DE102012217291A1 - Method for error disclosure in an interlocking computer system and interlocking computer system - Google Patents

Abstract

The invention relates to a method for detecting errors in an interlocking computer system with at least one first computer channel (1a; 8) and at least one second computer channel (1b; 9), the input signals of which represent state messages of a railway safety system (2) that are reliable in terms of signal technology and the output signals of which are shown on a display (7 ) can be displayed as well as an interlocking computer system for carrying out the method. In order to reduce the security requirements for the computer channels (1a; 8 and 1b; 9) and to improve display convenience for an operator, provision is made for the output signals of the first computer channel (1a; 8) to be a status image (5a) and the output signals of the second Computer channel (9) generate a hazard analysis image (13) and that the status image (6a) and the hazard analysis image (13) can be superimposed on the display (7).

Description

The invention relates to a method for error disclosure in an interlocking computer system having at least one first computer channel and at least one second computer channel, the input signals signal-safe status messages represent a railway safety system and their output signals can be displayed on a display and an interlocking computer system for performing the method.

As part of auxiliary operations on the interlocking computer system, it must be ensured that the basis for the decision, that is to say the display message displayed to the operator, corresponds to the actual state of the railway safety system, also called outdoor facility.

In a known such system, which in 1 is shown, are two computer channels 1a and 1b intended. The computer channels 1a and 1b process the information of a railway safety system 2 which represents a safe reporting source, for example an ESTW - electronic interlocking. Both computer channels 1a and 1b are identical in terms of their input signals and algorithms used. By means of a functionality for status display / operation 3a respectively 3b will be on each computer channel 1a and 1b the condition of the railway safety system 2 together with the field element to be operated, here a light signal 4 , as a state image 5a and as a reference picture 5b represented, wherein in error-free signal processing, the reference image 5b with the condition picture 5a matches. To determine this match is from the status display / operation 3a over the state image 5a a checksum and from the status display / operation 3b over the state image 5b determines a checksum. The checksum of the state image 5b is sent to the status display / operation 3a the first computer channel 1a then submit both checksums under the auxiliary condition to the railway safety system 2 transmitted for comparison. Only the condition picture 5a will be on a display 7 shown. Such tests are cyclically performed in the background to prevent premature improper operation, such as frozen image pixels, on one of the computer channels 1a or 1b to recognize and reveal mistakes.

A disadvantage of this conventional procedure is the considerable expense for the checksum comparison and for background tests. This involves very high SIL requirements for the individual systems. The safety levels SIL are in the CENELEC standard EN50129 from SIL0 - not technically safe - up to SIL4 - signal technically highly secure - defined.

Another disadvantage is that the operator from the state image 5a on the display 7 itself must deduce which of the many boundary conditions of the railway safety system 2 are not fulfilled and what is the danger.

The invention has for its object to provide a method and an interlocking computer system generic type, which provides the operator with a better basis for the decision to release an operating command with highly reliable error disclosure available, with the lowest possible SIL requirements are desirable.

According to the method, the object is achieved in that the output signals of the first computer channel generate a state image and the output signals of the second computer channel a risk analysis image and that the state image and the risk analysis image are superimposed on the display.

Serves according to claim 3, a signal box computer system in which the second computer channel has a hazard analysis functionality, which generates an optical highlighting vulnerable sections on initiation of an operation of a field element, such as a light signal, the railway safety system and a resulting risk measure to the field element adjacent sections ,

In this way, in the case of a safety-endangering operation, in addition to the status image, the operator is shown a picture of the hazard analysis functionality of the second computer channel that partially overlaps this conditional image in a transparent manner. The overlay allows the operator to see a single image consisting of the images of both computer channels.

The first and the second computer channel perform different tasks. As a result, the SIL requirement for each computer channel can be significantly lower than in the known design with identical computer channels according to 1 , Ideally, both computer channels can be executed with SIL0. Signaling safety results from the combination and interaction of the two different computer channels.

In safety-critical situations, the operator receives support in his decision-making on the basis of the superimposed risk analysis image. From discrepancies between the state image and the hazard analysis image can The operator can very easily conclude that the entire system is functioning correctly or not correctly. The image from the hazard analysis represents, depending on the operated field element, the degree of danger of the relevant dependent field elements - element chain. The visual highlighting of endangered sections with the corresponding field elements can be done, for example, by representing endangered sections in red and not endangered sections in green. The hazard analysis image is otherwise transparent, so that only the state image is visible in the currently not interesting sections. By overlaying the two images, the hazard potential of an operation can be deduced and clarified. The operator is thereby significantly supported in his decision-making. In addition, the operator can easily check the plausibility of the status picture. If the hazard analysis picture displays risk measures that can not be derived from the status picture, one of the two computer channels will not work correctly. Since the representation of the hazard analysis image is only displayed after the first step of the operation, it can be deduced from this whether the image has been updated or not.

According to claim 2 it is provided that the risk analysis image is superimposed on the state image by means of a control element, if necessary. The operating element allows a return to the original state, in which only the status picture is visible. As a result, the recognizability of image discrepancies, if necessary, can be improved if needed again.

In the interlocking computer system according to the invention, it can additionally be provided according to claim 4 that the hazard analysis functionality generates on the display a text field for the visualization of a hazard type. This text field, for example "edge protection injured" in the case of a switch placed incorrectly in a preceding stretch of track, should be displayed immediately adjacent to the corresponding field element on the display. In the example, the section with the wrong turnout would be highlighted in red and also labeled with the hazard type, while, for example, a lying in the road ahead section is shown in green with a light signal, if the light signal for the intended route indicates the correct signal term.

In order to make the recognizability of the currently operated field element for the operator virtually at a glance, the hazard analysis functionality according to claim 5 generates on the display an optical highlighting of this currently operated field element. For example, a colored background window may be provided, in which the symbol for the field element is displayed. A background in a color, such as blue, which is not used for endangered - red - and not endangered - green - sections, is to be preferred.

The invention will be explained in more detail with reference to figurative representations. Show it:

1 an interlocking computer system of known type and

2 an inventive interlocking computer system.

1 illustrates the usual design of a signal box, which has already been described above.

Identical reference signs identify similar assemblies in both figures.

Instead of essentially identical computer channels 1a and 1b according to 1 are computer channels according to the invention 8th and 9 provided, the very different algorithms for the signal processing of fail-safe state information of the railway safety system 2 use. The computer channel corresponds to this 8th essentially the computer channel 1a , Also the computer channel 8th generated from the functionality status display / operation 3a a state image 5a the railway safety system 2 , This eliminates the algorithm for checksum over 5a and the checksum submission 6 from computer channel 3b to computer channel 3a according to 1 , The example of the condition picture 5a again refers to an operation of the light signal 4 , The operation is sent to the ESTW, for example the light signal 4 from HALT to RIDE. This operation must be performed as an auxiliary operation because otherwise the ESTW would violate its safety rules. The auxiliary operation is through the computer channel 8th sent to the ESTW, in addition by the computer channel 8th the operator action to the hazard analysis functionality 10 of the computer channel 9 transmitted 11 , From this input and the element state information of the railway safety system 2 determines the hazard analysis functionality 10 for the surrounding field elements and other lying in the track field elements, the hazard rate. The example is at the switch 12 no flank protection given. This creates the hazard analysis functionality 10 a hazard analysis image 13 in which the track sections 14 the switch 12 are shown in red and a text box 15 is displayed with a brief description of the hazard type "Flank protection violated". The light signal 4 , for which the operation was initiated, comes with a blue window 16 highlighted. Since the directly to the light signal 4 adjacent section of track 17 to the switch 12 is not endangered, it is displayed in green. This hazard analysis image 13 becomes the state image 5a on the display 7 superimposed.

In this way, the operator can immediately the position where the hazard arises, in this case the switch 12 , localize and is significantly assisted in its decision-making. In addition, errors in the function of the overall system due to discrepancies between the state image 5a and the superimposed hazard analysis image 13 on the display 7 immediately recognizable. Also errors regarding the picture actuality are after the activation of the danger analysis picture 13 immediately visible, because then not both pictures 5a and 13 change synchronously with each other, that is, update.

Due to the different signal processing algorithms in the two computer channels 8th and 9 can the security level of both computer channels 8th and 9 opposite to the 1 illustrated conventional interlocking computer system can be reduced. Through the interaction of the two different computer channels 8th and 9 automatically results in a very high signal security of the entire system.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• CENELEC standard EN50129 [0004]

Claims (5)

Method for error disclosure in an interlocking computer system having at least one first computer channel ( 1a ; 8th ) and at least one second computer channel ( 1b ; 9 ), whose input signals are signal-technically safe status messages of a railway safety system ( 2 ) and their output signals on a display ( 7 ), characterized in that the output signals of the first computer channel ( 1a ; 8th ) a state image ( 5a ) and the output signals of the second computer channel ( 9 ) a hazard analysis image ( 13 ) and that the state image ( 5a ) and the hazard analysis image ( 13 ) on the display ( 7 ) are superimposed. Method according to claim 1, characterized in that the hazard analysis image ( 13 ) the state image ( 5a ) Is superimposed as required by means of a control element. Interlocking computer system for carrying out the method according to one of the preceding claims, characterized in that the second computer channel ( 9 ) a hazard analysis functionality ( 10 ), which upon initiation of an operation of a field element, for example a light signal ( 4 ), the railway safety 2 ) and a resulting degree of danger to the field element adjacent sections ( 17 . 14 ) on the display ( 7 ) an optical highlighting of vulnerable sections ( 14 ) generated. Interlocking computer system according to claim 3, characterized in that the hazard analysis functionality ( 10 ) on the display ( 7 ) a text field ( 15 ) to visualize a hazard type. Interlocking computer system according to claim 3 or 4, characterized in that the hazard analysis functionality ( 10 ) on the display ( 7 ) generates an optical highlighting of the currently operated field element.

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