CN103926914A - Method of displaying multiple errors in man-machine interface and device - Google Patents

Abstract

The invention relates to a method of displaying multiple errors in a man-machine interface and a device. One or more non-temporary computer readable medium is provided, and a program instruction for displaying multiple errors is stored on the medium. When the program instruction is executed by a computer system, the program instruction instructs the computer system at least to initiate display of a graphics view of the industrial automatic environment. The program instruction also instructs the computer system to detect multiple error conditions relevant to machine operation in the industrial automatic environment and determine multiple positions relevant to the multiple error conditions in the graphics view. The program instruction also instructs the computer system to mark at least one group of error conditions from the multiple error conditions on the basis of the multiple positions and initiate display of graphical representation of the at least one group of error conditions.

Description

For show method and the device of multiple mistakes in man-machine interface

The cross reference of related application

The application requires at this U.S. Provisional Patent Application No.61/558 that is entitled as " METHOD ANDAPPARATUS FOR THE DISPLAY OF MULTIPLE ERRORS ON AHUMAN-MACHINE INTERFACE " submitting on November 11st, 2011,694 rights and interests, its full content merges in the application by reference.

Background technology

In many industrial environments, the quantity of the equipment using and complexity need robotization to use equipment effectively.Interface by the simplification between user and the equipment self of equipment strengthens robotization.This function is often by providing by man-machine interface, and man-machine interface can be to comprise that the Simple Calculation machine of touch screen or other input equipment is to allow user to control this equipment.

When there is problem in industrial environment time, these problems are often to concentrate to occur.Common each mistake causes error message in man-machine interface.If there is great collapse, may generate a large amount of wrong and all these wrong may stacks each other and be presented in man-machine interface.Operator must classify with the common complicated reason of problem identificatioin to all these mistakes so.

Summary of the invention

In one embodiment, provide a kind of and stored one or more nonvolatile computer-readable medium that is conducive to the programmed instruction that shows multiple mistakes on it.Described programmed instruction instructs described computing system at least to initiate the demonstration of the graphics view to industrial automation environment in the time being carried out by computing system.Described programmed instruction also instructs the computing system pair multiple erroneous condition relevant with machine operation in industrial automation environment to detect, and the multiple positions that are associated with multiple erroneous condition in graphics view are determined.

Programmed instruction also comprises and instructs computing system from multiple erroneous condition, to identify at least one group of erroneous condition based on multiple positions, and initiates the figured demonstration to this at least one group of erroneous condition.

In another embodiment, provide the method for show multiple mistakes in man-machine interface.The method comprises the graphics view that shows industrial automation environment, and multiple erroneous condition of being associated with the machine operation in industrial automation environment of detection.

The method also comprises determines the multiple positions that are associated with multiple erroneous condition in graphics view, and from multiple erroneous condition, identifies at least one group of erroneous condition based on multiple positions.The method also comprises the diagrammatic representation that shows this at least one group of erroneous condition.

In another embodiment, provide a kind of for showing the man-machine interface of the multiple mistakes in industrial automation environment.This man-machine interface comprises: communication interface, and this communication interface is configured to receive the multiple erroneous condition relevant with machine operation in industrial automation environment; And processor, this processor is coupled to this communication interface.

This processor is configured to: initiate the demonstration of the graphics view to industrial automation environment; Determine the multiple positions that are associated with multiple erroneous condition in graphics view; From multiple erroneous condition, identify at least one group of erroneous condition based on the plurality of position; And the figured demonstration of initiation to this at least one group of erroneous condition.

Provide this summary to introduce below by the selection of the concept further describing with the form of simplifying in this technology disclosure.Should be appreciated that key feature or essential feature that this summary is not intended to theme required for protection identify, and are not intended to the scope for limiting theme required for protection yet.

Brief description of the drawings

Fig. 1 shows the process flow diagram of the method that shows multiple mistakes in man-machine interface;

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

Fig. 3 shows the workflow diagram of the workflow being associated with the computer-aided design (CAD) of human machine interface graphics element (element);

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

Fig. 5 shows the man-machine interface screen that shows multiple mistakes;

Fig. 6 shows the man-machine interface screen that is grouped in multiple mistakes together showing from Fig. 5; And

Fig. 7 shows the man-machine interface screen that the error reporting of one of mistake for from Fig. 6 is shown.

Embodiment

The accompanying drawing teaching optimal mode of the present invention of below describing and be associated.For the object of the teaching principle of the invention, can simplify or omit some conventional aspects of optimal mode.Claims indicate scope of the present invention.Some aspects of optimal mode may not fall into by the specified scope of the present invention of claim.Therefore, those skilled in the art will recognize that the modification from optimal mode falling in the scope of the invention.Those skilled in the art will recognize that, below described feature can combine in every way to form multiple modification of the present invention.As a result of, the present invention is not limited to following described particular example, but is only limited by claim and their equivalent.

Fig. 1 shows the process flow diagram of the method that shows multiple mistakes in man-machine interface.In man-machine interface, show in this illustrative embodiments of method of multiple mistakes, create and revise various graphic elements by those man-machine interfaces that go out as shown in Figure 2 and Figure 4 and describe after a while.Can carry out by one or more man-machine interface the various operations of this method, and do not need any operation to be tied to any specific man-machine interface, operate as the man-machine interface that can carry out the operation of institute's describing method here because multi-purpose computer can be configured to.

Man-machine interface shows the graphics view (operation 100) of industrial automation environment.Conventionally, industrial automation environment comprises the multiple machines that are coupled to each other in every way.Can be with comprising figure and represent that any means in the whole bag of tricks of the each machine in this industrial automation environment carrys out figure and show this environment.Figure 5 illustrates the exemplary patterns view of industrial environment.

In this example, man-machine interface detects the multiple erroneous condition relevant with machine operation in industrial automation environment (operating 102).Man-machine interface is also determined the multiple positions (operation 104) that are associated with multiple erroneous condition in graphics view.Graphics view shown in Fig. 5 is also included in multiple erroneous condition of multiple positions.

In the exemplary embodiment, determine that the multiple positions that are associated with multiple erroneous condition in graphics view comprise: the corresponding physical location with multiple erroneous condition of determining one or more machine.In another illustrative embodiments, determine that the multiple positions that are associated with multiple erroneous condition in graphics view also comprise: determine control in one or more machine or the physical location of demonstration.

Man-machine interface identifies at least one group of erroneous condition (operation 106) from multiple erroneous condition based on the plurality of position.For example, have and assemble or the erroneous condition of the errors present that is close together will be grouped in together.In some illustrative embodiments, from multiple erroneous condition, identify at least one group of erroneous condition based on multiple positions and comprise: determine the distance between the position at least one the plurality of position.

Then man-machine interface shows the diagrammatic representation (operation 108) of this at least one group of erroneous condition.The mistake that this grouping allows user to pay close attention in the time not determining on the same group in the solution of seeking for this erroneous condition between mistake rapidly.Divide into groups also to provide the wrong easier access of investigation to previously may be fuzzy by mistake below to these mistakes.This provides and has guaranteed to be checked through vicious easy method to user.The exemplary patterns that figure 6 illustrates some groups of erroneous condition represents.

In some embodiments, the diagrammatic representation of this at least one group of erroneous condition in the time being selected by user, lead to errors report demonstration.This error reporting can comprise: the expression of the current error identification in quantity, this at least one group of erroneous condition of the erroneous condition in this at least one group of erroneous condition, current error description, for the Navigation Control of navigating between the erroneous condition in this at least one group of erroneous condition etc.Figure 7 illustrates exemplary error report.

In some embodiments, the expression of current error identification comprises diagrammatic representation.In some illustrative embodiments, Navigation Control comprises next wrong control and previous wrong control.These wrong controls can be taked the arbitrary form in wide range of forms.For example, while using touch-screen, can trigger next wrong demonstration along a direction slip error reporting, and the error reporting that slides in the opposite direction can trigger the demonstration to previous mistake.In other example, the diagrammatic representation of this at least one group of erroneous condition is included in each interior wrong number of this at least one group of erroneous condition.

Refer now to Fig. 2, man-machine interface 200 and the discussion being associated are intended to provide the simple and clear describe, in general terms of the suitable computing environment to wherein implementing the processing shown in Fig. 1.Can utilize many other of computing equipment and software computing system to configure to implement the system for show multiple mistakes in man-machine interface.

Man-machine interface 200 can be the computing system of any type that can processing graphics element, as server computer, client computer, internet appliance or its any combination or modification.The Fig. 4 discussing in further detail subsequently provides the more detailed explanation of exemplary.In fact, man-machine interface 200 may be embodied as single computing system, but also can cross over multiple computing systems in distributed mode implements.For example, man-machine interface 200 can represent following server system (not shown): utilize this server system, the computer system (not shown) of operating software 206 can communicate by letter to support man-machine interface feature.But man-machine interface 200 can also represent the computer system of operating software 206.In fact, man-machine interface 200 is to provide as the example of following general-purpose computing system, this general-purpose computing system when implement shown in Fig. 1 method time become the dedicated system that can be operating as man-machine interface.

Man-machine interface 200 comprises processor 202, storage system 204 and software 206.Processor 202 couples communicatedly with storage system 204.Storage system 204 is stored human interface software 206, and this human interface software 206 instructs man-machine interface 200 to operate as described in method shown in for Fig. 1 in the time being carried out by processor 202.

Still with reference to figure 2, processor 202 can comprise microprocessor and other circuit that human interface software 206 is obtained and carried out from storage system 204.Processor 202 can be embodied in single treatment facility, and multiple treatment facilities or the subsystem that still also can cross over collaborative execution of program instructions distribute.The example of processor 202 comprises the treatment facility of general CPU (central processing unit), application specific processor and graphic process unit and any other type.

Storage system 204 can comprise processor 202 readable and any storage medium that can store human interface software 206.Storage system 204 can comprise that described information is computer-readable instruction, data structure, program module or other data for example for any method of information storage or the volatibility of technology enforcement and non-volatile, removable and non-removable medium.Storage system 204 may be embodied as single memory device, but also can cross over multiple memory devices or subsystem implements.Storage system 204 can comprise the add ons such as controller that can communicate by letter with processor 202.

The example of storage medium comprise random access memory, ROM (read-only memory), disk, CD and flash memory with and any combination or modification, or the storage medium of any other type.In some implementations, storage medium can the temporary storage medium of right and wrong.In some implementations, at least a portion of storage medium can be temporary.Should be appreciated that under any circumstance storage medium is not transmitting signal.

Human interface software 206 comprises the machine readable processing instruction to wherein embedding computer program instructions, firmware or some other forms of at least some parts that have method shown in Fig. 1.Human interface software 206 may be embodied as single application, but also may be embodied as multiple application.Human interface software 206 can be stand-alone application, but also can be implemented in other application being distributed on multiple equipment, includes but not limited to other human interface software and operating system software.

Usually, human interface software 206 can be transformed into special-purpose computing system from general-purpose computing system on the whole by processor 202 and man-machine interface 200 in the time being loaded into processor 202 and carrying out, and this special-purpose computing system is customized to the discussion of serving as method as shown in Figure 1 and be associated and describes such man-machine interface.

Human interface software 206 is encoded and can also be converted the physical arrangement of storage system 204.The particular transform of physical arrangement can depend on the various factors in the difference enforcement in this instructions.The example of these factors includes but not limited to: for implementing the technology of storage medium of storage system 204, whether computer-readable storage medium is characterized as being main or less important memory storage etc.

For example, if computer-readable storage medium is implemented as the storer of based semiconductor, human interface software 206 can convert the physical state of this semiconductor memory in the time being encoded in semiconductor memory.For example, human interface software 206 can convert the state of the transistor, capacitor or other discrete circuit element that form semiconductor memory.

Can there is similar conversion about magnetic medium or optical medium.In the case of not deviating from the scope of this instructions, other conversion of physical medium is fine, and wherein foregoing example is only provided for and is convenient to this discussion.

Refer again to Fig. 1 and Fig. 2, by the operation to the man-machine interface 200 that adopts human interface software 206, misdata 208 is converted, produce the mistake 210 of grouping.As example, can think that misdata 208 is that the conversion of various elements by being included in figure misdata wherein comes from a kind of state transformation to another kind of state.

Man-machine interface 200 can have additional equipment, feature or function.Optionally, man-machine interface 200 can have as the input equipment of keyboard, mouse, voice-input device or touch input device etc. and similar input equipment.Can also comprise as the output device of the output device of display, loudspeaker, printer and other type.Man-machine interface 200 can also comprise the communication connection and the equipment that allow man-machine interface 200 to communicate by letter with miscellaneous equipment, as the wired or wireless network in Distributed Calculation and communication environment.These equipment are being known in the art and are not needing it to carry out detailed discussion at this.

Fig. 3 shows the workflow diagram of the workflow being associated with the design of human machine interface graphics element.Comprise that Fig. 3 is to illustrate the environment of wherein exploitation and use man-machine interface.

Designing, editing machine 302 is interior to be designed figure 304.Figure 304 comprises 4 assemblies: static 1 assembly 306, dynamic 1 assembly 308, dynamic 2 assemblies 310 and static 2 assemblies 312.These 4 assemblies can be arranged on one or more layer in figure 304.

Dynamic 1 assembly 308 and dynamic 2 assemblies 310 can convert to respectively as dynamic 1. dynamic 316 and dynamic 2. dynamic 318 dynamic format file 314.Static 1 assembly 306 and static 2 assemblies 312 convert the static format file 320 as static 1. static state 322 and static 2. static state 324 to.Then, editing machine 326 in the middle of these 4 files are exported to can edit to add attribute and constraint (binding) to dynamic assembly in middle editing machine 326.

In the exemplary embodiment, living document is extend markup language, and middle editing machine 326 comprises markup language editing machine, for user provides the means of adding attribute and constraint to dynamic assembly.In some instances, editing machine preview 332 in the middle of middle editing machine 326 comprises, in middle editing machine preview 332, can carry out preview to guarantee that the amendment of dynamic assembly is not had to mistake to the dynamic assembly of having revised in conjunction with the static component being associated with the dynamic assembly of revising.In this example, middle editing machine preview 332 shows animated graphics 334 on display device.Animated graphics 334 comprises 4 assemblies: static 1 assembly 322, dynamic 1 assembly 328, dynamic 2 assemblies 330 and static 2 assemblies 324 revised revised.

Once in middle editing machine, completed the expectation amendment to dynamic assembly, by graphic derivation in screen editor 332, in screen editor 332, man-machine interface screen is carried out to Integration Assembly And Checkout.In this example, screen editor 332 shows the animated graphics 1334 for being attached to man-machine interface screen and animated graphics 2336.

Man-machine interface 338 is configured to show multiple man-machine interface screens, all man-machine interface screen 1340 and man-machine interface screens 2342 as shown in Figure 3.The animated graphics element with the whole or any screen in these screens can be corresponding with the first machine 344, the second machine 346 and/or the 3rd machine 348.

Fig. 4 shows the block diagram that is configured to the computer system operating as man-machine interface 400.Method shown in Fig. 1 is implemented in one or more man-machine interface 400 as shown in Figure 4.Man-machine interface 400 comprises communication interface 402, display 404, input equipment 406, output device 408, processor 410 and storage system 412.Processor 410 is linked to communication interface 402, display 404, input equipment 406, output device 408 and storage system 412.Storage system 412 comprises the nonvolatile memory devices of store operational software 414.

Communication interface 402 comprises the assembly communicating by communication link, as network interface card, port, radio-frequency (RF) transceiver, treatment circuit and software or some other communication facilitiess.Communication interface 402 can be configured to communicate by metal link, wireless link or optical link.Communication interface 402 can be configured to use TDM, IP, Ethernet, optics networking, wireless protocols, communication signaling or some other communication formats---comprise their combination.

Display 404 can be the display that information can be presented to user's any type.In some embodiments, display can comprise touch-screen.Input equipment 406 comprises any equipment that can catch user's input and these inputs be passed to computer aided design system 400.Input equipment 406 can comprise keyboard, mouse, touch pad or some other user input apparatus.Output device 408 comprises and can will pass to any equipment of user from the output of computer aided design system 400.Output device 408 can comprise printer, projector, display or some other user's output units.In some instances, display 404, input equipment 406 and output device 408 can maybe can omit in the outside of computer aided design system 400.

Processor 410 comprises and from storage system 412, obtaining and the microprocessor of executable operations software 414 and other circuit.Storage system 412 comprises disc driver, flash drive, data storage circuitry or some other nonvolatile storage arrangements.Function software 414 comprises the machine readable processing instruction of computer program, firmware or some other forms.Function software 414 can comprise the software of operating system, utility routine, driver, socket, application or some other types.Function software 414 guidance of faulf handling device 410 in the time being carried out by treatment circuit operates man-machine interface 400 according to the method shown in Fig. 1.

In this example, man-machine interface 400 is carried out the large metering method that is stored as software 414 in storage system 412.By display 404 or output device 408, the result of these methods is shown to user.Input equipment 406 allows multiple machines that machine data and misdata are sent to man-machine interface 400.

For example, processor 410 receives machine data and/or misdata from communication interface 402 or input equipment 406.Then, processor 410 operates to generate packet error message to machine data and misdata, and packet error message can be stored in storage system 412, be presented on display 404 or by output device 408 and export.

Fig. 5 shows the man-machine interface screen 500 that shows multiple mistakes.In this illustrative embodiments, industrial automation environment is included in 6 machine systems 522 to 532 that illustrate on man-machine interface screen 500 figure.

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

Note, a large amount of error message joining with the failure correlation on machine 528,530 and 532 is unreadable, because they are covered at least in part by other error message.

Fig. 6 shows the man-machine interface screen 500 that is grouped in multiple mistakes together showing from Fig. 5.In this illustrative embodiments, 5 erroneous packet from machine 528 are become to single wrong components 600 together.Wrong components 600 comprises the single wrong button of the error number in misdirection element 600 and represents 55 wrong error label in this group.Other embodiment can be combined into single error label by these 5 error label.Three erroneous packet from machine 530 are become to single wrong components 602 together.Wrong components 602 comprises the single wrong button of the error number in misdirection element 602 and represents three 3 wrong error label in this group.Other embodiment can be combined into single error label by these 3 error label.Two erroneous packet from machine 532 are become to single wrong components 604 together.Wrong components 604 comprises the single wrong button of the error number in misdirection element 604 and represents 22 wrong error label in this group.Other embodiment can be combined into single error label by these two error label.Single mistake from machine 502,504 and 506 remains unchanged.

It should be noted that wrong components 600,602 and 604 comprises the instruction of the error number that each element is comprised, this instruction is represented by the numeric suffix in figure packet error element.

Fig. 7 shows the man-machine interface screen 500 of the error reporting of show needle to one of mistake from Fig. 6.In the time that user selects packet error element, show error reporting.This selection can be by including but not limited to that any mechanism in the various mechanism such as touch screen, mouse click, cursor hovers occurs.

In this illustrative embodiments, user has selected the packet error element 600 from Fig. 6 for nearer inspection.In response to this selection, show error reporting 700.In this illustrative embodiments, error reporting 700 comprises multiple elements.

Error reporting 700 comprises mistake title or numbering 702, error description 704 and error reporting X button 712.Error reporting 700 also comprises Navigation Control 706,708 and 710, and this Navigation Control 706,708 and 710 is for to navigate between the each mistake that becomes together packet error element 600 be useful being grouped in.Navigation Control 706 is previous wrong controls, makes error reporting 700 show the information relevant with previous mistake in the time that it is selected by user.Navigation Control 710 is next wrong controls, makes error reporting 700 show and next wrong relevant information in the time that it is selected by user.

Navigation Control 708 is expressions of the current error identification in above-mentioned at least one group of erroneous condition.In this illustrative embodiments, Navigation Control 708 is by showing that 5 circles of a row carry out figure and be illustrated in current erroneous packet to comprise 5 mistakes.Carry out current first the fact of checking in 5 mistakes of indicating user by first fact being filled in 5 circles.Can replace this diagrammatic representation by many other methods that represent current error identification.For example, other embodiment can show error number, error identification etc.

Foregoing description and the accompanying drawing teaching that is associated optimal mode of the present invention.Claims indicate scope of the present invention.Note, some aspects of optimal mode may not fall in the specified scope of the present invention of claim.Those skilled in the art will recognize that, can combine in every way above-mentioned feature to form multiple modification of the present invention.As a result of, the invention is not restricted to above-mentioned specific implementations, and only limited by claims and their equivalent.

Claims (20)

1. one or more nonvolatile computer-readable medium, stores on described medium and impels the programmed instruction that shows multiple mistakes, and wherein, described programmed instruction instructs described computing system at least in the time being carried out by computing system:

Initiate the demonstration of the graphics view to industrial automation environment;

Detect the multiple erroneous condition relevant with machine operation in described industrial automation environment;

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

From described multiple erroneous condition, identify at least one group of erroneous condition based on described multiple positions; And

Initiate the figured demonstration to described at least one group of erroneous condition.

2. one or more nonvolatile computer-readable medium according to claim 1, wherein, determine that the multiple positions that are associated with described multiple erroneous condition in described graphics view comprise: the physical location of determining one or more corresponding machine with described multiple erroneous condition.

3. one or more nonvolatile computer-readable medium according to claim 2, wherein, determine that the multiple positions that are associated with described multiple erroneous condition in described graphics view further comprise: the control described in determining in one or more machine or the physical location of demonstration.

4. one or more nonvolatile computer-readable medium according to claim 1, wherein, the diagrammatic representation of described at least one group of erroneous condition in the time being selected by user, lead to errors report demonstration, described error reporting at least comprises:

The quantity of the erroneous condition in described at least one group of erroneous condition;

The expression of the current error identification in described at least one group of erroneous condition;

Current error description; And

For the Navigation Control of navigating between the erroneous condition in described at least one group of erroneous condition.

5. one or more nonvolatile computer-readable medium according to claim 4, wherein, the expression of described current error identification comprises diagrammatic representation.

6. one or more nonvolatile computer-readable medium according to claim 4, wherein, described Navigation Control comprises next wrong control and previous wrong control.

7. one or more nonvolatile computer-readable medium according to claim 1, wherein, the diagrammatic representation of described at least one group of erroneous condition comprises: the wrong number in each the group erroneous condition in described at least one group of erroneous condition.

8. one or more nonvolatile computer-readable medium according to claim 1, wherein, from described multiple erroneous condition, identifying at least one group of erroneous condition based on described multiple positions comprises: determine the distance between the position in multiple positions described at least one.

9. for show a method for multiple mistakes in man-machine interface, described method comprises:

Show the graphics view of industrial automation environment;

Detect the multiple erroneous condition relevant with machine operation in described industrial automation environment;

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

From described multiple erroneous condition, identify at least one group of erroneous condition based on described multiple positions; And

Show the diagrammatic representation of described at least one group of erroneous condition.

10. method according to claim 9, wherein, determines that the multiple positions that are associated with described multiple erroneous condition in described graphics view comprise: the physical location of determining one or more corresponding machine with described multiple erroneous condition.

11. methods according to claim 10, wherein, determine that the multiple positions that are associated with described multiple erroneous condition in described graphics view further comprise: the control described in determining in one or more machine or the physical location of demonstration.

12. methods according to claim 9, wherein, the diagrammatic representation of described at least one group of erroneous condition in the time being selected by user, lead to errors report demonstration, described error reporting at least comprises:

The quantity of the erroneous condition in described at least one group of erroneous condition;

The expression of the current error identification in described at least one group of erroneous condition;

Current error description; And

For the Navigation Control of navigating between the erroneous condition in described at least one group of erroneous condition.

13. methods according to claim 12, wherein, the expression of described current error identification comprises diagrammatic representation.

14. methods according to claim 12, wherein, described Navigation Control comprises next wrong control and previous wrong control.

15. methods according to claim 9, wherein, the diagrammatic representation of described at least one group of erroneous condition comprises the wrong number in each the group erroneous condition in described at least one group of erroneous condition.

16. methods according to claim 9 wherein, identify at least one group of erroneous condition based on described multiple positions and comprise from described multiple erroneous condition: determine the distance between the position in multiple positions described at least one.

17. 1 kinds for showing the man-machine interface of the multiple mistakes in industrial automation environment, and described man-machine interface comprises:

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

Processor, is coupled to described communication interface, and described processor is configured to: initiate the demonstration of the graphics view to industrial automation environment; Determine the multiple positions that are associated with described multiple erroneous condition in described graphics view; Identify at least one group of erroneous condition based on described multiple positions from described multiple erroneous condition; And the figured demonstration of initiation to described at least one group of erroneous condition.

18. man-machine interfaces according to claim 17, wherein, determine that the multiple positions that are associated with described multiple erroneous condition in described graphics view comprise: the physical location of determining one or more corresponding machine with described multiple erroneous condition.

19. man-machine interfaces according to claim 17, wherein, the diagrammatic representation of described at least one group of erroneous condition in the time being selected by user, lead to errors report demonstration, described error reporting at least comprises:

The quantity of the erroneous condition in described at least one group of erroneous condition;

The expression of the current error identification in described at least one group of erroneous condition;

Current error description; And

For the Navigation Control of navigating between the erroneous condition in described at least one group of erroneous condition.

20. man-machine interfaces according to claim 17, wherein, the diagrammatic representation of described at least one group of erroneous condition comprises the wrong number in each the group erroneous condition in described at least one group of erroneous condition.