CN107340850A

CN107340850A - A kind of method that motion class App perform functions are controlled using sensor

Info

Publication number: CN107340850A
Application number: CN201610280454.8A
Authority: CN
Inventors: 单正建
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-05-03
Filing date: 2016-05-03
Publication date: 2017-11-10

Abstract

With the progress of science and technology, move that App function is stronger and stronger, but some functions of needing to be performed during exercise have just perplexed user.Because the touch-screen control of traditional mode such as intelligent terminal/mobile phone is not suitable for operating during exercise, so this method utilizes the sensor for perceiving exterior object triggering of intelligent terminal/mobile phone such as close to range sensor or radar sensor, by monitoring external trigger, judge whether triggering is pre-defined triggering command, after if differentiation is pre-defined instruction, that is, perform the instruction in App corresponding to the instruction or function.With it, then the control to App can be realized in the case where not changing the motion state of sporter, comprising to moving App basic function and expanded function such as voice, music, imaging, take pictures, so as to facilitate user.

Description

A kind of method that motion class App perform functions are controlled using sensor

Technical field

The disclosure is a kind of method for being instructed using the instruction of the Sensor monitoring external trigger of intelligent terminal or the perception exterior object ability of mobile phone, identification and performing App instructions or function, purpose is functional module in motion class App or instruction module is carried out by sensor-triggered, so as to convenient use person and improves the precision of motion class App data analyses.

Background technology

The App of type of sports includes running, walked, footrace, bicycle, motorcycle, fishing, golf etc. are absorbed in the App of sports events or record the App of motion during exercise.This kind of App is generally by monitoring GPS, in acceleration transducer etc. or other intelligent terminal/mobile phone, external sensor, according to the specific sampling period, collect the information of each related sensor, and pass through calculation formula, by displacement, the discrepancy in elevation, time, acceleration transducer X, Y, the amplitude of variation of tri- directional accelerations of Z and other associated sensor feedacks etc., integrated treatment, form track, count, move distance, movement velocity, the heat of consumption, the achievement moved every time compares, so as to allow motion App user than more comprehensively understanding motion process, movement effects.In order to more adapt to the demand of the scene of motion and sporter, some App also add duplex/half-duplex voice communications ability, it can be linked up with other people during exercise, some adds takes pictures or the function of video record in motion, process in record motion, such as the App for walking or climbing the mountain, taken pictures when needing to take pictures, and record time and GPS position information.By taking bicycle and running App as an example, sporter in movement arm band/arm bag or motion purse/band, in the sensor acquisition function using preceding opening movement App, acquisition function is closed after motion terminates and forms motion report generally by intelligent terminal or mobile phone.For general population, this is not any problem in itself, but the sporter for wishing more accurately to understand movable information just has the problem of larger, and its reason is as follows：After motion App being run usually using person, intelligent terminal or mobile phone are loaded in arm band, arm bag or motion waist/band bag, then just setting in motion, and now there is a time difference, i.e. the App opening times are not equal with the motion time started, and run duration will generally be later than some seconds of time even some minutes that App opens collection exercise data.After motion terminates, sporter takes out intelligent terminal, mobile phone from arm band/arm bag, Sports belt, then stops collection, and during this, the actual motion end time is again prior to some seconds of end time kind even some minutes of App collections.So a beginning, an end, just add certain error, include the data of the various sensors such as time and displacement and acceleration transducer.Motion for the long period, sporter midway may go to toilet, may also be because of pause motions such as other reasonses, every time during pause, it is required for resetting intelligent terminal or mobile phone, some seconds errors to even some minutes ranks can be increased every time, and sporter is also very inconvenient, since it is desired that repeatedly from arm bag/Sports belt in take out intelligent terminal/mobile phone input instruction (the arm band with transparent window can by screen input control, and other kinds of bag can only take out intelligent terminal, mobile phone is controlled).We are it is also known that it is to have acceleration, a moderating process that sporter, which will reach some motion state/speed, simultaneously, for example run marathon, when sporter is to terminal, all without stopping immediately, and a process progressively slowed down is needed, on the one hand it is physical cause, it is often more important that physiological reason, App acquisition functions are turned off when stopping so waiting, then it is just bigger by the data that formula calculates and actual deviation.In addition, as technology develops, motion class App function becomes increasingly abundant, and various functions, the during exercise control of every kind of function such as includes voice, music, takes pictures, photographs and also having perplexed user.In order to solve the above problems, famous motion App Nike running develop solves the problem by line control earphone, but in fact, using earphone line control control application, it is necessary to more key combinations in fortune, so the person of needing to use remembers various instructing combinations, for user, usage experience can decline, and can disperse the notice of user in motion process, this moves such as bicycle, motorcycle sport for higher speed, may be potential risks source；Secondly：The instruction of more key combinations, itself it is also required to user and touches key and then just press, it is impossible to instruction is formed immediately, so certain deviation on the time be present；3rd：The earphone cord of line control earphone also more or less disturbed motion person in itself, so many sporters are not liked using line control earphone.And our rule utilizes the sensor for possessing exterior object perception such as close to range sensor or radar sensor, can monitors the distance or shape of the triggering object (hand of such as user) of outside in the case of intelligent terminal/mobile phone blank screen, according to object close to distance and the shape of time and object such as certain gestures, form instruction, so as to make sporter in the formal beginning of motion, moving pause, motion continues, to stop motion or some other instructions, can be by possessing the sensor of exterior object perception, performed according to the instruction triggers of agreement, the method and the newest method controlled by earphone line control or bluetooth earphone that real-time is controlled with ease for use far above tradition by intelligent terminal touch screen curtain.

The content of the invention

The problem of in order to overcome the real-time control in presently relevant motion App fields and convenient use, and fully meet the actual demand of sporter, this is using the method for sensor control motion class App perform functions by monitoring the sensor such as proximity transducer (proximity sensor) or radar sensor of intelligent terminal/outer handset object perception, according to the triggering pattern appointed, monitoring triggering, and judge after the instruction to pre-define is triggered, instructed corresponding to performing, turn into App instruction input so as to allow the contact of exterior object to trigger the instruction encoding formed or given shape such as gesture, convenient realize in real time is controlled App.When the instruction of sporter be able to conveniently, perform in real time after, it is possible to improve present in motion App fields at present it is inconvenient for use with because control method is not suitable for moving scene and caused by problems.

This is using the method for sensor control motion class App perform functions：Instruction is received using the exterior object detecting sensor of intelligent terminal/mobile phone, the triggering command then received according to sensor, performs function corresponding to App.Common exterior object detecting sensor has close to range sensor (proximity sensor) and radar sensor.Exterior object and the distance of sensor and time of contact/duration are detected close to range sensor, does not detect the shape of exterior object；Radar sensor is then with the shape of ultrasonic listening exterior object with contacting duration/time and distance.When being inputted as external command, closely (＜ 1cm) or the zero distance contact for detecting sensor close to range sensor and contact duration scope, form coding, when setting some and being encoded to corresponding instruction, just become instruction encoding, when external trigger is some instruction encoding, then corresponding instruction is performed, so as to control some instructions or the execution of function in motion class App.And radar sensor, then using gesture as definition, when radar monitors that gesture triggers, and after identifying that the gesture is instruction set in advance, corresponding instruction is performed, so as to control some instructions or the execution of function in motion class App.

It is one of indispensable senser element of current intelligent terminal/mobile phone close to range sensor (proximity sensor), when human ear/face is close to handset touch panel during for traffic, touch-screen will turn off so as to be mobile phone power saving while avoid the false triggering of ear, face to screen.The proximity transducer of intelligent terminal/mobile phone can generally return with centimetre for parasang value, but actually a large amount of smart mobile phones only return to remote or nearly two values, so in the method, using remote or nearly two values, coordinate remote or near time span value, form instruction encoding.

Radar sensor is the following sensor for being applied in intelligent terminal/mobile phone, the sensor is as a kind of important input mode in addition to screen input is touched, by the gesture for presetting user, characteristic is formed in intelligent terminal, in triggering, according to the gesture detected and default Characteristic Contrast before, after the gesture for confirming the input is feature set in advance, then performs and preset corresponding instruction.

Brief description of the drawings

Below in conjunction with the accompanying drawings to the further explanation of this method.

Fig. 1 is according to a kind of flow chart that the method for moving class App perform functions is controlled using sensor of the disclosure.

Fig. 2 is the implementation using triggering times as instruction encoding by close to exemplified by range sensor.

Fig. 3 is the implementation of a length of coding during triggering by close to exemplified by range sensor.

Embodiment

Embodiment and specific data such as time, coding etc. described in following exemplary embodiment, do not represent all embodiments consistent with the disclosure, conversely, they are only the consistent methods of some aspects of the disclosure with being described in such as appended power book, external trigger is received using sensor, identification external trigger instruction, performs the associated function of the corresponding instruction of sensor-triggered, external sensor, control motion class App purpose are utilized so as to realize.

Class App is moved because the different difference of motion that it pay close attention to are also bigger, such as running class and cycling class, it is of interest that distance, speed, the discrepancy in elevation, the gradient, heat for consuming etc..And shooting then helps user to calculate shooting parameter according to environmental condition；So this method is applied to the motion of the moving scene that can be more convenient user by sensor and control App, the particularly type such as running, cycling.In class App is moved, if using sensor come input instruction, execute instruction, it is usually because performing App instructions by other means is not suitable for motion characteristics, such as when running, riding motor by screen control application, the scene of obvious uncomfortable resultant motion, and controlled and applied by sensor, the sensor of exterior object type can be particularly detected, then can more easily realize control without change or disturbed motion state.

Under normal circumstances, when moving class App and needing sensor to be inputted as control instruction, it is necessary to according to flow as shown in Figure 1.S101 is initializing sensor, and after the completion of initialization, sensor will work according to setup parameter.S102, sensor is monitored, when completing to initialize, after normal operation of sensor, App can monitor the triggering of sensor；After sensor is triggered, then S103 steps are performed, whether identification triggering is set instruction, is the instruction of which bar, after it is determined which bar instruction triggering to instruct and determining be, performs S104 steps, functional module corresponding to execute instruction and application.S101 is to S104 steps, usually as functional module, in motion class App code segment.In mobile App programmings, the particularly fairly simple sensor of feedback parameter, generally S102 and S103 is realized in same section of code segment, and the more complicated sensor for being related to pattern-recognition and signal analysis, when needing complicated calculations, then need S102 and S103 points in different functional modules.

Step S101 should be initializing sensor, set the parameter of working sensor, generally comprise the frequency to sensor sample, sensor is parameter of foreground or background work, the threshold values of sensor-triggered and sensor characteristics association etc..The setting of sample frequency will be set according to scene characteristic, than that cannot be a second rank if desired for the sample frequency of the triggering being immediately performed, sensor, it is required that the instruction that response is faster, sensor sample frequency is higher, according to scene demand, can set the sample frequency from 1 millisecond to second level.For move class software, when generally passing through sensor-triggered, need not typically open terminal screen, secondly, sensor should wait at any time it is to be triggered, so generally sensor to be arranged to background work, the class parameter of the above two is more common.And parameter as other sensors is, it is necessary to class declaration according to sensor.

Step S102 is monitoring sensor, in intelligent terminal or mobile phone, the function is generally by operating system as event handling, but after the sensor is triggered, operating system will can be triggered as event, the information of association is sent to the code segment in the App for calling the sensor, so the code that the sensor is monitored in App is actually to intercept the event information of operating system feedback.Certain application program can also get around the resource of operating system, directly monitor sensor.No matter which kind of mode, but follow the mechanism of event handling, and trigger event occur after be just immediately performed corresponding code, with response events.

Step S103 instructs for identification, because after sensor receives triggering, only it is feedback triggering, but the whether so-called instruction of triggering then needs S103 to judge, the information of system feedback after S103 will trigger according to S102, such as time to approach, the waveform formed, the signal of reception, contact distance, contact shape etc. are identified and adjudicated.But it is generally divided into certainty instruction to instruct with approximation.Certainty instruction is for example with close to range sensor, and be less than 400ms twice in succession in 3 seconds is exactly sign on close to triggering, then triggering the instruction needs object quickly in 3 seconds twice close to range sensor.The instruction being to determine once differentiating, in the absence of error.If using radar sensor, it is actually then approximation triggering command, when initially setting up instruction, the signal of some gesture have received by radar sensor and regard the signal characteristic as specific instruction template, after sensor receives outer triggering signal, the feature of all instructions can be contrasted, find out degree of approximation highest that template, for example the degree of approximation only has 60% after some possible triggering contrast, approve if the approximate threshold values set is 60%, then think that the gesture seeks to perform the order, but actually, the gesture may be similar to triggering command, but it is not the gesture initially determined that.And by threshold values be adjusted to 100% with when; because signal characteristic produced by the feature templates of instruction and triggering can not possibly be completely the same; the just gesture at last; the multiple triggering command that just has an opportunity of triggering may also be needed; so radar, image recognition are all the instruction modes of approximation, certain systematic error be present, it will usually set the threshold values of aspect ratio pair; when similar more than some value such as 90%, then approve that gesture input instruction is exactly instruction set in advance.

Step S104 is execute instruction and corresponding function, usual App needs the control that people operates to be realized by touching screen, so corresponding function or function are all completed when designing program, and sensor-triggered is exactly to simplify operation, so after S103 is identified, the function and functional module of corresponding instruction are directly invoked, is achieved that control of the sensor to App.

Because the starting point for moving App is different, so needing the requirement of external sensor triggering perform function also different, by taking running software as an example, it usually needs start, suspend, continuing, terminating four instructions.In real work, four instructions in fact at most need two triggering commands, because when App is run, not starting to also run calculates, when receiving the instruction, then it is assumed that is to start.When APP, which has begun to timing, to be counted, the triggering command is received, then it is assumed that be pause；When receiving the instruction again when state is pause, then it is assumed that be to continue with, at the end of final, if with the instruction, it is another pause that App, which will be considered that, and so motion terminates rear App user several segment datas are uniformly processed, and formation is reported.An external command has so only been used, but has added the work that application is operated after sporter moves.And increasing an external trigger END instruction, then system oneself calculates the data of these sections from start to end and forms report.

But during motion App for needing the instruction of multiple external triggers, then when needing to contain music control function or other correlation functions in multiple instruction, such as running software.In order to solve problem according to motion App scene characteristic, the realization to illustrate following several instruction encodings close to exemplified by range sensor；

The mode of flip-flop number：This method is adapted to the scene of only several instructions, usually in the range of preset time, such as in 4 seconds, exterior object is triggered close to range sensor several times with instruction mode (such as ＜ 500ms close to triggering), for example it is that A is instructed to define 1 time, 2 times are that B is instructed, and 3 times are C instructions etc..Technology implementation process is as shown in Figure 2.A submodule of the sensor control section usually as App, S201 is the beginning of the module, initial value T1=0, T1 is the time window value for receiving instruction, in this example, window value 4S, after i.e. sensor is triggered, the triggering in 4 seconds is only received, when the time is up, only counts the number of the legal triggering in the time window.T2=0, T2 are the time of contact triggering, i.e., after object proximity sensor, leave the time span of sensor again.In this example, a length of ＜ 500ms of legal time of contact, the i.e. triggering more than this time think to be probably false triggering, are calculated not as instruction.N be triggering number, initial N=0；

S202 is to judge whether sensor is triggered, if it is triggered, then perform S203 steps, judge whether T1 has begun to timing, as T1 ＜=0, it is to trigger for the first time to illustrate this, then perform S204 steps, T1 calling system time clock features start timing, if T1 ＞=0, it has been subsequent triggers to illustrate the triggering；So want judgment step S205, such as T1 ＜=4S, illustrate the triggering in instruction window, then perform step S206, see whether triggering is that legal triggering triggers duration T2 ＜ 500ms, if legal triggering, then performs S207 steps, location counter N+1, wait triggering next time；If S206 triggering is more than 500ms, then it is assumed that is illegal triggering, returns to sensor and monitor S202.When T1 ＞ 4s illustrate that time window has timed, out in S205 steps, then execution S208 steps, N is set to by instruction count, and by T1, T2, N are set to zero, waits triggering next time.The S029 then instructions according to corresponding to performing N value, such as N=2, then perform corresponding to 2 and instruct.S210 is judging certainly for T1 timers, as overtime ＞ 4S, i.e., directly performs S208 steps.The method of flip-flop number is practically applicable to instruction less and can tolerate the environment of non-immediate execute instruction, because instruction window just can determine that what have received on earth instructs after terminating.

When to trigger in a manner of a length of coding：Which is better than flip-flop number, the basis using the duration of triggering as coding, is, for example, less than that 300ms be short triggering close to triggering, the triggering more than 300ms to 800ms triggers to be long, the coding of such length triggering combination can then form some instructions.Its principle is similar to Morse code, short triggering is equivalent to " ", and long triggering is equivalent to "-", if by taking binary system as an example, assuming that short triggering is equivalent to 1, long triggering combines equivalent to 0, such 1,0, it is formed binary code, but no matter should not all be grown according to Morse code or binary code mode, instruction encoding, otherwise App user will remember excessive coding.Such as 50 are adjusted to from 100 for the instruction such as volume adjusting of micro-adjustment, subtract 5 every time, just volume can be adjusted to target defeated 10 times repeatedly, if being encoded to 111 or " ... ", need short 30 times triggering just to reach instruction purpose.But the instruction encoding is relatively adapted to start, suspends this kind of instruction.The instruction of a length of coding during triggering, 2 triggerings are characterized in, 4 instructions can be combined, 3 triggerings can be combined into 8 instructions, and 4 triggerings are combined, and can be combined as 16 instructions.Longer, more inconvenient user is encoded, but is much better than the instruction encoding mode of flip-flop number.

Fig. 3 is the technology implementation process of this mode.The command reception window phase of this is 4 seconds, that is to say, that in a triggered, if not receiving predetermined instruction in 4 seconds, closes the window, all triggerings received are reset, and wait triggering next time.The triggering time of contact of short triggering is ＜ 300ms, and the time of contact of long triggering is more than 300ms, less than 800ms.S301 is starts, and initial T1 instruction windows timer is 0, and a length of T2=0 when triggering contacts, the instruction received is Cstr, and the initial instruction is " " for sky.S302 is monitoring sensor-triggered, if receive triggering, then perform S303, whether S303 instruction windows start timing, if having begun to, perform S305 steps, triggered for the first time if belonging to, S304 steps are then performed, are triggered for the first time when the triggering belongs to, then T1 starts calling system clock timing and started.Whether S305 decision instructions window is overtime, if it times out, performing S308 steps, initial T1, T2 are Cstr, and return to S302 and continue to monitor.If in window time, S306 steps are then performed, if triggering contact duration ＜=300ms, for short triggering, if greater than 300ms, S307 is then performed, determines whether to grow triggering, that is, triggers the triggering within duration 300ms ＜ T2 ＜ 800ms and is triggered to be long, if triggering is nor long triggering, then it is considered invalid triggering, returns to S302 steps, continues to monitor sensor-triggered.The triggering for meeting S306 and S307 is that short triggering triggers with long respectively, and using Morse code as reference, short triggering is " ", and long triggering is "-".It according to triggering is strings of commands Cstr assignment that S309 and S310 steps, which are,.S311 steps are performed after assignment, judge whether Cstr is instruction encoding set in advance, if it is, performing S312 steps, T1, T2 and Cstr will be initialized, S313 steps is then performed, is instructed corresponding to execution.If S311 judges that Cstr is not instruction encoding set in advance, S302 is returned, waits triggering next time.

The principle formed when triggering in a manner of a length of coding with reference to Morse code, using duration is triggered, completes the input of sensors command, itself is also a kind of exploration with reference to conventional art and new technology.For example SOS is exactly the coding that recognizes of a whole world i.e. " ... --- ... " of Morse code, three is short, three length and then short repeatedly.It if run into particular risk, when the user of intelligent terminal/mobile phone can not directly call, for example can carry with school bag or in pocket, SOS can triggered with close to range sensor, rear personnel can be carried out rescuing.Certainly this, which is also required to App or the operating system of intelligent terminal, increases the function.

Its is with the obvious advantage in a manner of a length of coding when to trigger, but its inferior position is that user is not easy to remember when instructing more, and when particularly fine setting instructs, input number also compares more.But if when being triggered based on App state in which after the mode of a length of coding, then it can significantly improve the inferior position of the coding.This is referred to as a kind of instruction encoding of a length of coding when conditional code adds triggering.

The instruction encoding of a length of coding when conditional code adds triggering：Such as after intelligent terminal incoming call be a kind of state, intelligent terminal is a kind of state playing music, when a call comes, plays concert pause, music pause is also a kind of state in itself.As example, during incoming call, intelligent terminal belongs to ringing condition, in this case if definition short triggering twice to pick up phone, sensor picks up phone after receiving short triggering twice；After picking up phone, belong to presence again, now triggered if definition is short twice to hang up, then sensor has hung phone after receiving short triggering twice.After having hung phone, the music player on backstage may proceed to play, it is assumed that two short triggering suspends for music, then receives two short triggerings when playing, then music is suspended；Receive two short triggerings again when music is in halted state, then music continues to play.So the method for a length of coding during triggering is added to be more suitable for the motion class App of intelligent terminal or mobile phone with state, above-mentioned example has only used i.e. two short contacts " .. " of instruction, thing could be completed by just completing other instruction encoding mode multiple instructions, so more convenient user.Certainly also certain state can be entered by external trigger, for example set more than 800ms, contact less than 1500ms is that the triggering of duplex state is done into voice, into after the state, after object proximity is less than the triggering threshold values of sensor, begins to send out voice messaging to other people, realize the function of walkie-talkie, so that information is informed into other people during exercise, for example climb the mountain or the App. of bicycle class.

Gesture feature is instruction encoding：This is applied to radar sensor, and the sensor detects and calculates certain gestures and the feature of gesture change.In App, association of the setting instruction with corresponding gesture or gesture variation characteristic is first had to, that is, detects gesture, calculates feature, stores feature, feature is corresponding with instruction, so as to complete to initialize；Secondly, the triggering of radar sensor is monitored, and calculates the feature of triggering gesture；3rd, contrast triggers feature and feature during initialization directive, finds degree of approximation highest feature；4th, judgement exceedes threshold values when the degree of approximation, then performs instruction corresponding during initialization directive corresponding to this feature.

Above is intelligent terminal/mobile phone possesses method of the sensor of detection exterior object ability as motion class App instruction controls, in sensor difference or during application scenarios difference, the instruction encoding mode that can generally use.The disclosure is only to have lifted 4 kinds of instruction encodings, but does not represent all instruction encodings for containing the function with sensor-triggered motion App, on the contrary, other instruction encodings are only a kind of concrete implementations of the disclosure.The disclosure is using the method for sensor control motion class App perform functions, and the essence of method is to utilize sensor control motion class App to perform concrete function rather than certain instruction coding method in App.

When intelligent terminal or mobile phone are accommodated in by sporter to be possessed close in movement arm band/arm bag/motion purse of the reception window (being exactly that a hole for not hindering working sensor is unwrapped in this kind of motion in fact) of range sensor/radar sensor, in motion, only need to contact hand according to instruction encoding or close to the window, then just trigger instruction.Such as by taking the well-known Nike running of industry as an example, control now starts, it is necessary to press multiple keys of line control earphone, and with after this method, then only need Rapid contact mobile phone twice or the gesture to one " V ", it is possible to which control starts, and greatly facilitates motion user.And for the user without using line control earphone, Nike running can only lean on touch-screen control, and our rule will not be restricted with which kind of line traffic control or bluetooth earphone, so the moving scene more suitable for sporter.

By the above method, professional and technical personnel can easily increase the function of sensor control application for motion class App, and motion itself is preferably experienced using person so as to allow, and non-dispersive energy or change motion state to control application.

Equally, this method is also suitable for the scene that other need to control App in intelligent terminal/mobile phone during exercise.

Claims

A kind of 1. method that motion class App perform functions are controlled using sensor, it is characterized in that perceiving using intelligent terminal/mobile phone The sensor of exterior object such as close to range sensor (Proximity sensor) or radar sensor, perceives exterior object Triggering, and identify triggering, then encoded according to triggering command set in advance and perform the instruction of corresponding triggering in App such as " beginning " etc. or function are such as taken pictures, imaged, the duplex/half-duplex operation of music, voice.Wherein close to Distance-sensing Device uses the instruction encoding such as triggering times instruction encoding formed based on triggering duration, triggering duration instruction encoding, state to add Trigger the combination of instruction encoding of duration or more coding；And radar sensor then uses the signal characteristic of gesture to be compiled for instruction Code.This method is suitable for all scenes for controlling intelligent terminal/mobile phone using sensor during exercise.
2. a kind of as claimed in claim 1, method that motion class App perform functions are controlled using sensor, it is characterised in that utilize The sensor for perceiving exterior object of intelligent terminal/mobile phone contains close to range sensor or radar sensor, perceives outside touch Hair performs instruction or function in App.
3. a kind of as claimed in claim 1, method that motion class App perform functions are controlled using sensor, it is characterised in that according to Instruction encoding set in advance, after it is instruction encoding to recognize external trigger, perform the instruction of App corresponding to the coding Or function.
4. a kind of as claimed in claim 1, method that motion class App perform functions are controlled using sensor, it is characterized in that using connecing During Proximity Sensor, using the basis based on a length of instruction encoding when triggering, triggering times, triggering duration, shape are contained State adds the combination of the instruction encoding of triggering duration or more coding.
5. a kind of as claimed in claim 1, method that motion class App perform functions are controlled using sensor, it is characterized in that utilizing thunder Up to sensor, using the signal characteristic of gesture as instruction encoding, when trigger signal feature is approximate with instruction encoding set in advance When degree is more than the approximate threshold values set, corresponding instruct is performed.
6. a kind of as claimed in claim 1, method that motion class App perform functions are controlled using sensor, it is characterized in that available The function that the sensor-triggered of perception exterior object ability performs motion App is such as taken pictures, imaged containing control, music.
7. a kind of as claimed in claim 1, method that motion class App execute instructions are controlled using sensor, it is characterized in that available The sensor-triggered for perceiving exterior object ability performs motion App instruction such as " beginning ", " pause ".
8. a kind of as claimed in claim 1, method that motion class App perform functions are controlled using sensor, it is characterized in that can be Sensor control intelligent terminal/mobile phone or App are utilized in motion.
9. a kind of as claimed in claim 1, method that motion class App perform functions are controlled using sensor, it is characterized in that moving Middle duplex/half-duplex operation using sensor control voice.