EP1901254A1 - Verification of an alarm triggered by a hazard detector - Google Patents

Abstract

The method involves sending signal message to a video monitoring unit (K), connected by a communication network, by the danger warning centre (GMZ) after receipt of the alarm from the danger warning device. Depending on signal message, the recorded video image of the area monitored by the danger warning device is sent by the video monitoring unit to the danger warning centre. The danger warning centre forwards the video image to unit (E) over a communication network. An independent claim is also included for a system for verification of an alarm triggered by a danger warning device connected to danger warning centre.

Description

The invention relates to a method and a system for verifying an alarm triggered by a hazard detector connected to a hazard alarm center.

Danger alarm systems, such as fire, gas, temperature, etc. reporting systems usually consist of hazard detectors or detectors connected to a control center. Such alarm systems are used in public buildings, office buildings, hotels, industrial buildings, airports, railway stations, workshops, schools, etc. As a rule, several hazard alarms are combined into groups or loops (loop), so that the location of the danger can be determined exactly when triggered. In the fire alarm panel, all messages of the installed sensors and / or danger detectors are triggered and trigger the action previously defined at the alarm control panel. This can be the issuing of an emergency call, the evaluation of the message, the activation of a computer or an announcement unit. In the case of dangers such as a fire, the alerting of the fire brigade and the triggering of installed extinguishing systems (eg gas extinguishing system) take place. As a result, a fire or a danger can already be detected at an early stage even in the absence of the care staff and the fire brigade and intervention forces fight the danger accordingly early. Unfortunately, there are always false positives due to various false evaluations of the automatic fire detectors and malicious operation of the push button detectors or manual call points and sabotage of the danger detector.

The object of the present invention is to provide a simple and efficient solution for the review of an alarm triggered by a hazard alarm to suggest.

The object is achieved in each case by the subject matters of the independent claims. Further developments of the invention are specified in the subclaims.

A core of the invention is to be seen in that an alarm triggered by a hazard alarm associated with a hazard alarm center is verified by sending at least one signaling message to a video surveillance unit connected via a communication network such as a video surveillance camera, etc., upon receipt of the alarm from the security messaging center , In this case, a circuit-switching communication network, a packet-switching communication network, a mobile radio network, etc. can be used as communication network. According to the invention, it is conceivable that the video surveillance unit is connected to the security panel via a serial interface and above the data, consisting of user data (video images, etc.) and signaling data exchanged. The signaling protocol to use depends on the communication network used. In packet-switched communication networks, therefore, SIP (Session Initiation Protocol) signaling, H.323 signaling, etc. could be used. According to the at least one signaling message, the video surveillance unit transmits at least one recorded video image of the area monitored by the danger detector to the alarm control panel, and the latter forwards the at least one video image to a checkpoint Unit continues via another communication network. According to the invention, recorded video images of a previously defined time interval are sent to the alarm control panel by the video surveillance unit. Ideally, this starts the time interval before the alarm is triggered by the hazard alarm, so that any sabotage attempts can be detected. Furthermore, the at least one signaling message may contain a request that the video images recorded by the video surveillance unit be stored by a memory unit. The storage unit may be a unit of the video surveillance unit. The at least one video image forwarded by the security control center is then checked or evaluated by the unit, and further measures are taken to handle the alarm according to the result of the check. Such measures may be, for example, that a verified real alarm is forwarded to intervention forces such as the fire brigade, etc., so that the danger can be averted or that, for example, in a sabotage attempt, the video images are stored for evidence and the alarm is reset. Also, the detailed examination or analysis of the at least one video image using suitable algorithms could be such a measure. Of course, one measure could be to observe a saboteur through a video surveillance system of a building and record his movements so that statements about his whereabouts can be made. For this purpose, the security control center is connected to a video surveillance system, consisting of video surveillance cameras, processing units, computers, etc. As a further communication network, a circuit-switching communication network, the Internet, a packet-switched communication network, a mobile network, etc. can be used.

Basically, the unit represents any units that can either evaluate the at least one video image associated with the triggered alarm or provide it for evaluation. Thus, as a unit, for example, a mobile station, a fire brigade control center, a computer, a monitoring unit, a danger control center, an evaluation, a monitor, etc. can be used.

An advantage of the invention is that before alerting intervention forces such as the fire brigade etc. the authenticity of an alarm can be checked in a very simple manner. This makes it possible to distinguish real alarms from false alarms and to avoid costs that would be incurred due to false alarms.

Another advantage is that it is possible with the inventive method that the alarm is verified in real time. Thus, it is conceivable that the caregiver of a building, for example, with a mobile device directly access the video surveillance unit and thus can verify the alarm.

Also, in the method according to the invention, it is possible to analyze the cause of a false alarm by evaluating the video images of suitable units. Such units may be the hazard control panel, computers, fire control centers, monitors, etc. Sabotage attempts can be detected by evaluating the video images. The corresponding video images are stored in a storage unit for the purpose of securing evidence. The inventive method thus provides the possibility that the costs can be charged by such sabotage attempts to the polluter.

The fact that video surveillance units by suitable technologies, such as algorithms for sabotage monitoring, fire detection, motion monitoring, access monitoring in buildings, etc., are able to detect even dangers, according to the invention regardless of the operator of the danger detection system, the fire control center, the intervention forces, etc. a Danger be checked by two independent systems and thus verified.

Figur 1

das erfindungsgemässe Verfahren bei Betätigung eines Handfeuermelders,

Figur 2

das erfindungsgemässe Verfahren bei einem Alarm durch einen an der Decke montierten Brandmelder,

Figur 3

die Verifikation eines Brandes.

The invention will be explained in more detail with reference to an embodiment shown in a figure. Show

FIG. 1

the inventive method when operating a manual call point,

FIG. 2

the method according to the invention in the case of an alarm by a fire detector mounted on the ceiling,

FIG. 3

the verification of a fire.

FIG. 1 shows the method according to the invention when a manual call point BM is actuated. With manual operation of the manual call point BM, an alarm is triggered and a corresponding message is transmitted to the danger warning center GMZ. Due to the notification of the alarm, the security messaging center GMZ exchanges at least one signaling message with a video surveillance unit K, for example a video camera. In this example, the video surveillance unit K is connected directly in series via the field bus as a communication network with the security reporting center GMZ, but the inventive method is independent of the communication network used. So it is quite conceivable that the video surveillance unit K via a circuit-switching communication network, a packet-switched communication network, a mobile network such For example, the wireless network, a cellular mobile network, etc. is connected to the danger reporting center GMZ. According to this at least one signaling message from the danger reporting center GMZ, at least one video image taken by the video surveillance unit K of the area monitored by the danger detector BM, in this example a corridor of a building, is transmitted to the danger warning center GMZ. By the signaling message but also a pre-defined period of recorded video images in a memory unit of the video surveillance unit K and / or a separate storage unit can be stored. Ideally, the time interval or the time interval begins before the alarm is triggered, so that a possible sabotage attempt can be detected. The at least one video image received by the security messaging center GMZ is then forwarded to a unit E via a further communication network. In this example, the Internet is used as another communication network, but the inventive method is independent of the communication network used. Again, any communication networks such as a circuit-switching communication network, a packet-switched communication network, a mobile network such as the wireless network, a cellular mobile network, etc. can be used. It is quite conceivable that the at least one video image is at least partially evaluated by the danger reporting center GMZ and the evaluation result is sent to the unit E together with the at least one video image. This could reduce the time for verification and combat the threat earlier by the intervention forces. As unit E, any unit E can be used, which can either evaluate the at least one video image in connection with the triggered alarm or provide for the evaluation. So can as Unit E, for example, a mobile station, a fire brigade control center, a computer, a monitoring unit, a danger control center, an evaluation, a monitor, etc. are used.

FIG. 2 shows the method according to the invention in the event of an alarm by a fire detector (BM) mounted on the ceiling. The process according to the invention is carried out as described in FIG.

FIG. 3 shows the verification of a fire, as carried out according to FIG. In order to avoid the transmission of false alarms, it is conceivable that a pre-alarm is first triggered, which must be verified by the unit E. Only after verification, the intervention forces are alarmed to fight the fire. With such a system, it is thus possible that costs can be largely avoided by false alarms, sabotage attempts, etc.

Claims (16)

Method for the verification of an alarm triggered by a danger detector (BM) connected to a security alarm center (GMZ),
characterized,
that after receiving the alarm from the danger detector (BM) from the danger control center (GMZ) at least one signaling message is sent to a video surveillance unit (K) connected via a communication network,
in that at least one recorded video image of the area monitored by the hazard detector (BM) is sent by the video surveillance unit (K) to the danger warning center (GMZ) in accordance with this at least one signaling message, and
in that the at least one video image is forwarded by the security alarm center (GMZ) to a unit (E) via a further communication network. Method according to claim 1,
characterized,
in that a circuit-switching communications network, a packet-switched communications network and / or a mobile communications network are used as the communications network. Process according to claims 1 and 2,
characterized,
that video surveillance unit (K) and hazard warning center (GMZ) are interconnected via a serial interface. Method according to one of the preceding claims,
characterized,
that the video surveillance unit (K) sends at least one signaling message to the danger warning center (GMZ). Method according to one of the preceding claims,
characterized,
the at least one signaling message at least added a request for storing from the video monitoring unit (K) contains video images in a designated storage unit. Method according to claim 5,
characterized,
that the storage unit is a unit of the video monitoring unit (K). Method according to one of the preceding claims,
characterized,
that video images of a previously defined time interval of the area monitored by the hazard detector (BM) are stored by the video surveillance unit (K) after receipt of the at least one signaling unit. Method according to claim 7,
characterized,
that the time interval of the recorded video images initiated before the hazard detectors (BM) alarm starts. Method according to one of the preceding claims,
characterized,
in that a mobile radio terminal, a fire brigade control center, a monitoring unit, a danger control center, an evaluation unit, a computer and / or a monitor are used as unit (E). Method according to one of the preceding claims, characterized
that a packet-switching communication network, the Internet, a mobile radio network and / or a circuit-switching communication network are used as a further communication network. Method according to one of the preceding claims,
characterized,
that the at least one video image forwarded by the security control center (GMZ) is evaluated by the unit (E). Method according to claim 11,
characterized,
that further measures be initiated concerning the alarm from the hazard detectors (BM) triggered by the unit (E) as a function of the test result. Process according to claims 11 and 12,
characterized,
that further measures include the alerting of intervention forces, the analysis of the test result and / or the storage of the received video images. Method according to one of the preceding claims,
characterized,
that the at least one video image is at least partially evaluated by the danger warning center (GMZ). Method according to claim 14,
characterized,
that the evaluation result with the at least one video image is sent to the unit (E). System for the verification of an alarm triggered by a danger detector (BM) connected to a security alarm center (GMZ), a security alarm center (GMZ) for receiving the alarm from the danger detector (BM) and for transmitting at least one signaling message to a video monitoring unit (K) connected via a communication network, with the video surveillance unit (K) for transmitting at least one recorded video image of the area monitored by the hazard detector (BM) to the danger warning center (GMZ) in accordance with this at least one signaling message, - With the danger warning center (GMZ) for forwarding the at least one video image to a unit (E) via another communication network.

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