CN102081457A - Method for detecting distance changes to execute commands and portable electronic device - Google Patents

Abstract

The invention relates to a method for detecting distance changes to execute commands and a portable electronic device, wherein the method for detecting the distance changes to execute the commands is used for the portable electronic device; the portable electronic device comprises a first distance sensor and a second distance sensor; the first distance sensor is used for detecting and getting a first distance change formed when a first mobile object moves; and the second distance sensor is used for detecting and getting a second distance change formed when a second mobile object moves. The method comprises the following steps: setting at least one command corresponding to the first distance change and the second distance change; detecting and getting the first distance change formed when the first mobile object moves and the second distance change formed when the second mobile object moves; according to the first distance change and the second distance change, executing the at least one command corresponding to the first distance change and the second distance change. According to the invention, inconvenience caused by the small buttons of the portable electronic device is overcome.

Description

Detect method and the portable electron device of variable in distance with execution command

Technical field

The present invention relates to a kind of method and portable electron device that detects variable in distance with execution command; The variable in distance that particularly a kind of finger that detects and obtain the user forms when mobile is with the method for execution command and the portable electron device of adopting said method.

Background technology

Reach under user's demand along with technology is constantly progressive, electronic product advances towards the more and more compact direction of volume always, especially portable electron device, for example mobile phone, intelligent mobile phone (smart phone) or personal digital assistant (personal digital assistant, PDA) etc., all the more so.Yet the size of its screen but must be kept certain size, or even is the bigger the better, and to make things convenient for user's today in information explosion, can browse picture smoothly with suitable screen size, and not cause the burden of eyes because of screen size is too small.

Portable electron device now has Touch Screen usually, make things convenient for the user directly on screen, to do and click or carry out program in the portable electron device or the like, but when running into some special use situations when calling (for example play games or), the physical button (for example 2 to, 4 to directionkeys or numerical key) that still need use portable electron device is with execution command.In the prior art, for cooperating the compact demand of electronic product, physical button also need be designed to reduced size.At this moment, the inconvenience in the time of will producing use because of physical button is less.In addition, when when playing games, because of need long-time fast with sudden force push physical button (for example 2 to or 4 to directionkeys), very easily cause the damage of physical button.

Therefore, be necessary to provide a kind of method of new execution command and the portable electron device of adopting said method, to improve above-mentioned existing problem.

Summary of the invention

For improving the existing problem of prior art, the invention provides a kind of variable in distance that detects with the method for execution command and the portable electron device of adopting said method.

The present invention at first provides a kind of method that detects variable in distance with execution command, be used for portable electron device, portable electron device comprises first range sensor and second distance sensor, first range sensor is in order to detect and to obtain first and move first variable in distance that object forms when mobile, the second distance sensor moves the second distance variation that object forms in order to detect and to obtain second when mobile, the variation of detection distance comprises the following steps: to set first variable in distance with the method that executes instruction and second distance changes pairing at least one instruction; Detecting and obtain first moves first variable in distance and second that object forms move the second distance variation that object forms when mobile when mobile; And, change pairing at least one instruction to carry out first variable in distance and second distance according to this first variable in distance and the variation of this second distance.

In one embodiment of this invention, first variable in distance comprises first displacement and first moving direction, second distance changes and to comprise second displacement and second moving direction, detects variable in distance and comprises the following steps: also to judge that with the method for execution command first displacement and second displacement are whether all in distance threshold; And if first displacement and second displacement all in distance threshold, are then carried out first variable in distance and second distance and are changed pairing at least one instruction.

The present invention provides a kind of method that detects variable in distance with execution command in addition, is used for portable electron device.Portable electron device comprises range sensor and input interface device, and range sensor is in order to detect and obtain the variable in distance that mobile object forms when mobile, and input interface device can be operated under AD HOC.The variation that detects distance comprises the following steps: to set when input interface device is operated the pairing at least one instruction of variable in distance under AD HOC with the method that executes instruction; Detect and obtain the variable in distance that mobile object forms when mobile; Judge whether input interface device is operated under AD HOC; And if input interface device is to operate under AD HOC, then according to variable in distance, when the execution input interface device is operated under AD HOC, the pairing at least one instruction of variable in distance.

In one embodiment of this invention, wherein variable in distance comprises displacement and moving direction, and the variation that detects distance comprises the following steps: also to judge that with the method for execution command displacement is whether in distance threshold; And if displacement in distance threshold, is then carried out the pairing at least one instruction of variable in distance.

The present invention provides a kind of portable electron device in addition, this electronic installation comprises first range sensor, second distance sensor, storage device and setting module and control module, and wherein first range sensor is in order to detect and to obtain first and move first variable in distance that object forms when mobile; The second distance sensor moves the second distance variation that object forms in order to detect and to obtain second when mobile; Storage device comprises database; Setting module and storage device electrically connect, and setting module changes pairing at least one instruction and at least one instruction is stored to database in order to set first variable in distance and second distance; And control module electrically connects first range sensor, second distance sensor, storage device and setting module, when first range sensor detected and obtain first variable in distance and second distance sensor and obtain the second distance variation, control module changed pairing at least one instruction according to database to carry out first variable in distance and second distance.

In one embodiment of this invention, portable electron device also comprises input interface device, input interface device and control module electrically connect, wherein input interface device can be operated under AD HOC, setting module can be in order to set when input interface device is operated under AD HOC, and this first variable in distance and second distance change pairing at least one instruction and should at least one instruction be stored to database.

The present invention effectively overcomes the less and inconvenience that causes of the physical button of portable electron device.

Description of drawings

Fig. 1 is the configuration diagram about an embodiment of portable electron device of the present invention.

Fig. 2 is the synoptic diagram about an embodiment of portable electron device of the present invention.

Fig. 3 is the synoptic diagram about another embodiment of portable electron device of the present invention.

Fig. 4 is about the flow chart of steps of detection variable in distance of the present invention with an embodiment of the method for execution command.

Fig. 5 is about the flow chart of steps of detection variable in distance of the present invention with an embodiment of the method for execution command.

Fig. 6 is about the operation chart of detection variable in distance of the present invention with an embodiment of the method for execution command.

Fig. 7 is about the operation chart of detection variable in distance of the present invention with an embodiment of the method for execution command.

Fig. 8 is about the operation chart of detection variable in distance of the present invention with an embodiment of the method for execution command.

Fig. 9 is about the operation chart of detection variable in distance of the present invention with an embodiment of the method for execution command.

The primary clustering symbol description:

Portable electron device 1,1a setting module 14

Control module 11 input interface devices 15,15a

First range sensor 121,121a nine palace lattice functional areas 151

Second distance sensor 122, the anti-white area 1511 of 122a

Storage device 13 first moves object 81

Database 131 second moves object 82

Embodiment

For above-mentioned and other purposes, feature and advantage of the present invention can be become apparent, cited below particularlyly go out preferred embodiment, and cooperate appended accompanying drawing, be described in detail below.

Below please refer to Fig. 1, about the configuration diagram of an embodiment of portable electron device of the present invention.

As shown in Figure 1, portable electron device 1 of the present invention comprises first range sensor 121, second distance sensor 122, storage device 13, setting module 14, input interface device 15 and control module 11.Wherein first range sensor 121 is in order to detect and to obtain first and move first variable in distance that object (for example user's finger) forms when mobile; Second distance sensor 122 moves the second distance variation that object (for example another finger of user) forms in order to detect and to obtain second when mobile.Wherein, first variable in distance comprises first displacement and first moving direction, and the second distance variation comprises second displacement and second moving direction.

In one embodiment of this invention, first range sensor 121 and second distance sensor 122 are proximity sensor (proximity sensor), the proximity sensor of optical profile type for example, but the present invention is not as limit.For instance, proximity sensor also can be the proximity sensor of ultrasonic type.The proximity sensor of optical profile type can transmitting illuminant, and when light source is moved the object reflex time, the proximity sensor of optical profile type can detect the displacement and the moving direction of mobile object.Because proximity sensor is widely used in correlative technology field, and is not that the present invention wants improved emphasis place, so do not repeat them here its detailed working method.

In one embodiment of this invention, first moves object and second moves object and is user's finger, but the present invention is as limit, moves object and second and moves object but the article of any reflection ray all can be of the present invention first.

Storage device 13 comprises database 131.Setting module 14 electrically connects with storage device 13, and setting module 14 changes pairing at least one instruction and at least one instruction is stored to database 131 in order to set first variable in distance and second distance.

Control module 11 electrically connects first range sensor 121, second distance sensor 122, storage device 13, setting module 14 and input interface device 15.Control module 11 is in order to control the work of first range sensor 121, second distance sensor 122, storage device 13, setting module 14 and input interface device 15.When first range sensor 121 detected and obtains first variable in distance and 122 detections of second distance sensor and obtains the second distance variation, control module 11 changed pairing at least one instruction according to database 131 to carry out first variable in distance and second distance.

Input interface device 15 electrically connects with control module 11.Input interface device 15 can be operated under an AD HOC, setting module 14 can be in order to set when input interface device 15 is operated under AD HOC, and first variable in distance and second distance change pairing at least one instruction and should at least one instruction be stored to database 131.When input interface device 15 was operated under AD HOC, when control module 11 was operated under AD HOC to carry out input interface device 15 according to database 131, first variable in distance and second distance changed pairing at least one instruction.As shown in Figure 2, in one embodiment of this invention, portable electron device 1 is a personal digital assistant, and input interface device 15 is a Touch Screen, but the present invention is not as limit.For instance, portable electron device 1 also can be mobile phone or game machine.It is noted that, in the present embodiment, first range sensor 121 and second distance sensor 122 are arranged on on the one side with input interface device 15, and the detection side of first range sensor 121 and second distance sensor 122 is to vertical in fact input interface device 15, but first range sensor 121 of the present invention and second distance sensor 122 position and detection side are set to not as limit.

As shown in Figure 3, in the portable electron device 1a of another embodiment of the present invention, the first range sensor 121a and second distance sensor 122a and input interface device 15a are arranged on on the one side, but the detection side of the first range sensor 121a and second distance sensor 122a is to parallel in fact input interface device 15a.

Be example promptly below with portable electron device of the present invention shown in Figure 11, describe detection variable in distance of the present invention each step in detail with the method for execution command, but it is noted that, as long as can reach purpose of the present invention, method of the present invention is not exceeded to be applied in portable electron device shown in Figure 11.

Please in the lump with reference to figure 1, Fig. 2 and Fig. 4 to Fig. 9, about the embodiment of detection variable in distance of the present invention with the method for execution command.

As shown in Figure 4, the present invention at first carries out step S71, sets first variable in distance and second distance and changes pairing at least one instruction.

As shown in Figure 5, step S71 comprises that also step S711 is to step S718.Illustrate earlier promptly that below step S711 is to step S718.

Step S711: set when first displacement and second displacement is identical in fact and first moving direction and second moving direction correspond to upwards during respectively away from first range sensor and second distance sensor and instruct.

As shown in Figure 6, in one embodiment of this invention, the present invention can set that to move second displacement of object 82 identical in fact when first range sensor 121 and second distance sensor 122 detect and obtain first first displacement and second that moves object 81 respectively by setting module 14, and first first moving direction and second that moves object 81 corresponds to upwards instruction when moving object 82 second moving directions respectively away from first range sensor 121 and second distance sensor 122.For instance, show nine palace lattice functional areas 151 in the input interface device 15, upwards instruction is meant anti-white area 1511 by the middle section of nine palace lattice functional areas 151 lattice that move up, but the present invention is not as limit.

In one embodiment of this invention, first moves object 81 and second moves left-hand finger and the right finger that object 82 is respectively the user, but the present invention is not as limit.

Step S712: set when first displacement and second displacement is identical in fact and first moving direction and second moving direction correspond to giving an order during respectively near first range sensor and second distance sensor.

As shown in Figure 7, for instance, show nine palace lattice functional areas 151 in the input interface device 15, be meant that to giving an order anti-white area 1511 moves down lattice by the middle section of nine palace lattice functional areas 151, but the present invention is not as limit.

Step S713: set when first displacement is essentially and correspond to instruction to the right when 0 and second moving direction is approaching repeatedly to be reached away from the second distance sensor.

As shown in Figure 8, when first first displacement that moves object 81 is essentially 0, and second second moving direction that moves object 82 repeatedly near and correspond to instruction to the right during away from second distance sensor 122.For instance, show nine palace lattice functional areas 151 in the input interface device 15, refer to anti-white area 1511 to the right by the middle section of nine palace lattice functional areas 151 lattice that move right, but the present invention is not as limit.

Step S714: set when second displacement is essentially and correspond to instruction left when 0 and first moving direction is approaching repeatedly to be reached away from first range sensor.

As shown in Figure 9, when second second displacement that moves object 82 is essentially 0, and first first moving direction that moves object 81 repeatedly near and correspond to instruction left during away from first range sensor 121.For instance, show nine palace lattice functional areas 151 in the input interface device 15, refer to that left anti-white area 1511 is moved to the left lattice by the middle section of nine palace lattice functional areas 151, but the present invention is not as limit.

Only it is noted that first above-mentioned variable in distance or second distance change pairing instruction and do not exceeded with above-mentioned carrying.For instance, the of the present invention instruction upwards, downwards, left and to the right also can be used the user in the recreation of operation portable electron device 1.

Step S715: set when input interface device is operated under AD HOC, first displacement corresponds to when being essentially 0 and second moving direction away from the second distance sensor amplifies instruction.

Step S716: set when input interface device is operated under AD HOC, first displacement corresponds to when being essentially 0 and second moving direction away from the second distance sensor dwindles instruction.

In one embodiment of this invention, if when cooperating input interface device 15 under an AD HOC, to operate, then setting module 14 is set when input interface device 15 is operated under AD HOC, and first variable in distance and second distance change pairing at least one instruction.

In one embodiment of this invention, when AD HOC is carried out choosing of at least one object for the user or when mobile on input interface device 15, then setting module 14 is set first variable in distance and second distance and is changed to correspond to and amplify instruction or dwindle instruction, the may command at least one object in input interface device 15 amplification or dwindle.In one embodiment of this invention, when first displacement is essentially 0, and second moving direction corresponds to during away from second distance sensor 122 and amplifies instruction; When first displacement is essentially 0, and second moving direction corresponds to during away from second distance sensor 122 and dwindles instruction, but the present invention is not as limit.

Step S717: set when input interface device is operated under AD HOC, first displacement corresponds to when being essentially 0 and second moving direction away from second distance sensor 122 and scrolls up picture commands.

Step S718: set when input interface device is operated under AD HOC, first displacement corresponds to downward scrolling picture commands when being essentially 0 and second moving direction away from second distance sensor 122.

In one embodiment of this invention, when AD HOC when browsing image mode, then setting module 14 is set when input interface device 15 is operated under AD HOC, and first variable in distance and second distance variation correspond to and scroll up picture commands or downward scrolling picture commands.In one embodiment of this invention, when first displacement is essentially 0, and second moving direction corresponds to during away from second distance sensor 122 and scrolls up picture commands; When first displacement is essentially 0, and second moving direction corresponds to downward scrolling picture commands during away from second distance sensor 122.Only it is noted that AD HOC is not exceeded with above-mentioned carrying.

Other is noted that the order of step S711 to S718 of the present invention can change, and does not exceed with order shown in Figure 5.

Next carry out step S72, detect and obtain first and move first variable in distance and second that object forms move the second distance that object forms change when mobile when mobile.

In one embodiment of this invention, first range sensor 121 and second distance sensor 122 detect and obtain first respectively and move first variable in distance and second that object 81 forms move the second distance that object 82 forms change when mobile when mobile.

Then carry out step S73, judge that first displacement and second displacement are whether all in distance threshold.

Distance threshold of the present invention is in order to judge that first moves that object 81 or second moves first displacement of object 82 or second displacement is significant moving, but not first move object 81 or second move object 82 carelessly from first range sensor 121 or second distance sensor 122 tops process, if first displacement or second displacement, then are judged as insignificant moving greater than distance threshold.In one embodiment of this invention, distance threshold is in fact between 0.5 centimetre (centimetre) to 2.5 centimetres (centimetres), but the present invention is not as limit.In a preferred embodiment of the present invention, distance threshold is essentially 2 centimetres (centimetres).

If first displacement and second displacement all in distance threshold, are then carried out step S74, judge whether input interface device is operated under AD HOC.

If input interface device 15 is not operated under AD HOC, then carry out step S75, carry out first variable in distance and second distance and change pairing at least one instruction.

In one embodiment of this invention, first variable in distance and second distance change pairing at least one instruction can be above-mentioned carry reach instruction left downwards upwards,, to the right, so do not repeat them here.

In step S74, if input interface device 15 for to operate, then carries out step S76 under AD HOC, when the execution input interface device was operated under AD HOC, first variable in distance and second distance changed pairing at least one instruction.In one embodiment of this invention, first variable in distance and second distance change pairing at least one instruction and can be the above-mentioned amplification of proposing, dwindle instruction, scroll up picture and downward scrolling picture commands, so do not repeat them here.

To sum up institute is old, and no matter the present invention everywhere all shows it totally different in the feature of known technology with regard to purpose, means and effect, earnestly asks the auditor to perceive, and grants quasi patent early, makes Jiahui society, and the true feeling moral just.Only it should be noted that above-mentioned many embodiment give an example for convenience of explanation, the present invention's interest field required for protection should be as the criterion so that the scope of claims is described naturally, but not only limits to the foregoing description.

Claims (10)

1. one kind is detected the method for variable in distance to execute instruction, be used for a portable electron device, this portable electron device comprises one first range sensor and a second distance sensor, this first range sensor is in order to detect and to obtain one first and move one first variable in distance that object forms when mobile, this second distance sensor moves the second distance variation that object forms in order to detect and to obtain one second when mobile, this method comprises the following steps:

Set this first variable in distance and this second distance and change pairing at least one instruction;

Detecting and obtain this first moves this first variable in distance that object forms and this second move this second distance variation that object forms when mobile when mobile; And

Change according to this first variable in distance and this second distance, change pairing this at least one instruction to carry out this first variable in distance and this second distance.

2. detection variable in distance as claimed in claim 1 is with the method for execution command, wherein this first variable in distance comprises one first displacement and one first moving direction, this second distance variation comprises one second displacement and one second moving direction, and this method comprises the following steps:

Judge this first displacement and this second displacement whether all in a distance threshold, wherein this distance threshold is in fact between 0.5 centimetre to 2.5 centimetres; And

If this first displacement and this second displacement all in this distance threshold, are then carried out this first variable in distance and this second distance and are changed pairing this at least one instruction.

3. detection variable in distance as claimed in claim 2 comprises the following steps: with the method for execution command

Set when this first displacement and this second displacement is identical in fact and this first moving direction and this second moving direction correspond to one during respectively away from this first range sensor and this second distance sensor and upwards instruct;

Set when this first displacement and this second displacement is identical in fact and this first moving direction and this second moving direction correspond to one to giving an order during respectively near this first range sensor and this second distance sensor;

Set when this first displacement be essentially 0 and this second moving direction repeatedly near and correspond to one during away from this second distance sensor and instruct to the right; And

Set when this second displacement be essentially 0 and this first moving direction repeatedly near and correspond to one during away from this first range sensor and instruct left.

4. detection variable in distance as claimed in claim 1 is with the method for execution command, and wherein this portable electron device comprises an input interface device, and this input interface device can be operated under an AD HOC, and this method comprises the following steps:

Set when this input interface device is operated under this AD HOC, this first variable in distance and this second distance change pairing at least one instruction;

When detecting and obtaining the variation of this first variable in distance or this second distance, judge whether this input interface device is operated under this AD HOC; And

If this input interface device is to operate under this AD HOC, when then carrying out this input interface device and operating under this AD HOC, this first variable in distance and this second distance change pairing this at least one instruction.

5. detection variable in distance as claimed in claim 4 is with the method for execution command, wherein this input interface device is a Touch Screen, this AD HOC is that a user carries out choosing of at least one object or mobile on this input interface device, and this method comprises the following steps:

Set when this input interface device is operated under this AD HOC, this first variable in distance and the variation of this second distance correspond to an amplification instruction or and dwindle instruction.

6. detection variable in distance as claimed in claim 4 is with the method for execution command, and wherein this input interface device is a Touch Screen, and this AD HOC is to browse image mode, and this method comprises the following steps:

Set when this input interface device is operated under this AD HOC, this first variable in distance and the variation of this second distance correspond to one and scroll up a picture commands or a downward scrolling picture commands.

7. portable electron device, this electronic installation comprises:

One first range sensor, this first range sensor is in order to detect and to obtain one first and move one first variable in distance that object forms when mobile;

One second distance sensor, this second distance sensor moves the second distance variation that object forms in order to detect and to obtain one second when mobile;

One storage device, this storage device comprises a database;

One setting module electrically connects with this storage device, and this setting module changes pairing at least one instruction and should at least one instruction be stored to this database in order to set this first variable in distance and this second distance; And

One control module, electrically connect this first range sensor, this second distance sensor, this storage device and this setting module, when this first range sensor detected and obtain this first variable in distance and this second distance sensor and obtain this second distance variation, this control module changed pairing this at least one instruction according to this database to carry out this first variable in distance and this second distance.

8. portable electron device as claimed in claim 7, comprise an input interface device, electrically connect with this control module, wherein this input interface device can be operated under an AD HOC, this setting module can be in order to set when this input interface device is operated under this AD HOC, and this first variable in distance and this second distance change pairing at least one instruction and should at least one instruction be stored to this database.

9. portable electron device as claimed in claim 8, when this input interface device is operated under this AD HOC, when this control module was operated under this AD HOC to carry out this input interface device according to this database, this first variable in distance and this second distance changed pairing this at least one instruction.

10. portable electron device as claimed in claim 9, wherein this input interface device is a Touch Screen, this first range sensor and this first range sensor are respectively a proximity sensor, and the detection side of this first range sensor and this second distance sensor is to perpendicular or parallel in fact this input interface device.

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