CN105653070A - Unintentional displacement identification and correction method, system and apparatus - Google Patents

Abstract

The invention relates to an unintentional displacement identification and correction method, system and apparatus. The method is a computer implementation method and comprises the steps of detecting the activation of a switch; sampling a displacement detected by a converter during a sampling interval to make a response to the activated switch, and converting the sampled displacement into a displacement signal to operate an object generated by a computing apparatus; determining at least one of a displacement value and a displacement rate of the sampled displacement; when at least one of situations that the displacement value is smaller than a reference value and the displacement rate is smaller than a reference rate occurs, identifying the displacement occurring during the sampling interval as an unintentional displacement, wherein the unintentional displacement is identified to prevent the operation on the object by the displacement signal; accumulating multiple activation of the switch within a predetermined bouncing interval; and communicating the multiple activation of the switch, as one-time activation of the switch, with the computing apparatus.

Description

It is not intended to identification and the method revised, system and the device of displacement

Divide case application

The application's to be the applying date be October 19, denomination of invention in 2007 is the application number of " being not intended to identifications of displacement and the method for correction thereof and system " is point case application of the patent application of 200780101927.2.

Technical field

System of the present invention is about a method, and it is for identifying by the mobile unintentionally displacement unintentionally produced of a periphery device. More specifically, system of the present invention is about a computer implemented method, a system and a device, and it is for identifying and revises by the mobile unintentionally displacement unintentionally produced of a periphery device.

Background technology

Indicator device is a kind of periphery device, and it is also the known mouse of everybody usually, and due to the progress of these converter technology used in such as indicator device, indicator device becomes that movement is very sensitive gradually. A mouse uses a photoelectric commutator (such as: have and survey projector more than an optics sense of one of 4000dpi (luminous point of per inch, dots-per-inch) optical resolution) can significantly improve it and move sensitivity.

The mobile sensitivity of significantly raising of this mouse can improve the control of one of display object (such as: an index) in a display unit and more accurate manipulation. But, this raising is moved sensitivity and is also caused any movement unintentionally of this mouse can change into the displacement of this pointer in this display unit. The mobile unintentionally of this mouse produces usually in time operating this mouse button. Apply the power on these buttons because of operation can move this mouse under being not intended to simultaneously. It is not intended to the mobile displacement causing this pointer in this display unit due to this mouse, causes negative impact by the experience of user.

The means that one solution provides are the movement sensitivity allowing this mouse of change. But, the minimizing of sensitivity is unfavorable to this object of acquirement, and against using the object of a highly sensitive mouse. Another solution is stop detecting all mouses within a predetermined cycle after these buttons any of this mouse of operation to move, and this solution is not inconsistent expectation yet, because the movement having a mind to occurred within this cycle is also terminated.

Therefore, above-mentioned proof we need one method and a kind of system, these foregoing problems can be solved.

Summary of the invention

According to one of the present invention first aspect, it is disclose a kind of computer implemented method, and it comprises: the startup of detection switch; The displacement that sampling is detected by a transmodulator during occurring in a sampling interval is to respond the switch started, and this sampling displacement is through being converted to displacement signal to handle the object produced by a calculating device; Determine at least one in the displacement size of described sampling displacement and rate of displacement; And when described displacement size occurs lower than at least one in a reference rate lower than a reference size and described rate of displacement, it is identified as one by there is the described displacement during described sampling interval and it is not intended to displacement, wherein identify that this is not intended to displacement to prevent the manipulation to described object by described displacement signal; The multiboot of accumulative described switch in predetermined spring interval; Using the described multiboot of described switch starting and described calculating device communication for single time as described switch.

According to one of the present invention the 2nd aspect, it is disclose a kind of system to comprise: a controller, its configuration is used for and a calculating device and a periphery device communication, and described periphery device has a switch and a transmodulator, and described controller comprises: for detecting the device of the startup of described switch; For sample occur in a sampling interval during the displacement detected with described transmodulator to respond the device of the switch started, described sampling displacement is through being converted to displacement signal to handle the object produced by described calculating device; For determining in the displacement size of described sampling displacement and rate of displacement the device of at least one; And when described displacement size occurs lower than at least one in a reference rate lower than a reference size and described rate of displacement, for the described displacement during described sampling interval will be occurred to be identified as device that one is not intended to displacement, wherein identify and described it is not intended to displacement to prevent the manipulation to described object by described displacement signal; For the device of the multiboot of described switch accumulative in predetermined spring interval; For the described multiboot of described switch is started the device with described calculating device communication as the single secondary of described switch.

According to one of the present invention the 3rd aspect, it is disclose a kind of device to comprise: a switch, and it is used for doing signal communication with a calculating device, one transmodulator, one controller, its configuration comes and described calculating device communication, described controller is used for detecting the startup of described switch and being used for sampling occurring the displacement detected with described transmodulator during a sampling interval to respond the described switch started, described controller is used for determining at least one in the displacement size of described sampling displacement and rate of displacement further, and when described displacement size occurs lower than at least one in a reference rate lower than a reference size and described rate of displacement, it is identified as one by there is the described displacement during described sampling interval and it is not intended to displacement, wherein said sampling displacement is through being converted to displacement signal to handle the object produced by described calculating device, and identify that described displacement unintentionally is to prevent the manipulation to described object by described displacement signal, and a program, it performs with the multiboot of described switch accumulative in predetermined spring interval, and described program performs further using by the described multiboot of described switch starting and described calculating device communication for single time as described switch.

Accompanying drawing explanation

The specific embodiment of the present invention is disclosed below with reference to these diagrams, wherein:

Fig. 1 shows a programflow chart of a kind of method according to one of the present invention specific embodiment, and it is used for identifying and revising the displacement being not intended to;

Fig. 2 shows a part of system block diagrams of one of mutual configuration periphery device and a calculating device, and these device systems are used for implementing the method for Fig. 1;

It is one graphic that Fig. 3 is displayed in a sampling interval one of generation according to the method for Fig. 1 and is not intended to displacement;

Fig. 4 display is used for implementing a part of system block diagrams of one of Fig. 1 method system; And

Fig. 5 display is used for implementing a part of system block diagrams of one of Fig. 1 method device.

Embodiment

Hereinafter describe and it is used for identifying and revise the method, a system and the device that are not intended to displacement, to solve these foregoing problems.

For asking simple and clear, the description of the specific embodiment of following the present invention is limited to the use of the periphery device with calculating device connection. But, the various specific embodiment of the present invention is not got rid of the application needing similar operations performance by this. These elementary operations of the specific embodiment of the present invention and functional principle system are common to these various specific embodiments whole.

Fig. 1 to Fig. 5 that below the present invention one exemplary embodiments system of description is graphic according to these, wherein similar assembly is numbered with similar reference number.

Describing one of the present invention exemplary embodiments below with reference to Fig. 1 to Fig. 3, a method 100 is be not intended to displacement for identifying and revise, and this displacement system occurs during using a periphery device 20 and calculating device 22 communication. This periphery device 20 comprises transmodulator 24 and a switch 26. Being preferably, this periphery device 20 is an indicator device (such as a mouse), and it has is this switch 26 of a button. This periphery device 20 be preferably wired coupling and be wirelessly coupled to this calculating device 22 and with the one in this communication. This periphery device 20 can be operated and handle the object 28 produced by this calculating device 22. This object 28 is such as produced and a steerable pointer or an object in a multidimensional imaginary space.

This transmodulator 24 is better is a photoelectric commutator (such as an infrared sensor device or an electricity penetrate sensor device), to detect the displacement of this periphery device 20 across a surface. Or, this transmodulator 24 is an electromagnetic transducer and a data-collection device. One of one data-collection device example comprises multiple decoding wheel to draw communication with a spheroid, and this spheroid system is coupled to this periphery device 20 rotationally. When this spheroid rolls across a surface, these are separated wheel and rotate to detect the displacement caused. In the configuration of a mouse, this spheroid system is used for rolling across the surface of a support. In a track ball configuration, this surface (such as a nurse refers to) rolls across this spheroid to cause rotation. This switch 26 one of to perform on this calculating device 22 function through starting, such as, is used for selecting this object 28 or performs an application program. Or, this switch 26 is for performing one of on another device function.

Being preferably, this periphery device comprises a main body 30 further, with this transmodulator 24 coated and this switch 26. This switch 26 is preferably a mechanical switch. Or, this switch system one capacitance-type switch or an optical switch. Or further, this switch 26 is a capacitance-type switch, it is that the main body 30 with this periphery device 20 forms one.

During using this periphery device 20, operate this switch 26 its startup can be caused the mobile unintentionally of the main body 30 of this periphery device 20. Should be not intended to mobile be then transferred to this object 28 be not intended to displacement, this object 28 is be shown in the display unit 32 that one of is coupled with this calculating device 22.Being used for one of head it off prematurity method ties up to this switch 26 and terminates in one after starting and block the cycle (illustration) any movement of detecting of period, with avoid this object 28 be not intended to handle. But, this method unavoidably has also been blocked and has been had a mind to during this blocks the cycle for handling this object 28 and any movement through detecting.

Therefore, the method 100 be can be used for determine how to process be not intended to mobile before first identify any be not intended to mobile. The method 100 is better to be implemented as a software program (such as a driving program), to perform on one of this calculating device 22 treater (not shown). In one of the method 100 step 110, the startup of this switch 28 detected by this calculating device 22. In a step 112, when this switch 28 start detect on a start-up point 36 time, occur the displacement 38 during a sampling interval 40 through sampling and to convert displacement signal 42 to. This sampling displacement 38 is operate this periphery device 20 by a user to be caused. This sampling interval 40 has a gap periods 44 and is initial from this start-up point 36.

Next, in a step 114, determine the displacement size 46 of this sampling displacement 38. Another is chosen as (or extraly), the rate of displacement of this sampling displacement 38 also determines in this step 114.

Then, in a step 116, the displacement size 46 of this sampling displacement 38 is compared with a reference size 50. If when this displacement size 46 is equal to or higher than this reference size 50, this sampling displacement 38 is identified as a displacement having a mind to. But, when this displacement size 46 is less than this reference size 50, this sampling displacement 38 is identified as one and is not intended to displacement.

Another is chosen as in this step 116, the rate of displacement of this sampling displacement 38 is compared with a reference rate. If when this rate of displacement equals or exceeds this reference rate, this sampling displacement 38 is identified as a displacement intentionally. But, when this rate of displacement is less than this reference rate, this sampling displacement 38 is identified as one and is not intended to displacement.

Also have another to be chosen as in this step 116, this displacement size 46 of this sampling displacement 38 and this both rate of displacement are compared with this reference size 50 and this reference rate respectively. If the one in this displacement size 46 and this rate of displacement or both are when equaling or exceeding this reference size 50 and this reference rate respectively, this sampling displacement 38 is identified as displacement intentionally. Otherwise, this sampling displacement 38 is identified as one and is not intended to displacement.

In a step 118, when this sampling displacement 38 through be identified as one have a mind to displacement time, this calculating device 22 processes these displacement signals 42 to handle this object 28. But, when this sampling displacement 38 through be identified as one be not intended to displacement time, this calculating device 22 terminates these displacement signals 42 to prevent to the manipulation of this object 28.

When operating the upper button of a highly sensitive indicator device (such as tool is more than one of 4000dpi (luminous point of every English) resolving power optical mouse) and produce displacement unintentionally or move, the method 100 can identify the displacement unintentionally of display object (such as a pointer). But, owing to different users has without use habit, a kind of setting application program (illustration) can perform on this calculating device, and with a graphical user interface (GUI, graphicaluserinterface) present, to allow user's definable or change this gap periods 44, this reference size 50 and this reference rate. Or, this user can change this gap periods 44, this reference size 50 and this reference rate to make can to provide multiple rotary switch or multiple sliding part formula switch on this periphery device 20.

The method 100 can use a system 200 to realize the displacement unintentionally identified as shown in Figure 4 further. This system 200 comprises cryopreservation device 204 in a controller 202 and. This interior cryopreservation device 204 comprises a software program, and it can be performed to carry out the method 100 by this controller 202. This system 200 is better can be contacted with this periphery device 20 and this calculating device 22 signal. When from this periphery device 20 receive these displacement signals 42 and when carry out the method 100 step 118 time, if this sampling displacement 38 through be identified as one be not intended to displacement time, this controller 202 stops these displacement signals 42 to the communication of this calculating device 22, to prevent to the manipulation of this object 28. Or, when this sampling displacement 38 through be identified as one be not intended to displacement time, this controller 202 terminates these displacement signals 42 to prevent to the manipulation of this object 28.

The method 100 can use a device 300 to carry out further, to identify displacement unintentionally as shown in Figure 5. This device 300 is preferably this periphery device 20 and therefore comprises transmodulator 302, switch 304 and a main body 306, and this transmodulator 24 of itself and this periphery device 20, this switch 26 and this main body 30 do the coordination of function and configuration. This device 300 comprises the cryopreservation device 310 in 308 and that one of is coated in this main body 306 controller further. This interior cryopreservation device 310 stores can by one of this controller 308 execution software program (such as: can by one of microprocessor execution firmware) to carry out the method 100. This transmodulator 302 and this switch 304 are coupled with this controller 308 with in its intercropping signal communication. This controller 308 further with this calculating device 22 signal communication. When receiving these displacement signals 42 also when carrying out this step 118 of the method 100 from this transmodulator 302, if this sampling displacement 38 is through being identified as a displacement unintentionally, this controller 308 stops the communication of these displacement signals 42 to this calculating device 22, to prevent to the manipulation of this object 28. Or, when this sampling displacement 38 through be identified as one be not intended to displacement time, this controller 308 terminates these displacement signals 42 to prevent to the manipulation of this object 28.

In addition, this software program being used for carrying out the method 100 one of can be engaged on this device 300 to separate spring program operate. Operation this switch 304 during switch may be occurred to bounce, although its cause this switch 304 only start the multiboot once detecting this switch 304 intentionally and with this calculating device 22 communication. The occurring of this switch spring is determined according to this specification of this switch 304, design and damping characteristic. When this controller 308 performs this solution spring program, this controller 308 will be accumulated at any startup of predetermined this switch 304 bounced in interval, and starts and this calculating device 22 communication for single time with one of this switch 304. When this software program being used for carrying out the method 100 coordinates the spring procedure operation of this solution, the start-up point 36 of this sampling interval 40 is better ties up to the initial of this spring interval. Or, the start-up point 36 of this sampling interval 40 tie up to this spring interval end or on any point therebetween.

When using this device 300 to carry out the method 100, this gap periods 44, this reference size 50 and the better system of this reference rate are stored within this device 300 on cryopreservation device 310. In addition, this setting application program is also stored on this interior cryopreservation device 310, and can retrieve, so that the treater of this calculating device 22 or controller 308 can allow a user define or change this gap periods 44, this reference size 50 and this reference rate.This gap periods 44, this reference size 50 and this reference rate are better to be stored on this interior cryopreservation device 310 of this device 300, makes this device 300 of outfit still can keep portable.

Being used for identifying according to the description of one of the present invention specific embodiment in this pre-form and revise the method, a system and the device that are not intended to displacement, it can solve these aforesaid drawbacks. Although only disclosing the one specific embodiment of the present invention, the personage haveing the knack of this technology will show and Yi Zhike makes several changes under the category not deviating from the present invention and spirit and/or revises after watching this exposure file.

Following examples belong to further enforcement mode:

Embodiment 1 is a kind of computer implemented method, comprises: the startup detecting a switch; The displacement that sampling is detected by a transmodulator during occurring in a sampling interval is to respond the switch started, and this sampling displacement is through being converted to displacement signal to handle by one of calculating device generation object; Determine at least one in the displacement size of this sampling displacement and rate of displacement; And when this displacement size occurs less than at least one in a reference rate less than a reference size and this rate of displacement, it is identified as one by there is this displacement during this sampling interval and it is not intended to displacement, wherein identify and should be not intended to displacement to prevent the manipulation to this object by these displacement signals.

In example 2, the purport of embodiment 1 can selection of land can comprise: when identifying this and be not intended to displacement, prevents the manipulation to this object with these displacement signals.

In embodiment 3, the purport of embodiment 1 can selection of land can comprise: prevents the manipulation to this object from comprising with these displacement signals: stop these displacement signals to the communication of one of this calculating device treater and terminate in these displacement signals at least one.

In example 4, the purport of embodiment 1 can selection of land can comprise: the startup detecting a switch comprises the startup detecting a switch to perform the function at this calculating device.

In embodiment 5, the purport of embodiment 1 can selection of land can comprise: the one in this switch system one mechanical switch, a capacitance-type switch and an optical profile type switch.

In embodiment 6, the purport of embodiment 1 can selection of land can comprise: one of this switch system one periphery device button.

In embodiment 7, the purport of embodiment 1 can selection of land can comprise: sampling occurs to comprise sampling by the displacement of a transmodulator detecting during a sampling interval and one of is coupled in one of this periphery device surface, a periphery device and a spheroid individual displacement rotationally, and wherein this transmodulator system is coupled to this periphery device to detect this displacement.

In embodiment 8, the purport of embodiment 1 selection of land can comprise the one in this transmodulator system one electromagnetic transducer, a data-collection device and a photoelectric commutator.

In embodiment 9, the purport of embodiment 1 can selection of land can comprise: at least one decision in the displacement size of this sampling displacement and rate of displacement comprises: provide a controller, it is formed in this calculating device being coupled to this calculating device and a periphery device, and the configuration of this controller system comes at this one of transmodulator and this calculating device communication among processors displacement signal; And receive and process by these displacement signals of this controller reception, at least one to determine in the displacement size of this sampling displacement and rate of displacement.

In embodiment 10, the purport of embodiment 1 selection of land can comprise offer one function, and it can perform to change or define at least one in this sampling interval cycle, this reference size and this reference rate.

In embodiment 11, the purport of embodiment 1 selection of land can comprise at least one function switch of offer, and it can operate at least one in this sampling interval cycle that changes, this reference size and this reference rate.

Embodiment 12 is a kind of system, comprises: a controller, and its configuration is used for and a calculating device and a periphery device communication, and this periphery device has a switch and a transmodulator, and this controller comprises: the component being used for detecting the startup of this switch; Be used for sampling occur in a sampling interval during with the displacement of this transmodulator detecting to respond the component of the switch started, this sampling displacement is through being converted to displacement signal to handle the object produced by this calculating device; It is used for determining in the displacement size of this sampling displacement and rate of displacement the component of at least one; And when this displacement size occurs less than at least one in a reference rate less than a reference size and this rate of displacement, be used for by occur this displacement during this sampling interval be identified as one be not intended to displacement component, wherein identify should be not intended to displacement to prevent the manipulation to this object by these displacement signals.

In embodiment 13, the purport of embodiment 12 can selection of land can comprise: this controller comprises the component for preventing the manipulation to this object with these displacement signals further.

In embodiment 14, the purport of embodiment 13 can selection of land can comprise: is used for preventing these components of the manipulation to this object from comprising with these displacement signals: is used for stopping these displacement signals to the communication of one of this calculating device treater and the component of at least one that terminates in these displacement signals.

In embodiment 15, the purport of embodiment 12 can selection of land can comprise: this switch through starting one of to perform on this calculating device function.

In embodiment 16, the purport of embodiment 12 can selection of land can comprise: the one in this switch system one mechanical switch, a capacitance-type switch and an optical profile type switch.

In embodiment 17, the purport of embodiment 12 can selection of land can comprise: the button that this switch relation is formed on this periphery device.

In embodiment 18, the purport of embodiment 12 can selection of land can comprise: this displacement that the detecting of this transmodulator one of is coupled in one of this periphery device surface, a periphery device and a spheroid rotationally is to convert these displacement signals to.

In embodiment 19, the purport of embodiment 12 can selection of land can comprise: the one in this transmodulator system one electromagnetic transducer, data-collection device and a photoelectric commutator.

In embodiment 20, the purport of embodiment 12 can selection of land can comprise: is used for receiving and processes at least one the component of these displacement signals to determine in the displacement size of this sampling displacement and rate of displacement.

In embodiment 21, the purport of embodiment 12 can selection of land can comprise: a function can perform by least one in one of this calculating device treater and this controller, and it can change or define at least one in this sampling interval cycle, this reference size and this reference rate.

In embodiment 22, the purport of embodiment 12 can selection of land can comprise: this controller further with at least one function switch communication, this at least one function communication system can operate at least one in this sampling interval cycle that changes, this reference size and this reference rate.

Embodiment 23 is a kind of device, comprises: a switch, and it is used for doing signal communication with a calculating device, one transmodulator, and a controller, its configuration comes and this calculating device communication, this controller system is used for detecting the startup of this switch and is used for sampling and occurs to respond this switch started during a sampling interval with the displacement of this transmodulator detecting, this controller is used for determining at least one in the displacement size of this sampling displacement and rate of displacement further, and when this displacement size occurs less than at least one in a reference rate less than a reference size and this rate of displacement, it is identified as one by there is this displacement during this sampling interval and it is not intended to displacement, wherein this sampling displacement is through being converted to displacement signal to handle the object produced by this calculating device, and identification should be not intended to displacement to prevent the manipulation to this object by these displacement signals.

In embodiment 24, the purport of embodiment 23 can selection of land can comprise: when identifying this and be not intended to displacement, this controller is used for preventing the manipulation to this object with these displacement signals further.

In embodiment 25, the purport of embodiment 24 can selection of land can comprise: this controller by stop these displacement signals to the communication of this calculating device and terminate in these displacement signals at least one prevent the manipulation to this object with these displacement signals.

In embodiment 26, the purport of embodiment 23 can selection of land can comprise: this switch can start the function performed on this calculating device.

In embodiment 27, the purport of embodiment 23 can selection of land can comprise: the one in this switch system one mechanical switch, a capacitance-type switch and an optical profile type switch.

In embodiment 28, the purport of embodiment 23 selection of land can comprise a main body, and it is used for this controller coated, this transmodulator and this switch, the button that wherein this switch system is formed in this main body.

In embodiment 29, the purport of embodiment 28 can selection of land can comprise: this displacement that the detecting of this transmodulator one of is coupled in one of this main body surface, this main body and a spheroid rotationally is converted to these displacement signals to be used for.

In embodiment 30, the purport of embodiment 23 can selection of land can comprise: the one in this transmodulator system one electromagnetic type transmodulator, a dynamo-electric formula transmodulator and a photoelectric type transmodulator.

In embodiment 31, the purport of embodiment 23 can selection of land can comprise: this controller is used for receiving and processing these displacement signals further, at least one to determine in the displacement size of this sampling displacement and rate of displacement.

In embodiment 32, the purport of embodiment 23 can selection of land can comprise: a function can perform to change or define at least one in this sampling interval cycle, this reference size and this reference rate by least one in one of this calculating device treater and this controller.

In embodiment 33, the purport of embodiment 23 can selection of land can comprise: this controller further with at least one function switch communication, this at least one function switch can operate at least one in this sampling interval cycle that changes, this reference size and this reference rate.

Embodiment 34 is a machine-readable media, and it has a plurality of programmed instruction and is stored in wherein, when perform these instructions time, its make this machine can: the startup detecting a switch; Sampling occurs during a sampling interval with the displacement of a transmodulator detecting to respond this switch through startup, this sampling displacement through converting to displacement signal handle by one of calculating device generation object; Determine at least one in the displacement size of this sampling displacement and rate of displacement; And when this displacement size occurs less than at least one in a reference rate less than a reference size and this rate of displacement, it is identified as one by there is this displacement during this sampling interval and it is not intended to displacement, wherein identify this and be not intended to displacement to prevent the manipulation to this object by these displacement signals.

In embodiment 35, the purport of embodiment 34 can selection of land can comprise: when performing these a plurality of programmed instruction, its make this machine can: when identify should unintentionally displacement time, prevent the manipulation to this object by these displacement signals.

In embodiment 36, the purport of embodiment 34 can selection of land can comprise: when perform these a plurality of programmed instruction time, its make this machine can: stop these displacement signals to the communication of this treater of this calculating device and terminate in these displacement signals at least one.

In embodiment 37, the purport of embodiment 34 can selection of land can comprise: when performing these a plurality of programmed instruction, and it makes startup that this machine can detect a switch one of to perform on this calculating device function.

In embodiment 38, the purport of embodiment 34 can selection of land can comprise: the one in this switch system one mechanical switch, a capacitance-type switch and an optical profile type switch.

In embodiment 39, the purport of embodiment 34 can selection of land can comprise: one of this switch system one periphery device button.

In embodiment 40, the purport of embodiment 34 can selection of land can comprise: when performing these a plurality of programmed instruction, it makes the displacement that this machine sampling one of is coupled in one of this periphery device surface, a periphery device and a spheroid rotationally, and wherein this transmodulator system is coupled to this periphery device to detect this displacement.

In embodiment 41, the purport of embodiment 34 can selection of land can comprise: the one in this transmodulator system one electromagnetic type transmodulator, a dynamo-electric formula transmodulator and a photoelectric type transmodulator.

In embodiment 42, the purport of embodiment 34 can selection of land can comprise: when performing these a plurality of programmed instruction, its make this machine can: receive and process by least one to determine in the displacement size of this sampling displacement and rate of displacement of these displacement signals of a controller reception, in wherein this controller system one of is formed at this calculating device and is coupled in one of this calculating device periphery device, the configuration of this controller system comes at this one of transmodulator and this calculating device communication among processors displacement signal.

In embodiment 43, the purport of embodiment 34 can selection of land can comprise: when perform these a plurality of programmed instruction time, its make this machine can: perform a function with change or define in this sampling interval cycle, this reference size and this reference rate at least one.

In embodiment 44, the purport of embodiment 34 can selection of land can comprise when perform these a plurality of programmed instruction time, its make this machine can: change the function switch that at least one in this sampling interval cycle, this reference size and this reference rate can operate to respond at least one.

Claims (33)

1. a computer implemented method, comprises:

The startup of detection switch;

The displacement that sampling is detected by a transmodulator during occurring in a sampling interval is to respond the switch started, and sampling displacement is through being converted to displacement signal to handle the object produced by a calculating device;

Determine at least one in the displacement size of described sampling displacement and rate of displacement; And

When described displacement size lower than a reference size and described rate of displacement lower than a reference rate at least one occur time, the described displacement during described sampling interval will be occurred to be identified as one and to be not intended to displacement,

Wherein identify that described displacement unintentionally is to prevent the manipulation to described object by described displacement signal;

The multiboot of accumulative described switch in predetermined spring interval;

Using the described multiboot of described switch starting and described calculating device communication for single time as described switch.

2. the method for claim 1, comprises further:

When identifying described displacement unintentionally, prevent the manipulation to described object with described displacement signal.

3. the method for claim 1, with described displacement signal prevent the manipulation to described object comprise following at least one:

Stop described displacement signal to the communication of a treater of described calculating device, and terminate described displacement signal.

4. the method for claim 1, the startup detecting a switch comprises:

Detect starting to perform the function at described calculating device of a switch.

5. the method for claim 1, wherein said switch is the one in mechanical switch, capacitance-type switch and optical profile type switch.

6. the method for claim 1, wherein said switch is a button of a periphery device.

7. the method for claim 1, sampling occurs to comprise by the displacement of a transmodulator detecting during a sampling interval:

Sample the displacement of one in a surface, a periphery device and the spheroid being coupled to described periphery device rotationally,

Wherein said transmodulator is coupled to described periphery device to detect described displacement.

8. the method for claim 1, wherein said transmodulator is the one in electromagnetic transducer, data-collection device and photoelectric commutator.

9. the method for claim 1, it is resolved that at least one in the displacement size of described sampling displacement and rate of displacement comprises:

Thering is provided a controller, it is formed at described calculating device with, in the one being coupled in the periphery device of described calculating device, the configuration of described controller comes at a communication among processors displacement signal of described transmodulator and described calculating device; And

Receive and process the described displacement signal received by described controller, at least one to determine in the displacement size of described sampling displacement and rate of displacement.

10. the method for claim 1, comprises further:

Thering is provided a function, it can perform to change or define at least one in this sampling interval cycle, this reference size and this reference rate.

11. the method for claim 1, comprise further:

Thering is provided at least one function switch, it can operate at least one in this sampling interval cycle that changes, this reference size and this reference rate.

12. 1 kinds of systems, comprise:

One controller, its configuration is used for and a calculating device and a periphery device communication, and described periphery device has a switch and a transmodulator, and described controller comprises:

For detecting the device of the startup of described switch;

For sample occur in a sampling interval during the displacement detected with described transmodulator to respond the device of the switch started, sampling displacement is through being converted to displacement signal to handle the object produced by described calculating device;

For determining in the displacement size of described sampling displacement and rate of displacement the device of at least one; And

When described displacement size lower than a reference size and described rate of displacement lower than a reference rate at least one occur time, for the described displacement during described sampling interval will be occurred to be identified as device that one is not intended to displacement,

Wherein identify that described displacement unintentionally is to prevent the manipulation to described object by described displacement signal;

For the device of the multiboot of described switch accumulative in predetermined spring interval;

For the described multiboot of described switch is started the device with described calculating device communication as the single secondary of described switch.

13. systems as claimed in claim 12, described controller comprises further:

For preventing the device of the manipulation to described object with described displacement signal.

14. systems as claimed in claim 13, described for preventing the device of the manipulation to described object from comprising with described displacement signal:

For performing the device of following middle at least one: stop described displacement signal to the communication of a treater of described calculating device, and terminate described displacement signal.

15. systems as claimed in claim 12, wherein said switch is through starting to perform a function on the computing device.

16. systems as claimed in claim 12, wherein said switch is the one in mechanical switch, capacitance-type switch and optical profile type switch.

17. systems as claimed in claim 12, wherein said switch is the button being formed on described periphery device.

18. systems as claimed in claim 12, the displacement that the detecting of wherein said transmodulator one of is coupled in a surface of described periphery device, a periphery device and a spheroid rotationally is to convert described displacement signal to.

19. systems as claimed in claim 12, wherein said transmodulator is the one in electromagnetic transducer, data-collection device and photoelectric commutator.

20. systems as claimed in claim 12, described controller comprises further:

For receiving and process described displacement signal to determine the device of at least one in the displacement size of described sampling displacement and rate of displacement.

21. systems as claimed in claim 12, wherein a function can perform by least one in a treater of described calculating device and described controller, and it can change or define at least one in this sampling interval cycle, this reference size and this reference rate.

22. systems as claimed in claim 12, wherein said controller further with at least one function switch communication, described at least one function switch can operate at least one in this sampling interval cycle that changes, this reference size and this reference rate.

23. 1 kinds of devices, it comprises:

One switch, it is used for doing signal communication with a calculating device;

One transmodulator;

One controller, its configuration comes and described calculating device communication, described controller is used for detecting the startup of described switch and being used for sampling occurring the displacement detected with described transmodulator during a sampling interval to respond the described switch started, described controller be used for determining in the sampling displacement size of displacement and rate of displacement further at least one, and when described displacement size lower than a reference size and described rate of displacement lower than a reference rate at least one occur time, it is identified as one by there is the described displacement during described sampling interval and it is not intended to displacement

Wherein said sampling displacement is through being converted to displacement signal to handle the object produced by described calculating device, and identifies that described displacement unintentionally is to prevent the manipulation to described object by described displacement signal; And

One program, it performs with the multiboot of described switch accumulative in predetermined spring interval, and described program performs further using by the described multiboot of described switch starting and described calculating device communication for single time as described switch.

24. devices as claimed in claim 23, when identifying described displacement unintentionally, described controller is used for preventing the manipulation to described object with described displacement signal further.

25. devices as claimed in claim 24, described controller prevents the manipulation to described object by following middle at least one by described displacement signal: stops described displacement signal to the communication of described calculating device, and terminates described displacement signal.

26. devices as claimed in claim 23, wherein said switch activated perform a function on the computing device.

27. devices as claimed in claim 23, wherein said switch is the one in mechanical switch, capacitance-type switch and optical profile type switch.

28. devices as claimed in claim 23, it comprises further:

One main body, it is used for coated described controller, described transmodulator and described switch, and wherein said switch is the button being formed in described main body.

29. devices as claimed in claim 28, the displacement that the detecting of wherein said transmodulator is coupled to one in a surface of described main body, described main body and a spheroid rotationally is converted to described displacement signal to be used for.

30. devices as claimed in claim 23, wherein said transmodulator is the one in electromagnetic type transmodulator, dynamo-electric formula transmodulator and photoelectric type transmodulator.

31. devices as claimed in claim 23, described controller is used for receiving and processing described displacement signal further, at least one to determine in the displacement size of described sampling displacement and rate of displacement.

32. devices as claimed in claim 23, wherein a function can perform to change or define at least one in this sampling interval cycle, this reference size and this reference rate by least one in a treater of described calculating device and described controller.

33. devices as claimed in claim 23, wherein said controller further with at least one function switch communication, at least one to change in this sampling interval cycle, this reference size and this reference rate of this at least one function switching operation.