals.

9. The electronic device real-time sharing method according to claim 6, further comprising, before said treating both said active type electronic device and said passive type electronic device as point objects, the steps of:

finding out central points of the active electronic equipment and the passive electronic equipment;

pairs of adjacent signal transmitters and signal receivers are provided right in front of, right behind, right to the left, and right of respective center points on the surfaces of the active type electronic device and the passive type electronic device, respectively.

10. An electronic device real-time sharing system, the system comprising:

the active electronic equipment is used for acquiring a first coordinate of the active electronic equipment relative to the space origin and controlling the passive electronic equipment;

the passive electronic equipment is activated by the active electronic equipment and acquires a second coordinate of the passive electronic equipment relative to the space origin;

the server is used for calculating the mathematical relation between the second coordinate and the first coordinate, taking the active electronic equipment as an origin, calculating a third coordinate of the passive electronic equipment relative to the origin according to the mathematical relation, and displaying the third coordinate on the active electronic equipment;

the active electronic device and the passive electronic device are provided with paired and adjacent signal transmitters and signal receivers at preset positions on the surfaces, and the active electronic device and the passive electronic device are in communication connection.

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