CN103514732A - Control method and control device as well as control system of electronic equipment - Google Patents
Control method and control device as well as control system of electronic equipment Download PDFInfo
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- CN103514732A CN103514732A CN201210225209.9A CN201210225209A CN103514732A CN 103514732 A CN103514732 A CN 103514732A CN 201210225209 A CN201210225209 A CN 201210225209A CN 103514732 A CN103514732 A CN 103514732A
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Abstract
The embodiment of the invention discloses a control method, a control device as well as a control system of electronic equipment, relating to the technical field of communication and aiming at solving the problems that when the state switching of first electronic equipment is completed only by touching second electronic equipment, the accurate location is needed, and the misoperation is easily caused in the prior art. The control method is applied to the second electronic equipment; a spatial parameter sensor is arranged in the second electronic equipment; the control method comprises the steps that the self spatial parameter of the second electronic equipment is detected through the spatial parameter sensor; the second electronic equipment is used for sending indication information to the first electronic equipment according to the spatial parameter, so that the first output state of the first electronic equipment is switched into the second output state. The control method and the control device as well as the control system are applied to remote control electronic equipment or the electronic equipment with remote control functions.
Description
Technical field
The present invention relates to communication technical field, relate in particular to a kind of control method, Apparatus and system of electronic equipment.
Background technology
Current, by telepilot, control electronic equipment (for example TV, air-conditioning etc.) running very general, such as people can by telepilot carry out electronic equipment unlatching, close, the operation such as volume adjusting.In general telepilot, be provided with control module (Micro Control Unit, be called for short MCU), telepilot can be by MCU described in a plurality of push-botton operations on it, when making telepilot, the various command informations in TV are input to MCU, the telepilot of televisor is pressed described button by user, thereby send command information, realize the operation of televisor and control.
In realizing the process of the embodiment of the present invention, inventor finds that in prior art, at least there are the following problems:
User operates telepilot by button, thereby electronic equipment is controlled, and easily push the wrong and maloperation, and user's experience sense is lower.
Summary of the invention
Embodiments of the invention provide a kind of control method, Apparatus and system of electronic equipment, can solve in prior art and need accurate positioning action owing to only completing the state conversion of the first electronic equipment by touching described the second electronic equipment, easily the problem of maloperation.
For achieving the above object, the present invention adopts following technical scheme:
A control method for electronic equipment, is applied to a kind of the second electronic equipment, in described the second electronic equipment, is provided with spatial parameter sensor, and described method comprises:
Described the second electronic equipment detects the spatial parameter of self by described spatial parameter sensor;
Described the second electronic equipment, according to described spatial parameter, sends indication information to the first electronic equipment, so that described the first electronic equipment transfers the second output state to from the first output state.
A control method for electronic equipment, is applied to a kind of the first electronic equipment, and described method comprises:
Described the first electronic equipment receives the indication information that described the second electronic equipment sends;
Described the first electronic equipment, after receiving described indication information, transfers the second output state to from the first output state.
An electronic equipment, is provided with spatial parameter sensor in described the second electronic equipment, and described the second electronic equipment comprises:
The first detecting unit, for detecting the spatial parameter of self by described spatial parameter sensor;
The first transmitting element, for according to described spatial parameter, sends indication information to the first electronic equipment, so that described the first electronic equipment transfers the second output state to from the first output state.
An electronic equipment, comprising:
The first receiving element, the indication information sending for receiving described the second electronic equipment;
State conversion unit, for after receiving described indication information, transfers the second output state to from the first output state.
The control method of the electronic equipment that the embodiment of the present invention provides, Apparatus and system, because the second electronic equipment detects the spatial parameter of self by described spatial parameter sensor, and to the first electronic equipment, send indication information according to described spatial parameter, so that described the first electronic equipment transfers the second output state to from the first output state.Like this, described the second electronic equipment is when judgement obtains described spatial parameter and meets a predetermined condition, to described the first electronic equipment, send indication information, thereby realize described the first electronic equipment and transfer the second output state to from the first output state, or the second electronic equipment sends to described the first electronic equipment by described spatial parameter, by the first electronic equipment, when judgement obtains described spatial parameter and meets a predetermined condition, from the first output state, transfer the second output state to.Compared with prior art, the embodiment of the present invention is by making the spatial variations of described the second electronic equipment, reach the state conversion of described the first electronic equipment, and avoided the state conversion that completes the first electronic equipment by touching described the second electronic equipment to need accurate positioning action, easily the problem of maloperation, has improved degree of accuracy and the experience sense of user's operation.
Accompanying drawing explanation
In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.
The process flow diagram one of the control method of the electronic equipment that Fig. 1 provides for the embodiment of the present invention;
The flowchart 2 of the control method of the electronic equipment that Fig. 2 provides for the embodiment of the present invention;
The process flow diagram of the control method of the electronic equipment that Fig. 3 provides for further embodiment of this invention;
The process flow diagram of the control method of the electronic equipment that Fig. 4 provides for another embodiment of the present invention;
The process flow diagram of the control method of the electronic equipment that Fig. 5 provides for yet another embodiment of the invention;
The process flow diagram of the control method of the electronic equipment that Fig. 6 provides for yet another embodiment of the invention;
The structural representation one of the second electronic equipment that Fig. 7 provides for the embodiment of the present invention;
The structural representation two of the second electronic equipment that Fig. 8 provides for the embodiment of the present invention;
The structural representation one of the first electronic equipment that Fig. 9 provides for the embodiment of the present invention;
The structural representation two of the first electronic equipment that Figure 10 provides for the embodiment of the present invention;
The structural representation of the control system of the electronic equipment that Figure 11 provides for the embodiment of the present invention.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, those of ordinary skills, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.
For making the advantage of technical solution of the present invention clearer, below in conjunction with drawings and Examples, the present invention is elaborated.
As shown in Figure 1, the control method of the electronic equipment that the embodiment of the present invention provides, sets forth from the second electronic equipment side, in described the second electronic equipment, is provided with spatial parameter sensor, and described method comprises:
Step 101, described the second electronic equipment detect the spatial parameter of self by described spatial parameter sensor.
Concrete, described spatial parameter sensor can be Gravity accelerometer, locus sensor, corresponding described spatial parameter can be the acceleration of three directions (3 axles of Gravity accelerometer), or space position parameter etc., but be not only confined to this.
Step 102, described the second electronic equipment, according to described spatial parameter, send indication information to the first electronic equipment, so that described the first electronic equipment transfers the second output state to from the first output state.
Concrete, described indication information can be a kind of the first indication information, described the second electronic equipment detects described spatial parameter and whether meets a predetermined condition, when described spatial parameter meets described predetermined condition, described the second electronic equipment sends the first indication information to described the first electronic equipment, to indicate described the first electronic equipment to transfer the second output state to from the first output state.
Or, described indication information is the second indication information, described the second indication information comprises described spatial parameter, described the second electronic equipment sends to the first electronic equipment by the second indication information with described spatial parameter, make described the first electronic equipment when judgement obtains described spatial parameter and meets a predetermined condition, from the first output state, transfer the second output state to.
Wherein, described predetermined condition can be the condition corresponding with described spatial parameter, for example described spatial parameter is flip angle variable quantity, described predetermined condition can be an angle threshold, again for example described spatial parameter be the second electronic equipment operating surface towards, described predetermined condition can be one predetermined towards position, but be not only confined to this.
Wherein, described the first output state and described the second output state are two different conditions of the first electronic equipment, for example described the first output state is the first volume parameters output state, described the second output state is the second volume parameters output state, the first volume that described the first volume parameters is corresponding can be greater than the second volume that described the second volume parameters is corresponding, described the second volume can be quiet volume, but is not only confined to this.For example described the first output state is opening again, and described the second output state is closed condition, when transferring the second output state to from described the first output state, is the first electronic equipment and transfers closed condition to from opening, but be not only confined to this.
What deserves to be explained is, described the second electronic equipment can or have the electronic equipment of distant control function for a kind of remote controlled electronic device, as telepilot, smart mobile phone etc., but is not only confined to this.
As shown in Figure 2, the control method of the electronic equipment that the embodiment of the present invention provides, sets forth from the first electronic equipment side, and described method, comprising:
Concrete, the description of relevant described indication information can, referring to the specific descriptions under step 102 in Fig. 1, repeat no more herein.
The control method of the electronic equipment that the embodiment of the present invention provides, because the second electronic equipment detects the spatial parameter of self by described spatial parameter sensor, and to the first electronic equipment, send indication information according to described spatial parameter, so that described the first electronic equipment transfers the second output state to from the first output state.Like this, described the second electronic equipment is when judgement obtains described spatial parameter and meets a predetermined condition, to described the first electronic equipment, send indication information, thereby realize described the first electronic equipment and transfer the second output state to from the first output state, or the second electronic equipment sends to described the first electronic equipment by described spatial parameter, by the first electronic equipment, when judgement obtains described spatial parameter and meets a predetermined condition, from the first output state, transfer the second output state to.Compared with prior art, the embodiment of the present invention is by making the spatial variations of described the second electronic equipment, reach the state conversion of described the first electronic equipment, and avoided the state conversion that completes the first electronic equipment by touching described the second electronic equipment to need accurate positioning action, easily the problem of maloperation, has improved degree of accuracy and the experience sense of user's operation.
As shown in Figure 3, the control method of the electronic equipment that further embodiment of this invention provides, described method comprises:
Concrete, described initial space parameter is the spatial parameter of described the second electronic equipment when there is not spatial variations, the variable quantity of described spatial parameter is spatial parameter after described the second electronic equipment generation spatial variations and the variable quantity of described initial space parameter, for example in described the second electronic equipment, be provided with acceleration of gravity chip, described initial space parameter can be the initial position of the built-in acceleration of gravity chip of described the second electronic equipment, the variable quantity of described spatial parameter can be the angle variable quantity of described acceleration of gravity chip deflection Hou position and described initial position, but be not only confined to this.
For example, described the second electronic equipment has occurred to rock, the amplitude that described initial space parameter can be for the initial space position of described the second electronic equipment, the variable quantity of described initial space parameter can rock for described the second electronic equipment, but be not only confined to this.
Concrete, described initial space parameter is not when identical, its corresponding threshold value can be not identical yet, for example in described the second electronic equipment, be provided with acceleration of gravity chip, the condition that described the second electronic equipment sends indication information is under the X axis of described acceleration of gravity chip, because the initial position of described acceleration of gravity chip is different, its corresponding threshold value (being herein angle variable quantity) is also different, when there is angle variation, when the angle variable quantity after the upset of acceleration of gravity chip reaches angle variable quantity corresponding to its corresponding initial position, the second electronic equipment sends indication information.
For example, described the second electronic equipment has occurred to rock, and the second electronic equipment judges whether the amplitude that described the second electronic equipment rocks reaches a range value corresponding with described initial space position.
For example, described the second electronic equipment has occurred to rock, when described amplitude of rocking reaches a range value corresponding with described initial space position, the second electronic equipment sends the first indication information to described the first electronic equipment, for example described the first indication information indicates the first electronic equipment to transfer succeeding channel to from current channel, but is not only confined to this.
Wherein, described the first output state and described the second output state are two different conditions of the first electronic equipment, for example described the first output state is the first volume parameters output state, described the second output state is the second volume parameters output state, the first volume that described the first volume parameters is corresponding can be greater than the second volume that described the second volume parameters is corresponding, described the second volume can be quiet volume, but is not only confined to this.
For example, described the second electronic equipment has occurred to rock, and the amplitude that described the second electronic equipment rocks the initial space position of described the second electronic equipment and described the second electronic equipment sends to described the first electronic equipment.
For example, described the second electronic equipment has occurred to rock, described the first electronic equipment is after receiving the initial space position of described the second electronic equipment and amplitude that described the second electronic equipment rocks, and described the first electronic equipment judges whether the amplitude that described the second electronic equipment rocks reaches a range value corresponding with described initial space position.
Concrete, be that the first electronic equipment judges herein, its specific implementation is identical with step 302, repeats no more herein.
For example, when described the first electronic equipment judges that amplitude that described the second electronic equipment rocks reaches a range value corresponding with described initial space position, self transfers the second output state to from the first output state the first electronic equipment, example is described above transfers succeeding channel to from current channel, or can also be from the first electronic equipment unlatching, to transfer the first electronic equipment to close, but not only be confined to this.
Concrete, its specific implementation, referring to step 304, repeats no more herein.
The control method of the electronic equipment that further embodiment of this invention provides, because the second electronic equipment detects self initial space parameter and spatial parameter variable quantity by described spatial parameter sensor, and when the variable quantity that judgement obtains described spatial parameter reaches a threshold value corresponding with described initial space parameter, to the first electronic equipment, send the first indication information, so that described the first electronic equipment transfers the second output state to from the first output state, or the variable quantity of the initial space parameter of described the second electronic equipment and described spatial parameter is sent to described the first electronic equipment, the variable quantity that makes described the first electronic equipment obtain described spatial parameter in judgement transfers the second output state to from the first output state while reaching a threshold value corresponding with described initial space parameter.Compared with prior art, the embodiment of the present invention is by making the spatial variations of described the second electronic equipment, reach the state conversion of described the first electronic equipment, and avoided the state conversion that completes the first electronic equipment by touching described the second electronic equipment to need accurate positioning action, easily the problem of maloperation, has improved degree of accuracy and the experience sense of user's operation.
As shown in Figure 4, the control method of the electronic equipment that another embodiment of the present invention provides, described method comprises:
Concrete, the spatial parameter that described the second electronic equipment has occurred after spatial parameter variation can be that spatial variations rear space position for example occurs, and is shaking, is overturning Hou locus etc., but be not only confined to this such as the second electronic equipment.
For example, there is locus skew in described the second electronic equipment, and the described spatial parameter having occurred after spatial parameter variation can be that skew Hou locus, locus has occurred, but is not only confined to this.
Concrete, after described the second electronic equipment occurrence positions changes (as rock, upset etc.), whether the spatial parameter that the second electronic equipment gets after described change in location reaches within the scope of a preposition, for example at the operating surface of described the second electronic equipment, add and subtract within the scope of 15 degree (described operating surface is parallel with surface level) position straight down, but be not only confined to this.
For example, there is locus skew in described the second electronic equipment, there is skew Hou locus, locus and whether met a preposition scope in described the second electronic equipment judgement, for example the described skew Hou locus, locus that occurred is that the operating surface of described the second electronic equipment is perpendicular to surface level.
Wherein, described the first output state and described the second output state are two different conditions of the first electronic equipment, for example described the first output state is the first volume parameters output state, described the second output state is the second volume parameters output state, the first volume that described the first volume parameters is corresponding can be greater than the second volume that described the second volume parameters is corresponding, described the second volume can be quiet volume, but is not only confined to this.
For example, there is locus skew in described the second electronic equipment, and there is skew Hou locus, locus and be the operating surface of described the second electronic equipment perpendicular to surface level, if the operating surface of described the second electronic equipment continues perpendicular to surface level, within the duration, described the second electronic equipment can continue to send described the first indication information to described the first electronic equipment and (for example within the duration, at interval of a bit of time, to described the first electronic equipment, send the first indication information, send once as every 1 second), make the first output state transfer the second output state to, for example, within the duration, described the second electronic equipment continues to send to described the first electronic equipment the indication that highlights, thereby described the first electronic equipment is within the described duration, from a darker brightness output state, transfer gradually a brighter brightness output state to, be that described the first electronic equipment is from a darker brightness blast gradually, reach gradually a brighter brightness.Like this, described the second electronic equipment can continue to send described the first indication information to described the first electronic equipment, and without repeatedly repetitive operation.
The spatial parameter that step 405, the second electronic equipment have occurred described the second electronic equipment after spatial parameter variation sends to described the first electronic equipment.Execution step 406.
For example, there is locus skew in described the second electronic equipment, and described the second electronic equipment sends to described the first electronic equipment by having there is skew Hou locus, locus.
For example, there is locus skew in described the second electronic equipment, described the first electronic equipment is receiving described generation behind skew Hou locus, locus, described the first electronic equipment judges whether the described locus skew Hou locus that occurred meets a preposition scope, and for example whether skew Hou locus, locus has occurred be that the operating surface of described the second electronic equipment is perpendicular to surface level in judgement.
Concrete, be that the first electronic equipment judges herein, its specific implementation is identical with step 402, repeats no more herein.
For example, there is locus skew in described the second electronic equipment, and it is that the operating surface of described the second electronic equipment is perpendicular to surface level that the first electronic equipment judgement has obtained occurring locus skew Hou locus, if obtaining the operating surface of described the second electronic equipment, judgement continues perpendicular to surface level, within the duration, described the first electronic equipment transfers a brighter brightness output state to gradually from a darker brightness output state, be described the first electronic equipment from a darker brightness blast gradually, reach gradually a brighter brightness.
Concrete, its specific implementation, referring to step 404, repeats no more herein.
The control method of the electronic equipment that another embodiment of the present invention provides, because the second electronic equipment is determined described the second electronic equipment spatial parameter variation has been occurred, and get described the second electronic equipment the spatial parameter after spatial parameter changes has occurred, when the spatial parameter of the second electronic equipment after determining described generation spatial parameter variation reaches within the scope of a preposition, to the first electronic equipment, send the first indication information, so that described the first electronic equipment transfers the second output state to from the first output state, or the spatial parameter that the second electronic equipment has occurred described the second electronic equipment after spatial parameter variation sends to described the first electronic equipment, when the spatial parameter after described the first electronic equipment is determined described generation spatial parameter variation reaches within the scope of a preposition, from the first output state, transfer the second output state to.Compared with prior art, the embodiment of the present invention is by making the spatial variations of described the second electronic equipment, reach the state conversion of described the first electronic equipment, and avoided the state conversion that completes the first electronic equipment by touching described the second electronic equipment to need accurate positioning action, easily the problem of maloperation, has improved degree of accuracy and the experience sense of user's operation.
As shown in Figure 5, the control method of the electronic equipment that yet another embodiment of the invention provides, described method comprises:
The operating surface that step 501, the second electronic equipment obtain described the second electronic equipment towards.
Concrete, described operating surface is oriented the direction of straight line to operating surface outside the indication vertical with described operating surface, for example upwards (straight line vertical with described operating surface is vertical with surface level for described operating surface, and the direction of indication is contrary with vertical direction outside operating surface) etc., but be not only confined to this, below only take operating surface upwards as example describes, other modes are not construed as limiting herein.
Concrete, for example upwards, described flip angle variable quantity is for occurring after spatial variations on the basis making progress at described operating surface for described operating surface, described operating surface towards the angle variable quantity making progress with described operating surface.
Concrete, different operating surfaces towards threshold value corresponding to position, for example upwards, described threshold value can be 180 degree to described operating surface, described flip angle variable quantity reaches 180 degree and makes described operating surface downward.
Wherein, described the first output state and described the second output state are two different conditions of the first electronic equipment, for example described the first output state is the first volume parameters output state, described the second output state is the second volume parameters output state, the first volume that described the first volume parameters is corresponding can be greater than the second volume that described the second volume parameters is corresponding, described the second volume can be quiet volume, but is not only confined to this.
Concrete, described the first electronic equipment is after receiving the first indication information of described the second electronic equipment transmission, from the direct saltus step of described the first volume parameters output state, transfer described the second volume parameters output state to, be that described the first electronic equipment is the second volume from the direct saltus step of the first volume, if described the second volume is quiet volume, there is the first electronic equipment direct quiet effect after receiving described the first indication information.
Or, described the first electronic equipment is after receiving the first indication information of described the second electronic equipment transmission, within a schedule time, from described the first volume parameters output state, transfer described the second volume parameters output state to, within the described schedule time, described the first volume reduces gradually, until be reduced to described the second volume, if described the second volume is quiet volume, there is the first electronic equipment quiet effect gradually after receiving described the first indication information.
Concrete, be that the first electronic equipment judges herein, its specific implementation is identical with step 503, repeats no more herein.
Concrete, its specific implementation, referring to step 505, repeats no more herein.
The control method of the electronic equipment that yet another embodiment of the invention provides, the operating surface that gets described the second electronic equipment by described spatial parameter sensor due to the second electronic equipment towards and described the second electronic equipment upset after flip angle variable quantity, described the second electronic equipment determine described flip angle variable quantity reach one with the operating surface of described the second electronic equipment towards position corresponding threshold value time, to the first electronic equipment, send indication information, so that described the first electronic equipment transfers the second output state to from the first output state, or described the second electronic equipment by described operating surface towards and flip angle variable quantity send to described the first electronic equipment, the first electronic equipment determine described flip angle variable quantity reach one with the operating surface of described the second electronic equipment towards position corresponding threshold value time, from the first output state, transfer the second output state to.Compared with prior art, the embodiment of the present invention is by making the spatial variations of described the second electronic equipment, reach the state conversion of described the first electronic equipment, and avoided the state conversion that completes the first electronic equipment by touching described the second electronic equipment to need accurate positioning action, easily the problem of maloperation, has improved degree of accuracy and the experience sense of user's operation.
As shown in Figure 6, the control method of the electronic equipment that yet another embodiment of the invention provides, described method comprises:
Concrete, operating surface after described the second electronic equipment overturns is oriented the direction of straight line to operating surface outside the indication vertical with described operating surface, for example (straight line vertical with described operating surface is vertical with surface level downwards for described operating surface, and the direction of indication is identical with vertical direction outside operating surface), but be not only confined to this.
Concrete, described predetermined direction is that operating surface is downward, but is not only confined to this.
Wherein, described the first output state and described the second output state are two different conditions of the first electronic equipment, for example described the first output state is the first volume parameters output state, described the second output state is the second volume parameters output state, the first volume that described the first volume parameters is corresponding can be greater than the second volume that described the second volume parameters is corresponding, described the second volume can be quiet volume, but is not only confined to this.
Concrete, described the first electronic equipment is after receiving the first indication information of described the second electronic equipment transmission, from the direct saltus step of described the first volume parameters output state, transfer described the second volume parameters output state to, be that described the first electronic equipment is the second volume from the direct saltus step of the first volume, if described the second volume is quiet volume, there is the first electronic equipment direct quiet effect after receiving described the first indication information.
Or, described the first electronic equipment is after receiving the first indication information of described the second electronic equipment transmission, within a schedule time, from described the first volume parameters output state, transfer described the second volume parameters output state to, within the described schedule time, described the first volume reduces gradually, until be reduced to described the second volume, if described the second volume is quiet volume, there is the first electronic equipment quiet effect gradually after receiving described the first indication information.
Concrete, be that the first electronic equipment judges herein, its specific implementation is identical with step 602, repeats no more herein.
Concrete, its specific implementation, referring to step 604, repeats no more herein.
The control method of the electronic equipment that yet another embodiment of the invention provides, while determining that due to the second electronic equipment upset has occurred described the second electronic equipment, got the operating surface of described the second electronic equipment after overturning towards, and after meeting predetermined direction, definite described operating surface direction sends the first indication information to the first electronic equipment, so that described the first electronic equipment transfers the second output state to from the first output state, or described the second electronic equipment sends to described the first electronic equipment by described operating surface direction, when described the first electronic equipment, determining described operating surface direction meets after predetermined direction, from the first output state, transfer the second output state to.Compared with prior art, the embodiment of the present invention is by making the spatial variations of described the second electronic equipment, reach the state conversion of described the first electronic equipment, and avoided the state conversion that completes the first electronic equipment by touching described the second electronic equipment to need accurate positioning action, easily the problem of maloperation, has improved degree of accuracy and the experience sense of user's operation.
As shown in Figure 7, the second electronic equipment that the embodiment of the present invention provides, is provided with spatial parameter sensor in described the second electronic equipment, and described the second electronic equipment comprises:
The first detecting unit 71, for detecting the spatial parameter of self by described spatial parameter sensor.
The first transmitting element 72, for according to described spatial parameter, sends indication information to the first electronic equipment, so that described the first electronic equipment transfers the second output state to from the first output state.
Further, as shown in Figure 8, described indication information is the first indication information, and described the first transmitting element 72, comprising:
First detection module 721, detects described spatial parameter for the second electronic equipment and whether meets a predetermined condition.
The first sending module 722, for when described spatial parameter meets described predetermined condition, sends the first indication information to described the first electronic equipment, to indicate described the first electronic equipment to transfer the second output state to from the first output state.
Or as shown in Figure 8, described indication information is the second indication information, described the second indication information comprises described spatial parameter, described the first transmitting element 72, specifically for:
The second indication information with described spatial parameter is sent to the first electronic equipment, make described the first electronic equipment when judgement obtains described spatial parameter and meets a predetermined condition, from the first output state, transfer the second output state to.
Concrete, as shown in Figure 8, described the first detecting unit 71, specifically for:
According to described spatial parameter sensor, obtain the initial space parameter of described the second electronic equipment, and by described spatial parameter sensor, obtain the variable quantity of described spatial parameter.
Further, as shown in Figure 8, described the first sending module 722, comprising:
The first judgement submodule 7221, for judging whether the variable quantity of described spatial parameter reaches a threshold value corresponding with described initial space parameter.
First sends submodule 7222, when reaching a threshold value corresponding with described initial space parameter at the variable quantity of described spatial parameter, to described the first electronic equipment, send the first indication information, described the first indication information is used to indicate the first electronic equipment and transfers the second output state to from the first output state.
Concrete, as shown in Figure 8, described the first detecting unit 71, specifically for:
Determine that spatial parameter variation has occurred described the second electronic equipment, and get described the second electronic equipment the spatial parameter after spatial parameter changes has occurred.
Further, as shown in Figure 8, described the first sending module 722, comprising:
The second judgement submodule 7223, while there is spatial parameter variation for described the second electronic equipment detected at described the second electronic equipment, judges whether the spatial parameter after described generation spatial parameter changes reaches within the scope of a preposition.
Second sends submodule 7224, while reaching within the scope of a preposition for the spatial parameter after described generation spatial parameter changes, to described the first electronic equipment, send the first indication information, described the first indication information is used to indicate the first electronic equipment and transfers the second output state to from the first output state.
Concrete, as shown in Figure 8, described the first detecting unit 71, comprising:
The first acquisition module 711, for the operating surface that obtains described the second electronic equipment towards.
The second acquisition module 712, for getting the flip angle variable quantity after described the second electronic equipment upset by described spatial parameter sensor.
Further, as shown in Figure 8, described the second electronic equipment also comprises:
The first judging unit 73, for judge described flip angle variable quantity whether reach one with the operating surface of described the second electronic equipment towards the corresponding threshold value in position.
Further, as shown in Figure 8, described operating surface is oriented operating surface upwards, described the first judging unit 73, specifically for:
Judge whether described flip angle variable quantity reaches a corresponding threshold value in the position making progress with the operating surface of described the second electronic equipment.
Described the first sending module 722, specifically for:
When described flip angle variable quantity reaches the corresponding threshold value in a position making progress with the operating surface of described the second electronic equipment, to described the first electronic equipment, send the first indication information, described the first indication information is used to indicate the first electronic equipment and transfers the second output state to from the first output state.
Concrete, as shown in Figure 8, described the first detecting unit 71, specifically for:
When the second electronic equipment determines that upset has occurred described the second electronic equipment, get the operating surface of described the second electronic equipment after overturning towards.
Further, as shown in Figure 8, described the second electronic equipment, also comprises:
The second judging unit 74, for judging whether described operating surface meets towards predetermined direction.
Further, as shown in Figure 8, described predetermined direction is that operating surface is downward, described the second judging unit 74, specifically for:
Judge whether described operating surface meets towards operating surface downward.
Described the first sending module 722, specifically for:
When described the second electronic equipment determines that upset has occurred described the second electronic equipment, and the operating surface of judgement after being overturn is oriented operating surface when downward, to described the first electronic equipment, send the first indication information, described the first indication information is used to indicate the first electronic equipment and transfers the second output state to from the first output state.
Concrete, as shown in Figure 8, described the first output state is the first volume parameters output state, and described the second output state is the second volume parameters output state, and the first volume that described the first volume parameters is corresponding is greater than the second volume that described the second volume parameters is corresponding.
Concrete, the working method of the second electronic equipment that the embodiment of the present invention provides can be referring to the specific embodiment of above-mentioned method, repeat no more herein, described the second electronic equipment can be a kind of remote controlled electronic device or the electronic equipment with distant control function, as telepilot, smart mobile phone etc., but be not only confined to this.
The second electronic equipment that the embodiment of the present invention provides, because the second electronic equipment detects the spatial parameter of self by described spatial parameter sensor, and to the first electronic equipment, send indication information according to described spatial parameter, so that described the first electronic equipment transfers the second output state to from the first output state.Compared with prior art, the embodiment of the present invention is by making the spatial variations of described the second electronic equipment, reach the state conversion of described the first electronic equipment, and avoided the state conversion that completes the first electronic equipment by touching described the second electronic equipment to need accurate positioning action, easily the problem of maloperation, has improved degree of accuracy and the experience sense of user's operation.
As shown in Figure 9, the first electronic equipment that the embodiment of the present invention provides, comprising:
The first receiving element 81, the indication information sending for receiving described the second electronic equipment.
Concrete, as shown in figure 10, described indication information is the first indication information, be used to indicate described the first electronic equipment and transfer the second output state to from the first output state, and described state conversion unit 82, specifically for:
After receiving the first indication information of described the second electronic equipment transmission, from the first output state, transfer the second output state to.
Or as shown in figure 10, described indication information is the second indication information, described the second indication information comprises the spatial parameter of described the second electronic equipment that described the second electronic equipment detects, and described state conversion unit 82, comprising:
The second detection module 821, for after receiving second indication information with described spatial parameter of described the second electronic equipment transmission, detects described spatial parameter and whether meets a predetermined condition.
The first state modular converter 822, for when described spatial parameter meets described predetermined condition, transfers the second output state to from the first output state.
Concrete, as shown in figure 10, described spatial parameter comprises the initial space parameter of described the second electronic equipment and the variable quantity of spatial parameter, described the second detection module 821, specifically for:
Whether the variable quantity that judges described spatial parameter reaches a threshold value corresponding with described initial space parameter.
Described the first state modular converter 822, specifically for:
When the variable quantity of described spatial parameter reaches a threshold value corresponding with described initial space parameter, from the first output state, transfer the second output state to.
Concrete, as shown in figure 10, described spatial parameter comprises that the spatial parameter after spatial parameter variation has occurred described the second electronic equipment, described the second detection module 821, specifically for:
Judge whether the described spatial parameter having occurred after spatial parameter variation reaches within the scope of a preposition.
Described the first state modular converter 822, specifically for:
When the described spatial parameter having occurred after spatial parameter variation reaches within the scope of a preposition, from the first output state, transfer the second output state to.
Concrete, as shown in figure 10, the operating surface that described spatial parameter comprises described the second electronic equipment towards and described the second electronic equipment upset after flip angle variable quantity, described the second detection module 821, specifically for:
Judge described flip angle variable quantity whether reach one with the operating surface of described the second electronic equipment towards the corresponding threshold value in position.
Further, as shown in figure 10, described operating surface is oriented operating surface upwards, described the second detection module 821, specifically for:
Judge whether described flip angle variable quantity reaches a corresponding threshold value in the position making progress with the operating surface of described the second electronic equipment.
Described the first state modular converter 822, specifically for:
When judgement obtains described flip angle variable quantity and reaches the corresponding threshold value in a position making progress with the operating surface of described the second electronic equipment, from the first output state, transfer the second output state to.
Concrete, as shown in figure 10, described spatial parameter comprises that the operating surface of described the second electronic equipment after overturning is towards, described the second detection module 821, specifically for:
Judge whether the operating surface after described upset meets towards predetermined direction.
Further, as shown in figure 10, described predetermined direction is that operating surface is downward, described the second detection module 821, specifically for:
Judge whether described operating surface meets towards operating surface downward.
Described the first state modular converter 822, specifically for:
In judgement, obtain operating surface after described upset towards meeting operating surface when downward, from the first output state, transfer the second output state to.
Concrete, as shown in figure 10, described the first output state is the first volume parameters output state, and described the second output state is the second volume parameters output state, and the first volume that described the first volume parameters is corresponding is greater than the second volume that described the second volume parameters is corresponding.
The first electronic equipment that the embodiment of the present invention provides, because the first electronic equipment receives the indication information that described the second electronic equipment sends, the first electronic equipment transfers the second output state according to described indication information to from the first output state.Compared with prior art, the embodiment of the present invention is by making the spatial variations of described the second electronic equipment, reach the state conversion of described the first electronic equipment, and avoided the state conversion that completes the first electronic equipment by touching described the second electronic equipment to need accurate positioning action, easily the problem of maloperation, has improved degree of accuracy and the experience sense of user's operation.
As shown in figure 11, the control system of the electronic equipment that the embodiment of the present invention provides, comprises the second electronic equipment 92 and the first electronic equipment 91, wherein,
In described the second electronic equipment 92, be provided with spatial parameter sensor, described the second electronic equipment 92, for detect the spatial parameter of self by described spatial parameter sensor, according to described spatial parameter, sends indication information to the first electronic equipment 91.
Described the first electronic equipment 91, the indication information sending for receiving described the second electronic equipment 92, and after receiving described indication information, from the first output state, transfer the second output state to.
Concrete, the working method of the first electronic equipment that the embodiment of the present invention provides can be referring to the specific embodiment of above-mentioned method, repeat no more, described the first electronic equipment can be the electronic equipments such as TV, desktop computer, notebook computer, but is not only confined to this herein.
The control system of the electronic equipment that the embodiment of the present invention provides, because the second electronic equipment detects the spatial parameter of self by described spatial parameter sensor, and to the first electronic equipment, send indication information according to described spatial parameter, so that described the first electronic equipment transfers the second output state to from the first output state.Compared with prior art, the embodiment of the present invention is by making the spatial variations of described the second electronic equipment, reach the state conversion of described the first electronic equipment, and avoided the state conversion that completes the first electronic equipment by touching described the second electronic equipment to need accurate positioning action, easily the problem of maloperation, has improved degree of accuracy and the experience sense of user's operation.
Through the above description of the embodiments, those skilled in the art can be well understood to the mode that the present invention can add essential common hardware by software and realize, and can certainly pass through hardware, but in a lot of situation, the former is better embodiment.Understanding based on such, the part that technical scheme of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product is stored in the storage medium can read, as the floppy disk of computing machine, hard disk or CD etc., comprise some instructions with so that computer equipment (can be personal computer, server, or the network equipment etc.) carry out the method described in each embodiment of the present invention.
The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; can expect easily changing or replacing, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion by the described protection domain with claim.
Claims (27)
1. a control method for electronic equipment, is applied to a kind of the second electronic equipment, it is characterized in that, in described the second electronic equipment, is provided with spatial parameter sensor, and described method comprises:
Described the second electronic equipment detects the spatial parameter of self by described spatial parameter sensor;
Described the second electronic equipment, according to described spatial parameter, sends indication information to the first electronic equipment, so that described the first electronic equipment transfers the second output state to from the first output state.
2. method according to claim 1, it is characterized in that, described indication information is the first indication information, described the second electronic equipment is according to described spatial parameter, to the first electronic equipment, send indication information, so that described the first electronic equipment transfers the second output state to from the first output state, comprising:
The second electronic equipment detects described spatial parameter and whether meets a predetermined condition;
When described spatial parameter meets described predetermined condition, described the second electronic equipment sends the first indication information to described the first electronic equipment, to indicate described the first electronic equipment to transfer the second output state to from the first output state.
3. method according to claim 1, it is characterized in that, described indication information is the second indication information, described the second indication information comprises described spatial parameter, described the second electronic equipment is according to described spatial parameter, to the first electronic equipment, send indication information, so that described the first electronic equipment transfers the second output state to from the first output state, comprising:
Described the second electronic equipment sends to the first electronic equipment by the second indication information with described spatial parameter, make described the first electronic equipment when judgement obtains described spatial parameter and meets a predetermined condition, from the first output state, transfer the second output state to.
4. according to the method in claim 2 or 3, it is characterized in that, described the second electronic equipment detects the spatial parameter of self by described spatial parameter sensor, comprising:
The second electronic equipment obtains the initial space parameter of described the second electronic equipment according to described spatial parameter sensor, and by described spatial parameter sensor, obtains the variable quantity of described spatial parameter.
5. method according to claim 4, is characterized in that, described when described spatial parameter meets described predetermined condition, and described the second electronic equipment sends the first indication information to described the first electronic equipment, comprising:
Whether the variable quantity that judges described spatial parameter reaches a threshold value corresponding with described initial space parameter;
When the variable quantity of described spatial parameter reaches a threshold value corresponding with described initial space parameter, to described the first electronic equipment, send the first indication information, described the first indication information is used to indicate the first electronic equipment and transfers the second output state to from the first output state.
6. according to the method in claim 2 or 3, it is characterized in that, described the second electronic equipment detects the spatial parameter of self by described spatial parameter sensor, comprising:
The second electronic equipment determines that spatial parameter variation has occurred described the second electronic equipment, and gets described the second electronic equipment the spatial parameter after spatial parameter changes has occurred.
7. method according to claim 6, is characterized in that, described when described spatial parameter meets described predetermined condition, and described the second electronic equipment sends the first indication information to described the first electronic equipment, comprising:
When described the second electronic equipment detects described the second electronic equipment and spatial parameter has occurred changes, judge whether the spatial parameter after described generation spatial parameter changes reaches within the scope of a preposition;
When the spatial parameter after described generation spatial parameter changes reaches within the scope of a preposition, to described the first electronic equipment, send the first indication information, described the first indication information is used to indicate the first electronic equipment and transfers the second output state to from the first output state.
8. according to the method in claim 2 or 3, it is characterized in that, described the second electronic equipment detects the spatial parameter of self by described spatial parameter sensor, comprising:
The operating surface that the second electronic equipment obtains described the second electronic equipment towards;
By described spatial parameter sensor, get the flip angle variable quantity after described the second electronic equipment upset.
9. method according to claim 8, is characterized in that, also comprises:
Judge described flip angle variable quantity whether reach one with the operating surface of described the second electronic equipment towards the corresponding threshold value in position.
10. method according to claim 9, is characterized in that, described operating surface is oriented operating surface upwards, described judge described flip angle variable quantity whether reach one with the operating surface of described the second electronic equipment towards the corresponding threshold value in position, comprising:
Judge whether described flip angle variable quantity reaches a corresponding threshold value in the position making progress with the operating surface of described the second electronic equipment;
Described when described spatial parameter meets described predetermined condition, described the second electronic equipment sends the first indication information to described the first electronic equipment, comprising:
When described flip angle variable quantity reaches the corresponding threshold value in a position making progress with the operating surface of described the second electronic equipment, to described the first electronic equipment, send the first indication information, described the first indication information is used to indicate the first electronic equipment and transfers the second output state to from the first output state.
11. according to the method in claim 2 or 3, it is characterized in that, described the second electronic equipment detects the spatial parameter of self by described spatial parameter sensor, comprising:
When the second electronic equipment determines that upset has occurred described the second electronic equipment, get the operating surface of described the second electronic equipment after overturning towards.
12. methods according to claim 11, is characterized in that, get operating surface after described the second electronic equipment is overturning towards after, also comprise:
Judge whether described operating surface meets towards predetermined direction.
13. methods according to claim 12, is characterized in that, described predetermined direction is that operating surface is downward, describedly judge that whether described operating surface meets towards predetermined direction, comprising:
Judge whether described operating surface meets towards operating surface downward;
Described when described spatial parameter meets described predetermined condition, described the second electronic equipment sends the first indication information to described the first electronic equipment, comprising:
When described the second electronic equipment determines that upset has occurred described the second electronic equipment, and the operating surface of judgement after being overturn is oriented operating surface when downward, to described the first electronic equipment, send the first indication information, described the first indication information is used to indicate the first electronic equipment and transfers the second output state to from the first output state.
14. according to the method in claim 2 or 3, it is characterized in that, described the first output state is the first volume parameters output state, described the second output state is the second volume parameters output state, and the first volume that described the first volume parameters is corresponding is greater than the second volume that described the second volume parameters is corresponding.
The control method of 15. 1 kinds of electronic equipments, is applied to a kind of the first electronic equipment, it is characterized in that, described method comprises:
Described the first electronic equipment receives the indication information that described the second electronic equipment sends;
Described the first electronic equipment, after receiving described indication information, transfers the second output state to from the first output state.
16. methods according to claim 15, it is characterized in that, described indication information is the first indication information, be used to indicate described the first electronic equipment and transfer the second output state to from the first output state, described the first electronic equipment is after receiving described indication information, from the first output state, transfer the second output state to, comprising:
Described the first electronic equipment, after receiving the first indication information of described the second electronic equipment transmission, transfers the second output state to from the first output state.
17. methods according to claim 15, it is characterized in that, described indication information is the second indication information, described the second indication information comprises the spatial parameter of described the second electronic equipment that described the second electronic equipment detects, described the first electronic equipment is after receiving described indication information, from the first output state, transfer the second output state to, comprising:
Described the first electronic equipment, after receiving second indication information with described spatial parameter of described the second electronic equipment transmission, detects described spatial parameter and whether meets a predetermined condition;
When described spatial parameter meets described predetermined condition, from the first output state, transfer the second output state to.
18. methods according to claim 17, it is characterized in that, described spatial parameter comprises the initial space parameter of described the second electronic equipment and the variable quantity of spatial parameter, and described the first electronic equipment detects described spatial parameter and whether meets a predetermined condition, comprising:
Described the first electronic equipment judges whether the variable quantity of described spatial parameter reaches a threshold value corresponding with described initial space parameter;
Described when described spatial parameter meets described predetermined condition, from the first output state, transfer the second output state to, comprising:
When the variable quantity of described spatial parameter reaches a threshold value corresponding with described initial space parameter, from the first output state, transfer the second output state to.
19. methods according to claim 17, it is characterized in that, described spatial parameter comprises that the spatial parameter after spatial parameter variation has occurred described the second electronic equipment, and described the first electronic equipment detects described spatial parameter and whether meets a predetermined condition, comprising:
Described the first electronic equipment judges whether the described spatial parameter having occurred after spatial parameter variation reaches within the scope of a preposition;
Described when described spatial parameter meets described predetermined condition, from the first output state, transfer the second output state to, comprising:
When the described spatial parameter having occurred after spatial parameter variation reaches within the scope of a preposition, from the first output state, transfer the second output state to.
20. methods according to claim 17, it is characterized in that, the operating surface that described spatial parameter comprises described the second electronic equipment towards and described the second electronic equipment upset after flip angle variable quantity, described the first electronic equipment detects described spatial parameter and whether meets a predetermined condition, comprising:
Described the first electronic equipment judge described flip angle variable quantity whether reach one with the operating surface of described the second electronic equipment towards the corresponding threshold value in position.
21. methods according to claim 20, it is characterized in that, described operating surface is oriented operating surface upwards, described the first electronic equipment judge described flip angle variable quantity whether reach one with the operating surface of described the second electronic equipment towards the corresponding threshold value in position, comprising:
Described the first electronic equipment judges whether described flip angle variable quantity reaches a corresponding threshold value in the position making progress with the operating surface of described the second electronic equipment;
Described when described spatial parameter meets described predetermined condition, from the first output state, transfer the second output state to, comprising:
When judgement obtains described flip angle variable quantity and reaches the corresponding threshold value in a position making progress with the operating surface of described the second electronic equipment, from the first output state, transfer the second output state to.
22. methods according to claim 17, is characterized in that, described spatial parameter comprises that the operating surface of described the second electronic equipment after overturning detects described spatial parameter towards, described the first electronic equipment and whether meet a predetermined condition, comprising:
Described the first electronic equipment judges whether the operating surface after described upset meets towards predetermined direction.
23. methods according to claim 22, is characterized in that, described predetermined direction is that operating surface is downward, and described the first electronic equipment judges that whether described operating surface meets towards predetermined direction, comprising:
It is downward that described the first electronic equipment judges whether described operating surface meets towards operating surface;
Described when described spatial parameter meets described predetermined condition, from the first output state, transfer the second output state to, comprising:
In judgement, obtain operating surface after described upset towards meeting operating surface when downward, from the first output state, transfer the second output state to.
24. according to claim 17 to the method described in 23 any one, it is characterized in that, described the first output state is the first volume parameters output state, described the second output state is the second volume parameters output state, and the first volume that described the first volume parameters is corresponding is greater than the second volume that described the second volume parameters is corresponding.
25. a kind of second electronic equipment, is characterized in that, in described the second electronic equipment, is provided with spatial parameter sensor, and described the second electronic equipment comprises:
The first detecting unit, for detecting the spatial parameter of self by described spatial parameter sensor;
The first transmitting element, for according to described spatial parameter, sends indication information to the first electronic equipment, so that described the first electronic equipment transfers the second output state to from the first output state.
26. a kind of first electronic equipment, is characterized in that, comprising:
The first receiving element, the indication information sending for receiving described the second electronic equipment;
State conversion unit, for after receiving described indication information, transfers the second output state to from the first output state.
The control system of 27. 1 kinds of electronic equipments, is characterized in that, comprises the second electronic equipment and the first electronic equipment, wherein,
In described the second electronic equipment, be provided with spatial parameter sensor, described the second electronic equipment, for detect the spatial parameter of self by described spatial parameter sensor, according to described spatial parameter, sends indication information to the first electronic equipment;
Described the first electronic equipment, the indication information sending for receiving described the second electronic equipment, and after receiving described indication information, from the first output state, transfer the second output state to.
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| CN201210225209.9A CN103514732B (en) | 2012-06-28 | 2012-06-28 | Control method and control device as well as control system of electronic equipment |
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| CN108234760A (en) * | 2017-12-28 | 2018-06-29 | 努比亚技术有限公司 | Athletic posture recognition methods, mobile terminal and computer readable storage medium |
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| CN103514732B (en) | 2017-03-22 |
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