EP2631887A1 - Warning system and method for operating same - Google Patents

Abstract

The method involves producing a warning message, in which geographical information is automatically coded. The message is transmitted from communication locations (14) e.g. control centers of municipality, to a warning center (18) via a satellite (15). The information is evaluated for encountering selection of multiple message receivers (19). The message is transmitted from the center to the selected receivers via the satellite. A time duration between the transmission of the message by the locations and reception of the message by the receivers lies below 1 minute, preferably 30 s. An independent claim is also included for a warning system.

Description

The invention relates to a method for operating a warning system with a message transmitter, a warning center and a plurality of message receivers. The invention also relates to a method for operating such a warning system.

Such warning systems can serve to warn the population against dangers. One example is the SatWaS satellite-based warning system operated by the Federal Office for Civil Protection and Disaster Assistance. A message issuer, in whose area of responsibility a dangerous situation occurs, generates a warning message and transmits it to a warning center. The alert center sends the alert message to message recipients who can warn the population. Notification receivers within the meaning of the warning system may, for example, be broadcasters, sirens and similar means by which the population can be reached.

The known systems have the disadvantage of low flexibility. The alert messages are either sent to message recipients that have been previously set, or it may be costly to manually enter which message recipients should receive the alert message.

The object of the invention is to present a warning system and a method for operating a warning system with which more flexibility exists in the transmission of the warning messages. Based on the above-mentioned prior art, the object is achieved with the features of the independent claims. Advantageous embodiments can be found in the subclaims.

In the method according to the invention, a warning message is generated, in which a geographical information is coded. The alert message is sent by the message sender to the alert center via a delivery center. In the warning center, based on the geographical information, a selection is made from a plurality of predetermined message recipients. The alert message is then sent from the alert center to the selected message recipients.

The warning message is generated regularly in a control center in whose area of responsibility the danger situation has occurred. The control center must decide which content the warning message should have and for whom the warning message is relevant. The latter can not be answered regularly regardless of the specific danger situation, because it depends on the wind direction, for example in case of an accident in a nuclear power plant, in which area the population has to be warned.

The addressees of the warning result from the fact that in the control center, a specific geographical area is determined for which the warning message is relevant. For example, the geographical area may be based on organizational units such as districts or federal states To be defined. Also possible is a definition based on geographic reference points. If a geographical area is used to define the addressee circle, this has the advantage of a high degree of clarity. The warning message can be reliably generated even if the responsible personnel are under pressure.

The warning message is sent by the control center, which acts in this case as a message provider within the meaning of the invention, via a transmitting station to the warning center. In the warning center, the geographical information encoded in the warning message is evaluated to select from a plurality of predetermined message recipients. The message recipients who belong to the mentioned geographical area are selected. The message receivers may be, for example, the broadcasters or other means of alerting the geographical area over which the warning message may be broadcast to the public. Thus, the invention has the advantage that the general determination of the addressee circle of the warning message is separated from the determination of the concrete message receiver. The warning message can thus be easily generated in the control center by simply specifying a geographical area. The information on who the message recipients are in this geographical area is added to the alert center. The system according to the invention thus offers a high degree of flexibility without excessive demands being made on the creator of the warning message.

Both public and non-public networks can be considered for the transmission of the warning messages. Indeed It is in the context of the invention of considerable importance that the warning messages can be transmitted with high security even in crisis situations. In the case of public networks, this is not always guaranteed, because in crisis situations experience has shown that there is an increased need for communication and public networks are therefore often overloaded. The transmission center is therefore preferably a transmission point of a non-public network. In the non-public network, a communication channel is preferably provided which is intended exclusively for the purposes of the warning system according to the invention.

For the security of data transmission, it is advantageous if the transmitting station is a satellite. Already a single satellite may be sufficient to serve as the transmitting agency for all parties involved in the transmission of the warning messages. The satellite may be positioned in a geostationary orbit. It is not excluded that further transmission paths are provided to improve the transmission security, such as the Internet or terrestrial radio networks. These can be used if the connection to the satellite is disturbed.

For transmission of the warning messages from the warning center to the message receivers, the transmission path can again be selected via the transmission center. With a unified transmission center for both transmissions of the warning message, the system is kept clear.

The warning center regularly has a specific area of responsibility, such as a state or a community of states. For the warning center, a list is preferably provided in which all message recipients from the area of responsibility are listed. Based on the geographical information in the warning message, those message receivers for which the relevant warning message is intended are selected from these predetermined message recipients.

Such a list makes it easier to automatically carry out the association between the geographical information in the warning message and the predetermined message recipients. This can be done, for example, by the fact that each message recipient in the list is also assigned a geographical information. A logical comparison can then be made between the geographic information in the alert message and the geographic information associated with the message recipients in the list. If the result of the comparison is positive, the message recipient is added to the selected message recipients. When the list is complete, the warning message can be sent to all selected message recipients.

Through such an automated process, a very rapid transmission of the warning messages is possible. Preferably, the time period between the sending of the warning message by the message issuer and the receipt of the message at the selected message receivers is less than 5 minutes, more preferably less than 1 minute, more preferably less than 30 seconds.

The coding of the geographic information can be done manually, for example by creating the warning message Enter a code associated with the geographic area. This could be about a key figure of a district. In an advantageous embodiment, the message generator is designed to automatically generate the coding based on a graphically provided information. This can be done, for example, by marking a geographical area on a screen and reading out and coding the relevant information. The graphical representation on the screen may be designed to pre-set specific geographic areas to be clicked. Alternatively or additionally, it can be provided that the user marks a surface in a map on a screen in free design and this information is encoded. For example, the user may mark the area by drawing a line around the area. Such a graphic selection is easier for the user to make than a manual input of a code, so that the susceptibility to errors is reduced.

As a message receiver in the context of the invention, all warning devices come into consideration, which are suitable to transmit the warning to individual or a plurality of addressees from the population. A classic warning device in this sense, the broadcasters who can spread the warning message on the radio and / or television on. As a message receiver is also a local mobile phone cell into consideration, can be notified of all mobile phones that are dialed into the local mobile network.

For the first alarm it may be sufficient that only a warning signal is transmitted without the content of the Warning message. The message receivers may therefore also include pure signal transmitters, such as sirens. It is also possible that among the message recipients are those about which only a single person is warned. These may include, for example, mobile phones, radio alarm clock, smoke detectors and the like.

In the warning system according to the invention, communication points can be provided which can both generate and receive warning messages, which are thus message providers and message receivers in the sense of the invention. These can be, for example, situation centers, which are generally responsible for dangerous situations. It can be provided that the warning message is sent to such communication stations independently of the geographical information, so that the communication station receives the warning message even if it is not located in the geographical area for which the warning message is intended. Such information may be coded in the warning message in addition to the geographic information. In the communication station, after receiving the warning message, own warning messages can be generated and sent to the message receivers in order to influence the further course of events. Preferably, the warning messages intended for the communication station or originating from the combination station are also routed via the exchange and the warning center. If necessary, the warning center itself can generate and send warning messages.

Due to its simple structure, the warning system according to the invention has the advantage that areas can be linked to each other, which are hitherto completely separate from each other. The message providers and the message recipients can For example, they come from the public sector, non-governmental, military, non-military, public, private.

The invention also relates to a warning system with a message transmitter, a warning center and a plurality of message receivers. The message provider is adapted to generate a warning message in which geographic information is encoded. The message provider is adapted to send the warning message to the warning center via a transmission center. The warning center is designed to select a plurality of message recipients based on the geographical information. The warning center is configured to send the warning message to the plurality of message receivers. The warning system can be developed with further features which are described with reference to the method according to the invention.

Fig. 1:

eine schematische Darstellung eines erfindungsgemäßen Warnsystems;

Fig. 2:

eine Eingabemaske eines erfindungsgemäßen Meldungsgebers;

Fig. 3:

die Ansicht aus Fig. 2 bei einer anderen Ausführungsform der Erfindung;

Fig. 4:

eine schematische Darstellung eines Meldungsgebers;

Fig. 5:

eine schematische Darstellung einer Warnzentrale; und

Fig. 6:

eine schematische Darstellung einer Warnnachricht.

The invention will now be described by way of example with reference to the accompanying drawings by way of advantageous embodiment. Show it:

Fig. 1:

a schematic representation of a warning system according to the invention;

Fig. 2:

an input mask of a message generator according to the invention;

3:

the view Fig. 2 in another embodiment of the invention;

4:

a schematic representation of a message generator;

Fig. 5:

a schematic representation of a warning center; and

Fig. 6:

a schematic representation of a warning message.

An inventive warning system in Fig. 1 comprises a plurality of communication stations 14 adapted to both create and transmit warning messages (message originators) and to receive (message receivers). The communication centers 14 may include, for example, community headquarters, country situation centers, federal cadres, civic center supervisors, national military situation centers, supranational military organization situation centers. For each of the communication stations 14, a bidirectional data connection 16 to a geostationary satellite 15 is available. Another bidirectional data link 17 is provided between the satellite 15 and a warning center 18. The satellite 15 forms a transmission point for data transmitted from the communication stations 14 to the warning center 18 and vice versa.

The alert system also includes a plurality of schematically indicated message receivers 19. Between the satellite 15 and the message receivers 19 there is a one-way data link 20 which allows to send warning messages from the satellite 15 to the message receivers 19. The message receivers 19 may include various means by which the warning message may be forwarded to the public. For example, the message receivers 19 may include radio and television transmitters, sirens, smoke detectors, pagers, weather stations (DCF77), mobile phones, BOS digital radio, etc. Data transmission takes place over a non-public data link in which the required number of communication channels reserved exclusively for the purposes of the warning system according to the invention.

If a danger situation occurs in the area of responsibility of a communication station 14, which requires a warning of the population, a warning message is generated in the communication station 14. A warning message 21, as in Fig. 6 is shown schematically is a data structure comprising a plurality of information blocks 22, 23, 24, 25. In the information block 22, the actual contents of the warning message 21 is included, which the operator has entered in the communication station 14, for example via a keyboard. It is also possible that for certain emergencies, the text of the warning message 21 is already stored and only needs to be selected by the operator. In the second information block 23, information about the category of the warning message 21 is stored, on which it depends, with which priority, for example, the broadcasters have to handle the warning message 21.

Each communication station 14 which generates warning messages 21 are assigned one or more locations to which it is always necessary to report, ie which must receive all warning messages. For example, these locations may include a parent location center. Denoted at 24 is an address block of the warning message 21 in which these digits are fixed as a message receiver.

Incidentally, the message recipients are determined based on geographical information. For this purpose, when generating the warning message 21, a specific geographic area is defined for which the warning message 21 is relevant. For example, in the event of an incident in a nuclear power plant, this would be the area downstream of the nuclear power plant. The geographic information is entered by the operator when creating the warning message 21. In the warning message 21, the geographical information in the field 25 is stored in coded form.

When the warning message 21 is completed, the operator issues a send command. The warning message 21 is then passed from the communication station 14 to the satellite 15 and from there to the warning center 18. In the warning center 18, the warning message 21 is received via a satellite antenna 26 and passed to a computing module 27 in which the geographical information is extracted from the warning message 21. The geographic information is then passed to a logic module 28. The logic module 28 accesses a memory 29 in which all message receivers 19 are located, which are located in the area of responsibility of the warning center 18. Each message receiver 19 is associated with geographical information, from which results in which area can be warned about this message receiver 19, the population. For example, for a broadcaster, the geographical area would be the same as the coverage area.

The logic module 28 performs a comparison between the geographic information of the alert message 21 and the geographic information of the message recipient 19 for each message receiver 19 stored in the memory 29. If the comparison leads to a positive result, this means that the relevant message receiver 19 is an addressee of the warning message 21. With the logic module 28 is thus based on the geographical information from the All of the message receivers 19 made a selection. The selected message receivers 19 are finally stored instead of the geographical information in the information block 25 of the warning message 21.

Optionally, the priority information from the information block 23 is additionally evaluated and taken into account in the determination of the message receiver. For example, this may result in a lower priority alert message 21 selecting only the broadcasters as message recipients 19, while sirens belonging to the message receivers 19 are associated with a higher priority alert message.

The warning message 21 with the added addressee information is then passed from the logic module 28 to the satellite antenna 26 and sent from there to the satellite 15. In the satellite 15, the addressee information is read from the information blocks 24, 25 and the message is sent to the fixed preset message receivers 19 from the information block 24 and to the message receivers 19 from the information block 25 selected from the geographical information.

In the message receiver 19, the warning message 21 is further processed based on the priority information from the information block 23. If the message receiver 19 is, for example, a broadcasting station, the warning message 21 of high priority immediately interrupts the program for the announcement of the warning message. In the case of a warning message 21 with a lower priority, the message can still be edited and incorporated into the broadcast program at a suitable time become. If the message receiver is a local mobile radio cell, the mobile radio cell can send the warning message to all mobile phones registered in the mobile radio cell.

For the reliable functioning of the warning system, it is advantageous if the warning messages 21 can be entered via an interface that is as intuitive as possible. An example of a screen display for entering a warning message into a computer 29 of a communication station 14 is shown in FIG Fig. 2 shown. The input mask comprises a field 30 into which a title of the warning message 21 can be entered, and a field 31 for the actual content of the warning message 21. In a selection field 32, the priority of the warning message 21 can be set, a further selection field 33 offers the possibility to selectively select individual warning means as a message receiver 19.

For the input of the geographical information, a window 34 with a map display is provided. In the map display the areas are specified, which can be selected by clicking. In the embodiment of Fig. 2 the selection concerns the two hatched geographical areas. If the warning message 21 is completely entered, the command for sending the warning message 21 is given via a button 35.

Even within the communication station 14, the warning message 21 is then according to Fig. 4 from the computer 29 to a computing unit 36 passed. There, in the hitherto only graphically specified definition of the geographical area, an encoding is created which is included in the information block 25 of the warning message 21 is written. Subsequently, the warning message 21 is sent to the satellite 15 via a transmitter 37 and a satellite antenna 38.

In Fig. 3 an alternative example of an input mask of the computer 29 is shown. In the map display in the window 34, the desired geographic area can be freely marked by drawing a line around the area with a mouse pointer. Also from this information in graphical representation, the arithmetic unit 36 can create an encoding for the information block 25 of the warning message 21.

In this way, the warning messages 21 can be entered largely intuitively and thus reliably even in stressful situations. The further processing of the warning messages 21 takes place completely automatically, so that a fast transmission of the warning messages 21 to the message receivers 19 is possible.

Claims (9)

Method for operating a warning system with a message transmitter (14), a warning center (18) and a plurality of message receivers (19), comprising the following steps: a. Generating a warning message (21) in which geographic information is encoded; b. Sending the warning message (21) from the message provider (19) via a transmitting station (15) to the warning center (18); c. Evaluating the geographic information to make a selection from a plurality of predetermined message receivers (19); d. Sending the warning message (21) from the warning center (18) to the selected message receivers (19). A method according to claim 1, characterized in that the transmission body (15) is associated with a non-public network. A method according to claim 1 or 2, characterized in that the transmitting station is a satellite (15). Method according to one of Claims 1 to 3, characterized in that the warning message (21) is sent via the transmitting station (15) from the warning center (18) to the selected message receivers (19). Method according to one of Claims 1 to 4, characterized in that the warning center (18) is a responsible area is assigned and that all message receivers (19) of the area of responsibility are stored in the warning center (18). Method according to one of claims 1 to 5, characterized in that the time duration between the sending of the warning message (21) by the message transmitter (14) and the receipt of the warning message (21) at the selected message receivers (19) below 5 min, on preferably less than 1 minute, more preferably less than 30 seconds. Method according to one of claims 1 to 6, characterized in that the geographical information is automatically coded on the basis of graphical information that is entered on a screen. Method according to one of claims 1 to 7, characterized in that communication points (14) are provided which comprise a message transmitter and a message receiver. Warning system comprising a message generator (14), a warning center (18) and a plurality of message receivers (19), having the following features: a. the message provider (14) is adapted to generate a warning message (21) in which geographic information is encoded; b. the message provider (14) is adapted to send the warning message (21) via a transmitting station (15) to the warning center (18); c. the warning center (18) is adapted to select a plurality of message receivers (19) based on the geographical information; d. the warning center (18) is adapted to send the warning message (21) to the plurality of message receivers (19).

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