CN105657135A - Selfie method for smartphone - Google Patents

Abstract

The embodiment of the invention provides a selfie method for a smartphone. The method comprises the following steps: receiving a photographing pressure signal by a wireless control module; generating a photographing control instruction according to the photographing pressure signal by the wireless control module; transmitting the control instruction to an associated smartphone by the wireless control module; and finishing a photographing operation by the smartphone. The selfie method for the smartphone provided by the invention can control selfie of the smartphone wirelessly in a non-contact way, so that selfie requirements of people on smartphones can be better satisfied under certain circumstances, and operation experiences of users on smartphones can be improved.

Description

A kind of smart mobile phone self-timer method

Technical field

The present invention relates to Internet of Things field, especially a kind of smart mobile phone self-timer method.

Background technology

The practice of technology of Internet of things can be traced back to the laughable machine for vending of network of nineteen ninety Xerox the earliest, and along with development and various hardware, the very big of application software of Internet technology are enriched, technology of Internet of things has also obtained great development. Internet of Things is regarded as the application extension of internet, and the essence of Internet of Things sums up and is mainly reflected in three aspects: the one, and internet feature, must realize to the thing of needs networking the internet interconnecting; The 2nd, identification and communication feature, " thing " of including Internet of Things in must possess the function that automatic identification is communicated by letter with thing thing; The 3rd, intelligent feature, network system should have the feature of automation, self-feedback and Based Intelligent Control.

At present, very many to the concrete applicationization of technology of Internet of things, for example Smart Home technology, by network, each system relationship management in family, unification is controlled; For example car networking technology again, associates the vehicle in a region by network, realizes monitoring, scheduling, tracking etc. application. Put forward at present a lot of future thrusts, large as the wisdom earth, wisdom city, littlely can predict to wisdom water utilities, wisdom combustion gas etc., the next generation internet technology taking technology of Internet of things as core will change people's work and life greatly.

The main idea of technology of Internet of things is exactly that thing thing is connected, information mutual communication. at present, we have lived in smart machine epoch, smart mobile phone, dull and stereotyped notebook, intelligence is dressed equipment, the feature of these smart machines is that volume is generally less but performance is powerful, the little benefit of bringing of volume is exactly portable, the powerful benefit of bringing of performance can be carried greater functionality exactly, but the little while of volume has also brought operating difficulties, the camera function of for example smart mobile phone is very powerful, and the camera pixel of mobile phone can substitute general digital camera, become the preferred unit that people go out to take pictures, but the volume of mobile phone is generally less, it is also better to other article utilizing mobile phone photograph, if in order to autodyne, for example tourism outside, no matter be that a people autodynes or many people autodyne, should photograph people, also to photograph scape, and angle, effect also has certain requirement, obviously on mobile phone screen, operation is very inconvenient, pressing the hand in a flash of shutter may shake, affect the effect of taking pictures.

At present, there are some key control equipment to realize the operating function of simplified intelligent equipment, for example, have been made into the control button of a similar COBBAIF, be inserted in COBBAIF, if need to take pictures, can click control button, just remove the trouble of searching, open shooting software from, reduce operation easier, the speed of having accelerated operation, can improve the impression that user uses, but does not still solve the problem of singly taking out operating difficulties in auto heterodyne process. In addition, on market, also have some products such as auto heterodyne emperorship, develop specially to realize and autodyne, but be only the position of having optimized button, and, this auto heterodyne emperorship is the equal of the auto heterodyne optimization to camera, cannot with conventional smart machine, for example mobile phone is so universal and popular, therefore, it is simple, quick that people can help user to use conventional smart machine to realize in the urgent need to one, the control device of good operability or method.

Summary of the invention

The embodiment of the present invention proposes a kind of smart mobile phone self-timer method, comprises, wireless control module receives the pressure signal of taking pictures; Wireless control module generates according to the pressure signal of taking pictures the control instruction of taking pictures; Control instruction is sent to associated smart mobile phone by wireless control module; Smart mobile phone completes the operation of taking pictures.

Further, described control device of wireless comprises, pressure sensing module, control module, power module and communication module; Described smart mobile phone comprises communication module, APP software and functional module; The pressure signal monitoring is transferred to described control module by described pressure sensing module, generate control instruction, and be transferred to described communication module, described communication module sends to described control instruction the communication module of smart mobile phone, APP software obtains after control instruction, controls Implement of Function Module command operating.

Further, described smart mobile phone completes after control instruction operation, and described control module feedback operation completes prompting instruction.

Further, also comprise shock module, described shock module receives described control module feedback operation and completes prompting instruction, produces vibration.

Further, the pressure signal monitoring is transferred to described control module by described pressure sensing module, and the pressure signal that monitoring is obtained and preset pressure signal threshold value compare, if exceed preset pressure signal threshold value, generates control instruction.

Further, the pressure signal monitoring is transferred to described control module by described pressure sensing module, and the pressure signal that monitoring is obtained and preset pressure signal threshold value interval compare, according to the preset pressure signal threshold value interval falling into, generate corresponding control instruction.

Further, described communication module is bluetooth 4.0 communication modules.

Further, described functional module comprises shooting software and camera.

Further, described functional module comprises recording software and microphone.

The smart mobile phone self-timer method that the embodiment of the present invention provides, can the auto heterodyne control of contactless realization to smart mobile phone by wireless mode, thereby can under some particular case, better complete the auto heterodyne requirement of people to smart mobile phone, improve the operating experience of user to smart mobile phone.

Brief description of the drawings

Fig. 1 shows a kind of control device of wireless structure chart;

Fig. 2 shows Control System of Intelligent structure chart;

Fig. 3 is a kind of smart machine wireless control method flow chart;

Fig. 4 is instruction setting procedure figure;

Fig. 5 is a kind of smart mobile phone self-timer method flow chart.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, example of the present invention is shown in the drawings, although describe the present invention in connection with these embodiment, should be appreciated that it does not really want to limit the invention to these embodiment. On the contrary, this invention is intended to cover replacement, amendment and the equivalents that can be included in the spirit and scope that claims limit. In addition, in to the following detailed description of the embodiment of the present invention, a lot of details have been proposed so that the present invention is thoroughly understood. But, persons of ordinary skill in the art will recognize that and do not have these details also can implement the present invention. In other example, for fuzzy aspect of the present invention unnecessarily, do not describe known method, process, parts and circuit in detail.

The some parts of below describing in detail is to represent to propose according to other symbol of process, step, logical block, processing and the operation to the data bit that can carry out on computer storage. These descriptions and expression be that the technical staff of data processing field uses, for the essence of its work being conveyed to most effectively to other technical staff's of this field means. Here step that, process, computer are carried out, logical block, process etc. be conventionally envisioned for cause the step of expected result or instruction be certainly in harmony sequence. Described step is need to be to the step of the physical manipulation of physical quantity. Conventionally, although unnecessary, the form of the electrical or magnetic signal that this tittle adopts and can store in computer system, transmits, combines, relatively or in addition handles. Verified, be mainly the reason for public use, it is easily sometimes that these signals are called to position, value, element, symbol, character, project, numeral etc.

But, should keep firmly in mind, all these should be associated with suitable physical quantity with similar term and be only the marks that facilitates that is applicable to this tittle. unless specialized, otherwise as described below, institute is apparent, should understand in whole the present invention, term used is discussed, as " association " or " identification " or " reproduction " or " needs " or " determining " or " repetition " or " execution " or " detection " or " guiding " etc., refer to action and the process of electronic system or similar electronic computing device, it is by the data manipulation that is expressed as physics (electronics) amount in the RS of electronic equipment and be transformed into the such information storage of electronic device memory or register or other, other data that are expressed as similarly physical quantity in transmission or display device.

Fig. 1 illustrates according to the displaying control device of wireless structure chart of various exemplary embodiments of the present invention.

In Fig. 1, displaying be control device of wireless 100, this device comprises pressure sensing module 101, control module 102, power module 103 and communication module 104.

Pressure sensing module 101, for obtaining external pressure signal, for example people press...withes one's finger and presses control device of wireless 100 shells, after shell generation elastic deformation, pressure sensing module 101 is formed to certain pressure, thus the monitored pressure signal that obtains. Pressure sensing module 101 can adopt resistance strain gage pressure sensor, semiconductor gauge pressure sensor, piezoresistive pressure sensor, inductance pressure transducer, capacitance pressure transducer,, resonance type pressure sensor and capacitance acceleration transducer, preferably use piezoresistive pressure sensor, it has extremely low price and higher precision and good linear characteristic.

Control module 102, the pressure signal obtaining for obtaining pressure sensing module 101, and convert control instruction to according to described pressure signal. Due to unconscious the exerting pressure of variations in temperature or outer bound pair control device of wireless 100 shells, all may produce the pressure signal that can be monitored by pressure sensing module 101, therefore, control module 102 need to be compared to the ambient pressure signal obtaining according to default pressure signal threshold value, exceed preset pressure signal threshold value and just can be converted to control instruction, for example control impuls. Pressure signal threshold value can be given default value in the time that equipment dispatches from the factory, but user can carry out adjustment according to the actual conditions of self.

Preferably, the operation settling signal that described control module can also be fed back according to communication module 104, generating run completes prompting instruction.

Power module 103 for other module electric power supplies are provided, according to the volume requirement of control device of wireless 100, is chosen the power module that volume is little, as small-sized button cell as far as possible.

Communication module 104, communicates by letter with outside signal for realizing control device of wireless 100, for example, communicating by letter and between the smart machine of needs control. The communication mode that the smart machine that communication module 104 can be controlled is as required equipped with mates, such as smart mobile phone can adopt the communication mode such as bluetooth, WIFI, consider the continuation of the journey requirement of electric energy, preferential communication module is bluetooth module, preferably uses bluetooth 4.0 agreements.

Preferential, described communication module 104 can receive from the control settling signal that needs control device feedback.

Preferential, described wireless control module 100 also comprises shock module 105, described shock module receives control module feedback operation and completes prompting instruction, produces vibration. Described vibration module 105 can select mini vibrator to realize.

Therein in an embodiment, the pressure signal monitoring is transferred to control module 102 by pressure sensing module 101, the pressure signal that control module 102 obtains monitoring and preset pressure signal threshold value compare, if exceed preset pressure signal threshold value, generate control instruction, and being transferred to communication module 104, described control instruction is sent to smart machine 200 by communication module 104.

In another embodiment, the pressure signal monitoring is transferred to control module 102 by pressure sensing module 101, the pressure signal that control module 102 obtains monitoring and preset pressure signal threshold value compare, if exceed preset pressure signal threshold value, generate control instruction, and be transferred to communication module 104, described control instruction is sent to smart machine 200 by communication module 104, and receive smart machine 200 and complete the settling signal of this control instruction, and generating run completes and remind instruction to vibration module 105, vibration module 105 produces vibrating alert.

Fig. 2 shows Control System of Intelligent structure chart.

In Fig. 2, described Control System of Intelligent comprises control device of wireless 100, and smart machine 200, and user, by control device of wireless 100, realizes the specific control operation of smart machine 200.

Control device of wireless 100, this device comprises pressure sensing module 101, control module 102, power module 103 and communication module 104.

Pressure sensing module 101, for obtaining external pressure signal, for example people press...withes one's finger and presses control device of wireless 100 shells, after shell generation elastic deformation, pressure sensing module 101 is formed to certain pressure, thus the monitored pressure signal that obtains. Pressure sensing module 101 can adopt resistance strain gage pressure sensor, semiconductor gauge pressure sensor, piezoresistive pressure sensor, inductance pressure transducer, capacitance pressure transducer,, resonance type pressure sensor and capacitance acceleration transducer, preferably use piezoresistive pressure sensor, it has extremely low price and higher precision and good linear characteristic.

Control module 102, the pressure signal obtaining for obtaining pressure sensing module 101, and convert control instruction to according to described pressure signal. Due to unconscious the exerting pressure of variations in temperature or outer bound pair control device of wireless 100 shells, all may produce the pressure signal that can be monitored by pressure sensing module 101, therefore, control module 102 need to be compared to the ambient pressure signal obtaining according to default pressure signal threshold value, exceed preset pressure signal threshold value and just can be converted to control instruction, for example control impuls. Pressure signal threshold value can be given default value in the time that equipment dispatches from the factory, but user can carry out adjustment according to the actual conditions of self.

Preferably, the operation settling signal that described control module can also be fed back according to communication module 104, generating run completes prompting instruction.

Power module 103 for other module electric power supplies are provided, according to the volume requirement of control device of wireless 100, is chosen the power module that volume is little, as small-sized button cell as far as possible.

Communication module 104, communicates by letter with outside signal for realizing control device of wireless 100, for example, communicating by letter and between the smart machine of needs control. The communication mode that communication module 104 can be equipped with according to smart machine 200 mates, and such as smart mobile phone can adopt the communication mode such as bluetooth, WIFI, considers the continuation of the journey requirement of electric energy, and preferential communication module is bluetooth module, preferably uses bluetooth 4.0 agreements.

Preferential, described communication module 104 can receive from the control settling signal that needs control device feedback.

Preferential, described wireless control module 100 also comprises shock module 105, described shock module receives control module feedback operation and completes prompting instruction, produces vibration. Described vibration module 105 can select mini vibrator to realize.

Therein in an embodiment, the pressure signal monitoring is transferred to control module 102 by pressure sensing module 101, the pressure signal that control module 102 obtains monitoring and preset pressure signal threshold value compare, if exceed preset pressure signal threshold value, generate control instruction, and being transferred to communication module 104, described control instruction is sent to smart machine 200 by communication module 104.

In another embodiment, the pressure signal monitoring is transferred to control module 102 by pressure sensing module 101, the pressure signal that control module 102 obtains monitoring and preset pressure signal threshold value compare, if exceed preset pressure signal threshold value, generate control instruction, and be transferred to communication module 104, described control instruction is sent to smart machine 200 by communication module 104, and receive smart machine 200 and complete the settling signal of this control instruction, and generating run completes and remind instruction to vibration module 105, vibration module 105 produces vibrating alert.

Smart machine 200 comprises communication module 201, APP software 202 and functional module 203.

Communication module 201, is the communication module of mating with control device of wireless communication module 104 communication modes, preferred, adopts the bluetooth module of bluetooth 4.0 agreements.

APP software 202, for realizing the software kit of control operation, realizes reception and registration and the operation of control instruction, and it is default to realize instruction. APP software 202 is with operational order object to mating, and for example, while taking pictures in the time of operational order, APP software 202 receives after operational order, opens the software of taking pictures, and calls camera, and completes shooting operation.

Functional module 203, for the object of control instruction operation, for example, realizes camera function, and functional module 203 comprises take pictures software and camera, realizes sound-recording function, and functional module 203 comprises recording software and microphone.

The control instruction that communication module 201 received communication modules 104 send over, is delivered to APP software 202, and APP software 202, according to the predetermined registration operation instruction of control instruction, operates functional module 203.

Preferably, after functional module 203 has operated, APP software 202 completes prompting to communication module 201 feedback operation, and communication module 201 completes operation to remind instruction feedback to communication module 104.

Fig. 3 is a kind of smart machine wireless control method flow chart.

S101, pressure sensing module 101 receives pressure signal. People press...withes one's finger and presses control device of wireless 100 shells, after shell generation elastic deformation, pressure sensing module 101 is formed to certain pressure, thus the monitored pressure signal that obtains. Pressure sensing module 101 can adopt resistance strain gage pressure sensor, semiconductor gauge pressure sensor, piezoresistive pressure sensor, inductance pressure transducer, capacitance pressure transducer,, resonance type pressure sensor and capacitance acceleration transducer, preferably use piezoresistive pressure sensor, it has extremely low price and higher precision and good linear characteristic.

S102, described pressure signal is translated into control instruction through control module 102. Control module 102 receives the pressure signal that pressure sensing module 101 is obtained, and converts control instruction to according to described pressure signal. Due to unconscious the exerting pressure of variations in temperature or outer bound pair control device of wireless 100 shells, all may produce the pressure signal that can be monitored by pressure sensing module 101, therefore, control module 102 need to be compared to the ambient pressure signal obtaining according to default pressure signal threshold value, exceed preset pressure signal threshold value and just can be converted to control instruction, for example control impuls. Pressure signal threshold value can be given default value in the time that equipment dispatches from the factory, but user can carry out adjustment according to the actual conditions of self.

S103, communication module 104 is transmitted control instruction to communication module 201, communication module 104 is mated with the communication mode of communication module 201, such as control device of wireless and smart machine can adopt the communication mode such as bluetooth, WIFI, consider the continuation of the journey requirement of electric energy, preferential communication module is bluetooth module, preferably uses bluetooth 4.0 agreements.

S104, APP software 202 receives control instruction, and completes the control operation of appointment. APP software 202 is with operational order object to mating, and for example, while taking pictures in the time of operational order, APP software 202 receives after operational order, opens the software of taking pictures, and calls camera, and completes shooting operation. Functional module 203, for the object of control instruction operation, for example, realizes camera function, and functional module 203 comprises take pictures software and camera, realizes sound-recording function, and functional module 203 comprises recording software and microphone.

Fig. 4 is instruction setting procedure figure.

Control instruction is general adopts default mode to fix, and if necessary, can reset the command operating that needs realization by instruction setting. In this kind of situation, only need to the directly binding operation corresponding with control instruction again in APP software.

In another situation, user wishes to send different control instructions according to different force value, realizes different operations, therefore, need to arrange instruction.

S201, App software 202 enters into instruction pattern is set, and under this pattern, allows to reset new operational order.

S202, pressure sensing module 101 receives pressure signal is set.

S203, described pressure signal is translated into default control instruction through control module. Described control module, according to the pressure signal obtaining, generates pressure signal threshold interval, and by corresponding this interval default control instruction, when each monitoring pressure signal, with the comparison of pressure signal threshold interval, translates into corresponding control instruction.

S204, the instruction of communication module transmission default control.

S205, APP software is associated with predetermined registration operation by default control instruction.

Fig. 5 is a kind of smart mobile phone self-timer method flow chart.

Smart mobile phone is that people use maximum portable intelligent equipment at present, and, utilize smart mobile phone to autodyne and be also one of hobby of people, therefore, in auto heterodyne process, use control device of wireless to control, can realize good user and experience.

S301, the pressure sensing module 101 of control device of wireless 100 receives pressure signal. In the time that people need to autodyne, hand-held a mobile phone, utilizes camera focusing, and another hand can be held control device of wireless 100, and control device of wireless 100 can receive the pressure signal sending from user at any time.

S302, when people determine when will autodyning, firmly presses control device of wireless 100, forms the pressure signal of taking pictures, and described pressure photographing signals translates into through control module 102 control instruction of taking pictures.

S303, communication module 104 control instruction of taking pictures is transferred to smart mobile phone.

S304, APP software 202 receives the control instruction of taking pictures, and starts the program of taking pictures.

S305, camera completes the operation of taking pictures.

Preferably, take pictures after operation when camera completes, smart mobile phone completes prompting instruction to control device of wireless feedback operation, and the vibration module 105 of control device of wireless sends vibration, and reminding user completes takes pictures.

The above is the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims (9)

1. a smart mobile phone self-timer method, is characterized in that, comprises, wireless control module receives the pressure signal of taking pictures; Wireless control module generates according to the pressure signal of taking pictures the control instruction of taking pictures; Control instruction is sent to associated smart mobile phone by wireless control module; Smart mobile phone completes the operation of taking pictures.

2. smart mobile phone self-timer method as claimed in claim 1, is characterized in that, described control device of wireless comprises, pressure sensing module, control module, power module and communication module; Described smart mobile phone comprises communication module, APP software and functional module; The pressure signal monitoring is transferred to described control module by described pressure sensing module, generate control instruction, and be transferred to described communication module, described communication module sends to described control instruction the communication module of smart mobile phone, APP software obtains after control instruction, controls Implement of Function Module command operating.

3. smart mobile phone self-timer method as claimed in claim 2, is characterized in that, described smart mobile phone completes after control instruction operation, and described control module feedback operation completes prompting instruction.

4. smart mobile phone self-timer method as claimed in claim 3, is characterized in that, also comprises shock module, and described shock module receives described control module feedback operation and completes prompting instruction, produces vibration.

5. smart mobile phone self-timer method as claimed in claim 2, it is characterized in that, the pressure signal monitoring is transferred to described control module by described pressure sensing module, and the pressure signal that monitoring is obtained and preset pressure signal threshold value compare, if exceed preset pressure signal threshold value, generate control instruction.

6. smart mobile phone self-timer method as claimed in claim 2, it is characterized in that, the pressure signal monitoring is transferred to described control module by described pressure sensing module, and the pressure signal that monitoring is obtained and preset pressure signal threshold value interval compare, according to the preset pressure signal threshold value interval falling into, generate corresponding control instruction.

7. smart mobile phone self-timer method as claimed in claim 2, is characterized in that, described communication module is bluetooth 4.0 communication modules.

8. smart mobile phone self-timer method as claimed in claim 2, is characterized in that, described functional module comprises shooting software and camera.

9. smart mobile phone self-timer method as claimed in claim 2, is characterized in that, described functional module comprises recording software and microphone.