DE4344120C1 - Method for increasing the interference immunity of a radio alarm installation - Google Patents

Abstract

In known radio alarm installations with single-direction exchange of data messages between external units and the central unit, a problem is created by the occurrence of false alarms (spurious alarms) which arise as a result of the manipulations of the radio signals which transmit the data messages. In a radio alarm installation which uses the method according to the invention this problem is eliminated in that after each transmission process the data messages which are to be transmitted are changed, as a result of which attempts to manipulate by evaluating the radio signals is made considerably more difficult.

Description

The invention relates to a method for increasing the Interference immunity of a radio alarm system according to the generic term of claim 1. Such a method is e.g. B. known from DE 41 41 035 C1.

Alarm systems have become a valuable aid when monitoring apartments or buildings. Fire, theft, burglary and robbery are reported without delay. The individual components of an alarm system perform the following tasks:
Detection, evaluation and alarm.

These three tasks are handled by different assemblies an alarm system solved. The detection of an alarm is carried out by detectors (detectors), depending on the type of detector (e.g. fire, broken glass or water detector) have different sensors. The evaluation of the Signals generated by one or more detectors are done in a central unit. In the  Central unit is based on the detector signals and additional state variables decided whether a Alerting should take place. This can then be done by Forwarding an alarm signal to the police or through Activation of acoustic and / or visual alarm devices (Sirens, alarm lights, etc.).

Conventional alarm systems are mostly wired. So-called alarm lines connect the central unit the detectors. Becomes a detector by external influences activated or the detection line interrupted, this leads to the central unit to trigger an alarm. In addition can different components through a sabotage line to be protected. Once these components are manipulated an alarm is triggered.

Due to the wired implementation, a very high level of interference immunity of the alarm system achieved, especially when installing the However, the pipeline network is very expensive required.

In order to avoid this high effort, are increased Wireless alarm systems are used, the components of which Radio links are connected. These radio alarm systems consist of a central unit with a Power supply, a radio receiver, one Alarm device and outdoor units with one off-grid power supply, a detector and a Radio transmitter. By sending data telegrams the outdoor units are connected to the central unit.  

For this purpose, the data telegrams contain code numbers, which the Clearly identify outdoor units. Depending on the The number of bits used for this can be more or assign fewer code numbers. With the known unidirectional radio alarm systems send the transmitters of the Outdoor units only receive data telegrams if the Detectors detect an accident. These data telegrams are repeated at short intervals until the Fault is eliminated. In addition, the transmitter of the outdoor units at fixed intervals Send special data telegrams as status messages. The Data telegrams for status messages are sent at intervals of several hours in the outdoor units and radiated, whereby the central unit the proper Can monitor the functioning of the outdoor units. For Differentiation between the different data telegram types can add additional bits to the data telegrams become.

With such an implementation, however, is particularly important to ensure the interference immunity of the radio links, because for example, frequently occurring false alarms for one cause unwanted impairment and acceptance the user towards such susceptible to failure Reduce alarm systems significantly.

A radio alarm system that is easy to install afterwards with increased interference immunity of the radio links is from the EP 0 293 627 A1, in which a Radio transmission method for the transmission of  Information between a central unit and one Number of outdoor units is described. It is for the bidirectional radio transmission the same Radio frequency used. All outdoor units that the Detectors and transmitters and receivers include first of all when there is a total query checks whether they can send their sender Information turned on. Will be at least one If the transmitter is switched on, the outdoor units are recognized queried one after the other in a time-division multiplex method.

For this purpose, the outdoor units have unique code numbers assigned that are fixed or by means of Switches can be set. The code numbers are Part of data telegrams between Central unit and outdoor units are exchanged.

However, the known radio alarm system has the disadvantage on that from the outside with appropriate technical Facilities but also with an identical outdoor unit by trying out the possible code numbers faults or alarm triggers can be caused. Also it is possible with a suitable technical Equipment for radio signals between outdoor units and Maintaining the central unit and registering it. The registered signals can then by the technical Equipment will be sent out again, causing the Radio alarm system can be manipulated.  

In the case of the DE 41 41 035 C1 known radio alarm system is an influence of prevents the outside between the Central unit and the outdoor units replaced Additional data telegrams, for example using a algorithmic function, be encrypted. Is to both in the central unit and in the A computing unit is provided to external units.

The computing units have a memory in which the algorithmic function is stored. Detects one Outdoor unit sends an alarm, it sends a data telegram to the central unit. In the central unit it will Data telegram processed and a request signal generated, which the outdoor unit to repeat the Data telegram initiated. This is done in the outdoor unit the request signal of the algorithmic function subject. The data telegram generated in the process is saved as Repetition signal sent to the central unit. There in the central unit has the same algorithmic function is present, the same can be done in the central unit Data telegrams are generated and saved like it is is generated in the outdoor unit. That from the outdoor unit sent repetition signal is in accordance with compared to the saved data telegram. A Mismatch indicates one Attempt to influence, an alarm is not triggered.  

A disadvantage of the known from DE 41 41 035 C1 Radio alarm system is that both the central unit and also the outdoor units via a transmitter and receiver must have, making the alarm system overall becomes complex and expensive.

The invention is therefore based on the object Specify procedures that achieve a high Interference immunity in a radio alarm system with low Realization effort enables.

According to the invention, this object is achieved by a method solved the features of claim 1.

The advantage of the method according to the invention lies especially in that one according to this procedure operated radio alarm system despite low Realization effort a high level of interference immunity Radio connection between the outdoor units and the Central unit has.

The invention is based on a Embodiment explained in more detail. The only one shows Figure the basic structure of a Radio alarm system operating according to the method.

The radio alarm system according to the figure has several Outdoor units A1 to An and a central unit Z on.  

Outdoor units A1 to An each have one Detector D, a computing unit RA, a battery or a battery B and a transmitter S. The computing unit RA, the for example, be formed by a microcomputer can, evaluates the signals of the detector D and controls the respective outdoor unit.

The central unit comprises a receiver E, one Computing unit RZ, an alarm device A and a Power supply SV. The computing unit RZ, the for example, be formed by a microcomputer can evaluate the received radio signals of the associated Outdoor units A1 to On off and controls the Central unit.

The figure only shows components of the radio alarm system shown in connection with the present Invention are important.

When the outdoor units A1 to An are started up for the first time and possibly after each battery change in the outdoor units A1 to An becomes A1 to An for the outdoor units Initialization run carried out, with the Central unit Z is in a special mode.

In this initialization run, the respective Outdoor unit A1 to triggered, so that from the transmitter S. Data telegram is sent. This data telegram is received by the receiver E of the central unit Z and in evaluated by the computing unit RZ.  

The data telegram consists of a characteristic Identification part of each of the outdoor units A1 to On clearly identified by a code number, and off a change part, which after each transmission a Data word in the respective outdoor unit A1 through An the computing unit RA is changed. By means of the Initialization run, each outdoor unit A1 to An from the central unit Z registered. This is the code number of the identification part stored. At the same time the second part of the data telegram from the Computing unit RZ evaluated.

The central unit Z is the last one used data telegram of the outdoor units A1 to An known. With a later in normal operation, further transmission of a data telegram changed change part together with the Identification part sent as a new data telegram. There the data telegram last sent in the central unit Z was evaluated, the changed part of the change the computing unit RZ can be determined, whereby the new Data telegram in the central unit Z is known. The Determination of the change part in the central unit Z is possible because the same in the computing unit RZ Algorithm for changing the change part available is how it is in the computing units RA of the outdoor units A1 to An is present. The algorithm can work for everyone Outdoor units A1 to An be the same. Using different algorithms result in an increase interference immunity.  

In this way, after each transmission / reception process Change part of the data telegrams changed. By Record and send the data telegrams again can therefore not influence the alarm system from the outside can be achieved.

Depending on the type of data telegram, a correct Evaluation and alarm message using the alarm device A take place or be suppressed. An identification of the The type of the data telegram can be part of the Identification part and there by means of additional Bits are marked. Is it the Data telegram around a status message which - as at the beginning mentioned - is sent at certain intervals, and results the evaluation a mismatch of the received Data telegram with the expected data telegram indicates this is due to the attempt to remove an unauthorized person Cover up the outdoor unit, an alarm is triggered. Is the data telegram the Trigger message of a detector D and results in the evaluation a mismatch of the received data telegram with the expected data telegram, this indicates the Attempt to switch off the alarm system to trigger the corresponding dangerous situation, there will be no Alarm triggered.

Due to interference on the radio link between the Outdoor units A1 to An and the central unit Z can occur that individual data telegrams from the  Central unit Z can not be received. At the Receipt of the next data telegram that was not previously receivable outdoor unit can in the central unit Z from the computing unit RZ does not match the received one Data telegram with the expected data telegram be determined, because in the outdoor unit Change more than made in the central unit Z. has been. The same problems arise when there are several Send a data telegram to the outdoor units at the same time, since in this case only one data telegram at a time can be evaluated.

The described disturbances can be prevented if not only from the computing unit RZ in the central processing unit the data telegram to be expected next for the outdoor units A1 to An is determined, but at least one further data telegram. Be on this Way several, e.g. B. a total of three data telegrams (the expected and two more) are determined by short reception disturbances do not cause false alarms, if up to two previous data telegrams are not were received. In addition, it can be provided that if the received data telegram matches one of the other data telegrams the other Data telegram the basis for determining the the next expected data telegram. Thereby short-term occurrences appearing on the radio link Faults compensated.  

The simplest algorithm to change the The change part is the raising or lowering of one the number forming the change part (e.g. binary number the from the bits used for the change part results). Other algorithms are known per se and are, for example, in the German Patent specification DE 41 41 035 C1 described.

In addition to the described use of an additional It is also part of the change in the data telegrams possible to send the data telegrams only through the To form an identification part. In this case, the Change of the data telegrams, for example, by Application of a polynomial to the data telegram in the Outdoor units and the central unit can be reached. The Coefficients of the polynomial can be Random process to be determined in the same way in the respective outdoor unit and the central unit is set. Even for the direct change of one thing only data telegram consisting of the identification part further algorithms are known per se and for example in the aforementioned DE 41 41 035 C1 described.

Claims (8)

1. A method for increasing the interference immunity of a radio alarm system with at least one radio link between outdoor units (A1... An) and a central unit (Z), in which the outdoor units send data telegrams to the central unit, the data telegrams of the respective outdoor units in one in the central unit are coded in a known and always changing manner and checked for correctness there, characterized in that
that the radio link is unidirectional from the outdoor units (A1 ... An) to the central unit (Z),
that the data telegram of each outdoor unit is changed in the specified manner after each transmission, and that this change is checked in the central unit after each reception of a data telegram, in particular by changing the respective data telegram known in the central unit in the same way as that Data telegram from the sending outdoor unit. 2. The method according to claim 1, characterized, that each data message from an identification part, which characterizes the respective outdoor unit, and a change part, which after each Sending / receiving process is changed.   3. The method according to claim 2, characterized, that the change part is formed by a number and changed by continuously increasing or decreasing becomes. 4. The method according to claim 1, characterized, that one consisting only of the identification part Data telegram after each send / receive process in the respective outdoor unit and the central unit changed becomes. 5. The method according to claim 2 or 4, characterized, that the data telegram by means of one or more in the Outdoor units and the central unit existing algorithmic functions is changed. 6. The method according to any one of claims 1 to 5, characterized, that the change in the respective data telegram Is the result of a pseudo-random process.   7. The method according to any one of claims 1 to 6, characterized, that in the central unit for each to be monitored Outdoor unit next to which the next change having data telegram at least one more changed data telegram is determined in advance, and that the data telegrams received from the outdoor units in the central unit to match the in each case expected next subsequent change Data telegram and the one or more determined in advance Data telegrams are checked. 8. The method according to claim 7, characterized, that if the received one matches Data telegram with one of the predetermined further data telegrams following this one Data telegram for the next reception time as expected data telegram in the central processing unit is fixed.