WO2008031681A1

WO2008031681A1 - Communication module card for a danger unit

Info

Publication number: WO2008031681A1
Application number: PCT/EP2007/058367
Authority: WO
Inventors: Thomas Goulet; Beat Schmid
Original assignee: Siemens Schweiz Ag
Priority date: 2006-09-15
Filing date: 2007-08-13
Publication date: 2008-03-20
Also published as: EP1901255A1

Abstract

The invention relates to a danger unit (GE) and a communication module card (KMK) for exchanging data between a danger unit (GE), comprising a communication unit (KE), and a danger detection centre (GMZ), by means of a communication network. According to the invention, at least one piece of information for the transmission of data is stored on a communication module card (KMK). The communication module card (KMK) is plugged into a card reader unit (KLE) on the danger unit (GE) and, depending on the at least one piece of information on the communication module card (KMK), data is exchanged between the danger unit (GE) and the danger detection centre (GMZ).

Description

Communication module card for a danger unit

The invention relates to a method for exchanging data between a danger unit having a communication unit and a danger control center via a communication network.

Danger alarm systems, such as fire, gas, temperature, etc. reporting systems usually consist of hazard units that are connected to a hazard warning center. Such alarm systems are used in public buildings, office buildings, hotels, industrial buildings, airports, railway stations, workshops, schools, etc. If an alarm is triggered on one of the detectors, the control panel will be notified. Hazard units include danger detectors, fire detectors, intrusion detectors, gas detectors, temperature detectors, visual alarm units, manual call points, acoustic alarm units, etc. The danger units connected to the alarm control panel are usually grouped together in groups or loops (loops). The exchange of data between the danger units and the danger control panel happens according to a previously defined transmission protocol. This transmission protocol and other parameters or information necessary for the installation, commissioning and exchange of data are often country-specific, so that individual danger units must be developed and produced for individual countries. This leads to a considerable logistical effort, since for reasons of security of supply always high inventories must be kept. But also older danger detection systems can often be modernized very difficult, since later developed hazard units and security control centers are often downwards not compatible for cost reasons.

The object of the present invention is to propose a simple and cost-effective solution for the exchange of data between a danger unit and a danger control center.

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 a communication module card is used for the exchange of data between a danger unit having a communication unit and a danger control center via a communication network. On this communication module card at least one necessary for the transmission of data between the danger unit and the danger control center information is stored and inserted or pushed into a Kartenieseeinheit the danger unit. Depending on the at least one piece of information on the communication module card, the danger unit then exchanges data with the hazard warning center. As at least one piece of information is considered any information that is necessary for the exchange of data between a security unit and a security control center. Such information may include authorization information, authentication information, usage information, etc., and may be used, for example, to register with the hazard notification center. But also the encryption to be used, the codec, the mode etc. for the exchange The data may be stored as information on the communication module card. The processing algorithms for, for example, the hazard detectors may also be stored as information on the card. Improved algorithms can be used to improve efficiency in older hazard detectors such as fire detectors in a very simple way. The transmission protocol or signaling protocol to be used for the exchange can also be stored as at least one piece of information on the communication module card. When

Communication module card can be a SIM card

(Subscriber Identify Module) or another chip card with

Contact surfaces for connecting to the

Card unit of the danger unit can be used. Basically, such cards have a microprocessor and a memory unit. As the communication network, any circuit-switched or packet-switched communication network can be used. But even a mobile communication network such as a cellular mobile network or a wireless network is quite conceivable. The danger unit represents a unit that can be connected to the hazard control panel. In this sense, for example, a hazard detector, a fire detector, a gas detector, an intrusion detector, a manual call point, a visual alarm unit (flash, emergency exit signal, etc.), an acoustic alarm unit (alarm horn, speakers, etc.), a video surveillance unit (video camera, etc.) etc. represent a danger unit.

An advantage of the invention is that, by the method according to the invention, each danger unit can be quickly and efficiently configured for installation in a communication network by providing a communication module card suitable for the requirements of the communication network is used in the danger unit. When developing a new communication network or field bus for the exchange of data between the danger unit and the danger control center, according to the method according to the invention, only one communication module card has to be developed.

Another advantage of the inventive method is that each danger unit is compatible by the inventive method with a communication network in a hazard detection system. Since it should also be meant that danger detectors are downwardly compatible, danger alarm systems can be modernized in a very simple manner with the method according to the invention, which leads to a considerable reduction of the costs for the installation and greatly increases the security by such danger alarm systems.

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

FIG. 1 danger units with communication module card according to the invention for different communication networks, FIG. 2 a danger unit according to the invention,

FIG. 3 shows a communication module card according to the invention.

FIG. 1 shows danger units GE with plug-in communication module card KMK according to the invention for different communication networks or field buses. The danger units GE are connected via a communication network to a hazard warning center GMZ. Basically, circuit-switched communication networks, packet-switched communication networks, mobile networks, etc. be used. In this example, some fieldbuses such as sigmaloop, P2, AnalogPlus, FDnet, BDS, mobile communication network, etc. are listed as possible communication networks.

FIG. 2 shows a danger unit GE according to the invention. The danger unit has, for example, an evaluation unit AWE, a communication unit for transmitting and receiving data, and a card reading unit KLE for inserting or inserting a communication module card KMK. As data both user data and signaling data should be understood. The danger unit GE is connected via a communication network to a hazard warning center GMZ. At least one piece of information is stored on the communication module card KMK, so that the danger unit GE can establish a connection with the danger reporting center GMZ via the communication network as a function of the at least one information item. Such information may be authorization information, authentication information, usage information such as maximum size of the data to be sent, quality of service to be used (QoS), codec mode to be used, server addresses, etc. Furthermore, the encryption of the data to be used can be specified on the communication module card KMK, so that the data can be protected against third parties. But also processing algorithms can be stored on the communication module card KMK. Thus, it is conceivable, for example, that with the processing algorithms stored on the communication module card, the processing of the signals of a danger detector, fire detector, gas detector, intrusion detector etc. can be updated. Thus, the efficiency of the detection of hazards can be optimized using the inventive method. The communication module card According to the invention, KMK contains at least information for the transmission protocol or signaling protocol to be used for registration in the communication network and for the exchange of data with the danger reporting center GMZ. The transmission protocol and also the signaling protocol depend on the communication network at which the danger unit GE wishes to register. In packet-switched communication networks, for example, the H.332 protocol, the HTTP protocol, the SIP protocol (Session Initiation Protocol), etc. are used.

FIG. 3 shows a communication module card KMK according to the invention with a processing unit MP such as a microprocessor, a memory unit SPE and contact surfaces KF. The communication module card KMK is a smart card, such as a smart card, an integrated circuit card (ICC), etc., which is formed according to the requirements. Thus, for example, a so-called SIM card (Subscriber Identify Module) could be used as a communication module card KMK for the inventive method. SIM cards are known in the field of cellular mobile networks. The microprocessor MP is generally used to process requests from the danger unit GE regarding the at least one piece of information stored in the memory unit SPE. However, it is also conceivable for the method according to the invention that the communication module card KMK has only one memory unit SPE, which can be read out via the card reading unit KLE of the danger unit GE.

Claims

claims

1. A method for exchanging data between a

Communication unit (KE) having danger unit (GE) and a danger control center (GMZ) via a communication network,

characterized,

in that at least information for the transmission of data is stored on a communication module card (KMK), that the communication module card (KMK) is plugged into a card reading unit (KLE) of the danger unit (GE) and that in dependence on the at least one information the Communication Module Card (KMK) data is exchanged between the Hazard Unit (GE) and the Hazard Control Panel (GMZ).

2. The method according to claim 1,

characterized,

in that as at least one piece of information authorization information, authentication information and / or usage information is used on the communication module card (KMK).

3. Process according to claims 1 and 2,

characterized, that as at least one piece of information the encryption of the data to be used is stored on the communication module card (KMK).

4. Process according to claims 1 to 3,

characterized,

that processing algorithms to be used as at least one piece of information are stored on the communication module card (KMK).

5. Process according to claims 1 to 4,

characterized,

in that as at least one piece of information the transmission protocol to be used for the exchange of data between the danger unit (GE) and the danger control center (GMZ) is stored on the communication module card (KMK).

6. Process according to claims 1 to 5,

characterized,

in that as at least one piece of information the signaling protocol to be used for the exchange of data between the danger unit (GE) and the danger control center (GMZ) is stored on the communication module card (KMK).

7. The method according to any one of the preceding claims, characterized,

in that a SIM card and / or chip card is used as the communication module card (KMK).

8. The method according to claim 7,

characterized,

in that the communication module card (KMK) has a microprocessor.

9. The method according to any one of the preceding claims,

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.

10. The method according to any one of the preceding claims,

characterized,

that as a danger unit (GE) is a hazard detector, a fire detector, a gas detector, an intrusion detector, a manual fire alarm, a visual alarm unit, an acoustic alarm unit and / or a Video ^¬ monitoring unit may be used.

11. Danger unit (GE) for the exchange of data with a danger control center (GMZ) via a communication network, with a communication unit (KE) for sending and receiving data to a danger warning center (GMZ), with a Kartenieseeinheit (KLE) for receiving and reading a communication module card, with at least one stored information for the transmission of data containing communication module card (KME, with an evaluation unit (AWE) for exchanging and evaluating data via the communication unit (KE ) depending on the at least one information stored on the communication module card.

12. Communication module card (KMK) for the transmission of data between a danger unit (GE) and a danger control center (GMZ) via a communication network, with a memory unit (SPE) for storing at least one information for the transmission of data, with contact areas ( KF) for establishing a connection with the card reading unit (KLE).

13. Communication module card according to claim 12,

characterized,

that the communication module card (KMK) a

Processing unit (MP) for processing requests of the danger unit (GE) concerning the at least one stored information.

14. Communication module card according to claim 13,

characterized,

the processing unit (MP) is a microprocessor.