CN102236411A - operation method of electronic device - Google Patents

Abstract

An operation method of electronic device includes an electronic device and at least two or more detection units set on each periphery of the electronic device, when at least one or more objects enter into detection range of plural detection units on at least one side edge, it can judge whether continuous detection is available according to detection signal of each detection unit, and then further judge whether movement direction and movement speed of object are in accordance with preset value, then couple and calculate each detection signal to generate an operation parameter, and execute corresponding application program by using the operation parameter, the operation mode can be fixed distance from the electronic device and can carry out input operation of electronic device without touching the electronic device, and it also can execute non-contact operation program by using single electronic device structure without additional shooting mechanism or input medium, reduce the purchase cost of users and increase the operation flexibility.

Description

How to operate an electronic device

technical field

The invention provides an operation method of an electronic device, especially a non-contact operation method applied to an electronic device, which can perform input operations without touching the electronic device at a fixed distance from the electronic device.

Background technique

According to the rapid development of science and technology, electronic devices such as computers, display devices, and digital TVs have been widely used in various places. Traditionally, the operation method for users to input data in electronic devices uses known input devices as a medium, such as a mouse, a keyboard, or mechanical buttons. In this way, when the user operates the electronic device, it needs to be controlled by these intermediaries. For example, when the user operates the computer through the mouse, since the operation of the mouse needs to be placed on the desktop for operation, the user wants to input data When using the computer, you can only sit in front of the computer and use the mouse to operate, but cannot use the computer in other places. This traditional method not only increases the additional purchase cost of the input device or purchase, but also reduces the user's flexibility in operation. and portability.

Because this mode of operation is quite inconvenient for users, manufacturers have developed many electronic devices that can be operated without an intermediary. For example, a touch panel is a direct interaction between man and machine. It can be directly combined with electronic devices to form an integrated form. In addition to being applied to general products, it can also be applied to portable products. It has the advantages of light weight and reduced product volume. Users can directly place it on the panel Touch input makes portable products more portable and convenient. Therefore, the demand for related products of the touch panel in the market grows rapidly. Its products include communication equipment, household appliances (Household), entertainment equipment (Enterqinment appliance), IA information home appliances (IA product), medical equipment (Medical Instruments) and other electronic devices. Users can touch this A touch panel is used to perform input operations for various electronic devices.

However, the operation method of the touch panel still depends on the user performing a touch operation on the surface of the touch panel. In this case, the user must be close to the electronic device and fully press the finger on the surface of the panel to perform the operation. , still causing operational problems. At present, through continuous research and development by manufacturers, vision-based human computer interface systems (vision-based human computer) have emerged, such as hand gesture recognition systems (hand gesture), body language interpretation (body language interpretation), and expression interpretation. (facial expression interpretation). For now, research on point gestures has become a common application in human-computer interface systems. It has become a very effective human-machine interface system to perform operations in space by pointing to different objects in a non-contact manner, such as TV or computer or projector screen and so on.

The current practice usually needs to set up a camera mechanism, and use the camera mechanism to take pictures of the user's gestures or limbs, and perform calculations and analysis based on the user's gestures or limb movements, and then perform corresponding input operations according to the calculation results. However, , this calculation method must add a photography mechanism, which will increase the cost of additional mechanism setup and the complicated calculation method of photography results.

Therefore, the above-mentioned known electronic devices still have many problems and deficiencies during actual operation, which is the goal that the inventors and those engaged in this industry want to improve.

Contents of the invention

The purpose of the present invention is to provide a method for operating an electronic device, which overcomes the defects in the background art.

In order to achieve the above object, the present invention provides an operation method of an electronic device, the electronic device can be operated by at least one or more objects, and the operation steps include:

A) An electronic device is provided, and at least two or more detection units are provided on different sides of the electronic device to provide objects entering the predetermined range of each detection unit to generate a detection signal;

B) Judging whether at least one or more objects are detected, if not, proceed to step A, if yes, proceed to step C;

C) judging whether at least two or more detection signals are generated, and these detection signals are continuous detection values, if not, proceed to step B, and if so, proceed to step D;

D) Judging whether the object movement direction of each detection signal conforms to the default value, if not, proceed to step B, if yes, proceed to step E;

E) Judging whether the moving speed of the object of each detection signal conforms to the default value, if not, proceed to step B, if yes, proceed to step F;

F) generating an operating parameter after coupling and calculating each detection signal;

G) Conduct contactless input applications.

In the method for operating an electronic device, the detection mode of each detection unit provided in step A can be implemented by using a capacitive structure or an infrared structure.

In the method for operating an electronic device, the method of detecting the object in step B is to use a plurality of detection units around the electronic device to perform detection, and when the object is located within the X distance of at least one of the detection units, it means Object detected.

In the method for operating an electronic device, each detection signal in step F includes the moving direction of the object, the distance between the object and each detection unit, and the moving speed of the object.

In the method for operating an electronic device, the calculation formula for calculating each detection signal and generating an operating parameter in step F is:

ag=S ₁ {f(d), f(t)}.S ₂ {f(d), f(t)}...S _y {f(d), f(t)},

Where S ₁ is the first detection unit 21, S ₂ is the second detection unit, S _y is the yth detection unit; f(d) is the distance between the object and each detection unit; f(t) is the distance from a The moving time of the detection unit to another detection unit will generate the first time point t ₁ and the second time point t ₂ .

In the method for operating an electronic device, in step B, when an object is detected, the electronic device can switch from the power saving mode to the operating mode.

The method for operating an electronic device provided by the present invention is that the electronic device can be operated by at least two or more objects, and the operating steps further include:

a) An electronic device is provided, and at least two or more detection units are provided on different sides of the electronic device to provide an object entering a predetermined range of each detection unit to generate a detection signal;

b) Judging whether at least one or more objects are detected approaching, if not, proceed to step a, if yes, proceed to step c;

c) judging whether each object produces at least two or more detection signals, and these detection signals are continuous detection values, if not, proceed to step b, if yes, proceed to step d;

d) judging whether the object movement directions of the detection signals of each object are different, if not, proceed to step b, if yes, proceed to step e;

e) judging whether the object movement direction of each detection signal of each object conforms to the default value, if not, proceed to step b, if yes, proceed to step f;

f) judging whether the object movement speed of each detection signal of each object meets the default value, if not, proceed to step b, if yes, proceed to step g;

g) generating an operating parameter after coupling and calculating each detection signal of each object;

h) Conduct contactless input applications.

In the method for operating an electronic device, the detection mode of each detection unit provided in step a can be implemented by using a capacitive structure or an infrared structure.

In the method for operating an electronic device, in step b, when at least one or more objects are detected, the electronic device can switch from the power saving mode to the operating mode.

In the method for operating an electronic device, the method of detecting an object in step b is to use a plurality of detection units around the electronic device to perform detection, and when the object is located within the X distance of at least one of the detection units, it means Object detected.

In the method for operating an electronic device, each detection signal in step f includes the moving direction of the object, the distance between the object and each detection unit, and the moving speed of the object.

In the method for operating an electronic device, the calculation formula for calculating each detection signal and generating an operating parameter in step f is:

ag=S ₁ {f(d), f(t)}.S ₂ {f(d), f(t)}...S _y {f(d), f(t)},

Wherein _S1 is the first detection unit 21, _S2 is the second detection unit, S _y is the yth detection unit; f(d) is the distance between the object 3 and each detection unit; f(t) is the distance from The moving time from one detection unit to another detection unit will generate the first time point t ₁ and the second time point t ₂ .

The present invention uses a non-contact operation method to control the electronic device. The electronic device can be provided with at least two or more detection units on different peripheries, and at least two or more detection units The detection units are arranged on different sides of the electronic device. When at least one or more detection units detect at least one or more objects, it is judged whether it is continuous detection according to the detection signals of each detection unit. And further judge whether the moving speed and direction of the object meet the predetermined value, and then calculate and analyze the data in each detection signal (such as the moving direction of the object, the distance between the object and each detection unit, and the moving speed of the object, etc.) to generate One operating parameter, and use this operating parameter to execute the corresponding application program. This operation method does not need to add an additional camera mechanism or input medium, and the non-contact operation program can be executed at a fixed distance from the electronic device by using a single electronic device structure. , reduce user acquisition costs and increase operational flexibility.

The present invention uses a non-contact operation method to control the electronic device, and can provide at least two or more objects to use the non-touch operation method to perform input control on the electronic device. When each detection unit detects When there are multiple objects, it is possible to judge whether each object is a continuous displacement according to the detection signals of each detection unit, and judge that the continuous displacement of each object is in a different direction, and further judge whether the moving speed and direction of each object are consistent with the Predetermined value, and then calculate and analyze the data in each detection signal (such as the direction of object movement, the distance between the object and each detection unit, and the moving speed of the object, etc.) to generate an operating parameter, and use this operating parameter to execute related applications In this way, the program can provide a variety of manipulation methods for multiple objects.

The present invention uses a non-contact operation method to control the electronic device. When an object enters the detection range of at least one or more detection units of the electronic device, it will wake up the electronic device and enter the operation mode from the standby mode, so that Achieve the effect of saving power and prolonging the effective use time.

Description of drawings

Fig. 1 is a flow chart of the operation of the preferred embodiment of the present invention.

Figure 2 is a block diagram of the present invention.

FIG. 3 is a schematic diagram (1) of the operation of the preferred embodiment of the present invention.

Fig. 4 is a schematic diagram (2) of the operation of the preferred embodiment of the present invention.

FIG. 5 is an operation flowchart of another embodiment of the present invention.

FIG. 6 is a schematic diagram of the operation of another embodiment of the present invention.

Explanation of main component symbols in the attached drawings:

1 electronic device, 10 screen, 13 third side, 11 first side, 14 fourth side, 12 second side, 2 circuit board, 20 control module, 25 sixth detection unit, 21 first detection Detection unit, 26 sixth detection unit, 22 second detection unit, 27 seventh detection unit, 23 third detection unit, 28 eighth detection unit, 24 fourth detection unit, 3 object, 31 first detection unit One object, 32 second object.

Detailed ways

In order to further understand the adopted technical means and its structure, the characteristics and functions of the preferred embodiments of the present invention are described in detail as follows in conjunction with the accompanying drawings, so as to facilitate a complete understanding.

Please refer to shown in Fig. 1,2,3,4, it is the operational flow diagram of preferred embodiment of the present invention, block diagram, the operational schematic diagram (one) of embodiment and the operational schematic diagram (two) of embodiment, can be seen from the figure It can be clearly seen that the electronic device 1 includes but not limited to computers, televisions, display devices, etc., and a display device is taken as an example for illustration here. This display device is defined as the first side 11, the second side 12, the third side 13 and the fourth side 14 with relative positions on the four sides of the screen 10, and the detection unit of each side can be at least two or more. Each detection unit of the electronic device 1 can be a capacitive structure or an infrared structure, and for this structural feature, please refer to US Pat.

The non-contact operation method of the present invention can provide a single object 3 for input manipulation. For example, in this embodiment, a first detection unit 21, a second detection unit 22 and a third detection unit 23 are arranged on the first side 11, and the operation steps include:

100) Initially, an electronic device 1 is provided, and at least two or more detection units are arranged on different sides of the electronic device 1, so as to provide at least one or more objects entering each detection unit. range to generate a detection signal.

101) Judging whether at least one or more objects 3 are detected approaching, go to step (100), if so, go to step (102).

102) Judging whether the at least one or more objects 3 are continuously detected, if not, proceed to step (101), if yes, proceed to step (103).

103) Judging whether the moving direction of the object 3 of each detection signal conforms to the default value, if not, proceed to step (101), if yes, proceed to step (104);

104) Judging whether the detected moving speed of each object 3 meets the default value, if not, proceed to step (101), if yes, proceed to step (105).

105) Coupling and calculating each detection signal to generate an operation parameter.

106) Conduct touchless applications.

In this embodiment, when an object 3, such as a user's finger, enters the first detection unit 21 of the first side 11 at a predetermined distance, such as X distance, such as 10-25 centimeters, the first detection unit 21 will detect that the object 3 is approaching, and when the object 3 is displaced to the preset distance of the second detection unit 22 of the first side 11, such as X distance, such as 10-25 cm, and the first detection unit 21 And the second detection unit 22 is the control module 20 electrically connected to the circuit board 22 in the electronic device 1, and makes the control module 20 receive the first detection signal from the first detection unit 21 and the second detection unit 22 The second detection signal judges that the object 3 is continuously detected, and stores these detection signals in the storage unit in the control module 20 or in the storage unit electrically connected with the control module 20 .

Afterwards, according to each detection signal, it is further judged whether the moving direction and moving speed of the object 3 meet the default value, and this default value can be pre-stored in the storage unit in the control module 20 or inside the storage unit electrically connected with the control module 20, for The control module 20 compares each detection signal, and after the comparison is matched, the control module 20 couples each detection signal and analyzes and calculates, so as to generate an operating parameter. The content of the detection signal generated by each detection unit includes but not limited to distance, direction and speed, and an operating parameter can be generated after calculation. The calculation formula can be referred to as follows:

ag=S ₁ {f(d), f(t)}.S ₂ {f(d), f(t)}...S _y {f(d), f(t)}, a g is the non-touch motion value (air gesture opertion), that is, the operating parameter, S is the detection unit; S ₁ is the first detection unit 21, S ₂ is the second detection unit 22, S _y is the yth detection unit; f(d) is the distance between the object 3 and each detection unit; f(t) is the moving time from one detection unit to another detection unit, the calculation of this moving time will first define the first time touch The first time point t ₁ of the touch and the second time point t ₂ of the last touch, and then use the formula t ₂ -t ₁ to obtain the moving time of the two points. In this way, each detection unit can transmit each detection signal to the control module 20, so that the control module 20 performs calculation and analysis on the content of these detection signals, and generates an operation parameter. In this embodiment, the operation parameter includes But not limited to the moving direction of the object 3, the distance between the object 3 and each detection unit and the moving speed of the object 3, and further execute the corresponding non-touch application program operation according to the operating parameters.

In this embodiment, the first detection unit 21 , the second detection unit 22 and the third detection unit 23 of the first side 11 are used as an example for illustration, but it is not limited thereto. According to the above process, for example, the control module 20 judges whether the user's finger has received the detection signals transmitted by the first detection unit 21, the second detection unit 22 and the third detection unit 23 within a predetermined time, and if the condition is established, then It will be judged as the continuous detection state, and then the control module 20 judges the direction of the continuous detection movement according to the order in which the detection signals are received, according to the calculation formula a g=S ₁ {f(d), f(t)}.S ₂ {f(d), f(t)} knows that the object 3 is moving from left to right on the first side 11, and then judges the relationship between the object 3 and the first detection unit 21 and the second detection unit 21 according to f(d). Detect the respective distances between the units 22, and use f(t) to determine whether the moving speed of the object 3 meets the default value, that is, when the time point of the moving object ₃ from t2 to _t1 is between 5 seconds and 6 seconds and the distance between the object 3 and the first detection unit 21, the second detection unit 22 and the third detection unit 23 is equal to 5 centimeters, then it is determined that the user is performing an adjustment operation on the volume of the music sound.

On the other hand, when the control module 20 determines that the detection signals transmitted by the first detection unit 21, the second detection unit 22 and the third detection unit 23 are received within a predetermined time, if the object 3 in the detection signal moves The time points from _t2 to _t1 are less than 1 second, and the respective distances between the object 3 and the first detection unit 21, the second detection unit 22 and the third detection unit 23 are equal, all being 5 centimeter, it is judged that the user is performing the instruction operation on the next page, but the above description is only an embodiment of the present invention, and is not limited to the scope of rights of the present invention. If other modifications and equivalent structural changes are used, all should be The same reasoning is included in the scope of rights of the present invention.

The present invention can use the electronic device 1 to store a plurality of operation parameters inside, such as the operation definition value of the next page, the operation parameters of the volume of the sound, or the screen rotation, etc., and receive the detection transmitted by each detection unit through the control module 20. Then use the formula to calculate the content of the detection signal. If the content of the detection signal is calculated and analyzed and meets one of the preset operating parameters, the application program and software operation program corresponding to the operating parameter will be executed, so that the user Diversified control can be achieved by using non-touch operation methods. In this way, the user can perform input manipulations at a predetermined distance from the electronic device 1 , thereby increasing the flexibility and flexibility of the manipulations.

In another operation schematic diagram (2), it can be seen that the first side 11 of the electronic device 1 is provided with a first detection unit 21, a second detection unit 22 and a third detection unit 23, and the second side 12 is provided with a fourth detection unit 24 and a fifth detection unit 25 , and the third side 13 is provided with a sixth detection unit 26 . The user's gesture operation can also continuously move from the first detection unit 21 to the sixth detection unit 26, then each detection unit will generate each detection signal, and the control module can be calculated by the above formula to obtain the displacement direction of the object , movement speed and movement distance, and know the corresponding operation mode, such as screen flipping, so as to achieve various operation effects of the electronic device 1 .

Please refer again to shown in Fig. 2, 5, 6, it is the block diagram of the preferred embodiment of the present invention, the operation flowchart, the operation schematic diagram of another embodiment, can clearly find out from the figure, in another embodiment this The non-contact operation method of the invention can provide at least two or more objects 3 for input manipulation. The electronic device 1 in another embodiment is provided with a plurality of detection units on different sides, for example Said, the first detection unit 21, the second detection unit 22, the third detection unit 23, the seventh detection unit 27 and the eighth detection unit 28 are arranged on the first side 11, and the electronic device 1 There is a circuit board 2, the circuit board 2 has a control module 20, and the control module 20 is connected with the first detection unit 21, the second detection unit 22, the third detection unit 23, the seventh detection unit 27 and the eighth detection unit. The detection unit 28 is electrically connected, and its operation steps include:

200) Initially, an electronic device 1 is provided, and at least two or more detection units are provided on different sides of the electronic device 1 to provide at least one or more objects 3 to enter each detection unit Predetermined range to generate a detection signal;

201) Judging whether to detect at least one or more objects 3 approaching, if not, proceed to step (200), if so, proceed to step (202);

202) Determine whether each object 3 produces at least two or more detection signals, and these detection signals are continuous detection values, if not, proceed to step (201), if so, proceed to step (203);

203) Determine whether the moving directions of the objects 3 of the detection signals of the objects 3 are different, if not, proceed to step (201), if so, proceed to step (204);

204) Judging whether the moving direction of the object 3 of each detection signal of each object 3 conforms to the default value, if not, proceed to step (201), if yes, proceed to step (205);

205) Judging whether the moving speed of the object 3 of each detection signal of each object 3 meets the default value, if not, proceed to step (201), if yes, proceed to step (206);

206) generating an operating parameter after coupling and calculating each detection signal of each object 3;

207) Perform contactless input application.

Similarly, when each object 3 is within the detectable distance of each detection unit, the procedure described in the previous embodiment will be executed. In this embodiment, it is further detected whether another object 3 enters the preset distance that can be detected by each detection unit at the same time, and the control module 20 is used to judge whether the plurality of continuous detection signals present different moving directions , if there are different moving directions, it is judged that there are multiple objects 3 operating the single electronic device 1 at the same time.

For example, the first object 31 and the second object 32 can enter the first detection unit 21, the second detection unit 22, the third detection unit 23, the seventh detection unit 27 and the eighth detection unit 28. When the preset distance is detected, each detection unit will transmit the detected detection signal to the control module 20, and at this time, the control module 20 can execute the judgment. When the object 31 enters the detection preset distance of the first detection unit 21 , the second detection unit 22 and the third detection unit 23 , and the object 31 moves from the first detection unit 21 to the third detection unit 23 to determine For continuous detection, and the control module 20 judges that the object 3 moves from left to right, relatively, when another object 32 enters the detection preset distance of the seventh detection unit 27 and the eighth detection unit 28, and the object 3 It is judged as continuous detection from the seventh detection unit 27 to the eighth detection unit 28, and the control module 20 judges that the object 3 moves from right to left, and judges that each object 3 has a relative motion relationship, then the control module 20 is identified as the movement of multiple objects 3, and the operation procedure for the movement of multiple objects 3 is carried out. After that, it will further judge whether the speed and direction of the movement of the objects 3 meet the preset settings, and then couple and calculate the detection signals of each object 3 according to the aforementioned formula , and generate an operation parameter, such as enlarging the screen, an application program for enlarging the screen will be performed, so as to achieve the diversified operation characteristics of the plurality of objects 3 .

Furthermore, when the object 3 enters the electronic device 1 at a predetermined distance, each detection unit will transmit a detection signal to the control module 20, so that the control module 20 will transmit the driving power to each module, so that each module of the electronic device 1 will be in standby mode. Entering the operation mode, so that the electronic device 1 can maintain the power saving mode when it is not in operation.

The above-mentioned operating method of the electronic device of the present invention has the following advantages during implementation, such as:

1) The present invention can use the non-contact operation method of the electronic device 1 to perform input operations at a predetermined distance from the electronic device 1. This type of electronic device 1 can be provided with at least two detection units on each periphery, and use At least two detection units are arranged on different sides of the electronic device 1. When each detection unit detects the object 3, the electrons can judge whether continuous detection occurs through the detection signal of each detection unit. situation, and after judging whether the detection signal conforms to the default value, such as the direction of movement and the speed of movement, then coupling and calculating each detection signal of the object 3 to generate an operating parameter, and then executing the corresponding application program according to the operating parameter, using a single electronic The structure of the device 1 can execute non-contact operation procedures, reduce purchase cost for users and increase operation flexibility.

2) The operation mode of the present invention is a non-touch operation mode. When multiple objects 3 are operated, the control module 20 will be used to judge whether the detection signals of each detection unit have continuous displacement motions in more than two directions, If there is, it will be judged that multiple objects 3 are moving, and the detection signals of each object 3 will be coupled and calculated to generate an operating parameter, and the corresponding application program will be executed by using this operating parameter, so that the electronic device 1 can be diversified. mode of operation.

3) When each detection unit detects the object 3, it can transmit the detection signal to the control module 20, and make the control module 20 drive the electronic device 1 to switch from the standby mode to the operation module, so that the electronic device 1 can be operated without When the power is not wasted, the effect of saving power can be achieved.

Claims (12)

1. the method for operating of an electronic installation, this electronic installation is for being conducted to less one or more object operation, and its operation steps comprises:

A) provide an electronic installation, and be provided with detecting unit more than at least two or two, in order to provide object to enter each detecting unit preset range and then to produce detection signal in each different side of electronic installation;

B) judge whether to detect at least one or an above object is close, if not, carry out steps A, if carry out step C;

C) judge whether to produce detection signal more than at least two or two, and these a little detection signal are continuous detecting value, if not, carry out step B, if carry out step D;

D) whether the movement direction of object of judging each detection signal meets default value, if not, carries out step B, if carry out step e;

E) whether the object of which movement speed of judging each detection signal meets default value, if not, carries out step B, if carry out step F;

F) be coupled and calculate and produce an operating parameter after each detection signal;

G) carry out non-contacting input application program.

2. the method for operating of electronic installation as claimed in claim 1, wherein, the detecting mode of each set detecting unit can utilize capacitance type structure or infrared ray structure to carry out in the steps A.

3. the method for operating of electronic installation as claimed in claim 1, wherein, the mode of detecting object is to utilize the plural detecting unit of electronic installation periphery to carry out detecting among the step B, the X that is positioned at one of them above detecting unit when object apart from the time, then represent to detect object.

4. the method for operating of electronic installation as claimed in claim 1 wherein, includes distance and movement of objects speed between movement direction of object, object and each detecting unit in each detection signal in the step F.

5. the method for operating of electronic installation as claimed in claim 1, wherein, each detection signal is calculated and is produced the computing formula of an operating parameter and is in the step F:

ag＝S ₁{f(d)，f(t)}.S ₂{f(d)，f(t)}......S _y{f(d)，f(t)}，

S wherein ₁Be first detecting unit 21, S ₂Be second detecting unit, S _yIt is the y detecting unit; F (d) is the distance of object and each detecting unit; F (t) just can produce very first time point t for the traveling time from a detecting unit to another detecting unit ₁And the second time point t ₂

6. the method for operating of electronic installation as claimed in claim 1, wherein, among the step B, when detecting object, electronic installation is for being converted to operator scheme by battery saving mode.

7. the method for operating of an electronic installation, this electronic installation is for being conducted to few object operation more than two or two, and its operation steps comprises:

A) provide an electronic installation, and be provided with detecting unit more than at least two or two, in order to provide object to enter each detecting unit preset range and then to produce detection signal in each different side of electronic installation;

B) judge whether to detect at least one or an above object is close, if not, carry out step a, if carry out step c;

C) judge whether whether each object produces the detection signal more than at least two or two, and these a little detection signal are continuous detecting value, if not, carry out step b, if carry out steps d;

D) judge that whether the movement direction of object of each detection signal of each object is different, if not, carries out step b, if carry out step e;

E) whether the movement direction of object of judging each detection signal of each object meets default value, if not, carries out step b, if carry out step f;

F) whether the object of which movement speed of judging each detection signal of each object meets default value, if not, carries out step b, if carry out step g;

G) be coupled and calculate each detection signal of each object after produce an operating parameter;

H) carry out non-contacting input application program.

8. the method for operating of electronic installation as claimed in claim 7, wherein, the detecting mode of each set detecting unit can utilize capacitance type structure or infrared ray structure to carry out among the step a.

9. the method for operating of electronic installation as claimed in claim 7, wherein, step b, when detecting at least one or an above object, electronic installation is for being converted to operator scheme by battery saving mode.

10. the method for operating of electronic installation as claimed in claim 7, wherein, the mode of detecting object is to utilize the plural detecting unit of electronic installation periphery to carry out detecting among the step b, the X that is positioned at one of them above detecting unit when object apart from the time, then represent to detect object.

11. the method for operating of electronic installation as claimed in claim 7 wherein, includes distance and movement of objects speed between movement direction of object, object and each detecting unit in each detection signal among the step f.

12. the method for operating of electronic installation as claimed in claim 7, wherein, each detection signal is calculated and is produced the computing formula of an operating parameter and is among the step f:

ag＝S ₁{f(d)，f(t)}.S ₂{f(d)，f(t)}......S _y{f(d)，f(t)}，

S wherein ₁Be first detecting unit 21, S ₂Be second detecting unit, S _yIt is the y detecting unit; F (d) is the distance of object 3 and each detecting unit; F (t) just can produce very first time point t for the traveling time from a detecting unit to another detecting unit ₁And the second time point t ₂

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