EP1544824A1 - Method for processing signals for an alarm system - Google Patents

Abstract

The method involves receiving an alarm signal by a receiver from an alarm system placed at places to be protected and transmitting the signal to a server (3). The server creates addresses indicating the locations of number of user (1) to be called, and data describing alarm type, alarm zone and activated detector that triggers the signal, in a database. An alarm message composed using the data is sent with the number to the user.

Description

The present invention relates to a method of treatment alarm signals comprising the reception of an alarm signal by a receiver arranged to receive the alarm signals produced by each alarm systems placed at locations to be protected and transmission by a transmitter of an alarm message to the user indicated for receive the alarm message.

Generally, in the state of the art, the systems alarm system protecting the buildings against, for example, intrusion, theft, fire or other are either directly connected to the owner via a means of communication of any kind to inform him of the fact that the alarm system is triggered, either connected to centers of who are responsible for contacting the user of the places to be protected or the competent services for an intervention. In the latter case, the monitoring center, depending on the type of alarm, may possibly inform the user of the area affected by the trigger and identify which detector has been triggered (contact detector, detector volumetric, smoke detector).

A recent problem has been the appearance of a Belgian legislation which stipulates that when an anti-theft alarm is triggered, the Users can no longer call the police directly without having the confirmation that the alarm system has tripped for a reason valid. So far, with alarm systems that contact directly the user, the user becomes aware, if he is reachable, that the system went off and he has to react without knowing exactly what that is happening. It is therefore necessary for him to see for himself the situation or the make known by an acquaintance, but he can not contact police directly for an intervention since he did not have any confirmation. The system involving a monitoring center does not pose this problem but it is expensive for the user and presents a tedious work. In addition, this device is not immune from failure human, or that of the alarm system.

An object of the invention is to overcome these disadvantages, in providing a device for an automated alarm system to obtain information directly on the type of alarm triggered and on the area concerned.

(a) identification par ledit serveur, sur base du contenu de la première partie dudit signal d'alarme, de l'endroit d'où provient l'alarme reçue et production d'une première adresse indiquant dans la base de données l'endroit où est stocké au moins un numéro de l'utilisateur à appeler,

(b) identification par ledit serveur, sur base du contenu de la deuxième partie du signal d'alarme, du type d'alarme reçue et production d'une deuxième adresse indiquant dans la base de données l'endroit où est stocké une première donnée décrivant le type d'alarme,

(c) identification par ledit serveur, sur base du contenu de la troisième partie du signal d'alarme, d'au moins une zone en alarme et d'au moins un détecteur qui a déclenché le signal d'alarme reçu et production d'au moins une troisième adresse indiquant dans la base de données l'endroit où est stocké une seconde donnée décrivant la ou les zone(s) en alarme et le ou les détecteur(s) activé(s),

(d) interrogation par ledit serveur de la base de données aux endroits indiqués par la première, deuxième et troisième adresse

(e) prélèvement par ledit serveur dans ladite base de données des données stockées aux adresses et composition du message d'alarme par ledit serveur en utilisant les première et deuxième données,

(f) annexion au message d'alarme d'au moins un numéro d'utilisateur, prélevé à la première adresse, et envoi dudit message composé par ledit serveur au transmetteur

Indeed, the invention provides a signal processing device for an alarm system characterized in that the received alarm signal comprises a first identification part of the user, a second part indicating the type of alarm, and a third portion indicating at least one detector that has triggered the alarm signal, the received signal being transmitted for processing to the server that is associated with a database and connected to said transmitter, which processing comprises the following steps:

(a) identification by said server, based on the contents of the first part of said alarm signal, of the location from which the received alarm originates and production of a first address indicating in the database the location where is stored at least one number of the user to call,

(b) identification by said server, based on the content of the second part of the alarm signal, of the type of alarm received and production of a second address indicating in the database where the first data is stored describing the type of alarm,

(c) identification by said server, based on the content of the third part of the alarm signal, of at least one alarm zone and at least one detector that has triggered the alarm signal received and produced by at least a third address indicating in the database the place where a second data item is stored describing the zone (s) in alarm and the detector (s) activated (s),

(d) querying by said server of the database at the locations indicated by the first, second and third addresses

(e) taking from said server in said database the data stored at the addresses and composition of the alarm message by said server using the first and second data,

(f) annexing to the alarm message at least one user number, taken from the first address, and sending said message composed by said server to the transmitter

From then on, a detailed message is automatically generated and sent to the user and once the user is informed of the trigger the alarm system, he can know what kind of alarm was produced (theft, fire, failure, etc.) and the area where it occurred produced. The invention informing the user automatically, the cost is relatively low (the fixed price of the communication) and the work is particularly simple.

In case several detectors have triggered the alarm (burglar who moves from one place to another, fire that wins several parts, ...) the user receives several alarm messages. Receiving several messages generally rule out the failure of a system alarm and can provide confirmation of the relevance of the alarm.

According to a preferred embodiment of the invention, the process for processing alarm signals according to the invention comprises a server intended to receive from the receiver and send to said transmitter a information, at predetermined intervals, on the operation of said alarm system, which transmitter communicates the information to said users. The user can therefore be informed continuously about regular intervals that his alarm system is operational or failed. Indeed, another major problem of the state of the art is that when the alarm system is faulty, the user often goes account when it is too late, ie after a burglary or after a fire. Some alarm systems operating through a monitoring center perform on demand a line test to check the operation of the alarm system of the place to be protected. Unfortunately, again, this system is cumbersome to implement and the user is not immune to human failure or forgetting. The method according to the invention makes it possible to prevent these inconveniences by getting information directly about how the system works of alarm by tests at regular intervals, the duration of which varies according to desiderata of the user.

Generally, the connection between the alarm system and the receiver is a classic PSTN line, this PSTN line is used by the alarm system to send a signal to the receiver. In the case an alarm such as a burglary during which the thief triggers several motion and / or contact sensors, the server is planned to block the stall after a maximum number of calls for avoid that the user is flooded with message for the same intrusion and that he must bear the costs of a large number of calls. Preferably, the stall number is limited to five calls from the alarm system to the server.

The signal processing method is further characterized in that the server can append the user's number according to the type of alarm, ie depending on the type of alarm, the server can be programmed to send the message to one or more users in particular. For example, in the case of a fire alarm signal, the system will send a message to the user and the fire brigade, in the case of a failure, the system will send a message to the user and to the installer, etc.

Existing alarm systems operate according to protocols, according to their programming and their production which may be more or less different depending on the case. The device signal processing for an alarm system according to the invention, in order to be adaptable to a wide variety of alarm systems, must be able to decode a wide range of alarm signals. It is preferable that the receiver can operate at least according to standard SIA protocols and preferably, it will work according to other existing protocols. from in order to obtain a signal processing device for multi-purpose alarm system, the receiver provided is a multi-protocol receiver.

The signal processing device for alarm system is characterized in that the users are informed of said tripping alarm or system operation by SMS, MMS, message voice, e-mail, via an SMS operator-server, or combinations of these.

la figure 1 est une représentation générale du procédé de traitement de signaux d'alarme selon l'invention,

la figure 2 est une représentation détaillée du fonctionnement du serveur,

la figure 3 est une vue détaillée du fonctionnement du système régissant le récepteur,

la figure 4 est une vue détaillée du fonctionnement du système de vérification des tests de ligne.

Other features, details and advantages of the invention will become apparent on reading the specification with reference to the accompanying drawings given as non-limiting examples and in which:

FIG. 1 is a general representation of the method for processing alarm signals according to the invention,

FIG. 2 is a detailed representation of the operation of the server,

FIG. 3 is a detailed view of the operation of the system governing the receiver,

Figure 4 is a detailed view of the operation of the line test verification system.

Figure 1 is a representation of the treatment method alarm signals according to the invention. The method includes receiving an alarm signal generated by an alarm system user (1). The reception is carried out by a receiver preferably multi-protocol (2). The alarm signal received via the connection (10) between the alarm system and receiver, preferably a PSTN line (10) is processed by the server (3) which identifies with a database that is associated with the user number, the type of alarm, the zone of trigger and the detectors that triggered the alarm signal. The server (3), as explained below, composes a message and annex to the message the information of the recipient of the message. The server (3) transmits the message to the transmitter (4) which transmits the message received to the user for example, either by SMS (5), MMS (5), message voice (5), email (6), an SMS operator-server (7), or any other means of communication and combinations thereof. According to embodiment, in the database, the information corresponding to the user number may include the number of User's GSM (5), that of a third party and for example the number of the installer (8) of the alarm so that he is warned in case system failure or the number of firefighters (9) or any other competent authority (guard service or other) in case of fire or other respectively.

(a) identification par ledit serveur, sur base du contenu de la première partie (P1) dudit signal d'alarme, de l'endroit d'où provient l'alarme reçue et production d'une première adresse (A1) indiquant dans la base de données l'endroit où est stocké au moins un numéro de l'utilisateur à appeler (21),

(b) identification par ledit serveur, sur base du contenu de la deuxième partie (P2) du signal d'alarme, du type d'alarme reçue et production d'une deuxième adresse (A2) indiquant dans la base de données l'endroit où est stocké une première donnée décrivant le type d'alarme (22),

(c) identification par ledit serveur, sur base du contenu de la troisième partie (P3) du signal d'alarme, d'au moins une zone en alarme et d'au moins un détecteur qui a déclenché le signal d'alarme reçu et production d'au moins une troisième adresse (A3) indiquant dans la base de données l'endroit où est stocké une seconde donnée décrivant la ou les zone(s) en alarme et le ou les détecteur(s) activé(s) (23),

(d) interrogation par ledit serveur de la base de données aux endroits indiqués par la première, deuxième et troisième adresse

(e) prélèvement par ledit serveur dans ladite base de données des données stockées aux adresses (A1, A2, A3) et composition du message d'alarme par ledit serveur en utilisant les première et deuxième données ( 22 et 23),

(f) annexion au message d'alarme d'au moins un numéro d'utilisateur (21), prélevé à la première adresse (A1), et envoi dudit message composé par ledit serveur au transmetteur

FIG. 2 is a detailed representation of the operation of the server (3), the server receives a signal from the multi-protocol receiver which comprises three parts (P1, P2, and P3), the database associated with the server comprises at least three tables (p1, p2, p3) in which the information corresponding to the addresses of the three parts of the signal are found. The server processes the received signal into three parts of the receiver according to the following steps

(a) identification by said server, based on the contents of the first part (P1) of said alarm signal, of the location from which the received alarm originates and production of a first address (A1) indicating in the database where at least one user's number is stored to be called (21),

(b) identification by said server, based on the content of the second part (P2) of the alarm signal, the type of alarm received and production of a second address (A2) indicating in the database the location where is stored a first datum describing the type of alarm (22),

(c) identification by said server, based on the content of the third part (P3) of the alarm signal, of at least one alarm zone and at least one detector which has triggered the received alarm signal and generating at least a third address (A3) indicating in the database the location where a second data item is stored describing the zone (s) in alarm and the activated detector (s) (23). )

(d) querying by said server of the database at the locations indicated by the first, second and third addresses

(e) taking from said server in said database the data stored at the addresses (A1, A2, A3) and composing the alarm message by said server using the first and second data (22 and 23),

(f) appending to the alarm message at least one user number (21), taken from the first address (A1), and sending said message composed by said server to the transmitter

FIG. 3 represents a detailed view of the operation of the system governing the receiver. When an alarm signal arrives at receiver, it signals to a computer or server that there is a call entering "RING" (31). If the computer or server is ready (authorization from the user or not, breakdown, ...), he sends the command "HANG-UP" (32), the receiver picks up and signals to the alarm system its presence "HANDSHAKE" (33). The alarm system sends the data, the The receiver transfers the data for processing on the computer or server, if the data is correct, the computer or server is sending an "ACK" (34) acceptance to the receiver, if the data is incorrect, the computer or server sends a non-acceptance "NACK" (35) to the receiver. Acceptance may depend on various factors, such as example, the number of signals received from the same user (looking at in the EVENTS database, the system can know how much have been received), the fact that the user has been identified as previously, or during the deviation to another receiver (failure, maintenance, update). The receiver reports its status "KISS OFF" (36) if the data is correct, ie if the receiver has recognized the protocol and "NO KISS OFF" (37) if the data is incorrect. The receiver then decides following his condition of the transmission to hang up "END" (35) or do not hang up "CONTINUE" (38). All events are stored in a database table "EVENTS". New events are stored in a category "NEW EVENT". Therefore, whether for a line test or for a real alarm that an alarm system signal is sent it is processed by the receiver in the same way. Only the processing by the server and user information are different. In the case of a signal actual alarm, the signal processing was described above during the description of figure 2. In the case of a line test, the signal is treated as shown in Figure 4.

In order to be able to assure the user that the system alarm is functional, the alarm system sends messages to regular intervals of signals meaning that the system is operational. The receiver receives the information according to the described protocol in Figure 3 and these data are stored in one of the tables of the database. The line test verification system includes at least one computer (41), preferably three (41, 42, 43) and more preferentially beyond three. The system checks whether a transmission of signals meaning that the system is operational has completed within the prescribed time limit (44). If it is yes (45), a signal is sent to a computer to report that everything is working and / or at the base data (47). If it is no (46), the system checks if it is able send a message (48) to the EVENTS database. If it's yes, (49), the system sends a failure (51) or failure message (51) in the database and sending is supported by the server and the transmitter. If it is not (50), the system means to the computer that can not send the message to the database. In this preferred embodiment, the number of computers present in the system verification of the operation of the alarm system is three (41, 42, 43). In the event that a computer fails or is shut down (by example 41), the whole process is transferred to another computer (42 or 43) that supports all the first computer line tests (41). In the case where the first (41) and the second computer (43) are failing, the whole process is transferred to a third computer (43) which supports all line tests of the first (41) and second computer (42).

Nevertheless, the method according to the invention described above is given by way of non-limiting example, for example, in a preferred embodiment, there will be several servers according to the master-slave technology that can be relocated for security reasons including and all the computers used in the process can be at least split, as well as the receiver and the transmitter. Translation of commands and legends in the figures. SMA REC Receiver of the alarm signal processing method according to the invention GROUP X Group X JOB X Task X Line Ringing Incoming call Receiver OK? Receiver ready? Transfer line to other receiver Transferring the line to another receiver Handshakes connection No. no yes Yes Protocol frame OK? Correct data? NO-KISS-OFF no acceptance KISS OFF acceptance STORE TO EVENTS TABLE records in the event table of the database Line test Job 1 Line test, task 1 Line test Job 2 Line test, task 2 Line test Job 3 Line test, task 3 HANG-UP Order to pick up RING Incoming call control

Claims (13)

A method of processing alarm signals comprising receiving an alarm signal by a receiver arranged to receive the alarm signals produced by each of the alarm systems in communication with the receiver and placed at locations to be protected and the transmission by a transmitter of an alarm message to the user indicated to receive the alarm message, characterized in that the received alarm signal comprises a first identification part of the user, a second part indicating the type of alarm, and a third part indicating at least one detector which has triggered the alarm signal, the received signal being transmitted for processing to the server which is associated with a database and connected to said transmitter, which processing comprises the following steps: (a) identification by said server, based on the contents of the first part of said alarm signal, of the location from which the received alarm originates and production of a first address indicating in the database the location where is stored at least one number of the user to call, (b) identification by said server, based on the content of the second part of the alarm signal, of the type of alarm received and production of a second address indicating in the database where the first data is stored describing the type of alarm, (c) identification by said server, based on the content of the third part of the alarm signal, of at least one alarm zone and at least one detector that has triggered the alarm signal received and produced by at least a third address indicating in the database the place where a second data item is stored describing the zone (s) in alarm and the detector (s) activated (s), (d) querying by said server of the database at the locations indicated by the first, second and third addresses (e) taking from said server in said database the data stored at the addresses and composition of the alarm message by said server using the first and second data, (f) annexing to the alarm message at least one user number, taken from the first address, and sending said message composed by said server to the transmitter Alarm signal processing method according to claim 1 characterized in that said server is provided to provide confirmation of the relevance of the alarm by composing several consecutive messages according to the trigger sequence of the detectors, said messages being sent by the transmitter to the user. Alarm signal processing method according to one of claims 1 or 2, characterized in that said server is arranged to receive, at predetermined intervals, the receiver and send to said transmitter information on the operation of said alarm system which transmitter communicates the information to said users. Alarm signal processing method according to one of Claims 1 to 3, characterized in that the alarm signal is sent via a PSTN line. Alarm signal processing method according to one of claims 1 to 4, characterized in that the server blocks the stall number to a maximum number when a large number of alarm signals are received. Alarm signal processing method according to one of claims 1 to 5 characterized in that said receiver receives alarm signals according to various protocols. Alarm signal processing method according to one of claims 1 to 6 characterized in that said users receive the alarm message or the message stipulating the operating status by SMS Alarm signal processing method according to one of claims 1 to 6 characterized in that said users receive the alarm message or the message stipulating the operating status by MMS. Alarm signal processing method according to one of claims 1 to 6 characterized in that said users receive the alarm message or the message stipulating the operating status by voice message. Alarm signal processing method according to one of claims 1 to 6 characterized in that said users receive the alarm message or the message stipulating the operating status by email. Alarm signal processing method according to one of claims 1 to 6 characterized in that said users receive the alarm message or the message stipulating the operating status via an operator - SMS server. Alarm signal processing method according to one of claims 7 to 11, characterized in that said users receive the alarm message or the message stipulating the operating status by a combination of the aforementioned transmission means. Alarm signal processing method according to one of claims 1 to 12, characterized in that , during said annexation to the alarm message of at least one user number, other user numbers are appended to the alarm message, which user numbers vary according to the type of alarm triggered.

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