Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described.
Embodiment one:
The present embodiment provides a kind of electronic equipment, and this electronic equipment can remember this computer, super, input expanding depressed place etc. for conventional pen.
As shown in Figure 1, this electronic equipment comprises: input media 10, comprises the first surface for carrying input operation; Lighting device 20, for regulating the brightness at least partially of first surface; Harvester 30, for gathering the human eye feature parameter being positioned at acquisition zone intra domain user; Treating apparatus 40, after determining that the sight line focus of the user that human eye feature parameter characterizes meets predetermined condition, controls lighting device 20, to regulate brightness at least partially.
Specifically, when user uses input media 10 to carry out input operation, harvester 30 carries out line-of-sight detection to the user being positioned at its pickup area, gather its human eye feature parameter, then, treating apparatus 40 determine sight line focus that the above-mentioned human eye feature parameter collected characterizes meet pre-conditioned after, control lighting device 20 and to regulate on first surface brightness at least partially, namely increase/be reduced by least the brightness of a part, make to brighten at least partially or dimmed.
Further, when treating apparatus 40 control lighting device 20 increase/be reduced by least a part brightness process in time, identical speed can be adopted to regulate, and namely in same time, the variable quantity of brightness is consistent; Also can first rate be adopted slowly to increase brightness in the process lightened, in the process dimmed, adopt the second speed being greater than first rate to reduce brightness fast.Certainly, can also have other modes, the present invention is not specifically limited.
In another embodiment, input media 10 whether Real-Time Monitoring first surface can also exist input operation, and if so, treating apparatus 40 control lighting devices 20 dim, and if not, then controls lighting device 20 and lightens; Or after input media 10 detects input operation, through Preset Time, if sustainable existence input operation, then treating apparatus 40 controls lighting device 20 and dims, otherwise, then control lighting device 20 and lighten.Certainly, can also have other modes, the present invention is not specifically limited.
In actual applications, lighting device 20 can comprise the first illumination module 21, can be LED, LCD lamp etc., is arranged on the side that input media 10 is opposing with first surface, the second surface of input media 10, namely the back side of first surface is positioned at the field of illumination of the first illumination module 21.Suppose, input media 10 is mechanical keyboard, and now, the first illumination module 21 is the backlight module of keyboard, is arranged on the back side in input through keyboard face.
Further, input media 10 can be mechanical keyboard, film touch control keyboard, board etc., comprises first area and second area at least partially at first surface, and the transmittance of first area is higher than the transmittance of second area; Now, treating apparatus 40 is after determining that the sight line focus of the user that human eye feature parameter characterizes meets predetermined condition, control the first illumination module 21, regulate brightness at least partially, the brightness gain obtaining first area is greater than the brightness gain of second area, that is, after control lighting device 20 regulates brightness at least partially, because first area is different from the penetrability of second area, the brightness gain of first area is caused to be greater than the brightness gain of second area.
In a particular embodiment, input media 10 can comprise at least one input module, at least one input module has corresponding assembly mark on the first surface, such as, input media 10 is mechanical keyboard, is made up of at least one button, at the first surface that these buttons form, namely with the surface of user's finger contacts has corresponding assembly and identifies, namely corresponding character of each button.Now, as shown in Figure 2, region corresponding to character is first area 111, and remaining region is second area 112; More preferably, first area 111 can for the light hole offered on the first surface.
So, when treating apparatus 40 control lighting device 20 increase the brightness of at least one part time, be positioned on the input module of at least one part assembly mark identification be enhanced, that is user can more clearly pick out assembly mark.
In actual applications, harvester 30 can be visible images harvester, also can be infrared image acquisition device, can user's eye image in pickup area, and this image is sent to treating apparatus 40, by it, Treatment Analysis is carried out to this image, determine the sight line focus of user, to realize the Eye-controlling focus to user; Treating apparatus 40 can be the processors such as CPU, ARM, DSP, and the present invention is not specifically limited.
Alternatively, harvester 30 and treating apparatus 40 can be arranged on two independently in physical entity, and also can be integrated in a physical entity, the present invention is not specifically limited.
Further, above-mentioned first illumination module 21 can be made up of multiple illuminating device, according to the position that illuminating device is arranged, can by the field of illumination of the first illumination module 21, and namely second surface is divided at least one subregion; So, treating apparatus 40 can determine the sight line focus of user meet pre-conditioned after, according to the position of the subregion at sight line focus place, region to be illuminated is determined at least one subregion, such as, to sight line focus place subregion be comprised and the region around it is defined as irradiation area, then, treating apparatus 40 controls the first illumination module 21 and irradiates region to be illuminated, to regulate on first surface brightness at least partially, wherein, corresponding with the irradiation area of the first illumination module 21 at least partially on first surface.
Below the course of work of above-mentioned electronic equipment is described in detail.
Suppose, this electronic equipment is common notebook computer, and harvester is infrared image acquisition device, and treating apparatus can be the CPU of notebook computer.
First, infrared image acquisition device works on power, in real time eye image collection is carried out to the user in pickup area, that is to say the eyes image gathering it, then, this image is sent to CPU, CPU is to carrying out Treatment Analysis, determine whether user's sight line focus that this eyes image characterizes is positioned on mechanical keyboard, or whether user's sight line focus moves into mechanical keyboard, if, just think that user will carry out input operation, now, CPU controls the first illumination module, namely keyboard back light is opened or blast, brightness at least partially on mechanical keyboard is increased, now, user just can see keyboard clearly.
Certainly, CPU can also determine that current sight line focus is positioned at after on mechanical keyboard, start timing, the time that sight line focus is positioned at mechanical keyboard is longer, thinks that user needs long-time input, or user does not still see the assembly mark on first surface clearly, i.e. button character, now, CPU controls the first illumination module, makes brighter display at least partially.
And after user's eyes image of collection sends to CPU by infrared image acquisition device, CPU carries out Treatment Analysis to this image, determine that user's sight line focus that this eyes image characterizes is shifted out by mechanical keyboard, now, CPU controls the first illumination module, namely keyboard back light is closed or is dimmed, and the brightness at least partially on mechanical keyboard is reduced, and saves the power consumption of electronic equipment.
This shows, electronic equipment can control lighting device by the sight line focal position detecting user, with brightness at least partially on the first surface regulating input media, so, user, just without the need to Non-follow control lighting device, realizes the Based Intelligent Control to input media backlight, saves energy consumption, user-friendly, improve Consumer's Experience.
Embodiment two:
The present embodiment provides a kind of electronic equipment, and this electronic equipment can remember this computer, super, input expanding depressed place etc. for conventional pen.
As shown in Figure 3, this electronic equipment comprises: input media 10, comprises the first surface for carrying input operation; Lighting device 20, for regulating the brightness at least partially of first surface; Harvester 30, for gathering the human eye feature parameter being positioned at acquisition zone intra domain user; Treating apparatus 40, after determining that the sight line focus of the user that human eye feature parameter characterizes meets predetermined condition, controls lighting device 20, to regulate brightness at least partially.
Specifically, when user uses input media 10 to carry out input operation, harvester 30 carries out line-of-sight detection to the user being positioned at its pickup area, gather its human eye feature parameter, then, treating apparatus 40 determine sight line focus that the above-mentioned human eye feature parameter collected characterizes meet pre-conditioned after, control lighting device 20 and to regulate on first surface brightness at least partially, namely increase/be reduced by least the brightness of a part, make to brighten at least partially or dimmed.
Further, when treating apparatus 40 control lighting device 20 increase/be reduced by least a part brightness process in time, identical speed can be adopted to regulate, and namely in same time, the variable quantity of brightness is consistent; Also can first rate be adopted slowly to increase brightness in the process lightened, in the process dimmed, adopt the second speed being greater than first rate to reduce brightness fast.Certainly, can also have other modes, the present invention is not specifically limited.
In another embodiment, input media 10 whether Real-Time Monitoring first surface can also exist input operation, and if so, treating apparatus 40 control lighting devices 20 dim, and if not, then controls lighting device 20 and lightens; Or after input media 10 detects input operation, through Preset Time, if sustainable existence input operation, then treating apparatus 40 controls lighting device 20 and dims, otherwise, then control lighting device 20 and lighten.Certainly, can also have other modes, the present invention is not specifically limited.
In actual applications, lighting device 20 can comprise the second illumination module 22, and can be LED, LCD lamp etc., the second illumination module 22 can be arranged on the top of first surface, and input media 10 first surface is positioned at the field of illumination of the second illumination module 22.
In actual applications, electronic equipment can also comprise output unit, can be LED display, touch display screen, electronic ink screen etc., is used for exporting the content that inputted by input media 10 of user.Now, the second illumination module 22 can also be arranged in output unit away from the edge of input media 10.
In a particular embodiment, input media 10 can comprise at least one input module, at least one input module has corresponding assembly mark on the first surface, such as, input media 10 is mechanical keyboard, is made up of at least one button, at the first surface that these buttons form, namely with the surface of user's finger contacts has corresponding assembly and identifies, namely corresponding character of each button.
So, when treating apparatus 40 control the second illumination module 22 increase the brightness of at least one part time, be positioned on the input module of at least one part assembly mark identification be enhanced, that is user can more clearly pick out assembly mark.
In actual applications, harvester 30 can be visible images harvester, also can be infrared image acquisition device, can user's eye image in pickup area, and this image is sent to treating apparatus 40, by it, Treatment Analysis is carried out to this image, determine the sight line focus of user, to realize the Eye-controlling focus to user; Treating apparatus 40 can be the processors such as CPU, ARM, DSP, and the present invention is not specifically limited.
Alternatively, harvester 30 and treating apparatus 40 can be arranged on two independently in physical entity, and also can be integrated in a physical entity, the present invention is not specifically limited.
On another embodiment ground, above-mentioned second illumination module 22 can be made up of multiple illuminating device, according to the position that illuminating device is arranged, can by the field of illumination of the second illumination module 22, and namely first surface is divided at least one subregion; So, treating apparatus 40 can determine the sight line focus of user meet pre-conditioned after, according to the position of the subregion at sight line focus place, region to be illuminated is determined at least one subregion, such as, sight line focus place subregion will be comprised and the region around it is defined as irradiation area, then, treating apparatus 40 controls the second illumination module 22 and irradiates region to be illuminated, to regulate on first surface brightness at least partially.
Below the course of work of above-mentioned electronic equipment is described in detail.
Suppose, this electronic equipment is common notebook computer, and harvester is infrared image acquisition device, and treating apparatus can be the CPU of notebook computer.
First, infrared image acquisition device works on power, in real time eye image collection is carried out to the user in pickup area, that is to say the eyes image gathering it, then, this image is sent to CPU, CPU is to carrying out Treatment Analysis, determine whether user's sight line focus that this eyes image characterizes is positioned on mechanical keyboard, or whether user focus moves into mechanical keyboard, if, just think that user will carry out input operation, now, CPU controls the second illumination module and opens or blast, brightness at least partially on mechanical keyboard is increased, now, user just can see keyboard clearly.
Certainly, CPU can also determine that current sight line focus is positioned at after on mechanical keyboard, start timing, the time that sight line focus is positioned at mechanical keyboard is longer, thinks that user needs long-time input, or user does not still see the assembly mark on first surface clearly, i.e. button character, now, it is more and more brighter that CPU controls the second illumination module, makes brightness at least partially also more and more brighter.
And after user's eyes image of collection sends to CPU by infrared image acquisition device, CPU carries out Treatment Analysis to this image, determine that user's sight line focus that this eyes image characterizes is shifted out by mechanical keyboard, now, CPU controls the second illumination module, brightness at least partially on mechanical keyboard is reduced, saves the power consumption of electronic equipment.
This shows, electronic equipment can control lighting device by the sight line focal position detecting user, with brightness at least partially on the first surface regulating input media, so, user, just without the need to Non-follow control lighting device, realizes the Based Intelligent Control to input media backlight, saves energy consumption, user-friendly, improve Consumer's Experience.
Embodiment three:
The present embodiment provides a kind of electronic equipment, and this electronic equipment can remember this computer, super, input expanding depressed place etc. for conventional pen.
As shown in Figure 4, this electronic equipment comprises: input media 10, comprises the first surface for carrying input operation; Lighting device 20, for regulating the brightness at least partially of first surface; Harvester 30, for gathering the human eye feature parameter being positioned at acquisition zone intra domain user; Treating apparatus 40, after determining that the sight line focus of the user that human eye feature parameter characterizes meets predetermined condition, controls lighting device 20, to regulate brightness at least partially.
Specifically, when user uses input media 10 to carry out input operation, harvester 30 carries out line-of-sight detection to the user being positioned at its pickup area, gather its human eye feature parameter, then, treating apparatus 40 determine sight line focus that the above-mentioned human eye feature parameter collected characterizes meet pre-conditioned after, control lighting device 20 and to regulate on first surface brightness at least partially, namely increase/be reduced by least the brightness of a part, make to brighten at least partially or dimmed.
Further, when treating apparatus 40 control lighting device 20 increase/be reduced by least a part brightness process in time, identical speed can be adopted to regulate, and namely in same time, the variable quantity of brightness is consistent; Also can first rate be adopted slowly to increase brightness in the process lightened, in the process dimmed, adopt the second speed being greater than first rate to reduce brightness fast.Certainly, can also have other modes, the present invention is not specifically limited.
In another embodiment, input media 10 whether Real-Time Monitoring first surface can also exist input operation, and if so, treating apparatus 40 control lighting devices 20 dim, and if not, then controls lighting device 20 and lightens; Or after input media 10 detects input operation, through Preset Time, if sustainable existence input operation, then treating apparatus 40 controls lighting device 20 and dims, otherwise, then control lighting device 20 and lighten.Certainly, can also have other modes, the present invention is not specifically limited.
Further, lighting device 20 can comprise the first illumination module 21 and the second illumination module 22, can be LED, LCD lamp etc., first illumination module 21 is arranged on input media 10 side opposing with first surface, the second surface of input media 10, namely the back side of first surface is positioned at the field of illumination of the first illumination module 21; Suppose, input media 10 is mechanical keyboard, and now, the first illumination module 21 is the backlight module of keyboard, is arranged on the back side in input through keyboard face; Second illumination module 22 can be arranged on the top of first surface, and as being arranged on away from the edge of input media 10 in output unit, input media 10 first surface is positioned at the field of illumination of the second illumination module 22.
In actual applications, electronic equipment can comprise: the first noumenon and the second body, and the first noumenon can rotate relative to the second body; The first noumenon has the first opposing outside surface and the second outside surface, and the second body has the 3rd opposing outside surface and the 4th outside surface; When the first noumenon turns to primary importance relative to the second body, the distance of the second outside surface and the 3rd outside surface is less than the distance of the second outside surface and the 4th outside surface, and input media 10 is arranged on the 3rd outside surface.
Further, electronic equipment can also comprise output unit, is arranged on the second outside surface, can be LED display, touch display screen, electronic ink screen etc., is used for exporting the content that inputted by input media 10 of user.
Now, first illumination module 21 is arranged in the second body, second illumination module 22 is arranged on the one end away from the 3rd outside surface on the second outside surface, when the first noumenon turns to primary importance relative to the second body, first surface is in the field of illumination of the second illumination module 22, now, the angle between the first noumenon and the second body can be 60 °, 90 °, 120 °.
Further, input media 10 can be mechanical keyboard, film touch control keyboard, board etc., comprises first area and second area at least partially at first surface, and the transmittance of first area is higher than the transmittance of second area; Now, treating apparatus 40 is after determining that the sight line focus of the user that human eye feature parameter characterizes meets predetermined condition, control the first illumination module 21, regulate brightness at least partially, make the brightness gain of first area be greater than the brightness gain of second area, that is, control after the first illumination module 21 regulates brightness at least partially, because first area is different from the penetrability of second area, the brightness gain of first area is caused to be greater than the brightness gain of second area.And treating apparatus 40 can also control the second illumination module 22 simultaneously, regulate brightness at least partially.
In a particular embodiment, input media 10 can comprise at least one input module, at least one input module has corresponding assembly mark on the first surface, such as, input media 10 is mechanical keyboard, is made up of at least one button, at the first surface that these buttons form, namely the surface contacted with user mobile phone has corresponding assembly to identify, namely the corresponding character of each button.Now, as shown in Figure 2, region corresponding to character is first area 111, and remaining region is second area 112; More preferably, first area 111 can for the light hole offered on the first surface.
So, when treating apparatus 40 controls the first illumination module 21 or the second illumination module 22 increases the brightness of at least one part, the identification being positioned at the assembly mark on the input module of at least one part is enhanced, and that is user more clearly can pick out assembly mark.
In actual applications, harvester 30 can be visible images harvester, also can be infrared image acquisition device, can user's eye image in pickup area, and this image is sent to treating apparatus 40, by it, Treatment Analysis is carried out to this image, determine the sight line focus of user, to realize the Eye-controlling focus to user; Treating apparatus 40 can be the processors such as CPU, ARM, DSP, and the present invention is not specifically limited.
Alternatively, harvester 30 and treating apparatus 40 can be arranged on two independently in physical entity, and also can be integrated in a physical entity, the present invention is not specifically limited.
On another embodiment ground, above-mentioned first illumination module 21 or the second illumination module 22 can be made up of multiple illuminating device, according to the position that illuminating device is arranged, can by the field of illumination of the first illumination module 21, namely second surface is divided at least one subregion, correspondingly, can by the field of illumination of the second illumination module 22, namely first surface is divided at least one subregion; So, treating apparatus 40 can determine the sight line focus of user meet pre-conditioned after, according to the position of the subregion at sight line focus place, region to be illuminated is determined at least one subregion, such as, sight line focus place subregion will be comprised and the region around it is defined as irradiation area, then, treating apparatus 40 controls the second illumination module 22 and irradiates region to be illuminated, to regulate on first surface brightness at least partially.
Further, treating apparatus 40 when determining that sight line focus moves to input media 10 by output unit, can also control the first illumination module 21, to regulate brightness at least partially; Or, can detect after user continues input in preset time period and stop input, now, determine whether sight line focus is move to input media 10 by output unit again, if so, then think that user still needs input, but do not see input media 10, now, control the first illumination module 21, to regulate brightness at least partially.
Further, treating apparatus 40 can also first illumination module 21 open state under, determine the sight line focus of user meet pre-conditioned after, control the second illumination module 22 and open, with regulating device brightness at least partially.That is, when the first illumination module 21 is opened, in order to illuminate at least partially further, now, the second illumination module 22 can be controlled and open.
In another embodiment, electronic equipment can also comprise ambient light detection device, can the environmental light parameter of the current residing environment of detected electrons equipment, such as, and the brightness of surround lighting; Now, treating apparatus 40 just can based on environmental light parameter, and control device first illumination module 21 and/or the second illumination module 22 are opened, with regulating device brightness at least partially.Such as, when the environmental light brightness of current residing environment is less than threshold value, treating apparatus 40 is when user's sight line focus meets pre-conditioned, control the first illumination module 21 and the second illumination module 22 is opened simultaneously, and when the environmental light brightness of current residing environment is greater than or equal to this threshold value, treating apparatus 40, when user's sight line focus meets pre-conditioned, only controls the first illumination module 21 or the second illumination module 22 is opened.
Further, the power consumption of the first illumination module 21 and the second illumination module 22 can also be different, and namely a power consumption is high, and one low in energy consumption, and now, treating apparatus 40 can also judge to open which illumination module by the dump energy current according to electronic equipment.Such as, when current dump energy is less than threshold value, that is, when electric quantity for electronic equipment is low, treating apparatus 40, when user's sight line focus meets pre-conditioned, controls illumination module low in energy consumption and opens, and controls the high illumination module of power consumption simultaneously and closes; When current dump energy is greater than threshold value, that is, when electric quantity for electronic equipment is sufficient, treating apparatus 40, when user's sight line focus meets pre-conditioned, controls the high illumination module of power consumption and opens, control illumination module low in energy consumption simultaneously and cut out.
It should be noted that, above-mentioned preset value is as the criterion with practical application, and the present invention is not specifically limited.
Below the course of work of above-mentioned electronic equipment is described in detail.
Suppose, this electronic equipment is common notebook computer, and output unit is LED display, and harvester is infrared image acquisition device, and treating apparatus can be the CPU of notebook computer.
First, infrared image acquisition device works on power, in real time eye image collection is carried out to the user in pickup area, that is to say the eyes image gathering it, then, this image is sent to CPU, CPU is to carrying out Treatment Analysis, determine that user's sight line focus that this eyes image characterizes moves on mechanical keyboard by LED display, if, CPU controls the first illumination module and the second illumination module simultaneously, namely keyboard back light and external illuminating lamp are opened or blast, brightness at least partially on mechanical keyboard is increased, now, user just can see keyboard clearly.
Certainly, CPU can also determine that current sight line focus is positioned at after on mechanical keyboard, start timing, the time that sight line focus is positioned at mechanical keyboard is longer, thinks that user needs long-time input, or user does not still see the assembly mark on first surface clearly, i.e. button character, now, CPU controls the first illumination module, makes brighter display at least partially.
And after user's eyes image of collection sends to CPU by infrared image acquisition device, CPU carries out Treatment Analysis to this image, determine that user's sight line focus that this eyes image characterizes is moved to LED display by mechanical keyboard, now, CPU controls the first illumination module and the second illumination module, brightness at least partially on mechanical keyboard is reduced, saves the power consumption of electronic equipment.
This shows, electronic equipment can control lighting device by the sight line focal position detecting user, with brightness at least partially on the first surface regulating input media, so, user, just without the need to Non-follow control lighting device, realizes the Based Intelligent Control to input media backlight, saves energy consumption, user-friendly, improve Consumer's Experience.
Embodiment four:
Based on same inventive concept, the present embodiment provides a kind of method controlling electronic equipment, and the method is applied to an electronic equipment, and this electronic equipment is consistent with the electronic equipment described in one or more embodiment above-mentioned.Wherein, this electronic equipment comprises input media and lighting device, and wherein, input media has the first surface for carrying input operation, and lighting device is for regulating the brightness at least partially of first surface.
As shown in Figure 5, the method comprises:
S501: gather the human eye feature parameter being positioned at acquisition zone intra domain user;
S502: after determining that the sight line focus of the user that human eye feature parameter characterizes meets predetermined condition, controls lighting device, to regulate brightness at least partially.
In another embodiment, electronic equipment also comprises an output unit, as LED display, touch display screen, electronic ink screen etc., be used for exporting the content that inputted by input media of user, now, S502 can be: after determining that sight line focus moves to input media by output unit, controls lighting device, to regulate brightness at least partially.
Further, before determining that sight line focus to be moved to the step of input media by output unit, the method also comprises: determine that first surface receives input operation constantly in Preset Time.That is, detect after user continues input in preset time period and stop input, now, determine whether sight line focus is move to input media by output unit again, if so, then think that user still needs input, but do not see input media, now, control the first illumination module, to regulate brightness at least partially.
Further, the field of illumination of above-mentioned lighting device comprises at least one subregion; So, control lighting device, to regulate the step of brightness at least partially, comprising: according to the subregion at sight line focus place at least one subregion, determine region to be illuminated; Control lighting device and irradiate region to be illuminated, to regulate brightness at least partially, region to be illuminated is with corresponding at least partially.
Further, lighting device comprises the first illumination module and the second illumination module; So, control lighting device, to regulate the step of brightness at least partially, comprising: under the state that the first illumination module is opened, control the second illumination module and open, to regulate brightness at least partially.
Further, electronic equipment comprises ambient light detection device, for the environmental light parameter of the current residing environment of detected electrons equipment; So, control lighting device, to regulate the step of brightness at least partially, comprising: based on environmental light parameter, control the first illumination module and/or the unlatching of the second illumination module, to regulate brightness at least partially.
Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of hardware embodiment, software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disk memory and optical memory etc.) of computer usable program code.
The present invention describes with reference to according to the process flow diagram of the method for the embodiment of the present invention, equipment (system) and computer program and/or block scheme.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block scheme and/or square frame and process flow diagram and/or block scheme and/or square frame.These computer program instructions can being provided to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computing machine or other programmable data processing device produce device for realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.
These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.
These computer program instructions also can be loaded in computing machine or other programmable data processing device, make on computing machine or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computing machine or other programmable devices is provided for the step realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.
The above, be only preferred embodiment of the present invention, be not intended to limit protection scope of the present invention.