EP1282094A2 - Method for wireless transmission in an alarm system - Google Patents

Abstract

The method involves switching on the receiver cyclically at defined time points, a substation (1,4,7) intending to send transmitting a preamble, a receiver (3,6,9) remaining on until the end of a preamble and switching off again if there is no preamble. The starting time of a data message is contained in the preamble. The receiver switches off after receiving the starting time and switches on again at this time.

Description

The invention relates to a method for radio transmission in a danger reporting system according to the preamble of Patent claim 1.

Funk is a nearly ideal transmission medium for building technology. Devices with radio technology are quick to install and easy to adapt to changing requirements. The disadvantage, however, is the relatively short range in Buildings at carrier frequencies in the gigahertz range. Become used to increase the range so-called. Repeater requires the high energy consumption until today mains-powered devices. This is especially true for radio systems in the new SRD band between 868 and 870 MHz.

In systems with repeaters to increase the range must the information over several stations in a short time to her Goal get. This short time is measured in building security (Fire alarm, intrusion protection) with some a few seconds and in the building automation (lighting systems) in less than a second.

For this purpose, however, powerful computers are needed to to find the right way through a widely ramified network. It probes probabilities, preselects paths, Statistics, etc. All this requires space Computer performance and last but not least a lot electrical power. Also a year-long supply of batteries is currently not possible.

From EP 0 911 775 a method for radio transmission in a Danger alarm system known which for battery operation suitable is. It is based on routine signals from peripheral Sent from the control panel an acknowledgment signal, which of ready-to-send peripheral elements as Start signal for transmission of detector data to the control panel is being used. For several available radio channels will be in successive channel time slots on alternating radio channels the routine signals sent out and the acknowledgment signals await until an acknowledgment signal in a time slot with connection is received. This acknowledgment signal receives a ready-to-send peripheral element, which on the same as free recognized radio channel his detector data to the central office then in the next time slot transmitted for detector data transmission. This method characterized by minimal energy consumption with short monitoring and reaction times in seconds out. A disadvantage is the relatively complicated procedure and the long reaction times in repeater mode. There the participants of the system must keep in sync they coordinate their internal clocks. This results a relatively large radio load and as a result of this the need for multiple radio channels.

From DE 19905 316 is a data transmission system, in particular for consumption data acquisition, known, which at least a transmitter and a receiver for receiving data packets, which are sent at intervals by a respective transmitter be, has. In this case, the receiver comprises a timing device for the timing of its receiving operation, based on setpoints for the time intervals successive data packets of the transmitter concerned the respective time of the expected next data transmission estimates and temporarily sets the recipient in each case in a tolerance interval, that is the estimated time of the expected appraises the next data transmission and the receiver temporarily each within a tolerance interval, which is the estimated time contains, ready to receive. The length of the data packets is limited to the tolerance interval.

It is therefore the object of the invention to provide a method for Specify wireless transmission in a hazard detection system, which suitable for repeater operation, short reaction times ensures energy-saving operation and flexible data telegram lengths allowed.

The object is achieved by a method for radio transmission of the type mentioned above with the characterizing Features of claim 1.

In this case, the receiving devices of the participants are cyclic switched on at predetermined times and willing to send Participants send preambles, which are the address of the participant contained, which is to receive the preamble. Receive now a receiving device one of the preambles, to this Receiving device is addressed, so the receiving device remains turned on until the complete preamble is received and in the event that no preamble was received, the receiving device is switched off again. It is provided that in the preamble, only the start time of actual data telegram is transmitted, and the Receiver device turns on at this start time and the sender-side participant at this start time the corresponding Data telegram sends out. By this procedure it is ensured that the receivers have a battery, For example, a low-cost AA cell ready for several years remains.

In the advantageous embodiment of the method according to claim 2, the receiving device changes in the switched on State the frequency of the reception frequency to the currently in the US valid FCC rule for Frequency Hopping to fulfill.

According to claim 3, the cycles are chosen so that the Time interval in which the receiving device is switched off is, compared to the time interval in which the receiving device is switched on, by more than a factor of 5 is greater This start time sends out the corresponding data telegram.

The radio traffic can be further reduced according to claim 4, in the case of a desired Transmission to several intended for the reception participants the preamble is sent out only once and the associated one Receiving devices remain switched on until the Preamble was received.

To build the largest possible danger network, it is according to claim 5 provided that telegrams of sendewilligen Participants to participants intended for reception be transmitted via so-called mediating participants and that in a storage device the subscriber has a list is stored, in which the addresses of the mediating Participants are saved.

For the common achievement of different participants is provided according to claim 6 in an advantageous manner that this List also includes a group membership.

In procedures where the frequency is changed is provided according to claim 8 in an advantageous manner that in the list is also noted over which frequency channel the intended for the reception participants are reached can.

In accordance with claim 9, a method with frequency change can be make it easier that a change of frequency channels according to an education law known to all participants he follows.

In a fault of the transmission between two participants provided that for the reception intended participants also via other - then mediating - Participant is reached.

According to claim 11 is provided in an advantageous manner that an excellent participant the lists of other participants optimized and these optimized lists to the others Participant sends.

A particularly simple configuration method according to claim 12 provides that the participants themselves at the first Commissioning brought into a configuration mode in which the participants look for the other participants and include them in their lists as you find them. Thereby the configuration effort can be minimized.

In the following the invention with reference to the figures in the Drawing explained in more detail.

Figur 1 eine schematische Ansicht eines Gefahrenmeldesystems mit drei Teilnehmern,

Figur 2a und 2b Beispiele für Listen, wie sie in der Speichereinrichtung abgespeichert sind,

Figur 3a und 3b die Listen zweier Teilnehmer im Konfigurationsmodus, die Figuren 4a, 4b und 4c die Listen von drei Teilnehmern im Konfigurationsmodus,

Figur 5 die Liste eines Teilnehmers, in der zusätzlich die Gruppenzugehörigkeit der verschiedenen Teilnehmer eingetragen ist und

Figur 6 die Liste eines Teilnehmers mit Frequenzkanälen, die für die Übertragung vorgesehen sind.

Show

FIG. 1 shows a schematic view of a hazard detection system with three subscribers,

FIGS. 2a and 2b show examples of lists as stored in the memory device,

FIGS. 3a and 3b show the lists of two subscribers in the configuration mode; FIGS. 4a, 4b and 4c show the lists of three subscribers in configuration mode;

FIG. 5 shows the list of a subscriber in which additionally the group affiliation of the different subscribers is entered and

Figure 6 shows the list of a subscriber with frequency channels, which are intended for transmission.

In Figure 1 is shown as a first participant 1 with a first transmitter 2 and a first receiver 3 equipped is, wherein the first participant 1 with a second participant 4 (which also has a second transmitter 5 and a second receiver 6) and with a third party 7 (with a third transmitter 8 and a third receiver 9) forms a hazard detection system. The individual participants 1,4,7 may have, for example, additional sensors, for example, detect a fire hazard or as a motion detector detect a burglary attempt. The In addition, participants 1,4,7 can also central functions take over, for example, initiate an alarm or a Display the building view with the corresponding alarm locations. It is also conceivable that the individual participants 1,4,7 Actuators have to close doors, turn on light or to set blinds in motion.

Consume the necessary RF receiver in the range of 1 GHz today typically 10 to 30 mA from 3 V. The life a battery should be at about 4 years. For low cost AA cells (mignon) is such a 300 to 300 current 1000 times bigger.

According to the invention, the receiver checks regularly (for example every 300 ms), if a participant wishing to send is active is. The settling time of the receiver must be so small be that the resulting average current is the batteries not burdened too much. Currently technically possible Settling times of less than 1 ms.

A participant willing to send now sends a preamble to it allows the recipient to recognize the request. In the present For example, this preamble must be sent for 300 ms, to ensure that the intended for the reception Participant then turned on his receiver.

Additional information in the preamble points to the Starting time of the actual telegram out. The recipient is then switched off again until the beginning of the payload and thus electricity can be saved.

To comply with US FCC regulations for Frequency change is in the time in which the receiver is turned on is changed, the frequency of the receiving channels.

If one station wants to send with several other participants Contact, the preamble is sent out only once and the associated receivers are intended for reception Participants do not switch off immediately, but wait the exchange of the telegrams.

For the organization of the network it is intended that in one Radio cell with, for example, n subscribers each subscriber keeps a list that gives information about which next participant (mediator) of this one any other Participants of the radio cell can reach. Such a list is shown by way of example in FIG. 2a. In this list for the participant 7 is in the first line to be reached Participants entered and in the second line of the provided first mediator. The participant shown in Figure 2a 7 attains participants 5,6 and 8 directly while the participants 1 to 4 on the participant 5, the participants 9 and 10 can be reached via the participant 6. It says the indication that the participant 2 about the participant 5 to reach is not that the participant 5 direct contact to the participant 2 has. Another mediator can certainly be provided its like in the example list of the subscriber 5 is shown in FIG. 2b.

According to the invention it is provided that the first-time extraction The list goes without an additional tool. To do this go through the following steps: first becomes the first participant brought the radio cell into a configuration mode. The participant searches for already existing participants in the Configuration Mode. Because the first participant no other such participant, this participant defines himself a cell number and waiting for other participants sign up with him.

The second participant of the radio cell is in the configuration mode brought. He finds the participant 1 and proceeds so that he himself is the number 2. Both have each now occupy a place in their list, as shown in FIG Subscriber 1 and Figure 3b shown for the participant 2 is.

Subsequently, the third participant in the configuration mode brought. For example, if this only finds the Participant 2, but not the participant 1, he lets himself submit its list. So the third participant knows that he can reach the participant 1 via the participant 2 and is integrated as participant 3 into the system. Of the participants 2 now transmits to the participant 1 that the participant 3 can reach over him (the participant 2). The corresponding stored lists then correspond to the subscriber 1 of Figure 4a, for the participant 2 of Figure 4b and for the participant 3 of Figure 4c.

In case of loss of connection between two subscribers n and m tries to connect to another participant again manufacture. For this purpose, this participant turns to the Participants he can reach directly and checks if they have contact with you. If so, the participant will be n his Correct the list accordingly. For the participant m that applies appropriate.

FIG. 5 shows that each subscriber of a radio cell be associated with one or more functional groups can. These function groups are in further lines of the Lists shown, as shown in Figure 5 with the letters A, B. and C is shown. Each participant, as shown, can belong simultaneously to several groups, as it is in Example of the participant 6, who at the same time the groups A and B are listening. With the help of such groups can, for example Lamp collectives are switched together.

If a broadcast message is sent to such a group, and a subscriber receives such a telegram and belongs to the specified collective, he leads the command even if he is not addressed directly to him. In this Case remains missing a receipt. In this way, the Reaction time of a group are drastically shortened. One the following directly addressed command with the same content remains ineffective, but is acknowledged. To optimize the Lists it is intended that an excellent participant the cell has the right to the list of other participants optimize. In addition this excellent participant collects the Lists all participants and optimizes them for example, other attributes of the compounds such as Field strength or error frequency. After the excellent Subscriber has optimized the cell's connection network, He sends the lists back to the individual participants.

For systems with frequency change is additionally provided, that in the lists is shown, on which frequency channel the respective participant can be reached in the next cycle. Such an example is shown in FIG. The in FIG 6 list applies to the participant 5. Should this Send a telegram to the participant 8, he turns to the participant 7 and uses the frequency channel no. 12. Since the channel numbers have to be changed regularly, this has to happen in the context of normal telegrams. there the future channel number is transmitted from the old telegram specified.

If the channel change after a known all participants Education Act, so even in the case, in a telegram is lost, the corresponding partner einphasen by trying on the following channels to restore contact after the image law.

This is a power-saving, spontaneously reacting radio system shown, which allows battery-powered repeater. The microcontrollers used will require this but only a small amount of RAM. Despite the possibility Autorouting gives them one word per participant of the radio cell.

Claims (12)

Method for radio transmission in a multi-subscriber (1,4,7) hazard detection system, each comprising a transmitter (2,5,8) and a receiver (3,6,9),
wherein the receivers (3, 6, 9) are cyclically switched on at predetermined times,
send-willing participants send a preamble,
the receivers (3, 6, 9) remain switched on in the event of receiving a preamble until the end of the entire preamble and, in the event that no preamble is received, are switched off again.
characterized in that the start time of a data telegram is transmitted in the preamble,
that the receiver (3, 6, 9) is switched off after receipt of the starting time and is switched on again at this starting time,
the subscriber willing to send (1, 4, 7) emits the telegram at this starting time via his transmitter (2, 5, 8) and this is received by the receiver (3, 6, 9). Method for radio transmission according to claim 1,
characterized in that the communication participants change the frequency channel. Method for radio transmission according to one of Claims 1 or 2,
characterized in that the time interval in which the receiver (3, 6, 9) is switched off is greater than the time interval in which the receiver (3, 6, 9) is switched on by more than a factor of 5. Method for radio transmission according to one of Claims 1, 2 or 3,
characterized in that the party willing to send (1,4,7) in the case of a desired transmission to several intended for the reception of participants (1,4,7) emits the preamble with the associated receiving addresses only once. Method for radio transmission according to one of Claims 1 to 4,
characterized in that telegrams are transmitted from participants willing to send (1,4,7) to one provided for receiving participants (1,4,7) via one or more intermediary participants (1,4,7) and
in that a list is stored in a memory device of the subscribers (1, 4, 7) in which the addresses are stored by switching subscribers (1, 4, 7) via which the subscribers (1, 4, 7) intended for receiving be achieved. Method for radio transmission according to claim 5,
characterized in that a plurality of participants (1,4,7) are combined into a group and the group membership is also noted in the list. Method for radio transmission according to claim 6,
characterized in that certain telegrams are sent to a group and the content of these certain telegrams is followed by all participants who belong to the addressed group. Method for radio transmission according to one of claims 5 to 7, referring back to claim 2,
characterized in that it is noted in the list over which frequency channel the corresponding subscriber (1,4,7) can be achieved. Method for radio transmission according to claim 8,
characterized in that a change of the frequency channels according to an all participants (1,4,7) known education law takes place. Method for radio transmission according to one of claims 5 to 9,
characterized in that in case of loss of the connection of two participants (1,4,7) of sendewillige participants (1,4,7) all directly without the help of the intermediary participants to be reached participants (1,4,7) asks if the for the Receiving participants (1,4,7) can be achieved by these participants to be reached (1,4,7),
that in the event that the intended receiving subscriber for the (1,4,7) can be reached via another directly-to-reach subscribers (1,4,7), the list in the subscriber wishing to transmit (1,4,7) corresponding to is corrected. Method for radio transmission according to one of claims 5 to 10,
characterized in that the lists of all subscribers (1,4,7) are transmitted to an awarded subscriber (1,4,7),
that this excellent participant (1,4,7) optimizes the lists of other participants (1,4,7) and
that the distinguished subscriber (1,4,7) sends the optimized lists to the other subscribers (1,4,7) who store them in their storage unit instead of the original list. Method for radio transmission according to one of Claims 5 to 11,
characterized in that for configuring the subscribers (1, 4, 7) they have a configuration mode in which the subscribers (1, 4, 7) search for other subscribers (1, 4, 7) in the configuration mode and find other subscribers ( 1,4,7) include them in their list,
that information about the subscribers (1,4,7) who did not find themselves directly in the configuration mode is transmitted via the mediating participants (1,4,7) to these subscribers (1,4,7), according to which these subscribers ( 1,4,7) complete their lists.

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