CN105467863A

CN105467863A - Control method and electronic device

Info

Publication number: CN105467863A
Application number: CN201410466302.8A
Authority: CN
Inventors: 杨碧波; 李洪伟; 黄绍华
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-09-12
Filing date: 2014-09-12
Publication date: 2016-04-06

Abstract

The present invention discloses a control method and an electronic device. The electronic device can control the ith target device corresponding to an ith application through the ith application of N first applications. The first position parameters of the N target devices corresponding to the N first applications are stored in the electronic device, and N is larger than or equal to 2. The control method comprises a step of using a positioning unit to detect the second position parameter of the electronic device, a step of using a sensing unit to detect the attitude parameter of the electronic device, wherein the attitude parameter represents the direction of the electronic device relative to the target device, a step of determining the target device to be controlled which satisfies a first predetermined condition from the N target devices based on the second position parameter and the attitude parameter of the electronic device and the first position parameters of the N target devices, and a step of generating the control signal of the target device to be controlled so as to control the target device to be controlled when the first operation is obtained.

Description

A kind of control method and electronic equipment

Technical field

The present invention relates to control technology, particularly relate to a kind of control method and electronic equipment.

Background technology

Along with the appearance of Smart Home, people can pass through mobile device, such as, application-specific on intelligent remote controller operates Smart Home, such as, switch, color adjustment, the brightness regulation of color light-emitting diode (LED, LightEmittingDiode) bulb is controlled by intelligent remote controller; Again such as, the switch, temperature and humidity regulation etc. of air-conditioning is controlled by intelligent remote controller.Because manufacturer is different, each Smart Home all needs a special application to control it, user needs the switching carrying out " exit and apply-search application-startup application " between the multiple application on intelligent remote controller, loaded down with trivial details manual switchover processing ease causes maloperation, and experience is not good.

Summary of the invention

For solving the problems of the technologies described above, embodiments provide a kind of control method and electronic equipment.

The control method that the embodiment of the present invention provides is applied in electronic equipment, and described electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described electronic equipment has sensing unit, positioning unit; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described control method comprises:

Described positioning unit is utilized to detect the second place parameter of described electronic equipment;

Utilize described sensing unit to detect the attitude parameter of described electronic equipment, described attitude parameter characterizes the direction of described electronic equipment relative to described target device;

Based on second place parameter and the attitude parameter of described electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

When acquisition first operates, generate the control signal of described target device to be controlled, to control described target device to be controlled.

The control method that another embodiment of the present invention provides is applied in the first electronic equipment, and described first electronic equipment can carry out data interaction with the second electronic equipment; Described second electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described second electronic equipment has sensing unit, positioning unit, utilize described positioning unit can detect the second place parameter of described second electronic equipment, utilize described sensing unit can detect the attitude parameter of described second electronic equipment, described attitude parameter characterizes the direction of described second electronic equipment relative to described target device; Described first electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described control method comprises:

When receiving the trigger pip that described second electronic equipment sends, obtain second place parameter and the attitude parameter of described second electronic equipment;

Based on second place parameter and the attitude parameter of described second electric/electronic apparatus, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

Generate the control signal of described target device to be controlled, to control described target device to be controlled.

The electronic equipment that the embodiment of the present invention provides can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

Positioning unit, for detecting the second place parameter of described electronic equipment;

Sensing unit, for detecting the attitude parameter of described electronic equipment, described attitude parameter characterizes the direction of described electronic equipment relative to described target device;

Determining unit, for based on the second place parameter of described electronic equipment and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

Control module, for when acquisition first operates, generates the control signal of described target device to be controlled, to control described target device to be controlled.

The electronic equipment that another embodiment of the present invention provides can carry out data interaction with the second electronic equipment; Described second electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described second electronic equipment has sensing unit, positioning unit, utilize described positioning unit can detect the second place parameter of described second electronic equipment, utilize described sensing unit can detect the attitude parameter of described second electronic equipment, described attitude parameter characterizes the direction of described second electronic equipment relative to described target device; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

Acquiring unit, for when receiving the trigger pip that described second electronic equipment sends, obtains second place parameter and the attitude parameter of described second electronic equipment;

Determining unit, for based on the second place parameter of described second electric/electronic apparatus and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

Control module, for generating the control signal of described target device to be controlled, to control described target device to be controlled.

In the technical scheme of the embodiment of the present invention, the position of electronic equipment is determined by the locating device of electronic equipment, the direction of electronic equipment relative to target device is determined by the sensing unit of electronic equipment, and then according to the position of each target device, determine target device to be controlled; So, directly the application in electronic equipment can be switched to the application corresponding to target device to be controlled, without the need to carrying out " exit and apply-search application-startup application " a series of blocked operation, avoid loaded down with trivial details manual switchover operation, locator meams for target device is more accurate, improves the experience of user.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of the control method of the embodiment of the present invention one;

Fig. 2 is the schematic flow sheet of the control method of the embodiment of the present invention two;

Fig. 3 is the schematic flow sheet of the control method of the embodiment of the present invention three;

Fig. 4 is the schematic flow sheet of the control method of the embodiment of the present invention four;

Fig. 5 is the schematic flow sheet of the control method of the embodiment of the present invention five;

Fig. 6 is the schematic flow sheet of the control method of the embodiment of the present invention six;

Fig. 7 is the schematic flow sheet of the control method of the embodiment of the present invention seven;

Fig. 8 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention one;

Fig. 9 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention two;

Figure 10 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention three;

Figure 11 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention four;

Figure 12 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention five;

Figure 13 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention six;

Figure 14 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention seven;

Figure 15 is the position view of the target device in the embodiment of the present invention.

Embodiment

In order to feature and the technology contents of the embodiment of the present invention more at large can be understood, be described in detail below in conjunction with the realization of accompanying drawing to the embodiment of the present invention, the use of appended accompanying drawing explanation only for reference, be not used for limiting the embodiment of the present invention.

Fig. 1 is the schematic flow sheet of the control method of the embodiment of the present invention one, control method in this example is applied in electronic equipment, described electronic equipment can run N number of first application, by i-th application in N number of first application, i-th target device that described i-th application is corresponding can be controlled; Described electronic equipment has sensing unit, positioning unit; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; As shown in Figure 1, described control method comprises the following steps:

Step 101: utilize described positioning unit to detect the second place parameter of described electronic equipment.

In the embodiment of the present invention, described electronic equipment can be the mobile electronic equipment such as intelligent remote controller or the smart mobile phone with distant control function.This class of electronic devices can run N number of first application, here, first be applied as can the application of control objectives equipment, described target device can be household appliances target device, such as, by switch, color adjustment, the brightness regulation of the first application controls color LED bulb of electronic equipment, now the first application refers to that color LED bulb is applied; Again such as, controlled switch, the temperature and humidity regulation of air-conditioning by intelligent remote controller, now the first application refers to air conditioning applications.

In the embodiment of the present invention, electronic equipment has positioning unit, utilize this positioning unit can the second place parameter of detected electrons equipment, here, the position of electronic equipment described in second place parameter characterization, during specific implementation, can by the second place parameter of GPS (GPS, GlobalPositioningSystem) detected electrons equipment.

Step 102: utilize described sensing unit to detect the attitude parameter of described electronic equipment, described attitude parameter characterizes the direction of described electronic equipment relative to described target device.

In the embodiment of the present invention, electronic equipment also has sensing unit, utilize this sensing unit can the attitude parameter of detected electrons equipment, here, attitude parameter characterizes the direction of described electronic equipment relative to target device, during specific implementation, the attitude parameter of linear acceleration transducer, angular-rate sensor or magnetic field sensor detected electrons equipment can be passed through.

With reference to Figure 15, in certain region, total N=5 target device, is respectively lamp, air-conditioning, TV, refrigerator, fan.Electronic equipment is positioned at first position, the location parameter that this position is corresponding, is called that second place parameter can be determined by positioning unit; 5 target devices lay respectively at the second place, the 3rd position, the 4th position, the 5th position, the 6th position, generally, location parameter corresponding to target device, be called that primary importance parameter immobilizes, therefore, detect primary importance parameter by target device locating device separately and its primary importance parameter is stored in electronic equipment, after also each target device being positioned by third party's locating device, primary importance parameter being stored in electronic equipment.When electronic equipment is positioned at first position, when the attitude of electronic equipment turns to different directions, the target device controlled is different, based on this, need utilize the direction of sensing unit detected electrons equipment, as shown in figure 15, the attitude parameter of electronic equipment shows the direction of described electronic equipment towards air-conditioning.

Step 103: based on second place parameter and the attitude parameter of described electronic equipment, and the primary importance parameter of described N number of target device, determine the target device to be controlled of first predetermined condition from described N number of target device.

In the embodiment of the present invention, first, based on the second place parameter of described electronic equipment and the primary importance parameter of described N number of target device, the rectilinear direction at described electronic equipment and each target device place is determined; Then, described rectilinear direction is determined the target device nearest apart from described electronic equipment, and as meeting the first predetermined subconditional target device.

Particularly, suppose that the second place parameter of described electronic equipment is expressed as (x0, y0 by three dimensional space coordinate, z0), in 5 target devices, the primary importance parameter of i-th target device is expressed as (xi, yi by three dimensional space coordinate, zi), 1≤i≤5; Then based on the second place parameter of described electronic equipment and the primary importance parameter of described N number of target device, the rectilinear direction at the described electronic equipment determined and each target device place represents by (x0-xi, y0-yi, z0-zi).See Figure 15, electronic equipment and this 5 rectilinear directions that target device is determined have 4 directions, wherein, have on a direction and have two different target devices of distance, be respectively lamp and air-conditioning, and the target device nearest apart from electronic equipment is air-conditioning.Based on this, the target device that distance electronic equipment is nearest in 4 rectilinear directions is respectively: air-conditioning, TV, refrigerator, fan.

In the embodiment of the present invention, after determining the target device that in each rectilinear direction, distance electronic equipment is nearest, then according to the attitude parameter of electronic equipment, determine the first direction corresponding with described attitude parameter; Determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled.

Particularly, the attitude parameter of electronic equipment characterizes electronic equipment towards air-conditioning direction, therefore, can determine that the target device that band controls is air-conditioning from 4 target devices determined.

Step 104: when acquisition first operates, generate the control signal of described target device to be controlled, to control described target device to be controlled.

In the embodiment of the present invention, the first operation can be by the operation of user's trigger electronics, such as button operation, touch control operation, acoustic control operation etc.When electronic equipment obtains the first operation, then generate control signal, and this control signal is sent to target device to be controlled it is controlled.Such as, the switch, temperature and humidity regulation etc. of air-conditioning is controlled.The technical scheme of the embodiment of the present invention is more accurate for the locator meams of target device, improves the experience of user.

Fig. 2 is the schematic flow sheet of the control method of the embodiment of the present invention two, control method in this example is applied in electronic equipment, described electronic equipment can run N number of first application, by i-th application in N number of first application, i-th target device that described i-th application is corresponding can be controlled; Described electronic equipment has sensing unit, positioning unit; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; As shown in Figure 2, described control method comprises the following steps:

Step 201: utilize described positioning unit to detect the second place parameter of described electronic equipment.

In the embodiment of the present invention, electronic equipment has positioning unit, utilizes this positioning unit can the second place parameter of detected electrons equipment, here, the position of electronic equipment described in second place parameter characterization, during specific implementation, can by the second place parameter of GPS detected electrons equipment.

Step 202: utilize described sensing unit to detect the attitude parameter of described electronic equipment, described attitude parameter characterizes the direction of described electronic equipment relative to described target device.

Step 203: based on the second place parameter of described electronic equipment, and the primary importance parameter of described N number of target device, determine a satisfied first predetermined subconditional M target device from described N number of target device.

Wherein, M≤N.

Step 204: based on described attitude parameter, determines the satisfied second predetermined subconditional target device to be controlled from a described M target device.

Step 205: when acquisition first operates, generate the control signal of described target device to be controlled, to control described target device to be controlled.

Fig. 3 is the schematic flow sheet of the control method of the embodiment of the present invention three, control method in this example is applied in electronic equipment, described electronic equipment can run N number of first application, by i-th application in N number of first application, i-th target device that described i-th application is corresponding can be controlled; Described electronic equipment has sensing unit, positioning unit; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; As shown in Figure 3, described control method comprises the following steps:

Step 301: utilize described positioning unit to detect the second place parameter of described electronic equipment.

Step 302: utilize described sensing unit to detect the attitude parameter of described electronic equipment, described attitude parameter characterizes the direction of described electronic equipment relative to described target device.

Step 303: based on the second place parameter of described electronic equipment, and the primary importance parameter of described N number of target device, determine the rectilinear direction at described electronic equipment and each target device place.

In the embodiment of the present invention, first, based on the second place parameter of described electronic equipment and the primary importance parameter of described N number of target device, the rectilinear direction at described electronic equipment and each target device place is determined; Then, described rectilinear direction is determined the target device nearest apart from described electronic equipment, and as meeting the first predetermined subconditional target device, see following steps 304.

Particularly, suppose that the second place parameter of described electronic equipment is expressed as (x0, y0 by three dimensional space coordinate, z0), in 5 target devices, the primary importance parameter of i-th target device is expressed as (xi, yi by three dimensional space coordinate, zi), 1≤i≤5; Then based on the second place parameter of described electronic equipment and the primary importance parameter of described N number of target device, the rectilinear direction at the described electronic equipment determined and each target device place represents by (x0-xi, y0-yi, z0-zi).

Step 304: determine the target device nearest apart from described electronic equipment in described rectilinear direction, and as meeting the first predetermined subconditional target device.

See Figure 15, electronic equipment and this 5 rectilinear directions that target device is determined have 4 directions, wherein, have on a direction and have two different target devices of distance, be respectively lamp and air-conditioning, and the target device nearest apart from electronic equipment is air-conditioning.Based on this, the target device that distance electronic equipment is nearest in 4 rectilinear directions is respectively: air-conditioning, TV, refrigerator, fan.

Step 305: based on described attitude parameter, determines the first direction corresponding with described attitude parameter.

In the embodiment of the present invention, after determining the target device that in each rectilinear direction, distance electronic equipment is nearest, then according to the attitude parameter of electronic equipment, determine the first direction corresponding with described attitude parameter; Determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled, see following steps 306.

Step 306: determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled.

Step 307: when acquisition first operates, generate the control signal of described target device to be controlled, to control described target device to be controlled.

Fig. 4 is the schematic flow sheet of the control method of the embodiment of the present invention four, control method in this example is applied in electronic equipment, described electronic equipment can run N number of first application, by i-th application in N number of first application, i-th target device that described i-th application is corresponding can be controlled; Described electronic equipment has sensing unit, positioning unit; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; As shown in Figure 4, described control method comprises the following steps:

Step 401: utilize described positioning unit to detect the second place parameter of described electronic equipment.

Step 402: utilize described sensing unit to detect the attitude parameter of described electronic equipment, described attitude parameter characterizes the direction of described electronic equipment relative to described target device.

Step 403: based on second place parameter and the attitude parameter of described electronic equipment, and the primary importance parameter of described N number of target device, determine the target device to be controlled of first predetermined condition from described N number of target device.

Step 404: the operation interface display interface of described display unit being switched to the first application corresponding to described target device to be controlled.

In the embodiment of the present invention, described electronic equipment also comprises display unit, and described display unit can show the operation interface of the first application correspondence.

In the embodiment of the present invention, the display interface of described display unit is switched to the operation interface of the first application corresponding to described target device to be controlled, to be controlled accordingly described target device to be controlled by this first operation interface applied.

Step 405: when acquisition first operates, generate the control signal of described target device to be controlled, to control described target device to be controlled.

In the embodiment of the present invention, the first operation can be by the operation of user's trigger electronics, such as button operation, touch control operation, acoustic control operation etc.When electronic equipment obtains the first operation, then generate control signal, and this control signal is sent to target device to be controlled it is controlled.Such as, the switch, temperature and humidity regulation etc. of air-conditioning is controlled.Application in electronic equipment directly can be switched to the application corresponding to target device to be controlled by the technical scheme of the embodiment of the present invention, without the need to carrying out " exit and apply-search application-startup application " a series of blocked operation, avoid loaded down with trivial details manual switchover operation, locator meams for target device is more accurate, improves the experience of user.

Fig. 5 is the schematic flow sheet of the control method of the embodiment of the present invention five, and the control method in this example is applied in the first electronic equipment, it is characterized in that, described first electronic equipment can carry out data interaction with the second electronic equipment; Described second electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described second electronic equipment has sensing unit, positioning unit, utilize described positioning unit can detect the second place parameter of described second electronic equipment, utilize described sensing unit can detect the attitude parameter of described second electronic equipment, described attitude parameter characterizes the direction of described second electronic equipment relative to described target device; Described first electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; As shown in Figure 5, described control method comprises the following steps:

Step 501: when receiving the trigger pip that described second electronic equipment sends, obtain second place parameter and the attitude parameter of described second electronic equipment.

In the embodiment of the present invention, described first electronic equipment can be trunking, and this trunking can receive the data message of the second electronic equipment.Described second electronic equipment can be mobile class second electronic equipment such as intelligent remote controller or the smart mobile phone with distant control function.This kind of second electronic equipment can run N number of first application, here, first be applied as can the application of control objectives equipment, described target device can be household appliances target device, such as, by switch, color adjustment, the brightness regulation of the first application controls color LED bulb of the second electronic equipment, now the first application refers to that color LED bulb is applied; Again such as, controlled switch, the temperature and humidity regulation of air-conditioning by intelligent remote controller, now the first application refers to air conditioning applications.

In the embodiment of the present invention, second electronic equipment has positioning unit, utilize this positioning unit can detect the second place parameter of the second electronic equipment, here, the position of the second electronic equipment described in second place parameter characterization, during specific implementation, the second place parameter of the second electronic equipment can be detected by GPS.In the embodiment of the present invention, second electronic equipment also has sensing unit, utilize this sensing unit can detect the attitude parameter of the second electronic equipment, here, attitude parameter characterizes the direction of described second electronic equipment relative to target device, during specific implementation, the attitude parameter of the second electronic equipment can be detected by linear acceleration transducer, angular-rate sensor or magnetic field sensor.

With reference to Figure 15, in certain region, total N=5 target device, is respectively lamp, air-conditioning, TV, refrigerator, fan.Second electronic equipment is positioned at first position, the location parameter that this position is corresponding, is called that second place parameter can be determined by positioning unit; 5 target devices lay respectively at the second place, the 3rd position, the 4th position, the 5th position, the 6th position, generally, location parameter corresponding to target device, be called that primary importance parameter immobilizes, therefore, detect primary importance parameter by target device locating device separately and its primary importance parameter is stored in the first electronic equipment, also, after each target device being positioned by third party's locating device, primary importance parameter is stored in the first electronic equipment.When the second electronic equipment is positioned at first position, when the attitude of the second electronic equipment turns to different directions, the target device controlled is different, based on this, sensing unit need be utilized to detect the direction of the second electronic equipment, as shown in figure 15, the attitude parameter of the second electronic equipment shows the direction of described second electronic equipment towards air-conditioning.

When the second electronic equipment controls a certain target device, can generate a trigger pip, and this trigger pip is sent to the first electronic equipment, now, the first electronic equipment obtains second place parameter and the attitude parameter of the second electronic equipment.Or, when the second electronic equipment controls a certain target device, initiatively second place parameter and attitude parameter are sent to the first electronic equipment.

Step 502: based on second place parameter and the attitude parameter of described second electric second electronic equipment, and the primary importance parameter of described N number of target device, determine the target device to be controlled of first predetermined condition from described N number of target device.

In the embodiment of the present invention, determine target device to be controlled by the first electronic equipment.

Particularly, first, based on the second place parameter of described second electronic equipment and the primary importance parameter of described N number of target device, the rectilinear direction at described second electronic equipment and each target device place is determined; Then, described rectilinear direction is determined the target device nearest apart from described second electronic equipment, and as meeting the first predetermined subconditional target device.

Particularly, suppose that the second place parameter of described second electronic equipment is expressed as (x0, y0 by three dimensional space coordinate, z0), in 5 target devices, the primary importance parameter of i-th target device is expressed as (xi, yi by three dimensional space coordinate, zi), 1≤i≤5; Then based on the second place parameter of described second electronic equipment and the primary importance parameter of described N number of target device, described second electronic equipment determined and the rectilinear direction at each target device place are by (x0-xi, y0-yi, z0-zi) represent.See Figure 15, second electronic equipment and this 5 rectilinear directions that target device is determined have 4 directions, wherein, have on a direction and have two different target devices of distance, be respectively lamp and air-conditioning, the target device nearest apart from the second electronic equipment is air-conditioning.Based on this, the target device that distance second electronic equipment is nearest in 4 rectilinear directions is respectively: air-conditioning, TV, refrigerator, fan.

In the embodiment of the present invention, after determining the target device that in each rectilinear direction, distance second electronic equipment is nearest, then according to the attitude parameter of the second electronic equipment, determine the first direction corresponding with described attitude parameter; Determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled.

Particularly, the attitude parameter of the second electronic equipment characterizes the second electronic equipment towards air-conditioning direction, therefore, can determine that the target device that band controls is air-conditioning from 4 target devices determined.

Step 503: the control signal generating described target device to be controlled, to control described target device to be controlled.

In the embodiment of the present invention, by the first electronic equipment according to the location parameter of the second electronic equipment and attitude parameter, and the location parameter of target device, determine target device to be controlled; Then generate control signal, this control signal is sent to target device to be controlled it is controlled.Such as, the switch, temperature and humidity regulation etc. of air-conditioning is controlled.The technical scheme of the embodiment of the present invention is more accurate for the locator meams of target device, improves the experience of user.

Fig. 6 is the schematic flow sheet of the control method of the embodiment of the present invention six, and the control method in this example is applied in the first electronic equipment, it is characterized in that, described first electronic equipment can carry out data interaction with the second electronic equipment; Described second electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described second electronic equipment has sensing unit, positioning unit, utilize described positioning unit can detect the second place parameter of described second electronic equipment, utilize described sensing unit can detect the attitude parameter of described second electronic equipment, described attitude parameter characterizes the direction of described second electronic equipment relative to described target device; Described first electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; As shown in Figure 6, described control method comprises the following steps:

Step 601: when receiving the trigger pip that described second electronic equipment sends, obtain second place parameter and the attitude parameter of described second electronic equipment.

Step 602: based on the second place parameter of described second electronic equipment, and the primary importance parameter of described N number of target device, determine a satisfied first predetermined subconditional M target device from described N number of target device.

Wherein, M≤N.

Step 603: based on described attitude parameter, determines the satisfied second predetermined subconditional target device to be controlled from a described M target device.

Step 604: the control signal generating described target device to be controlled, to control described target device to be controlled.

Fig. 7 is the schematic flow sheet of the control method of the embodiment of the present invention seven, and the control method in this example is applied in the first electronic equipment, it is characterized in that, described first electronic equipment can carry out data interaction with the second electronic equipment; Described second electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described second electronic equipment has sensing unit, positioning unit, utilize described positioning unit can detect the second place parameter of described second electronic equipment, utilize described sensing unit can detect the attitude parameter of described second electronic equipment, described attitude parameter characterizes the direction of described second electronic equipment relative to described target device; Described first electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; As shown in Figure 7, described control method comprises the following steps:

Step 701: when receiving the trigger pip that described second electronic equipment sends, obtain second place parameter and the attitude parameter of described second electronic equipment.

Step 702: based on the second place parameter of described second electronic equipment, and the primary importance parameter of described N number of target device, determine the rectilinear direction at described second electronic equipment and each target device place.

Particularly, first, based on the second place parameter of described second electronic equipment and the primary importance parameter of described N number of target device, the rectilinear direction at described second electronic equipment and each target device place is determined; Then, described rectilinear direction is determined the target device nearest apart from described second electronic equipment, and as meeting the first predetermined subconditional target device, see following steps 703.

Particularly, suppose that the second place parameter of described second electronic equipment is expressed as (x0, y0 by three dimensional space coordinate, z0), in 5 target devices, the primary importance parameter of i-th target device is expressed as (xi, yi by three dimensional space coordinate, zi), 1≤i≤5; Then based on the second place parameter of described second electronic equipment and the primary importance parameter of described N number of target device, described second electronic equipment determined and the rectilinear direction at each target device place are by (x0-xi, y0-yi, z0-zi) represent.

Step 703: determine the target device nearest apart from described second electronic equipment in described rectilinear direction, and as meeting the first predetermined subconditional target device.

See Figure 15, second electronic equipment and this 5 rectilinear directions that target device is determined have 4 directions, wherein, have on a direction and have two different target devices of distance, be respectively lamp and air-conditioning, the target device nearest apart from the second electronic equipment is air-conditioning.Based on this, the target device that distance second electronic equipment is nearest in 4 rectilinear directions is respectively: air-conditioning, TV, refrigerator, fan.

Step 704: based on described attitude parameter, determines the first direction corresponding with described attitude parameter.

In the embodiment of the present invention, after determining the target device that in each rectilinear direction, distance second electronic equipment is nearest, then according to the attitude parameter of the second electronic equipment, determine the first direction corresponding with described attitude parameter; Determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled, see following steps 705.

Step 705: determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled.

Step 706: the control signal generating described target device to be controlled, to control described target device to be controlled.

Fig. 8 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention one, and the electronic equipment in this example can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

Positioning unit 81, for detecting the second place parameter of described electronic equipment;

Sensing unit 82, for detecting the attitude parameter of described electronic equipment, described attitude parameter characterizes the direction of described electronic equipment relative to described target device;

Determining unit 83, for based on the second place parameter of described electronic equipment and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

Control module 84, for when acquisition first operates, generates the control signal of described target device to be controlled, to control described target device to be controlled.

Those skilled in the art are to be understood that, the function that each unit in the electronic equipment of the embodiment of the present invention realizes, can refer to the associated description of aforesaid control method and understand, each unit in the electronic equipment of the embodiment of the present invention, realizing by realizing the mimic channel of the function described in the embodiment of the present invention, also can be realized by the operation of the software of the function of execution described in the embodiment of the present invention on intelligent terminal.

Fig. 9 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention two, and the electronic equipment in this example can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

Positioning unit 91, for detecting the second place parameter of described electronic equipment;

Sensing unit 92, for detecting the attitude parameter of described electronic equipment, described attitude parameter characterizes the direction of described electronic equipment relative to described target device;

Determining unit 93, for based on the second place parameter of described electronic equipment and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

Control module 94, for when acquisition first operates, generates the control signal of described target device to be controlled, to control described target device to be controlled.

Preferably, described determining unit 93 comprises:

First determines subelement 931, for the second place parameter based on described electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine a satisfied first predetermined subconditional M target device, M≤N;

Second determines subelement 932, for based on described attitude parameter, determines the satisfied second predetermined subconditional target device to be controlled from a described M target device.

Figure 10 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention three, and the electronic equipment in this example can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

Positioning unit 11, for detecting the second place parameter of described electronic equipment;

Sensing unit 12, for detecting the attitude parameter of described electronic equipment, described attitude parameter characterizes the direction of described electronic equipment relative to described target device;

Determining unit 13, for based on the second place parameter of described electronic equipment and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

Control module 14, for when acquisition first operates, generates the control signal of described target device to be controlled, to control described target device to be controlled.

Preferably, described determining unit 13 comprises:

First determines subelement 131, for the second place parameter based on described electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine a satisfied first predetermined subconditional M target device, M≤N;

Second determines subelement 132, for based on described attitude parameter, determines the satisfied second predetermined subconditional target device to be controlled from a described M target device.

Preferably, described first determines subelement 131, also for the second place parameter based on described electronic equipment, and the primary importance parameter of described N number of target device, determine the rectilinear direction at described electronic equipment and each target device place; Described rectilinear direction is determined the target device nearest apart from described electronic equipment, and as meeting the first predetermined subconditional target device.

Described second determines subelement 132, also for based on described attitude parameter, determines the first direction corresponding with described attitude parameter; Determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled.

Figure 11 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention four, and the electronic equipment in this example can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

Positioning unit 21, for detecting the second place parameter of described electronic equipment;

Sensing unit 22, for detecting the attitude parameter of described electronic equipment, described attitude parameter characterizes the direction of described electronic equipment relative to described target device;

Determining unit 23, for based on the second place parameter of described electronic equipment and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

Control module 24, for when acquisition first operates, generates the control signal of described target device to be controlled, to control described target device to be controlled.

Preferably, described electronic equipment also comprises display unit 25, and described display unit 25 can show the operation interface of the first application correspondence; Correspondingly,

Described display unit 25, for when acquisition first operates, by shown changing interface the first operation interface applied that extremely described target device to be controlled is corresponding.

Figure 12 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention five, and described electronic equipment can carry out data interaction with the second electronic equipment; Described second electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described second electronic equipment has sensing unit, positioning unit, utilize described positioning unit can detect the second place parameter of described second electronic equipment, utilize described sensing unit can detect the attitude parameter of described second electronic equipment, described attitude parameter characterizes the direction of described second electronic equipment relative to described target device; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

Acquiring unit 31, for when receiving the trigger pip that described second electronic equipment sends, obtains second place parameter and the attitude parameter of described second electronic equipment;

Determining unit 32, for based on the second place parameter of described second electric/electronic apparatus and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

Control module 33, for generating the control signal of described target device to be controlled, to control described target device to be controlled.

Figure 13 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention six, and described electronic equipment can carry out data interaction with the second electronic equipment; Described second electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described second electronic equipment has sensing unit, positioning unit, utilize described positioning unit can detect the second place parameter of described second electronic equipment, utilize described sensing unit can detect the attitude parameter of described second electronic equipment, described attitude parameter characterizes the direction of described second electronic equipment relative to described target device; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

Acquiring unit 41, for when receiving the trigger pip that described second electronic equipment sends, obtains second place parameter and the attitude parameter of described second electronic equipment;

Determining unit 42, for based on the second place parameter of described second electric/electronic apparatus and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

Control module 43, for generating the control signal of described target device to be controlled, to control described target device to be controlled.

Preferably, described determining unit 42 comprises:

First determines subelement 421, for the second place parameter based on described second electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine a satisfied first predetermined subconditional M target device, M≤N;

Second determines subelement 422, for based on described attitude parameter, determines the satisfied second predetermined subconditional target device to be controlled from a described M target device.

Figure 14 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention seven, and described electronic equipment can carry out data interaction with the second electronic equipment; Described second electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described second electronic equipment has sensing unit, positioning unit, utilize described positioning unit can detect the second place parameter of described second electronic equipment, utilize described sensing unit can detect the attitude parameter of described second electronic equipment, described attitude parameter characterizes the direction of described second electronic equipment relative to described target device; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

Acquiring unit 51, for when receiving the trigger pip that described second electronic equipment sends, obtains second place parameter and the attitude parameter of described second electronic equipment;

Determining unit 52, for based on the second place parameter of described second electric/electronic apparatus and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition;

Control module 53, for generating the control signal of described target device to be controlled, to control described target device to be controlled.

Preferably, described determining unit 52 comprises:

First determines subelement 521, for the second place parameter based on described second electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine a satisfied first predetermined subconditional M target device, M≤N;

Second determines subelement 522, for based on described attitude parameter, determines the satisfied second predetermined subconditional target device to be controlled from a described M target device.

Preferably, described first determines subelement 521, also for the second place parameter based on described second electronic equipment, and the primary importance parameter of described N number of target device, determine the rectilinear direction at described second electronic equipment and each target device place; Described rectilinear direction is determined the target device nearest apart from described second electronic equipment, and as meeting the first predetermined subconditional target device.

Described second determines subelement 522, also for based on described attitude parameter, determines the first direction corresponding with described attitude parameter; Determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled.

Between technical scheme described in the embodiment of the present invention, when not conflicting, can combination in any.

In several embodiment provided by the present invention, should be understood that, disclosed method and smart machine, can realize by another way.Apparatus embodiments described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, and as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can be ignored, or do not perform.In addition, the coupling each other of shown or discussed each ingredient or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of equipment or unit or communication connection can be electrical, machinery or other form.

The above-mentioned unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, also can be distributed in multiple network element; Part or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in various embodiments of the present invention can all be integrated in second processing unit, also can be each unit individually as a unit, also can two or more unit in a unit integrated; Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that hardware also can be adopted to add SFU software functional unit realizes.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.

Claims

1. a control method, is applied in electronic equipment, it is characterized in that, described electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described electronic equipment has sensing unit, positioning unit; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described control method comprises:

2. control method according to claim 1, it is characterized in that, the described second place parameter based on described electronic equipment and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition, comprising:

Based on the second place parameter of described electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine a satisfied first predetermined subconditional M target device, M≤N;

Based on described attitude parameter, from a described M target device, determine the satisfied second predetermined subconditional target device to be controlled.

3. control method according to claim 2, it is characterized in that, the described second place parameter based on described electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine a satisfied first predetermined subconditional M target device, comprising:

Based on the second place parameter of described electronic equipment, and the primary importance parameter of described N number of target device, determine the rectilinear direction at described electronic equipment and each target device place;

Described rectilinear direction is determined the target device nearest apart from described electronic equipment, and as meeting the first predetermined subconditional target device.

4. control method according to claim 3, is characterized in that, described based on described attitude parameter, determines the satisfied second predetermined subconditional target device to be controlled, comprising from a described M target device:

Based on described attitude parameter, determine the first direction corresponding with described attitude parameter;

Determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled.

5. the control method according to any one of Claims 1-4, is characterized in that, described electronic equipment also comprises display unit, and described display unit can show the operation interface of the first application correspondence; Correspondingly, when acquisition first operates, described method also comprises:

The display interface of described display unit is switched to the operation interface of the first application corresponding to described target device to be controlled.

6. a control method, is applied in the first electronic equipment, it is characterized in that, described first electronic equipment can carry out data interaction with the second electronic equipment; Described second electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described second electronic equipment has sensing unit, positioning unit, utilize described positioning unit can detect the second place parameter of described second electronic equipment, utilize described sensing unit can detect the attitude parameter of described second electronic equipment, described attitude parameter characterizes the direction of described second electronic equipment relative to described target device; Described first electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described control method comprises:

7. control method according to claim 6, it is characterized in that, the described second place parameter based on described second electronic equipment and attitude parameter, and the primary importance parameter of described N number of target device, from described N number of target device, determine the target device to be controlled of first predetermined condition, comprising:

Based on the second place parameter of described second electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine a satisfied first predetermined subconditional M target device, M≤N;

8. control method according to claim 7, it is characterized in that, the described second place parameter based on described second electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine a satisfied first predetermined subconditional M target device, comprising:

Based on the second place parameter of described second electronic equipment, and the primary importance parameter of described N number of target device, determine the rectilinear direction at described second electronic equipment and each target device place;

Described rectilinear direction is determined the target device nearest apart from described second electronic equipment, and as meeting the first predetermined subconditional target device.

9. control method according to claim 7, is characterized in that, described based on described attitude parameter, determines the satisfied second predetermined subconditional target device to be controlled, comprising from a described M target device:

10. an electronic equipment, is characterized in that, described electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

11. electronic equipments according to claim 10, is characterized in that, described determining unit comprises:

First determines subelement, for the second place parameter based on described electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine a satisfied first predetermined subconditional M target device, M≤N;

Second determines subelement, for based on described attitude parameter, determines the satisfied second predetermined subconditional target device to be controlled from a described M target device.

12. electronic equipments according to claim 11, it is characterized in that, described first determines subelement, also for the second place parameter based on described electronic equipment, and the primary importance parameter of described N number of target device, determine the rectilinear direction at described electronic equipment and each target device place; Described rectilinear direction is determined the target device nearest apart from described electronic equipment, and as meeting the first predetermined subconditional target device.

13. electronic equipments according to claim 11, is characterized in that, described second determines subelement, also for based on described attitude parameter, determines the first direction corresponding with described attitude parameter; Determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled.

14., according to claim 10 to the electronic equipment described in 13, is characterized in that, described electronic equipment also comprises display unit, and described display unit can show the operation interface of the first application correspondence; Correspondingly,

Described display unit, for when acquisition first operates, by shown changing interface the first operation interface applied that extremely described target device to be controlled is corresponding.

15. 1 kinds of electronic equipments, is characterized in that, described electronic equipment can carry out data interaction with the second electronic equipment; Described second electronic equipment can run N number of first application, by i-th application in N number of first application, can control i-th target device that described i-th application is corresponding; Described second electronic equipment has sensing unit, positioning unit, utilize described positioning unit can detect the second place parameter of described second electronic equipment, utilize described sensing unit can detect the attitude parameter of described second electronic equipment, described attitude parameter characterizes the direction of described second electronic equipment relative to described target device; Described electronic equipment stores the primary importance parameter of N number of target device corresponding to described N number of first application, N >=2; Described electronic equipment comprises:

16. electronic equipments according to claim 15, is characterized in that, described determining unit comprises:

First determines subelement, for the second place parameter based on described second electronic equipment, and the primary importance parameter of described N number of target device, from described N number of target device, determine a satisfied first predetermined subconditional M target device, M≤N;

17. electronic equipments according to claim 16, it is characterized in that, described first determines subelement, also for the second place parameter based on described second electronic equipment, and the primary importance parameter of described N number of target device, determine the rectilinear direction at described second electronic equipment and each target device place; Described rectilinear direction is determined the target device nearest apart from described second electronic equipment, and as meeting the first predetermined subconditional target device.

18. electronic equipments according to claim 16, is characterized in that, described second determines subelement, also for based on described attitude parameter, determines the first direction corresponding with described attitude parameter; Determine to be in the target device on described first direction from a described M target device, and as meeting the second predetermined subconditional target device to be controlled.