CN105094338A - Control method, controller and electronic equipment - Google Patents

Abstract

The invention discloses a control method, a controller and electronic equipment used for being fixed on a first operation body. The method comprises the steps that a sensor arranged on the target portion of the first operation body is utilized to acquire a current gesture of the first operation body; an operation instruction corresponding to the current gesture is carried out on the electronic equipment. According to the control method, the controller and the electronic equipment, in the process of achieving operation control over the electronic equipment, other operation bodies different from the first operation body are not needed for cooperation, and therefore the purpose that the single operation body operates the electronic equipment to carry out instruction control on the electronic equipment is achieved.

Description

A kind of control method, controller and electronic equipment

Technical field

The present invention relates to terminal control technical field, particularly a kind of control method, controller and electronic equipment.

Background technology

Along with the development of electronic technology, smart machine is applied in the life of people more and more widely, if carry out the intelligent watch etc. of voice communication.

This intelligent watch is fixed in a wrist of user in use, as left hand wrist, undertaken clicking by the intelligent watch on the right hand leftward wrist or the operation such as slip, to realize the control to intelligent watch, as by as described in intelligent watch and other users carry out voice communication etc.

But, in this scheme, usually need user's both hands to operate.

Summary of the invention

The object of the invention is to, a kind of control method, controller and the electronic equipment that provide, in order to solve in prior art when operating the electronic equipment be fixed on certain operating body, needing the technical matters that two operating bodies cooperatively interact.

The invention provides a kind of control method, be applied to electronic equipment, described electronic equipment is for being fixed on the first operating body, and described method comprises:

Utilize the sensor be arranged on the target site of described first operating body, obtain the current gesture of described first operating body;

Described electronic equipment performs the operational order corresponding with described current gesture.

Said method, preferably, described sensor comprises myoelectric sensor;

Accordingly, described utilization is arranged on the sensor on the target site of described first operating body, obtains the current gesture of described first operating body, comprising:

Utilize the myoelectric sensor be arranged on the wrist position of described first operating body, obtain the current gesture of described first operating body.

Said method, preferably, described sensor comprises fingerstall type sensor;

Accordingly, described utilization is arranged on the sensor on the target site of described first operating body, obtains the current gesture of described first operating body, comprising:

Utilize the fingerstall type sensor be arranged on the finger position of described first operating body, obtain the current gesture of described first operating body.

Said method, preferably, the described operational order that execution is corresponding with described current gesture on described electronic equipment, comprising:

Resolve the motion state of the thumb of the first operating body described in described current gesture;

When described thumb is in different motion states, described electronic equipment performs the operational order corresponding separately from described different motion state.

Said method, preferably, described when described thumb is in different motion states, perform the operational order corresponding separately from described different motion state, comprising:

Described thumb be in its finger tip near target finger fingertip until the motion state of contact time, perform the first operational order, described target finger is the arbitrary finger in described first operating body except described thumb;

Described thumb be in its finger tip on described target finger with the motion state of first direction movement time, perform the second operational order;

When described thumb is in the relative motion state of its finger tip with second direction movement on described target finger, perform the 3rd operational order;

Wherein, described second direction is different from described first direction.

Present invention also offers a kind of controller, be arranged at electronic equipment, described electronic equipment is for being fixed on the first operating body, and described controller comprises:

Gesture acquiring unit, for utilizing the sensor on the target site being arranged on described first operating body, obtains the current gesture of described first operating body;

Instruction execution unit, for performing the operational order corresponding with described current gesture on described electronic equipment.

Above-mentioned controller, preferably, described sensor comprises myoelectric sensor;

Accordingly, described gesture acquiring unit comprises:

First obtains subelement, for utilizing the myoelectric sensor on the wrist position being arranged on described first operating body, obtains the current gesture of described first operating body.

Above-mentioned controller, preferably, described sensor comprises fingerstall type sensor;

Accordingly, described gesture acquiring unit comprises:

Second obtains subelement, for utilizing the fingerstall type sensor on the finger position being arranged on described first operating body, obtains the current gesture of described first operating body.

Above-mentioned controller, preferably, described instruction execution unit comprises:

State resolves subelement, for resolving the motion state of the thumb of the first operating body described in described current gesture;

Instruction performs subelement, for when described thumb is in different motion states, described electronic equipment performs the operational order corresponding separately from described different motion state.

Above-mentioned controller, preferably, described instruction performs subelement and comprises:

First execution module, for be at described thumb its finger tip near target finger fingertip until the motion state of contact time, perform the first operational order, described target finger is the arbitrary finger in described first operating body except described thumb;

Second execution module, for be at described thumb its finger tip on described target finger with the motion state of first direction movement time, perform the second operational order;

3rd execution module, during for being in the relative motion state of its finger tip with second direction movement on described target finger at described thumb, performs the 3rd operational order;

Wherein, described second direction is different from described first direction.

Present invention also offers a kind of electronic equipment, described electronic equipment comprises controller, and described electronic equipment is fixed on the first operating body, wherein:

Described controller, for utilizing the sensor on the target site being arranged on described first operating body, obtains the current gesture of described first operating body, and described electronic equipment performs the operational order corresponding with described current gesture.

From such scheme, a kind of control method provided by the invention, controller and electronic equipment, utilize the sensor be arranged on the target site of the first operating body, obtain the current gesture of this first operating body, and then be fixed on the operational order that on the electronic equipment on this first operating body, execution is corresponding with current gesture, in this process, other operating bodies without the need to being different from the first operating body coordinate, thus realize single operation body and operate object to carry out instruction control to electronic equipment to electronic equipment.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments of the invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

Fig. 1 is the process flow diagram of a kind of control method embodiment one provided by the invention;

Fig. 2 a ~ Fig. 2 f is respectively the application example figure of the embodiment of the present invention;

Fig. 3 is the process flow diagram of a kind of control method embodiment two provided by the invention;

Fig. 4 is the process flow diagram of a kind of control method embodiment three provided by the invention;

Fig. 5 is the partial process view of a kind of control method embodiment four provided by the invention;

Fig. 6 is the partial process view of the embodiment of the present invention four;

Fig. 7 is the structural representation of a kind of controller embodiment five provided by the invention;

Fig. 8 is the structural representation of a kind of controller embodiment six provided by the invention;

Fig. 9 is the structural representation of a kind of controller embodiment seven provided by the invention;

Figure 10 is the part-structure schematic diagram of a kind of controller embodiment eight provided by the invention;

Figure 11 is the part-structure schematic diagram of the embodiment of the present invention eight;

Figure 12 is the structural representation of a kind of electronic equipment embodiment nine provided by the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

With reference to figure 1, for the process flow diagram of a kind of control method embodiment one provided by the invention, wherein, described method is applied in electronic equipment, described electronic equipment can be the mobile terminal that can be fixed on the first operating body, as the intelligent watch etc. in Wrist belt-type equipment.

As shown in Figure 2 a, stationary installation 1 and body apparatus 2 can be included in described electronic equipment, described stationary installation 1 at least has stationary state, described stationary installation can as annulus at least partially or meet the first pre-conditioned proximate annular space at least partially, described annulus or described proximate annular space described body apparatus 2 can be made relatively to be fixed on meet pre-conditioned column as described in the periphery of the first operating body.

In the present embodiment, described method can comprise the following steps:

Step 101: utilize the sensor be arranged on the target site of described first operating body, obtain the current gesture of described first operating body.

Wherein, described sensor can be fixed on the same target site of described first operating body with described electronic equipment, also can be different target sites.Such as, described electronic equipment is fixed in the wrist of described first operating body, and described sensor can be arranged in the wrist of described first operating body, also can be arranged on the finger of described first operating body.

Concrete, first can utilize the state running parameter on the target site of described first operating body of described sensor collection in the present embodiment, then based on these state running parameters, get the current gesture of described first operating body.

It should be noted that, the current gesture of described first operating body, can be understood as the limbs state of described first operating body, comprise the limbs attitude at each positions such as the arm position of described first operating body, wrist position and/or palm part, be not limited to the attitude of the finger part on described first operating body.

Step 102: perform the operational order corresponding with described current gesture on described electronic equipment.

Wherein, described operational order is corresponding with described current gesture, that is, the corresponding relation list of instruction and gesture is previously provided with in the present embodiment, this corresponding relation list comprises multiple instruction, each instruction is respectively to there being a gesture, the present embodiment is after getting described current gesture, gesture in described current gesture and described corresponding relation list is compared, determine with deserve before after the consistent or similarity of gesture is greater than the target gesture of preset value, instruction corresponding for this target gesture is defined as the operational order corresponding with described current gesture, and then this operational order is performed on described electronic equipment.

From such scheme, in a kind of control method embodiment one provided by the invention, utilize the sensor be arranged on the target site of the first operating body, obtain the current gesture of this first operating body, and then be fixed on the operational order that on the electronic equipment on this first operating body, execution is corresponding with current gesture, in this process, other operating bodies without the need to being different from the first operating body coordinate, thus realize single operation body and operate object to carry out instruction control to electronic equipment to electronic equipment.

In specific implementation, described sensor can realize for myoelectric sensor, described myoelectric sensor is arranged on the target site of described first operating body as on wrist position, the N&M bioelectric state parameter of described first operating body in motion process on its wrist position can be got, i.e. myoelectricity parameter, described myoelectricity parameter can show the variable condition of described first operating body.The myoelectricity parameter that can collect based on described myoelectric sensor in the present embodiment obtains the current gesture of described first operating body.

Now, with reference to figure 3, be the process flow diagram of a kind of control method embodiment two provided by the invention, wherein, described step 101 can be realized by following steps:

Step 111: utilize the myoelectric sensor be arranged on the wrist position of described first operating body, obtain the current gesture of described first operating body.

Concrete, the present embodiment utilizes the myoelectric sensor be arranged on described wrist position, gather the running parameter of the myoelectricity parameter of described wrist position in described first operating body active procedure, and then these running parameters are resolved, to determine and the gesture obtained in the described first operating body active procedure corresponding with described running parameter changes, i.e. current gesture.

It should be noted that, described myoelectric sensor needs to press close to the skin of wrist portion position on described first operating body to arrange, as shown in figure 2b, described myoelectric sensor 3 be arranged on described stationary installation 1 or described body apparatus 2 are pressed close to described first operating body inner side A on, to collect the running parameter of the myoelectricity parameter on described first operating body on wrist portion position accurately.

In specific implementation, described sensor can be fingerstall type sensor, described fingerstall type sensor setting in the target location of described first operating body as on finger position, the kinematic parameter that described first operating body wears the finger of described fingerstall type sensor in motion process can be got, as kinematic parameters such as lifting, press down, move.The kinematic parameter of described finger can show the variable condition that described first operating body is pointed.The kinematic parameter that can collect based on described fingerstall type sensor in the present embodiment obtains the current gesture of described first operating body.

Now, with reference to figure 4, be the process flow diagram of a kind of control method embodiment three provided by the invention, wherein, described step 101 also can be realized by following steps:

Step 112: utilize the fingerstall type sensor be arranged on the finger position of described first operating body, obtain the current gesture of described first operating body.

Concrete, the present embodiment utilizes the fingerstall type sensor be arranged on described finger position, gather the running parameter of the kinematic parameter on the finger described first operating body being worn described fingerstall type sensor, and then these running parameters are resolved, to determine and the gesture obtained in the described first operating body active procedure corresponding with described running parameter changes, i.e. current gesture.

It should be noted that, described fingerstall type sensor can include multiple fingerstall, each fingerstall has induction chip, each fingerstall can be worn in the respective finger of described first operating body, as thumb and forefinger or other fingers etc., as illustrated in fig. 2 c, on the thumb that two fingerstall 4 of described fingerstall type sensor are separately positioned on described first operating body and forefinger, described electronic equipment is arranged on the wrist position of described first operating body, induction chip on described fingerstall 4 is pressed close to its finger skin worn and is arranged, to collect the running parameter of the kinematic parameter on described first operating body on finger position accurately.

The present embodiment can by motion state of each finger in the current gesture of described first operating body of parsing in specific implementation, and then when finger is in different motion states, described electronic equipment performs the operational order corresponding separately from described different motion state.These fingers can be thumb, forefinger or middle finger etc.

Concrete, with reference to figure 5, be the realization flow figure of step 102 described in a kind of control method embodiment four provided by the invention, wherein, described step 102 can comprise the following steps:

Step 121: the motion state of resolving the thumb of the first operating body described in described current gesture.

Concrete, based on described current gesture in the present embodiment, resolve the motion state obtaining the thumb of described first operating body, such as, the moving direction between described thumb or mobile type etc.

Step 122: when described thumb is in different motion states, performs the operational order corresponding separately from described different motion state.

Such as, the finger tip of described thumb is in different motion states, and now, the present embodiment performs corresponding operational order.

Concrete, as shown in Figure 6, be the realization flow figure of step 122 described in the embodiment of the present invention, wherein, described step 122 can be realized by following steps:

Step 601: described thumb be in its finger tip near target finger fingertip until contact motion state time, perform the first operational order.

Wherein, described target finger is the arbitrary finger in described first operating body except described thumb.For forefinger in the present embodiment, as illustrated in fig. 2 c, in the motion state of described thumb be: its finger tip near index finger tip until contact motion state time, the present embodiment performs the first operational order on described electronic equipment, and described first operational order can be the operational order clicked or choose.

Step 602: described thumb be in its finger tip on described target finger with the motion state of first direction movement time, perform the second operational order.

Concrete, described first direction can be: the finger tip pointed by described target is to the direction of described target Fingers root.As shown in fig. 2d, in the motion state of described thumb be: its finger tip on forefinger with the motion state of first direction movement i.e. its finger tip when index finger tip starts to refer to the motion state of root movement to forefinger, the present embodiment performs the second operational order on described electronic equipment.Described second operational order can be the operational order of Page forward.

Step 603: when described thumb is in the relative motion state of its finger tip with second direction movement on described target finger, perform the 3rd operational order.

Wherein, described second direction is different from described first direction.

Concrete, described second direction can be: the finger root pointed by described target is to the direction of described target finger fingertip.As shown in figure 2e, in the motion state of described thumb be: its finger tip on forefinger with the motion state of second direction movement i.e. its finger tip when forefinger refers to the motion state that root starts to index finger tip movement, the present embodiment performs the 3rd operational order on described electronic equipment.Described 3rd operational order can be the operational order of page turning backward.

With reference to figure 7, for the structural representation of a kind of controller embodiment five provided by the invention, wherein, described controller can be arranged in electronic equipment, described electronic equipment can be the mobile terminal that can be fixed on the first operating body, as the intelligent watch etc. in Wrist belt-type equipment.

As shown in Figure 2 a, stationary installation 1 and body apparatus 2 can be included in described electronic equipment, described stationary installation 1 at least has stationary state, described stationary installation can as annulus at least partially or meet the first pre-conditioned proximate annular space at least partially, described annulus or described proximate annular space described body apparatus 2 can be made relatively to be fixed on meet pre-conditioned column as described in the periphery of the first operating body.

In the present embodiment, described controller can comprise following structure:

Gesture acquiring unit 701, for utilizing the sensor on the target site being arranged on described first operating body, obtains the current gesture of described first operating body.

Wherein, described sensor can be fixed on the same target site of described first operating body with described electronic equipment, also can be different target sites.Such as, described electronic equipment is fixed in the wrist of described first operating body, and described sensor can be arranged in the wrist of described first operating body, also can be arranged on the finger of described first operating body.

Concrete, first can utilize the state running parameter on the target site of described first operating body of described sensor collection in the present embodiment, then based on these state running parameters, get the current gesture of described first operating body.

It should be noted that, the current gesture of described first operating body, can be understood as the limbs state of described first operating body, comprise the limbs attitude at each positions such as the arm position of described first operating body, wrist position and/or palm part, be not limited to the attitude of the finger part on described first operating body.

Instruction execution unit 702, for performing the operational order corresponding with described current gesture on described electronic equipment.

Wherein, described operational order is corresponding with described current gesture, that is, the corresponding relation list of instruction and gesture is previously provided with in the present embodiment, this corresponding relation list comprises multiple instruction, each instruction is respectively to there being a gesture, the present embodiment is after getting described current gesture, gesture in described current gesture and described corresponding relation list is compared, determine with deserve before after the consistent or similarity of gesture is greater than the target gesture of preset value, instruction corresponding for this target gesture is defined as the operational order corresponding with described current gesture, and then this operational order is performed on described electronic equipment.

From such scheme, in a kind of controller embodiment five provided by the invention, utilize the sensor be arranged on the target site of the first operating body, obtain the current gesture of this first operating body, and then be fixed on the operational order that on the electronic equipment on this first operating body, execution is corresponding with current gesture, in this process, other operating bodies without the need to being different from the first operating body coordinate, thus realize single operation body and operate object to carry out instruction control to electronic equipment to electronic equipment.

In specific implementation, described sensor can realize for myoelectric sensor, described myoelectric sensor is arranged on the target site of described first operating body as on wrist position, the N&M bioelectric state parameter of described first operating body in motion process on its wrist position can be got, i.e. myoelectricity parameter, described myoelectricity parameter can show the variable condition of described first operating body.The myoelectricity parameter that can collect based on described myoelectric sensor in the present embodiment obtains the current gesture of described first operating body.

Now, with reference to figure 8, be the structural representation of a kind of controller embodiment six provided by the invention, wherein, described gesture acquiring unit 701 can be realized by following structure:

First obtains subelement 711, for utilizing the myoelectric sensor on the wrist position being arranged on described first operating body, obtains the current gesture of described first operating body.

Concrete, the present embodiment utilizes the myoelectric sensor be arranged on described wrist position, gather the running parameter of the myoelectricity parameter of described wrist position in described first operating body active procedure, and then these running parameters are resolved, to determine and the gesture obtained in the described first operating body active procedure corresponding with described running parameter changes, i.e. current gesture.

It should be noted that, described myoelectric sensor needs to press close to the skin of wrist portion position on described first operating body to arrange, as shown in figure 2b, described myoelectric sensor 3 be arranged on described stationary installation 1 or described body apparatus 2 are pressed close to described first operating body inner side A on, to collect the running parameter of the myoelectricity parameter on described first operating body on wrist portion position accurately.

In specific implementation, described sensor can be fingerstall type sensor, described fingerstall type sensor setting in the target location of described first operating body as on finger position, the kinematic parameter that described first operating body wears the finger of described fingerstall type sensor in motion process can be got, as kinematic parameters such as lifting, press down, move.The kinematic parameter of described finger can show the variable condition that described first operating body is pointed.The kinematic parameter that can collect based on described fingerstall type sensor in the present embodiment obtains the current gesture of described first operating body.

Now, with reference to figure 9, be the structural representation of a kind of controller embodiment seven provided by the invention, wherein, described gesture acquiring unit 701 also can be realized by following structure:

Second obtains subelement 712, for utilizing the fingerstall type sensor on the finger position being arranged on described first operating body, obtains the current gesture of described first operating body.

Concrete, the present embodiment utilizes the fingerstall type sensor be arranged on described finger position, gather the running parameter of the kinematic parameter on the finger described first operating body being worn described fingerstall type sensor, and then these running parameters are resolved, to determine and the gesture obtained in the described first operating body active procedure corresponding with described running parameter changes, i.e. current gesture.

It should be noted that, described fingerstall type sensor can include multiple fingerstall, each fingerstall has induction chip, each fingerstall can be worn in the respective finger of described first operating body, as thumb and forefinger or other fingers etc., as illustrated in fig. 2 c, on the thumb that two fingerstall 4 of described fingerstall type sensor are separately positioned on described first operating body and forefinger, described electronic equipment is arranged on the wrist position of described first operating body, induction chip on described fingerstall 4 is pressed close to its finger skin worn and is arranged, to collect the running parameter of the kinematic parameter on described first operating body on finger position accurately.

The present embodiment can by motion state of each finger in the current gesture of described first operating body of parsing in specific implementation, and then when finger is in different motion states, described electronic equipment performs the operational order corresponding separately from described different motion state.These fingers can be thumb, forefinger or middle finger etc.

Concrete, with reference to Figure 10, be the structural representation of instruction execution unit 702 described in a kind of controller embodiment eight provided by the invention, wherein, described instruction execution unit 702 can comprise following structure:

State resolves subelement 721, for resolving the motion state of the thumb of the first operating body described in described current gesture.

Concrete, based on described current gesture in the present embodiment, resolve the motion state obtaining the thumb of described first operating body, such as, the moving direction between described thumb or mobile type etc.

Instruction performs subelement 722, for when described thumb is in different motion states, described electronic equipment performs the operational order corresponding separately from described different motion state.

Such as, the finger tip of described thumb is in different motion states, and now, the present embodiment performs corresponding operational order.

Concrete, as shown in Figure 11, for instruction described in the embodiment of the present invention performs the structural representation of subelement 722, described instruction performs subelement 722 can comprise following structure:

First execution module 1101, for be at described thumb its finger tip near target finger fingertip until contact motion state time, perform the first operational order.

Wherein, described target finger is the arbitrary finger in described first operating body except described thumb.For forefinger in the present embodiment, as illustrated in fig. 2 c, in the motion state of described thumb be: its finger tip near index finger tip until contact motion state time, the present embodiment performs the first operational order on described electronic equipment, and described first operational order can be the operational order clicked or choose.

Second execution module 1102, for be at described thumb its finger tip on described target finger with the motion state of first direction movement time, perform the second operational order.

Concrete, described first direction can be: the finger tip pointed by described target is to the direction of described target Fingers root.As shown in fig. 2d, in the motion state of described thumb be: its finger tip on forefinger with the motion state of first direction movement i.e. its finger tip when index finger tip starts to refer to the motion state of root movement to forefinger, the present embodiment performs the second operational order on described electronic equipment.Described second operational order can be the operational order of Page forward.

3rd execution module 1103, during for being in the relative motion state of its finger tip with second direction movement on described target finger at described thumb, performs the 3rd operational order.

Wherein, described second direction is different from described first direction.

Concrete, described second direction can be: the finger root pointed by described target is to the direction of described target finger fingertip.As shown in figure 2e, in the motion state of described thumb be: its finger tip on forefinger with the motion state of second direction movement i.e. its finger tip when forefinger refers to the motion state that root starts to index finger tip movement, the present embodiment performs the 3rd operational order on described electronic equipment.Described 3rd operational order can be the operational order of page turning backward.

With reference to Figure 12, for the structural representation of a kind of electronic equipment embodiment nine provided by the invention, wherein, in described electronic equipment, controller 5 can be included, described electronic equipment can be the mobile terminal that can be fixed on the first operating body, as the intelligent watch etc. in Wrist belt-type equipment.

Wherein, described controller 5, for utilizing the sensor on the target site being arranged on described first operating body, obtains the current gesture of described first operating body, and described electronic equipment performs the operational order corresponding with described current gesture.

Concrete, as as shown in Fig. 2 f, described electronic equipment can also have stationary installation 1 and body apparatus 2, described stationary installation 1 at least has stationary state, described stationary installation can as annulus at least partially or meet the first pre-conditioned proximate annular space at least partially, described annulus or described proximate annular space described body apparatus 2 can be made relatively to be fixed on meet pre-conditioned column as described in the periphery of the first operating body.Described controller 5 can be arranged on described stationary installation 1 or described body apparatus 2, and as shown in Fig. 2 f, described controller 5 is arranged on described body apparatus 2.

For aforesaid each embodiment of the method, in order to simple description, therefore it is all expressed as a series of combination of actions, but those skilled in the art should know, the application is not by the restriction of described sequence of movement, because according to the application, some step can adopt other orders or carry out simultaneously.Secondly, those skilled in the art also should know, the embodiment described in instructions all belongs to preferred embodiment, and involved action and module might not be that the application is necessary.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.For device disclosed in embodiment, because it corresponds to the method disclosed in Example, so description is fairly simple, relevant part illustrates see method part.

It should be noted that, in this article, the such as relational terms of first and second grades and so on is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

For convenience of description, various unit is divided into describe respectively with function when describing above device.Certainly, the function of each unit can be realized in same or multiple software and/or hardware when implementing the application.

As seen through the above description of the embodiments, those skilled in the art can be well understood to the mode that the application can add required general hardware platform by software and realizes.Based on such understanding, the technical scheme of the application can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the method described in some part of each embodiment of the application or embodiment.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the application.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from the spirit or scope of the application, can realize in other embodiments.Therefore, the application can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (11)

1. a control method, is applied to electronic equipment, and described electronic equipment is for being fixed on the first operating body, and described method comprises:

Utilize the sensor be arranged on the target site of described first operating body, obtain the current gesture of described first operating body;

Described electronic equipment performs the operational order corresponding with described current gesture.

2. method according to claim 1, is characterized in that, described sensor comprises myoelectric sensor;

Accordingly, described utilization is arranged on the sensor on the target site of described first operating body, obtains the current gesture of described first operating body, comprising:

Utilize the myoelectric sensor be arranged on the wrist position of described first operating body, obtain the current gesture of described first operating body.

3. method according to claim 1, is characterized in that, described sensor comprises fingerstall type sensor;

Accordingly, described utilization is arranged on the sensor on the target site of described first operating body, obtains the current gesture of described first operating body, comprising:

Utilize the fingerstall type sensor be arranged on the finger position of described first operating body, obtain the current gesture of described first operating body.

4. method according to claim 1, is characterized in that, the described operational order that execution is corresponding with described current gesture on described electronic equipment, comprising:

Resolve the motion state of the thumb of the first operating body described in described current gesture;

When described thumb is in different motion states, described electronic equipment performs the operational order corresponding separately from described different motion state.

5. method according to claim 4, is characterized in that, described when described thumb is in different motion states, performs the operational order corresponding separately from described different motion state, comprising:

Described thumb be in its finger tip near target finger fingertip until the motion state of contact time, perform the first operational order, described target finger is the arbitrary finger in described first operating body except described thumb;

Described thumb be in its finger tip on described target finger with the motion state of first direction movement time, perform the second operational order;

When described thumb is in the relative motion state of its finger tip with second direction movement on described target finger, perform the 3rd operational order;

Wherein, described second direction is different from described first direction.

6. a controller, is arranged at electronic equipment, and described electronic equipment is for being fixed on the first operating body, and described controller comprises:

Gesture acquiring unit, for utilizing the sensor on the target site being arranged on described first operating body, obtains the current gesture of described first operating body;

Instruction execution unit, for performing the operational order corresponding with described current gesture on described electronic equipment.

7. controller according to claim 6, is characterized in that, described sensor comprises myoelectric sensor;

Accordingly, described gesture acquiring unit comprises:

First obtains subelement, for utilizing the myoelectric sensor on the wrist position being arranged on described first operating body, obtains the current gesture of described first operating body.

8. controller according to claim 6, is characterized in that, described sensor comprises fingerstall type sensor;

Accordingly, described gesture acquiring unit comprises:

Second obtains subelement, for utilizing the fingerstall type sensor on the finger position being arranged on described first operating body, obtains the current gesture of described first operating body.

9. controller according to claim 6, is characterized in that, described instruction execution unit comprises:

State resolves subelement, for resolving the motion state of the thumb of the first operating body described in described current gesture;

Instruction performs subelement, for when described thumb is in different motion states, described electronic equipment performs the operational order corresponding separately from described different motion state.

10. controller according to claim 9, is characterized in that, described instruction performs subelement and comprises:

First execution module, for be at described thumb its finger tip near target finger fingertip until the motion state of contact time, perform the first operational order, described target finger is the arbitrary finger in described first operating body except described thumb;

Second execution module, for be at described thumb its finger tip on described target finger with the motion state of first direction movement time, perform the second operational order;

3rd execution module, during for being in the relative motion state of its finger tip with second direction movement on described target finger at described thumb, performs the 3rd operational order;

Wherein, described second direction is different from described first direction.

11. 1 kinds of electronic equipments, described electronic equipment comprises controller, and described electronic equipment is fixed on the first operating body, wherein:

Described controller, for utilizing the sensor on the target site being arranged on described first operating body, obtains the current gesture of described first operating body, and described electronic equipment performs the operational order corresponding with described current gesture.