EP2321803A1

EP2321803A1 - Method and device for the wireless transmission of data from, to, and/or between locking devices

Info

Publication number: EP2321803A1
Application number: EP09775624A
Authority: EP
Inventors: Reinhard PÖLLABAUER
Original assignee: EVVA Sicherheitstechnologie GmbH
Current assignee: EVVA Sicherheitstechnologie GmbH
Priority date: 2008-09-04
Filing date: 2009-09-04
Publication date: 2011-05-18
Also published as: WO2010025487A1; AT506817A4; AT506817B1

Abstract

The invention relates to a method for the wireless transmission of data, such as access authorization data, user identification data, key data, or the like, from, to, and/or between locking devices or the components thereof, wherein the data are transmitted via a carrier frequency of 0.1 to 10 terahertz. The locking device has corresponding means for wirelessly transmitting and/or receiving data, said means being designed for wirelessly transmitting or receiving the data via a carrier frequency of 0.1 to 10 terahertz.

Description

Method and device for the wireless transmission of data from, to and / or between locking devices

The invention relates to a method for the wireless transmission of data, such as e.g. Access authorization data, user identification data, key data or the like, from, to and / or between locking devices or their components and a locking device with means for wireless transmission and / or reception of data, such as e.g. Access authorization data, user identification data, key data or the like, in particular for carrying out the method according to the invention.

Under closing technical devices are in the context of the invention, all units to understand that can serve the operation of a locking device and / or involved in data exchange.

Locking devices are known in which access authorization data, user identification data, key data or the like, for example, are wirelessly transmitted between an electronic key and a lock.

Various methods can be used for the transmission of the data. For example, data transmission via infrared, via radio waves in the ISM frequency band or with the aid of RFID technology (Radio Frequency Identification) is widespread. The range of the data transmission depends, among other things, on the transmission power, the sensitivity of the receiver and the frequency band used for the transmission. As a rule, a compromise has to be made between security and user-friendliness of the data transfer. A long reach generally increases usability, since the communication between locking devices or their components can take place without the user having to place himself accordingly far. However, this means that the transmission and reception power of the system must be correspondingly large, whereby the power consumption of the components involved in the data exchange is high and the possible extent of miniaturization of the components is limited. But above all, a high range results in data transmission being more easily disturbed by unauthorized persons or data being able to be received ("cut") by unauthorized persons so that the security of the data transmission and the confidentiality of the data are not guaranteed ,

Although sensitive data are usually transmitted in encrypted form, especially in the case of locking devices, the encryption algorithm can, depending on the quality of the algorithm, generally be determined using a corresponding amount of computation. Listening to the data transmission is only excluded if, as can be the case with RFID technology, for example, with appropriate design, the data transmission between the transponder and the reading device can only take place over a distance of a few centimeters, which in turn reduces the user friendliness , For example, the user is forced to take the electronic key to lock a lock out of a pocket or the like, and bring it very close to the reading device of the lock. It would be much more comfortable, however, if the user could leave the electronic key in his pocket and the lock prepares for opening when approaching, before the doorknob is within reach.

The invention therefore aims to improve the method and the device of the type mentioned in that even at a higher range, the security of the data transmission between the closing technical Facilities is not affected. Furthermore, the invention aims to increase the transmission rate and to reduce the energy consumption for data transmission.

To achieve this object, the invention provides that the data is transmitted over a carrier frequency of 0.1 to 10 terahertz. Terahertz radiation, also known as sub-millimeter waves, penetrates many materials and tissues, but due to the low energy of the photons, it is non-ionizing, making its use harmless to humans. However, terahertz radiation is strongly absorbed by some metals and especially by water, which is why humans and animals are good absorbers of terahertz radiation. In the context of the present invention, this property can be exploited, for example, in data transmission in locking devices, such that a person who approaches an openable door with an electronic key automatically receives the data to be transmitted to third parties who are behind him. shields. The terahertz radiation thereby spreads much more directed than in conventional data communication. It is therefore much more difficult for unauthorized persons to receive the transmitted data unnoticed and to use it for harmful purposes. The directional propagation of the terahertz radiation also ensures that the data is sent only to the respectively desired device, which is advantageous, for example, in hotel locks or locking systems in large buildings and the like, in which a plurality of lockable doors are arranged at a small distance from one another are. The technical effort can be significantly reduced if the data sent by the electronic key identification data are made available only the lock of the desired door, but not a variety of adjacent doors in which due to the receipt of identification data also triggered an identification test becomes. In addition, it is avoided that if the respective electronic key would give access authorization for several of the adjacent doors, all these doors will be opened if the respective person wishes to open only one of these doors.

Another advantage of the invention is that substances such as e.g. Plastic, paper and clothing for terahertz radiation are mostly transparent. In the field of locking technology, this can be useful because an electronic key does not have to be held to the door, but it can be e.g. in a suitable container or under clothing.

Furthermore, due to the use of terahertz radiation, the transmission rate is much higher, so much more data can be transmitted in a given period of time than with conventional systems. The power consumption can be significantly reduced.

The method according to the invention is preferably carried out such that the data are transmitted via a carrier frequency of at least 0.5, preferably at least 1, preferably at least 2 terahertz. It has been shown that the positive effects described above can already be observed at these frequencies.

In a particularly preferred manner, the method is carried out so that the data are transmitted over a carrier frequency of at most 8, preferably at most 5 terahertz. The higher the carrier frequency is chosen, the more data can be transmitted and the lower the range at a constant transmission power. A suitable choice of the carrier frequency thus depends on the amount of data to be transmitted and the time available for the transmission. Preferably, the method is performed so that the data are transmitted via electromagnetic waves. The use of electromagnetic waves creates the opportunity to use small-scale electronic components.

Another preferred implementation of the method is that the data is transmitted between an electronic key and a locking device. Especially with locking systems, due to the use of terahertz radiation and the setting of a lower transmission power, which on the one hand the potential positions for eavesdropping are severely restricted and on the other hand, even this area is further reduced by the shielding by the body of the key holder, a special high security of the locking system can be ensured.

The security of the transmission can be further increased in a preferred manner in that the data is transmitted in encrypted form.

By preferentially transmitting the data via directional antennas, the potential range for undesired intervention can be further reduced, further increasing the security of the transmission.

Preferably, the method is performed so that the data is transmitted or received via at least two antennas. This ensures that, on the one hand, the key carried by the person can be spatially localized, which makes it possible to determine, for example, whether the person stands in front of or behind a door to open it, and on the other hand, how many Transponders or listening devices are within reach. This can prevent that important key data is transmitted in the presence of a listening device at all.

In order to carry out this method, a closing device is provided with means for wireless transmission and / or reception of data, e.g. Access authorization data, user identification data, key data or the like., Provided, according to the invention, the means for wireless transmission or reception of the data over a carrier frequency of 0.1 to 10 terahertz are formed. The means for wireless transmission or reception can be easily incorporated into masonry, door frames, etc., since materials such as wood, stone o.a. can be penetrated by the terahertz waves. By simple shielding by means of terahertz non-penetrable materials, especially metals, the reception or transmission angle can be further reduced or defined more precisely.

Thicker walls may attenuate the terahertz signal, and the amount of attenuation may be adjusted by selecting the frequency within the terahertz band. This possibility does not exist in conventional data transmission, which has the disadvantage that the signal is often distributed over a large area, even through walls, and thus the locking devices can not or only with difficulty and often inadequately recognize whether the person actually is in the immediate vicinity of the door to be opened or is located only in the reception area of the transmitter. It may happen that a door is erroneously released to an unauthorized person located near the door when the locking device can receive the signal from an authorized person located at a greater distance from that door. This problem of some radio systems can be handled much easier at terahertz frequencies. Preferably, the device according to the invention is developed so that the means for wireless transmission or reception of the data over a carrier frequency of at least 0.5, preferably at least 1, preferably at least 2 terahertz are formed and that the means for wireless transmission or reception the data are formed over a carrier frequency of at most 8, preferably at most 5 terahertz, wherein the chosen frequency naturally depends on the field of application.

By providing means for encrypting or decrypting the data in a preferred manner, the security of the transmission can be further increased. Due to the relatively large transferable data volumes, the encryption algorithms can also be very complex or longer keys can be transmitted, thus greatly reducing the possibilities of unauthorized decryption.

In a particularly preferred manner, the device is developed in such a way that the means for transmitting the data have at least one directional antenna. Directed transmission and screening by the key holder can further reduce the potential listening area and further increase security.

Preferably, in this case, the device is designed so that the locking device as ident medium, electronic key, mechatronic key, electronic key fob or tag, card, programmer, lock cylinder (eg knob cylinder, double knob cylinder, double cylinder, half cylinder and half knob cylinder), knob, fitting with or without lock cylinder insert, fitting with traps or latch and latch actuation, pusher, push button, emergency power opener, visualization device, reading terminal with and without writing function, wall scanner with and without Writing function, reading unit with protocol converter for data transfer with or without write function, network converter (eg router), desktop reader with or without write function, Computerinterfacegerät, control unit, engine cylinder or engine lock cylinder or engine lock or electric lock is formed.

By the preferred use of a second means for wireless transmission or reception of data on the one hand, the direction of the signal can be determined, for example, whether the receiver is in front of or behind the door to be opened, on the other hand, it can also be a location of any listeners are made ,

The invention will be explained in more detail below with reference to application examples.

In the closing field, the data exchange according to the invention between ID media and locks (such as lock cylinder, fitting, etc.) in the frequency range of 0.1 to 10 terahertz can be made. The data exchange can also be made between the identification media and other locking devices, such as read and / or write devices for ident media (programmer, interface device, etc.). The reading and / or writing device can also serve only as a display of data or have any additional interfaces. Examples of additional interfaces include LAN, WLAN, USB, RS232 and wireless technology interfaces. By means of the additional interface, data can also be exchanged between the two interfaces (terahertz range and the additional interface). Depending on the device, the additional interface can only be connected as required or have a permanent possibility of exchanging data (eg with interface converters from terahertz communication to LAN). The data exchange can also be made between locking devices (such as lock cylinder, fitting, Wandlese- and / or writing instruments, keyboards, programming devices, etc.) with each other in the frequency range of 0.1 to 10 terahertz.

The data exchange can also be made between locking devices and a network converter. The network converter can be used here to translate the communication on the frequency of 0.1 to 10 terahertz to interfaces such as LAN, WLAN, USB, RS485 and radio technology interfaces. Communication is possible in both directions via the network converter. An example of a device could be a router of 0.1 to 10 terahertz communications on LAN communication.

Locking devices can also optionally communicate with third-party products designed for data exchange in the frequency range of 0.1 to 10 terahertz. This also applies to a ID medium. Examples of third party products include canteen billing systems, time attendance systems, routers, which may also have interfaces to other frequency domains (e.g., WLAN) or technologies (e.g., LAN).

An identity medium which is used in the context of the invention can have the following properties or additional functions. It can have a ROM memory and / or a writable memory. The data can be transmitted encrypted. The ID medium can have a processor which can perform simple to compute-intensive computing tasks and pass the results to a reading and / or writing device and / or store it on its own memory. The identification medium may have acoustic and / or optical signaling devices. Furthermore, it is conceivable input functions for the Provide users, for example by means of capacitive buttons or Touchscreendisplays. The locking device may be mounted or mounted on stationary objects (such as buildings) or on moving objects (such as cars, bicycles, motorcycles, trucks, trailers, locomotives, containers, railway carriages). For example, the invention can be used in door locks, trunk locks, tank locks or ignition locks of motor vehicles. In motor vehicles, a function for the automatic opening of the garage door can be realized by means of wirelessly transmitted identification data. It is advantageous if the motor vehicle has window areas, via which the signal can reach the outside, so that it is sufficient to leave the identification medium in the vehicle, and in particular it is not necessary to hand over the ident medium to the reading and / or or to hold the garage door control writing device. Also, the identification medium could be attached to a suitable location on the body, so as to allow the reading and / or writing data during entry and / or exit.

In the case of locomotives, use may be made in such a way that, when entering stations, reading or writing instruments are installed which, for a sufficient time, exchange data with e.g. Enable shooting components of the locomotive. Thereby, e.g. Updated closing data, information for the train driver (which must be displayed eg in the locomotive and possibly also confirmed - this may also be information of the control center to the train driver), driving times and other locomotive related information (eg maintenance information) transmitted become. The same applies to the case of use of lorries for communication devices, which are e.g. are mounted at company entrances.

It is also conceivable to use the invention in the area of goods disposition or to track the transport away from containers. Reading devices for identification carriers could be placed at critical points, such as at the entrance of train stations or company premises, so that it is automatically possible to determine which containers are being guided to the site.

For moving objects, it is also possible to use identification media operating in the terahertz frequency range and corresponding reading and / or writing devices for toll applications.

Claims

Claims:

1. A method for wirelessly transmitting data, such as data. Access authorization data, user identification data, key data or the like, from, to and / or between locking devices or their components, characterized in that the data are transmitted over a carrier frequency of 0.1 to 10 terahertz.

2. The method according to claim 1, characterized in that the data over a carrier frequency of at least 0.5, preferably at least 1, preferably at least 2 terahertz are transmitted.

3. The method according to claim 1 or 2, characterized in that the data are transmitted over a carrier frequency of at most 8, preferably at most 5 terahertz.

4. The method of claim 1, 2 or 3, marked thereby, that the data are transmitted via electromagnetic waves.

5. The method according to any one of claims 1 to 4, characterized in that the data between an electronic key and a locking device are transmitted.

6. The method according to any one of claims 1 to 5, characterized in that the data is transmitted encrypted.

7. The method according to any one of claims 1 to 6, characterized in that the data are sent via directional antennas.

8. The method according to any one of claims 1 to 7, characterized in that the data is sent or received via at least two antennas.

9. Locking device with means for wireless transmission and / or reception of data, such as e.g. Access authorization data, user identification data, key data or the like, in particular for carrying out a method according to one of claims 1 to 8, characterized in that the means for wireless transmission or reception of the data are formed over a carrier frequency of 0.1 to 10 terahertz are.

10. Device according to claim 9, characterized in that the means for wireless transmission or reception of the data over a carrier frequency of at least 0.5, preferably at least 1, preferably at least 2 terahertz are formed.

11. Device according to claim 9 or 10, characterized in that the means for wireless transmission or reception of the data over a carrier frequency of at most 8, preferably at most 5 terahertz are formed.

12. Device according to claim 9, 10 or 11, characterized in that the means for wireless transmission or reception of the data via electromagnetic waves are formed.

13. Device according to one of claims 9 to 12, characterized in that means are provided for encrypting or decrypting the data.

14. Device according to one of claims 9 to 13, characterized in that the means for transmitting the data comprise at least one directional antenna.

15. Device according to one of claims 9 to 14, characterized in that the closing device as identification medium, electronic key, mechatronic Key, electronic key fob or tag, card, programming device, lock cylinder (eg knob cylinder, double knob cylinder, double cylinder, half cylinder and half knob cylinder), knob, fitting with or without lock cylinder insert, fitting with latch or latch and latch operation, handle, push button, emergency power opener, Visualization device, reading terminal with and without writing function, wall scanner with and without writing function, reading unit with protocol converter for data transfer with or without writing function, network converter (eg router), desktop reader with or without writing function, computer interface device, control unit, engine cylinder or engine cylinder or engine lock or electric lock formed is.

16. Device according to one of claims 9 to 15, characterized in that at least a second means for sending and receiving the data is provided.