CN105468267A - Gesture recognition method and system as well as mobile terminal - Google Patents

Abstract

The invention relates to the technical field of communication, and discloses a gesture recognition method and system as well as a mobile terminal. The method comprises the following steps: previously correlating the mobile terminal with at least one wearing device to realize the information interaction between the mobile terminal and the wearing device; obtaining a first motion track of the mobile terminal by the mobile terminal and receiving a second motion track, sent by the wearing equipment, of the wearing equipment; judging, by the mobile terminal, whether the first motion track and the second motion track accord with a preset condition; and if the first motion track and the second motion track accord with the preset condition, generating a gesture recognition signal. Through the manner, the wearing equipment is correlated to the mobile terminal, and then the mobile terminal judges the first motion track of the mobile terminal and the second motion track sent by the wearing equipment, so that a motion track of gesture recognition is increased to help the mobile terminal to judge whether unlocking is required at present and the possibility of spurious triggering is reduced.

Description

A kind of gesture identification method, system and mobile terminal

Technical field

The present invention relates to communication technical field, particularly a kind of gesture identification method, system and mobile terminal.

Background technology

The various gestures such as along with the development of intelligent terminal, touch-screen has become the feature of current mobile terminal indispensability, and user can be clicked by finger or pen on screen, dilatory complete corresponding operation to control electronic equipment.

Current unlocking manner is mainly unlock password, and gesture unlocks.These two kinds of modes respectively have relative merits, and pin mode commonly user clicks input through keyboard, belongs to traditional input mode, and input through keyboard is likely known by intercepting user's input by viral wooden horse, and security is lower.Gesture unlocks relatively simple, but encryption strength is inadequate, is easily found out gesture by other people.Meanwhile, because gesture unblock is hold the movement locus that intelligent terminal draws a letter or numeral and so on aloft mostly.Therefore, be easy to occur user by hand held for intelligent terminal middle time motion, when user is without unblock consciousness, make the movement locus of intelligent terminal be similar to unblock track, the possibility of false triggering is higher.

Summary of the invention

The object of the present invention is to provide a kind of gesture identification method, system and mobile terminal, wearable device is utilized to be associated with mobile terminal, mobile terminal is judged the second movement locus that the first movement locus of self and wearable device send, thus add the movement locus of a gesture identification, current the need of unblock to help mobile terminal to judge, reduce the possibility of false triggering.

For solving the problems of the technologies described above, embodiments of the present invention provide a kind of gesture identification method, are applied to the mobile terminal interconnected with at least one wearable device, comprise following steps:

Obtain the first movement locus of mobile terminal;

Receive the second movement locus of the wearable device that wearable device sends;

Judge whether the first movement locus and the second movement locus meet pre-conditioned;

If meet pre-conditioned, then produce gesture identification signal.

Embodiments of the present invention additionally provide a kind of mobile terminal, comprise: motion sensing unit, processing unit are with network Transmit-Receive Unit;

Motion sensing unit is for obtaining the first movement locus of mobile terminal;

Network Transmit-Receive Unit is for receiving the second movement locus of the wearable device of wearable device transmission;

Processing unit is for judging whether the first movement locus and the second movement locus meet pre-conditioned; If meet pre-conditioned, then processing unit produces gesture identification signal.

Embodiments of the present invention additionally provide a kind of gesture recognition system, comprise at least one wearable device and above-mentioned mobile terminal.

Mobile terminal in terms of existing technologies, is associated with at least one wearable device by embodiment of the present invention in advance, to realize the information interaction between mobile terminal and wearable device.First movement locus of acquisition for mobile terminal mobile terminal, and receive the second movement locus of the wearable device that wearable device sends, mobile terminal judges whether the first movement locus and the second movement locus meet pre-conditioned, if meet pre-conditioned, then produce gesture identification signal.In this way, wearable device is utilized to be associated with mobile terminal, mobile terminal is judged the second movement locus that the first movement locus of self and wearable device send, thus add the movement locus of a gesture identification, current the need of unblock to help mobile terminal to judge, reduce the possibility of false triggering.

In addition, before judging whether the first movement locus and the second movement locus meet pre-conditioned step, also following steps are comprised: calculate acquisition first movement locus and the time difference receiving the second movement locus; Judge whether time difference is less than or equal to preset difference value; If the determination result is YES, then enter and judge whether the first movement locus and the second movement locus meet pre-conditioned step.In this way, to guarantee within the scope of certain hour, mobile terminal and wearable device all have a movement locus, just carry out subsequent step, reduce further the possibility of erroneous judgement.

In addition, be pre-conditionedly: the current track that the first movement locus and the second movement locus are formed is combined as one of them that the multiple desired guiding trajectory in mobile terminal combine, thus provide multiple unlocking manner, better user experience for user.

In addition, before judging whether the first movement locus and the second movement locus meet pre-conditioned step, also following steps are comprised: judge that whether the first movement locus is one of them of multiple first registration tracks in mobile terminal; If the determination result is YES, then enter and judge whether the first movement locus and the second movement locus meet pre-conditioned step, thus improve judging efficiency, and provide possibility for saving power consumption.

In addition, the second movement locus of wearable device is obtained by wearable device, and is the multiple second registration tracks in wearable device one of them.Like this, wearable device can be made first to judge the movement locus of self, effectively decrease the processing load of mobile terminal, improve judging efficiency, reduce the power consumption of mobile terminal.

Accompanying drawing explanation

Fig. 1 is the process flow diagram according to a kind of gesture identification method in first embodiment of the invention;

Fig. 2 is the process flow diagram according to a kind of gesture identification method in second embodiment of the invention;

Fig. 3 is the block diagram according to a kind of mobile terminal in third embodiment of the invention;

Fig. 4 is the block diagram according to a kind of gesture recognition system in four embodiment of the invention.

Embodiment

For making the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, the embodiments of the present invention are explained in detail.But, persons of ordinary skill in the art may appreciate that in each embodiment of the present invention, proposing many ins and outs to make reader understand the application better.But, even without these ins and outs with based on the many variations of following embodiment and amendment, each claim of the application technical scheme required for protection also can be realized.

First embodiment of the present invention relates to a kind of gesture identification method, and be applied to the mobile terminal interconnected with at least one wearable device, idiographic flow as shown in Figure 1.The number of the wearable device in present embodiment is 1, and when reality uses, the number of wearable device also can be multiple.

Step 101, the first movement locus of acquisition for mobile terminal mobile terminal.

Specifically, gyroscope can be provided with in mobile terminal, utilize the movement locus of gyroscope to mobile terminal to detect, to obtain the first movement locus.

Step 102, mobile terminal receives the second movement locus of the wearable device that wearable device sends.

Specifically, mobile terminal and wearable device can be made to set up communication connection, as being equipped with a short-range communication module in mobile terminal and wearable device, as bluetooth module, Bluetooth pairing success then establishes a communications link, to realize the information interaction between mobile terminal and wearable device.Further, also can be provided with gyroscope in wearable device, utilize the movement locus of gyroscope to wearable device to detect, to obtain the second movement locus.

Step 103, mobile terminal judges whether the first movement locus and the second movement locus meet pre-conditioned.If then perform step 104, otherwise terminate.

Wherein, pre-conditioned can have multiple, below citing be described:

The first is pre-conditioned is: the first movement locus and the second movement locus match.As when reality uses, mobile terminal can judge that whether the first movement locus is identical with the second movement locus, if movement locus is identical, then the match is successful.As, the first movement locus of mobile terminal is " A ", and receive the second movement locus of wearable device for " A ", then the match is successful, meets pre-conditioned, otherwise do not meet pre-conditioned.

The second is pre-conditioned is: the current track that the first movement locus and the second movement locus are formed is combined as one of them that the multiple desired guiding trajectory in mobile terminal combine.As when reality uses, the corresponding relation of the first movement locus and the second movement locus can be preset with in mobile terminal, this corresponding relation can the table of comparisons form exist, the such as first movement locus-the second movement locus table of comparisons, by the mode of tabling look-up, mobile terminal judges whether the first movement locus and the second movement locus meet pre-conditioned.As, the first movement locus is " 1 ", and mobile terminal obtains the second corresponding movement locus for " 2 " by the mode of tabling look-up, if the first movement locus that user inputs is " 1 ", the second movement locus is " 2 ", then judgement meets pre-conditioned.

Preferably, in the second is pre-conditioned, before judging whether the first movement locus and the second movement locus meet pre-conditioned step, following steps can also be provided with: mobile terminal judges that whether the first movement locus is one of them of multiple first registration tracks in mobile terminal; If result is yes, then enters and judge whether the first movement locus and the second movement locus meet pre-conditioned step.Like this, mobile terminal judges the first movement locus in advance, in the qualified situation of judgement first movement locus, just performs step 103, improves judging efficiency.And, when practical operation, can also make in the qualified situation of judgement first movement locus, mobile terminal just opens short-range communication module and wearable device establishes a communications link, thus when not affecting mobile terminal and wearable device information interaction, saved power consumption.

It is worth mentioning that, the second movement locus of wearable device is obtained by wearable device, and is the multiple second registration tracks in wearable device one of them.That is, in wearable device, have multiple second registration track in advance, to make wearable device first to judge the movement locus of self, thus effectively decrease the processing load of mobile terminal, improve judging efficiency, reduce the power consumption of mobile terminal.

Step 104, mobile terminal produces gesture identification signal.Wherein, gesture identification signal can be that vibration, the tinkle of bells, triggering display screen are bright etc.

It is worth mentioning that can also have in mobile terminal " the first movement locus, the second movement locus combination-unlock the application table of comparisons ".As, unblock corresponding to the first movement locus that user inputs, the second movement locus combine is applied as unties screen locking, when the mode of mobile terminal by tabling look-up, judge the first movement locus, the second movement locus meet this pre-conditioned time, then solution is spread its tail lock, thus provides good functional experience for user.

In present embodiment, in advance mobile terminal is associated with at least one wearable device, to realize the information interaction between mobile terminal and wearable device.First movement locus of acquisition for mobile terminal mobile terminal, and receive the second movement locus of the wearable device that wearable device sends, mobile terminal judges whether the first movement locus and the second movement locus meet pre-conditioned, if meet pre-conditioned, then produce gesture identification signal.In this way, wearable device is utilized to be associated with mobile terminal, mobile terminal is judged the second movement locus that the first movement locus of self and wearable device send, thus add the movement locus of a gesture identification, current the need of unblock to help mobile terminal to judge, reduce the possibility of false triggering.

Second embodiment of the present invention relates to a kind of gesture identification method, and idiographic flow as shown in Figure 2.Second embodiment is improved on the basis of the first embodiment, and main improvements are: in second embodiment of the invention, also limit unlocked time, thus further reduces the possibility of erroneous judgement.

Step 201 in present embodiment is roughly the same to step 102 with the step 101 in the first embodiment to step 202, and step 205 is roughly the same to step 104 with the step 103 in the first embodiment to step 206, for avoiding repetition, does not repeat them here.Below different piece is described:

Step 203, calculates the difference of the time of acquisition first movement locus and reception the second movement locus.

Specifically, can be provided with timer at mobile terminal, mobile terminal carries out record by timer to acquisition first movement locus and the time receiving the second movement locus, and calculates.As the acquisition time point of time of reception point-the first movement locus of time difference=the second movement locus, by the difference of gained, get its absolute value.

Step 204, judges whether time difference is less than or equal to preset difference value.If so, then perform step 205, otherwise terminate.Wherein, preset difference value is by user or go out manufacturer and preserve in advance in the terminal.

Specifically, the time difference of acquisition and preset difference value carry out doing difference to produce error difference, to judge whether time difference is less than or equal to preset difference value by mobile terminal.As: error difference=time difference-preset difference value, whether mobile terminal error in judgement difference is positive number, if so, represents that time difference is greater than preset difference value, otherwise represents that time difference is less than or equal to preset difference value.

In present embodiment, before judging whether the first movement locus and the second movement locus meet pre-conditioned step, also comprise following steps: calculate acquisition first movement locus and the time difference receiving the second movement locus; Judge whether time difference is less than or equal to preset difference value; If the determination result is YES, then enter and judge whether the first movement locus and the second movement locus meet pre-conditioned step.In this way, to guarantee within the scope of certain hour, mobile terminal and wearable device all have a movement locus, just carry out subsequent step, reduce the possibility of erroneous judgement.

The step of various method divides above, just in order to be described clearly, can merge into a step or splitting some step, being decomposed into multiple step, when realizing as long as comprise identical logical relation, all in the protection domain of this patent; To adding inessential amendment in algorithm or in flow process or introducing inessential design, but the core design not changing its algorithm and flow process is all in the protection domain of this patent.

Third embodiment of the invention relates to a kind of mobile terminal, as shown in Figure 3.The gesture identification method that what the mobile terminal in present embodiment may correspond to be applied in the first embodiment or the second embodiment.Mobile terminal comprises:

Motion sensing unit, processing unit and network Transmit-Receive Unit.Wherein, motion sensing unit is gyroscope.

Motion sensing unit is for obtaining the first movement locus of mobile terminal;

Network Transmit-Receive Unit is for receiving the second movement locus of the wearable device of wearable device transmission;

Processing unit is for judging whether the first movement locus and the second movement locus meet pre-conditioned; If meet pre-conditioned, then processing unit produces gesture identification signal.

It is worth mentioning that, the mobile terminal in present embodiment can also comprise timing unit;

Timing unit is for calculating acquisition first movement locus and the time difference receiving the second movement locus;

Processing unit is also for judging whether time difference is less than or equal to preset difference value; If the determination result is YES, then processing unit judges whether the first movement locus and the second movement locus meet pre-conditioned.

It is worth mentioning that, each module involved in present embodiment is logic module, and in actual applications, a logical block can be a physical location, also can be a part for a physical location, can also realize with the combination of multiple physical location.In addition, in order to outstanding innovative part of the present invention, the unit not too close with solving technical matters relation proposed by the invention is not introduced in present embodiment, but this does not show the unit that there is not other in present embodiment.

Four embodiment of the invention relates to a kind of gesture recognition system, as shown in Figure 4, comprises: the mobile terminal at least one wearable device and the 3rd embodiment.

Wearable device in present embodiment can be N number of, wherein N be more than or equal to 1 natural number.When reality uses, can according to the number of wearable device, the movement locus of adaptive increase gesture identification.As, when wearable device is 1, then mobile terminal judges whether the second movement locus that the first movement locus of mobile terminal and wearable device send meets pre-conditioned; When wearable device is 2, then mobile terminal judges whether the second movement locus that the first movement locus of mobile terminal, the second movement locus of " the 1st " wearable device transmission and " the 2nd " wearable device send meets pre-conditioned.Like this, by adding the mode of the movement locus of one or more gesture identification, the possibility of false triggering is reduced.

Be not difficult to find, present embodiment is the system embodiment corresponding with the first or second embodiment, and present embodiment can be worked in coordination with the first or second embodiment and be implemented.The relevant technical details mentioned in first or second embodiment is still effective in the present embodiment, in order to reduce repetition, repeats no more here.Correspondingly, the relevant technical details mentioned in present embodiment also can be applicable in the first or second embodiment.

Persons of ordinary skill in the art may appreciate that the respective embodiments described above realize specific embodiments of the invention, and in actual applications, various change can be done to it in the form and details, and without departing from the spirit and scope of the present invention.

Claims (10)

1. a gesture identification method, is characterized in that, be applied to the mobile terminal interconnected with at least one wearable device, described gesture identification method comprises following steps:

Obtain the first movement locus of described mobile terminal;

Receive the second movement locus of the described wearable device that described wearable device sends;

Judge whether described first movement locus and described second movement locus meet pre-conditioned;

If meet described pre-conditioned, then produce gesture identification signal.

2. gesture identification method according to claim 1, is characterized in that, before judging whether described first movement locus and described second movement locus meet pre-conditioned step, also comprises following steps:

Calculate and obtain described first movement locus and the time difference receiving described second movement locus;

Judge whether described time difference is less than or equal to preset difference value;

If the determination result is YES, then enter and judge whether described first movement locus and described second movement locus meet pre-conditioned step.

3. gesture identification method according to claim 1, is characterized in that, is describedly pre-conditionedly: the current track that described first movement locus and described second movement locus are formed is combined as one of them that the multiple desired guiding trajectory in described mobile terminal combine.

4. gesture identification method according to claim 3, is characterized in that, before judging whether described first movement locus and described second movement locus meet pre-conditioned step, also comprises following steps:

Judge that whether described first movement locus is one of them of multiple first registration tracks in described mobile terminal;

If the determination result is YES, then enter and judge whether described first movement locus and described second movement locus meet pre-conditioned step.

5. gesture identification method according to claim 4, is characterized in that, the second movement locus of described wearable device is obtained by described wearable device, and is the multiple second registration tracks in described wearable device one of them.

6. gesture identification method according to claim 1, is characterized in that, is describedly pre-conditionedly: described first movement locus and described second movement locus match.

7. a mobile terminal, is characterized in that, is applied to the gesture identification method in claim 1 to 6 described in any one, and described mobile terminal comprises: motion sensing unit, processing unit and network Transmit-Receive Unit;

Described motion sensing unit is for obtaining the first movement locus of described mobile terminal;

Described network Transmit-Receive Unit is for receiving the second movement locus of the described wearable device of described wearable device transmission;

Described processing unit is for judging whether described first movement locus and described second movement locus meet pre-conditioned; If meet described pre-conditioned, then described processing unit produces described gesture identification signal.

8. mobile terminal according to claim 7, is characterized in that, described mobile terminal also comprises timing unit;

Described timing unit obtains described first movement locus and the time difference receiving described second movement locus for calculating;

Described processing unit is also for judging whether described time difference is less than or equal to preset difference value; If the determination result is YES, then described processing unit judges whether described first movement locus and described second movement locus meet pre-conditioned.

9. mobile terminal according to claim 7, is characterized in that, described motion sensing unit is gyroscope.

10. a gesture recognition system, is characterized in that, comprises the mobile terminal described in any one at least one wearable device and claim 7 to 9.