CN103926914B - For showing multiple wrong method and devices in man-machine interface - Google Patents

Abstract

The present invention relates to for showing multiple wrong method and devices in man-machine interface.There is provided being stored thereon with one or more non-transitory computer-readable mediums for promoting to show multiple wrong programmed instruction.Programmed instruction instructs computing system at least to initiate the display to the graphics view of industrial automation environment when being performed by computing system.Programmed instruction also instructs computing system to detect the multiple erroneous conditions relevant with the machine operation in industrial automation environment, and determines multiple positions associated with multiple erroneous conditions in graphics view.Programmed instruction also instructs computing system to identify at least one set of erroneous condition from multiple erroneous conditions based on the plurality of position, and initiates the figured display at least one set of erroneous condition.

Description

For showing multiple wrong method and devices in man-machine interface

The cross reference of related application

The application is there is a requirement that entitled " the METHOD ANDAPPARATUS FOR THE submitted on November 11st, 2011 DISPLAY OF MULTIPLE ERRORS ON AHUMAN-MACHINE INTERFACE " U.S. Provisional Patent Application No.61/558,694 rights and interests, entire contents are incorporated by reference into the application.

Background technology

In many industrial environments, the quantity and complexity of used equipment need to automate to be used so as to effective Equipment.Automation is strengthened by the user of equipment and the interface for the simplification equipped between itself.The function is frequently by using Man-machine interface is provided, and man-machine interface can include touching the simplified computer of screen or other input equipments allowing user Control the equipment.

When problem occurs in industrial environment, these problems are often concentration.Generally each mistake is on man-machine boundary Cause error message on face.If there is great collapse, then it may generate substantial amounts of wrong and all these mistakes and may that It is shown in man-machine interface to this superposition.So operator must be classified to determine the usual of problem to all these mistakes Complicated reason.

The content of the invention

Be conducive to showing the one of multiple wrong programmed instruction there is provided a kind of be stored thereon with one embodiment Individual or more non-transitory computer-readable medium.The calculating system is instructed in described program instruction when being performed by computing system System at least initiates the display to the graphics view of industrial automation environment.Computing system pair and industry are also instructed in described program instruction Machine in automated environment operates relevant multiple erroneous conditions to be detected, and in graphics view with multiple wrong shapes The associated multiple positions of condition are determined.

Programmed instruction also includes instructing computing system to identify at least one set of mistake from multiple erroneous conditions based on multiple positions Situation, and initiate the figured display at least one set of erroneous condition by mistake.

There is provided for showing multiple wrong methods in man-machine interface in another embodiment.This method bag The graphics view of display industrial automation environment is included, and detects associated with the machine operation in industrial automation environment many Individual erroneous condition.

This method also includes determining multiple positions associated with multiple erroneous conditions in graphics view, and based on multiple Position identifies at least one set of erroneous condition from multiple erroneous conditions.This method also includes showing at least one set of erroneous condition Figure is represented.

In another embodiment there is provided it is a kind of be used to show in industrial automation environment it is multiple wrong man-machine Interface.The man-machine interface includes：Communication interface, the communication interface is configured to receive and grasped with the machine in industrial automation environment Make relevant multiple erroneous conditions；And processor, the processor is coupled to the communication interface.

The processor is configured to：Initiate the display to the graphics view of industrial automation environment；Determine in graphics view The multiple positions associated with multiple erroneous conditions；At least one set of mistake is identified from multiple erroneous conditions based on the plurality of position Situation；And figured display of the initiation at least one set of erroneous condition.

This summary being provided so as in simplified form will further describe in this technology disclosure below to introduce The selection of concept.It should be appreciated that this summary is not intended to enter the key feature or essential feature of theme claimed Line identifier, is not intended in for limiting the scope of theme claimed.

Brief description of the drawings

Fig. 1 shows the flow chart that multiple wrong methods are shown in man-machine interface；

Fig. 2 shows the block diagram of computer system for being configured to operate as man-machine interface to operate；

Fig. 3 is shown and human machine interface graphics element（element）The associated workflow of CAD Workflow diagram；

Fig. 4 shows the block diagram of computer system for being configured to operate as man-machine interface to operate；

Fig. 5 shows the multiple wrong human machine interface screens of display；

Fig. 6 shows the multiple wrong human machine interface screens that are grouped together of the display from Fig. 5；And

Fig. 7 shows the human machine interface screen shown to the error reporting for one of the mistake from Fig. 6.

Embodiment

Describe below and associated accompanying drawing teaching optimal mode of the invention.For the purpose of the teaching principle of the invention, It can simplify or omit some conventional aspects of optimal mode.Appended claims indicate the scope of the present invention.Optimal mode Some aspects may not be fallen within as in the scope of the present invention specified by claim.Therefore, those skilled in the art will recognize Know the modification from optimal mode fallen within the scope of the present invention.It would be recognized by those skilled in the art that discussed below Feature can combine to form multiple modifications of the present invention in a variety of ways.As a result, the present invention is not limited to following retouched The particular example stated, but only limited by claim and their equivalent.

Fig. 1 shows the flow chart that multiple wrong methods are shown in man-machine interface.Shown in man-machine interface multiple In this illustrative embodiments of the method for mistake, pass through those man-machine interfaces for going out as shown in Figure 2 and Figure 4 and being described later on To create and change various graphic elements.The various operations of this method can be performed by one or more man-machine interfaces, And any operation need not be tied to any specific man-machine interface, because all-purpose computer can be configured as into energy The man-machine interface for enough carrying out the operation of method described here is operated.

Man-machine interface shows the graphics view of industrial automation environment（Operation 100）.Generally, industrial automation environment includes The multiple machines being coupled to each other in a variety of ways.Each machine including being represented graphically in the industrial automation environment can be used Any means in the various methods of device graphically show the environment.Figure 5 illustrates the exemplary patterns of industrial environment View.

In this example, man-machine interface detects the multiple erroneous conditions relevant with the machine operation in industrial automation environment （Operation 102）.Man-machine interface also determines multiple positions associated with multiple erroneous conditions in graphics view（Operation 104）.Fig. 5 Shown graphics view is additionally included in multiple erroneous conditions at multiple positions.

In the exemplary embodiment, determine that the multiple positions associated with multiple erroneous conditions include in graphics view： Determine the physical location corresponding with multiple erroneous conditions of one or more machines.In another illustrative embodiments, Determine that the multiple positions associated with multiple erroneous conditions also include in graphics view：Determine the control in one or more machines System or the physical location of display.

Man-machine interface identifies at least one set of erroneous condition based on the plurality of position from multiple erroneous conditions（Operation 106）. For example, the erroneous condition with the errors present assembled or be close together will be grouped together.In some exemplary implementations In mode, identifying at least one set of erroneous condition from multiple erroneous conditions based on multiple positions includes：Determining at least one, this is more The distance between position in individual position.

Then man-machine interface shows that the figure of at least one set of erroneous condition is represented（Operation 108）.The packet allows user The mistake of interest when seeking the solution for the erroneous condition is rapidly determined between different groups of mistakes.To these Mistake, which is grouped, also to be provided to being previously possible by the easier access of the fuzzy wrong investigation of mistake below.This gives user There is provided ensuring to check the vicious easy method of institute.Figure 6 illustrates the exemplary patterns table of some groups of erroneous conditions Show.

In some embodiments, the figure of at least one set of erroneous condition represents to cause false alarm when selected by the user The display of announcement.The error reporting can include：Quantity, at least one set of erroneous condition at least one set of erroneous condition are wrong The expression of the current erroneous mark in situation, current erroneous are described, for the wrong shape at least one set of erroneous condition by mistake Navigation Control navigated between condition etc..Figure 7 illustrates exemplary error report.

In some embodiments, the expression of current erroneous mark is represented including figure.In some illustrative embodiments In, Navigation Control includes next Wrong control and previous Wrong control.These Wrong controls can take various shape Arbitrary form in formula.For example, during using touch-screen, sliding error reporting along a direction can trigger to next mistake Display, and sliding error reporting in the opposite direction can trigger to previous wrong display., should in other example The figure of at least one set of erroneous condition represents to be included in the wrong number in each of at least one set of erroneous condition.

Referring now to Fig. 2, man-machine interface 200 and associated discussion are intended to provide to can wherein implement the place shown in Fig. 1 The concise overall description of the suitable computing environment of reason.Many other configurations of computing device and software computing system can be utilized To implement for showing multiple wrong systems in man-machine interface.

Man-machine interface 200 can handle any kind of computing system of graphic elements, such as server computer, Client computer, internet appliance or its any combinations or modification.The Fig. 4 being then discussed in greater detail provides example The more detailed explanation of property man-machine interface.In fact, man-machine interface 200 may be embodied as single computing system, but It can implement in a distributed fashion across multiple computing systems.For example, man-machine interface 200 can represent following server system System（It is not shown）：Utilize the server system, the computer system of runs software 206（It is not shown）It can communicate man-machine to support Interface feature.But, man-machine interface 200 also may indicate that the computer system of runs software 206.In fact, man-machine interface 200 It is to be provided as the example of following general-purpose computing system, the general-purpose computing system becomes when implementing the method shown in Fig. 1 It is operable to the dedicated system of man-machine interface.

Man-machine interface 200 includes processor 202, storage system 204 and software 206.Processor 202 and storage system 204 It is communicatively coupled.Storage system 204 stores human interface software 206, and the human interface software 206 is worked as to be performed by processor 202 When instruct man-machine interface 200 to be operated as described by for method shown in Fig. 1.

Referring still to Fig. 2, processor 202 can include human interface software 206 is obtained and held from storage system 204 Capable microprocessor and other circuits.Processor 202 can be embodied in single processing equipment, but can also be across collaboration The multiple processing equipment or subsystem of execute program instructions is distributed.The example of processor 202 include general Central Processing Unit, The processing equipment of application specific processor and graphics processor and any other type.

It is readable and can store any of human interface software 206 and deposit that storage system 204 can include processor 202 Storage media.Storage system 204 can include for information store any method or technique implement volatibility with it is non-volatile Property, it is removable with non-removable medium, described information such as computer-readable instruction, data structure, program module or other Data.Storage system 204 may be embodied as single storage device, but can also come across multiple storage devices or subsystem Implement.Storage system 204 can include the add ons of such as controller etc that can be communicated with processor 202.

The example of storage medium includes random access memory, read-only storage, disk, CD and flash memory and its is any Combination or modification, or any other type storage medium.In some implementations, storage medium can be non-transitory storage Jie Matter.In some implementations, at least a portion of storage medium can be temporary.It should be appreciated that storing under any circumstance Medium is not transmitting signal.

Human interface software 206 is included to the computer program at least some parts for being wherein embedded with method shown in Fig. 1 The machine readable process instruction of instruction, firmware or some other forms.Human interface software 206 may be embodied as single answer With, but multiple applications can also be embodied as.Human interface software 206 can be stand-alone application, but can also be implemented on point Cloth is in the other application in multiple equipment, including but not limited to other human interface softwares and operating system software.

Usually, human interface software 206 can be by processor 202 and people when being loaded into processor 202 and performing Machine interface 200 is transformed into special-purpose computing system from general-purpose computing system on the whole, the special-purpose computing system be customized to serve as Such man-machine interface described by method shown in Fig. 1 and associated discussion.

The physical arrangement of storage system 204 can also be converted by carrying out coding to human interface software 206.The spy of physical arrangement The various factors that fixed conversion can be depended in the different implementations in this specification.The example of these factors includes but is not limited to： For the technology for the storage medium for implementing storage system 204, whether computer-readable storage medium is characterized as being main or secondary deposit Storage device etc..

For example, if computer-readable storage medium is implemented as the memory based on semiconductor, human interface software 206 is worked as The physical state of the semiconductor memory can be converted when being encoded in semiconductor memory.For example, human interface software 206 The state of the transistor for constituting semiconductor memory, capacitor or other discrete circuit elements can be converted.

Can occur similar conversion on magnetic medium or optical medium.In the situation of the scope without departing substantially from this specification Under, other conversion of physical medium are possible, and wherein aforementioned exemplary is only provided to be easy to this to discuss.

Referring again to Fig. 1 and Fig. 2, by the operation to the man-machine interface 200 using human interface software 206, to mistake Data 208 enter line translation, produce the mistake 210 of packet.As an example, it is considered that wrong data 208 is by included in it In the change of various elements of figure wrong data bring from a kind of state transformation to another state.

Man-machine interface 200 can have additional equipment, feature or function.Optionally, man-machine interface 200 can have Just like the input equipment and similar input equipment of keyboard, mouse, voice-input device or touch input device etc..It can also wrap Include such as the output equipment of display, loudspeaker, printer and other types of output equipment.Man-machine interface 200 can also include Allow the communication connection that is communicated with miscellaneous equipment of man-machine interface 200 and equipment, such as Distributed Calculation with it is wired in communication environment Or wireless network.These equipment are well known in the art and it need not be discussed in detail herein.

Fig. 3 shows the workflow diagram of the workflow associated with the design of human machine interface graphics element.Including Fig. 3 To show wherein to develop and using the environment of man-machine interface.

Figure 304 is designed in design editing machine 302.Figure 304 includes 4 components：It is static 1 component 306, dynamic The component 308 of state 1,2 components 310 of dynamic and static 2 component 312.This 4 components can be arranged in one in figure 304 or more On multiple layers.

The component 308 of dynamic 1 and 2 components 310 of dynamic can be converted into respectively as the dynamic of dynamic 1. 316 and the dynamic of dynamic 2. 318 dynamic format file 314.Static 1 component 306 and static 2 component 312 are converted into as the static state of static state 1. 322 and static state 2. the static format file 320 of static state 324.Then, this 4 files are exported into middle editing machine 326, in middle editing machine It can enter edlin to dynamic assembly to add attribute and constraint in 326（binding）.

In the exemplary embodiment, living document is extensible markup language, and middle editing machine 326 includes mark Remember language editor, provide the user the means that attribute and constraint are added to dynamic assembly.In some instances, middle editing machine 326 include middle editing machine preview 332, in middle editing machine preview 332, can combine related to the dynamic assembly changed The static component of connection to the dynamic assembly changed carries out preview to ensure the no mistake of modification to dynamic assembly.Originally showing In example, middle editing machine preview 332 is shown to animated graphics 334 on the display device.Animated graphics 334 include 4 groups Part：Static 1 component 322,1 component 328 of dynamic changed, 2 components 330 of dynamic and static 2 component 324 changed.

Once the expectation modification to dynamic assembly is completed in middle editing machine, then by graphic derivation to screen editor In 332, in screen editor 332, Integration Assembly And Checkout is carried out to human machine interface screen.In this example, screen editor 332 Animated graphics 1334 and animated graphics 2336 for being attached in human machine interface screen are shown.

Man-machine interface 338 is display configured to multiple human machine interface screens, all human machine interface screens 1340 as shown in Figure 3 With human machine interface screen 2342.Animated graphics element with whole or any screens in these screens can be with the first machine 344th, the second machine 346 and/or the correspondence of the 3rd machine 348.

Fig. 4 shows the block diagram for the computer system for being configured to operate as the operation of man-machine interface 400.Method shown in Fig. 1 Implement in one or more man-machine interfaces 400 as shown in Figure 4.Man-machine interface 400 includes communication interface 402, display 404th, input equipment 406, output equipment 408, processor 410 and storage system 412.Processor 410 is linked to communication interface 402nd, display 404, input equipment 406, output equipment 408 and storage system 412.It is soft that storage system 412 includes storage operation The non-transitory memory equipment of part 414.

Communication interface 402 includes the component communicated by communication link, such as network interface card, port, RF transceiver, processing Circuit and software or some other communication equipments.Communication interface 402 may be configured to by metal link, Radio Link or light Link is learned to be communicated.Communication interface 402 may be configured to using TDM, IP, Ethernet, optics networking, wireless protocols, Communication signaling or some other communication formats --- including combinations thereof.

Display 404 can present information to any type of display of user.In some embodiments In, display can include touch-screen.Input equipment 406 includes that user's input can be captured and these inputs is passed into calculating Any equipment of machine aided design system 400.Input equipment 406 can include keyboard, mouse, touch pad or some other users Input unit.Output equipment 408 includes the output from computer aided design system 400 being passed into any of user Equipment.Output equipment 408 can include printer, projecting apparatus, display or some other user's output devices.In some examples In, display 404, input equipment 406 and output equipment 408 can be in the outsides of computer aided design system 400 or can be with Omit.

Processor 410 includes the microprocessor and other electricity that operation software 414 is obtained and performed from storage system 412 Road.Storage system 412 includes disc driver, flash drive, data storage circuitry or some other non-transitory memories Device.Operation software 414 includes the machine readable process instruction of computer program, firmware or some other forms.Operate software 414 can include operating system, utility program, driver, socket, using or some other types of softwares.Operation is soft Part 414 instructs method of the processor 410 according to Fig. 1 to operate man-machine interface 400 when being performed as process circuit.

In this example, man-machine interface 400 is performed in a large amount of methods that the memory storage of storage system 412 is software 414.Pass through The result of these methods is shown to user by display 404 or output equipment 408.Input equipment 406 allows multiple machines by machine Device data and wrong data are sent to man-machine interface 400.

For example, processor 410 receives machine data and/or wrong data from communication interface 402 or input equipment 406.So Afterwards, processor 410 is operated to machine data and wrong data to generate packet error message, and packet error message can be deposited Storage is in storage system 412, display is exported on a display 404 or by output equipment 408.

Fig. 5 shows the multiple wrong human machine interface screens 500 of display.In this illustrative embodiments, industry is automatic Change environment and be included in 6 machine systems 522 to 532 graphically illustrated on human machine interface screen 500.

Each in machine 522,524 and 526 has 1 mistake represented by element 502,504 and 506.Machine 528 have 5 mistakes generally represented by element 508.Machine 530 has 3 mistakes generally represented by element 510. Machine 532 has 2 mistakes generally represented by element 512.

Note, the substantial amounts of error message associated with the mistake on machine 528,530 and 532 is unreadable, because They are covered at least in part by other error messages.

Fig. 6 shows the multiple wrong human machine interface screens 500 that are grouped together of the display from Fig. 5.In this example Property embodiment in, by 5 erroneous packets from machine 528 together turn into single wrong components 600.Wrong components 600 Including indicating the single wrong button of the error number in wrong components 600 and representing 5 wrong 5 mistakes in the group Label.5 error labels can be combined into single error label by other embodiments.By three mistakes from machine 530 It is grouped together as single wrong components 602.Wrong components 602 include indicating the list of the error number in wrong components 602 One wrong button and represent three wrong 3 error labels in the group.Other embodiments can be by 3 error labels It is combined into single error label.Two erroneous packets from machine 532 are turned into single wrong components 604 together.Mistake Element 604 include indicating the single wrong button of the error number in wrong components 604 and represent 2 in the group it is wrong 2 error labels.Two error labels can be combined into single error label by other embodiments.From machine 502,504 Single mistake with 506 keeps constant.

It should be noted that wrong components 600,602 and 604 include the instruction of the error number included to each element, should The numeric suffix in figure packet error element is indicated to represent.

Fig. 7 shows human machine interface screen 500 of the display for the error reporting of one of the mistake from Fig. 6.Work as user When selecting packet error element, error reporting is shown.This selection can by include but is not limited to touch screen, mouse click on, Any mechanism in various mechanism such as cursor hovering occurs.

In this illustrative embodiments, user have selected the packet error element from Fig. 6 for nearer inspection 600.In response to the selection, error reporting 700 is shown.In this illustrative embodiments, error reporting 700 includes multiple members Part.

Error reporting 700 includes wrong title or numbering 702, error description 704 and error reporting X button 712.It is wrong Wrong report, which accuses 700, also includes Navigation Control 706,708 and 710, and the Navigation Control 706,708 and 710 is for being grouped together into It is useful to carry out navigation between each mistake of packet error element 600.Navigation Control 706 is previous Wrong control, When it is easily selected by a user so that error reporting 700 shows the information relevant with previous mistake.Navigation Control 710 is next Wrong control, when it is easily selected by a user so that error reporting 700 shows the information relevant with next mistake.

Navigation Control 708 is the expression of the current erroneous mark in above-mentioned at least one set of erroneous condition.In this exemplary reality Apply in mode, Navigation Control 708 is represented graphically including 5 mistakes in current erroneous packet by showing 5 circles of a row By mistake.The fact that be filled by first in 5 circles is currently viewing first 's in 5 mistakes come instruction user It is true.It can use and represent many other methods of current erroneous mark to replace the figure to represent.For example, other embodiment Error number, error identification etc. can be shown.

Foregoing description and associated accompanying drawing have taught the optimal mode of the present invention.Appended claims indicate the present invention Scope.Note, some aspects of optimal mode may not be fallen within the scope of the present invention specified by claim.Ability Field technique personnel are it will be recognized that can combine features described above in a variety of ways to form multiple modifications of the present invention.As a result, The invention is not restricted to above-mentioned particular implementation, and only limited by appended claims and their equivalent.

Claims (9)

1. a kind of be used to show multiple wrong methods in man-machine interface, methods described includes：

Show the graphics view of industrial automation environment；

The detection multiple erroneous conditions relevant with the machine operation in the industrial automation environment；

Determine multiple positions associated with the multiple erroneous condition in the graphics view；

At least one set of erroneous condition is identified from the multiple erroneous condition based on the multiple position；And

The figure for showing at least one set of erroneous condition by wrong components represents that the wrong components are included described in instruction extremely It is wrong in the single wrong button and expression at least one set of erroneous condition of error number in few one group of erroneous condition Error label,

Wherein, error reporting is shown when user selects the wrong components, the error reporting at least includes described at least one The expression of current erroneous mark in group erroneous condition, and

Wherein, the expression of the current erroneous mark is represented including figure.

2. according to the method described in claim 1, wherein it is determined that associated with the multiple erroneous condition in the graphics view Multiple positions include：It is determined that the physical location of one or more machines corresponding with the multiple erroneous condition.

3. method according to claim 2, wherein it is determined that associated with the multiple erroneous condition in the graphics view Multiple positions further comprise：Determine the physical location of the control or display in one or more machine.

4. according to the method described in claim 1, wherein, the error reporting at least also includes：

The quantity of erroneous condition at least one set of erroneous condition；

Current erroneous is described；And

For the Navigation Control navigated between the erroneous condition at least one set of erroneous condition.

5. method according to claim 4, wherein, the Navigation Control includes next Wrong control and previous mistake Control.

6. according to the method described in claim 1, wherein, based on the multiple position identified from the multiple erroneous condition to Few one group of erroneous condition includes：Determine the distance between position at least one the multiple position.

7. a kind of be used to show multiple wrong man-machine interfaces in industrial automation environment, the man-machine interface includes：

Communication interface, the communication interface is configured to receive relevant with the machine operation in the industrial automation environment many Individual erroneous condition；And

Processor, is coupled to the communication interface, and the processor is configured to：Initiate to regard the figure of industrial automation environment The display of figure；Determine multiple positions associated with the multiple erroneous condition in the graphics view；Based on the multiple position Put from the multiple erroneous condition and identify at least one set of erroneous condition；And initiated by wrong components to described at least one set of wrong The figured display of situation by mistake, the wrong components include indicating the error number at least one set of erroneous condition Wrong error label in single wrong button and expression at least one set of erroneous condition,

Wherein, error reporting is shown when user selects the wrong components, the error reporting at least includes described at least one The expression of current erroneous mark in group erroneous condition, and

Wherein, the expression of the current erroneous mark is represented including figure.

8. man-machine interface according to claim 7, wherein it is determined that in the graphics view with the multiple erroneous condition phase Multiple positions of association include：It is determined that the physical location of one or more machines corresponding with the multiple erroneous condition.

9. man-machine interface according to claim 7, wherein, the error reporting at least also includes：

The quantity of erroneous condition at least one set of erroneous condition；

Current erroneous is described；And

For the Navigation Control navigated between the erroneous condition at least one set of erroneous condition.