DE10315845A1 - Selective switching signal generation for vehicle locking systems, involves capacitively coupling signal into user, transmitting signal through user and user generating switching signal on basis of coupled in signal - Google Patents

Abstract

The signal generation method involves generating switching signals depending on whether a switching device is selectively operated by a user, preferably capacitively coupling a signal into the user in the context of operating the switching device, transmitting the signal through the user and the user generating the switching signal on the basis of the coupled in signal. Independent claims are also included for the following: (a) a switching system for selective switching signal generation; (b) a circuit arrangement for vehicle door locking; (c) a method of operating a vehicle door locking arrangement; (d) a method of detecting objects; (e) a system for detecting objects; (f) a data transfer method; (g) a data transfer system; (h) a master system component; (i) a slave system component; and (j) a method of changing a locking state.

Description

Territory of invention

The Invention relates to a system whose system components and a method for handling a data transfer in a in terms of validity of a sender and / or receiver tested way. Furthermore, the invention is concerned with a quasi unidirectional Dialog system for processing a data transfer, especially via the human body or at least the near vicinity of a user.

background the invention

The problem with radio-based data transmission systems is that, due to the propagation of the radio waves, unauthorized persons can record and misuse data with suitable receivers (see 1 ).

Systems including electromagnetic transponders in particular can be misused, even if the transponder is far from a reading device that recognizes it. For this purpose, the transponder is stimulated to transmit, and the spied data is transmitted by radio to a “transponder simulator” which is approximated to the reader and which pretends to the reader that the real transponder is nearby. In this way, data sequences for unauthorized access are possible - or gaining performance. The principle of such a coverage bridging is in 2 illustrated.

So-called challenge / response solutions have been developed to avoid these problems. Key words are exchanged bidirectionally between a data transmitter and a reaction device. In addition to a complex process (protocol), which enables this, both the data transmitter and the reaction device must be provided with transmitting and receiving devices and operated alternately with a controller. (S. 3 ).

Has been the data transmission earlier initiated at the push of a button (e.g. with the radio car key), shows Technology today so-called keyless access systems, where it is sufficient to use a transceiver to enter the radio range of a reaction device. But with that occurs again the problem of bridging the range.

For challenge / response systems also arises the problem that a strong one emitted by a jammer carrier at the same frequency can prevent the system from transmitting data. This Circumstance enables it, abusive to prevent a user attempted door closing process, so that an owner of a motor vehicle moves away from it believing that it was closed because it either emerged from the Removed the area of the keyless access detection or a lock button of his Car door remote control operated. A thief equipped with a suitable hand transmitter that sends out a permanent carrier, can the closing process prevent objects from a distance afterwards steal the vehicle. The injured owner can face his Insurance did not prove that the vehicle was locked. Could be a special problem it also turns out that other electronic systems, a user or uninvolved people due to the constant radio wave exposure impaired health become.

Around to reduce the effort and the convenience of remote data transmission to raise places the technology solutions ready to pass the data on the human body to a touch or proximity sensitive Send recipient. This ensures that a suitable signal transmitter for Time of data transfer nearby Recipient , a time stamp is encrypted together with an Identification number transmitted. The recipient must therefore be synchronized with the encoder in order to be unidirectional data transfer to enable and ensure that the code is not illegal in the past copied and to a later Time at the recipient was applied (timestamp). The advantage of safe unidirectional data transfer brings here the problem of synchronization and the associated Effort with itself.

The The invention has for its object a system, system components the same and a procedure for handling one that is characterized by one high protection against manipulation to create data transfers.

Solution according to the invention

The The invention is based on the approach of a data transfer between handle a master system and a slave system in a way which enables information about the slave system in the area of the master system the signal recording properties of the same.

In particular the invention shows a solution in which a data transfer between the master system and the slave system takes place capacitively, with the input impedance of the slave system as required a defined data pattern is modulated and this data pattern in the area of the master system during the signal transmission is recognized.

Thereby it becomes possible in an advantageous way Information in particular in the form of a key data sequence in a quasi-hermetic manner shielded way back to a master or broadcast system and this key data sequence one for decisive for the further data transfer or data exchange Signal generation and / or signal validation to be used as a basis.

Under the term master system is to be understood in the context of a system that is capable of a signal sequence directed to an addressee leave. In the context of the term master system is a system to understand that is able to one on the part of the master system to provide the provided data sequence. It may be enough the master or the slave system with an input impedance to equip modulatable receiving device. In coordination on the respective application, it is possible in terms of circuitry or more complex circuit structures with regard to data processing to be moved to the area of the master or slave system.

in the With regard to the specific handling of the data transfer, the task specified in the beginning through a procedure for handling a data transfer between a master system (encoder) and a slave system (receiver) which on the part of the master system sends a signal event into a reception area of the slave system and the reception recording properties of the slave system defined modulated and on the part of the master system recognized and evaluated.

The Data transfer is preferably based on capacitive interaction effects settled.

Preferably a pilot sequence is emitted by the master system and during the Input of the pilot sequence the input impedance of the slave system in accordance with modulated a data pattern.

by of the master system is preferably the modulated change the input impedance of the slave system.

Out the modulation pattern of the input impedance detected by the master system of the slave system is advantageously generated a data record and this record is authoritative for the Information content or for the admissibility a continuation of the data transfer from the master system to the Slave system considered.

in the The area of the master system is advantageously made up of Data obtained from the recording behavior of the slave system won, on the basis of which encryption on the part of the slave system further transmitted data takes place.

in the The area of the slave system can be advantageously used during generation of for the modulation of the input impedance relevant data pattern is a time value considered become.

Preferably are used in the area of the slave system for the modulation of the input impedance Information content of the signals generated by the master system considered.

The input impedance of the slave system is preferably modulated using recourse to an encryption procedure.

The on the part of the slave system to provide the modulation of the input impedance Encryption procedure involved, can advantageously based on information content the signal sequence output by the master system or be coordinated.

In A congruence analysis is advantageously carried out as part of the dialog recording first based on a low level of encryption, the encryption level subsequently is raised.

The for the increased encryption level authoritative Information content can at least initially at a lower encryption level be transported.

About the Master system can advantageously be used as an authorization identifier evaluated signal sequence, depending on the application, permanent, pulsed or be delivered selectively.

It is possible, to design the master system so that this is a configuration change of the master system the signals obtained by impedance modulation.

The Data transfer between the master system and the slave system can advantageously for the processing of a number, booking, value or proof of access can be used.

The Data transfer between the master system and the slave system can also for handling a process for changing the locking status of a motor vehicle can be used.

The Data transfer between the master system and the slave system can in a further advantageous manner also for the function release of equipment is used.

According to one The data transfer can be a special aspect of the present invention between the master system and the slave system for performing a presence analysis be used to determine the scope of equipment or of entry or exit of self-identifying articles.

The Invention also relates to a system for processing a Data transfers with a master system component (encoder) and a slave system component (receiver), the master system component is designed such that it is suitable for a signal event deliver into a reception area of the slave system component, and the slave system component is designed such that it allows, to modulate the reception characteristics of them in a defined manner, precautions are taken in the area of the master system component are the changes the reception properties of the slave system component and the further data transfer based on this acquisition determine.

Farther the invention also includes a master system component for an above specified system, which has a signal output device the as a surface electrode is trained.

This Master system component preferably comprises an electronic signal processing device, the signal processing device preferably having access to a key data storage device Has.

The Master system component can advantageously be accommodated in a main body in the form of a credit card his.

The Master system component can be part of a vehicle key system form.

The The invention is also directed to a slave system component for a system of the type mentioned above, which has a receiving device, for receiving input events based on capacitive interaction effects.

The slave system component advantageously comprises a receiving device which in the area of a cash register system, a pedestrian passage area, a sales system or a device, is arranged for activation of the same.

The Slave system component can also be part of a vehicle door locking system form.

The The invention is also directed to a method for modification the locked state of a motor vehicle under settlement a data transfer between a master system (encoder / key) and one Slave system (receiver / vehicle side Circuit component) in which on the part of the master system Signal event into a reception area of the slave system is delivered and the reception recording properties of the slave system defined modulated and recognized and evaluated by the master system become.

The Allocation of tasks or assignment of the master system and the slave system can also be inverted. The invention also includes a process of change the locked state of a motor vehicle under settlement a data transfer between a master system (key device) and a slave system (on-board circuit component) which on the part of the slave system sends a signal event into a reception area of the master system and the reception recording properties of the master system defined modulated and on the part of the slave system be recognized and evaluated. The data transfer becomes more advantageous Handled on the basis of capacitive interaction effects.

Further Details of the invention emerge from the following description in connection with the drawing. It shows:

1 a data transmission system which is known per se and comprises a transmitter and a receiver, and a monitoring system provided which enables an impermissible information tap;

2 a known electromagnetic transponder system in which a data transfer between the transponder and a reading device is accomplished by improperly interposing a sniffing system;

3 a schematic representation to explain a challenge / response system;

4 a schematic representation for explaining a system according to the invention for handling a hermetic signal feedback by modulating the reception impedance in the area of the receiver;

5 a schematic representation for a more detailed explanation of the system 4 ;

6 a diagram to explain the activity flow in the area of the master system (encoder) and the slave system (receiver).

In the following, a method is presented that easily realizes a dialog system that can solve the above problems. This is a capacitive transmission of data, preferably via a user's skin. Since this is basically an AC circuit, a change in the (eg ohmic) load on the receiver input stage can be determined on the transmitter side. This change can be made in a determinable rhythm (so-called load telegram BT s. 4 ).

• 1. das er sich in der Nähe eines Empfängers befindet
• 2. um welchen Empfänger es sich handelt, wenn das BT eine Kennung enthält
• 3. auf welche Weise (Frequenz, Code, Schlüssel etc.) bestimmte Daten übertragen werden sollen
• 4. ob die Übertragung gestört wird, BT aufgrund eines Störträgers nicht korrekt lesbar

The transmitter first generates a short (e.g. 1ms) pilot tone, repeated at irregular intervals (repeating), e.g. 5 times per second. When the capacitive coupling point is approached, this frequency is recognized by the receiver, which then immediately generates a load telegram (BT). The encoder (transmitter) can "recognize" from this:

• 1. that he is in the vicinity of a receiver
• 2. Which recipient it is if the BT contains an identifier
• 3. in which way (frequency, code, key etc.) certain data should be transmitted
• 4. whether the transmission is disrupted, BT is not correctly readable due to an interference carrier

A "listener" would only be able to detect the pilot tones, since it forms its own load circuit towards the transmitter (but not towards the receiver). At a point distant from the receiver, only the repetitive pilot tones could be "listened to" anyway, due to the missing load telegram "er "the encoder knows that it is not in the vicinity of the receiver and continues to output the pilot tone cyclically.

The Receiver changes at his pilot telegram for each pilot tone. He "recognizes" an interference carrier by the excess length (permanent carrier) disorder Cyclic, like the pilot tones, could be due to the irregular output the "real" pilot tones always one or the other "slip through". A recognized disturbance can to trigger an alarm or e.g. a closure initiate or otherwise signaled. Because on a pilot tone from the encoder an ID number encrypted by the debit telegram must be issued, the recipient may fail to do so also notice.

principle of operation

An oscillator (which can also be designed as a VCO) generates the basic transmission frequency (typically a few 100 kHz). A controller ensures that the pilot tones are first output selectively or cyclically, if necessary at irregular intervals, using a mixer (ASK / FSK or similar). When approaching a receiver, this generates a load telegram (eg due to a short circuit of Rb), which results in alternating voltage drops across the resistor Rx of the encoder. These can be fed to the controller, for example, via a differential amplifier. This decodes the load telegram and encrypts the encoder code to be transmitted accordingly. The result is again output via the mixer, amplified by the receiver, decoded and sent to a code evaluation. Parts or components can remain in the power-saving state at the receiver until a pilot tone has been received. This means that a comfortable and secure dialog system with many advantages can be implemented in a simple manner and with little effort (see 5 ). The AC circuit can be loaded by switching an ohmic resistor and / or a capacitor and / or an inductor on or off. The switching process itself can be done by a transistor, FET, CMOS switch etc; an optocoupler can also be used.

A first one preferred version

• 1. Absicht eines, mit mindestens einem Codegeber ausgestatteten Benutzers, eine identifizierbare Handlung auszuführen (z.B. das Öffnen einer verschlossenen Tür).
• 2. Annäherung (z.B. mit der Hand) an die Koppelfläche eines Empfänger, damit Aufbau eine Wechselstromkreises; die Rückführung erfolgt über parasitäre Kapazitäten.
• 3. Empfänger „erkennt" die unregelmäßigen Pilottöne
• 4. Er erzeugt ein Belastungstelegramm durch Impedanz-Änderung der Eingangstufe in einem zufälligen jedoch sinnvollen Rhythmus.
• 5. Der Geber dekodiert aus dem Belastungstelegramm BT eine Handlungsanweisung
• 6. Damit verschlüsselt er seinen Identifizierungsdaten, und wählt z.B. eine Übertragungsfrequenz, Baudrate und Übertragungsverfahren aus (z.B. ASK, FSK usw.) (s. 6)
• 7. Der Geber gibt die verschlüsselten Signale aus und erzeugt anschließend wieder einen Pilotton
• 8. Der Empfänger verstärkt, dekodiert und entschlüsselt die Gebersignale
• 9. Bei Übereinstimmung einer bestimmten Codefolge wird ein Impuls ausgegeben, z.B. zum Öffnen eines Verschlussmechanismus (evtl. über ein Steuergerät).
• 10. Beim nächsten Pilotton gibt er dem Empfänger eine „OK"-Meldung und weitere Informationen über ein neues Belastungstelegramm. In dem Belastungstelegramm können Informationen enthalten sein, die vom Codegeber stammen oder durch diesen veranlasst wurden.
• 11. Wenn sich der Benutzer entfernt, bricht der Dialog ab. Der Geber generiert dann nur noch Pilottöne und der Empfänger meldet die Entfernung (z.B. Schließbefehl).
• 12. Zwischendurch „untersuchen" Geber und Empfänger ständig Ihre Umgebung nach Störungen.

Wherever secure identification is to take place within an action (action-integrated identification), one or more code transmitters can be accommodated by a user close to the body. This can be done in a variety of ways, for example chip cards or key fobs, jewelry or clothing or other items carried (wallets, wallets) may contain donors. When a user approaches a receiver, for example with his or her hand, the quasi bidirectional dialogue takes place because an AC circuit with capacitive coupling surfaces is created. After the transmission of identifying data, the receiver, if they match, can output a signal which, for example, causes an electromechanical locking device to open a (door) lock. While the action to be identified is taking place, a new dialog with different load telegrams is constantly being held in the rhythm of the pilot tones. A distance from the receiver causes the receiver to automatically issue a closing impulse that can be used internally and externally. Keyless access systems are given a new quality because the capacitive method works between two approaching surfaces and does not require an (audible) radio area. In addition, the rule of thumb applies that if an encoder can recognize and decode a load telegram, the transmission quality (quality of service) of the capacitive coupling surface is sufficient for secure data transmission by the encoder. We want to call this process "sensitive intelligence". On this basis, action-integrated identification can be redefined:

• 1. Intention of a user equipped with at least one code transmitter to perform an identifiable action (eg opening a closed door).
• 2. Approach (eg by hand) to the coupling surface of a receiver so that an AC circuit can be built up; the feedback takes place via parasitic capacitances.
• 3. Receiver "recognizes" the irregular pilot tones
• 4. It generates a load telegram by changing the impedance of the input stage in a random but sensible rhythm.
• 5. The encoder decodes an instruction from the load telegram BT
• 6. He uses it to encrypt his identification data and, for example, selects a transmission frequency, baud rate and transmission method (eg ASK, FSK etc.) (see 6 )
• 7. The encoder outputs the encrypted signals and then generates a pilot tone again
• 8. The receiver amplifies, decodes and decrypts the encoder signals
• 9. If a certain code sequence matches, a pulse is output, for example to open a locking mechanism (possibly via a control unit).
• 10. At the next pilot tone, he gives the recipient an "OK" message and further information about a new load telegram. The load telegram can contain information that the Originate from or were initiated by this.
• 11. If the user moves away, the dialog terminates. The encoder then only generates pilot tones and the receiver reports the distance (eg closing command).
• 12. In between, the transmitter and receiver constantly "examine" your surroundings for faults.

By the irregular spending of pilot tones Collisions are to be largely avoided when using multiple encoders become. The distance of the frequency output (burst) from one fixed and at least one random Share of time that does not exceed a certain duration may (so-called dirty burst).

Example of a generation of "dirty bursts in the programming language" C ", assuming that the encoder performs its functions through a microcontroller (or a comparable logic):
While (1) // main loop

More exemplary applications

In addition to Identifying information can be captured by sensors Transfer data to the recipient become. In medical technology, for example, it is possible to use bioelectric data (EEG, EMG, EKG etc.) as well as pulse, temperature (s), breathing, pressures (blood, Digitize swellings etc.) and in the encoder e.g. cache (Logger). When approaching to a recipient can this over the BT e.g. Select sensors or read out the buffer (flush). The giver can act as a Be designed as an electronic plaster, which to a examining body part is glued. The recipient can about his stress telegram also stimulations (e.g. electrical stimuli) trigger. An impairment the patient does not use radio waves. The data transfer takes place via the skin, not through the body and its cells.

electrical firable weapons can user-dependent work (so-called Smartguns) if such a weapon with a receiver equipped is. Can in the load telegram also information about the ammunition content (e.g. by digitizing the spring tension of the magazine) and usability be included. The weapon only works if the user uses one authoritative giver. and holds the gun in his own hands. This can result in accidents (e.g. with children) or prevent abuse.

A could be more useful application that of an electronic ticket. The encoder cannot do this in one volatile Store data that provides information about e.g. give the use (Validity, price range, Seat rank, etc.). When entering a fee-based facility (Cinema, theater, sports or leisure center, public transport etc.) can about that Load telegram from a receiver attached to the input (e.g. with coupling foil in the floor) Debits made, guidance information (e.g. show seat etc.) or other information is transmitted.

The quasi unidirectional dialog system can be used more conveniently and cost-effectively wherever other wireless technologies (radio, transponder, IR light, etc.) have previously been used, and which either do without a dialog and / or implement them only with considerable effort and / or security risks could become. It is possible to combine the different technologies, for example to make them more secure or to make it more comfortable.

By an easy to implement rhythmic change in input impedance the recipient receives the recipient Information. This is only possible in an AC circuit, such as it preferably arises with capacitive data transmission. A dialogue can take place because the encoder with its frequency pilot signal the carrier for the Debit telegram from the recipient provides what is basically an amplitude modulation. At - constant Output level, the pilot tone is not charged, rather the rhythmic load in the parasitic Feedback control loop to detect. This in turn makes unauthorized eavesdropping difficult Debit telegram BT.

The Invention simplifies and reduces the cost of bidirectional data transmission systems and enable one action-integrated identification of a user. So that can the system preferred in "Personnel Area Networks "(PAN) be used. Moreover there may be existing technologies around comfort and / or safety factors complete.

Claims (28)

Process for handling a data transfer between a master system (encoder) and a slave system (receiver) which on the part of the master system sends a signal event into a reception area of the Slave system is released into it and the reception recording properties of the slave system defined modulated and on the part of the master system recognized and evaluated. The method of claim 1, wherein the data transfer is handled on the basis of capacitive interaction effects. The method of claim 1 or 2, wherein the A pilot sequence is emitted and during the Input of the pilot sequence the input impedance of the slave system in accordance with a data pattern is modulated. Method according to at least one of claims 1 to 3, whereby the modulated change on the part of the master system the input impedance of the slave system is detected. Method according to at least one of claims 1 to 4, being from the modulation pattern detected by the master system a data record is generated for the input impedance of the slave system and this record is authoritative is for the information content or for the admissibility a continuation of the data transfer from the master system to the Slave system. Method according to at least one of claims 1 to 5, in the area of the master system from the, from the recording behavior signals obtained from the slave system Data are obtained on the basis thereof an encryption the data transmitted further by the slave system takes place. 7. that in the area of the slave system when generating the modulation a time value is taken into account for the data pattern relevant to the input impedance becomes. Method according to at least one of claims 1 to 6, being in the area of the slave system for modulating the input impedance Information content of the signals generated by the master system considered become. Method according to at least one of claims 1 to 7, the modulation of the input impedance of the slave system under Recourse acquisition to an encryption procedure he follows. Method according to at least one of claims 1 to 8, being on the part of the slave system to provide the modulation of the input impedance Encryption procedure used for data samples based on information provided by the master system output signal sequence is configured or influenced. Method according to at least one of claims 1 to 9, whereby a congruence analysis is initially based on the dialog Based on a low level of encryption, and that the encryption level subsequently is raised. Method according to at least one of claims 1 to 10, the for the raised encryption level is decisive Information content at least initially at a lower encryption level be transported. Method according to at least one of claims 1 to 11, being about the master system has a signal sequence evaluated as an authorization identifier is selectively dispensable. Method according to at least one of claims 1 to 12, being about the signal returned by impedance modulation of the slave system a configuration change of the master system can be processed is. Method according to at least one of claims 1 to 13, wherein the data transfer between the master system and the slave system to process a number, booking, valuation or proof of access process is used. Method according to at least one of claims 1 to 14, the data transfer between the master system and the slave system to process an operation to change the locked state a motor vehicle is used. Method according to at least one of claims 1 to 15, the data transfer between the master system and the slave system for the function release of devices is used. Method according to at least one of claims 1 to 16, the data transfer between the master system and the slave system to carry out a presence analysis is used. System for processing a data transfer with: one a master system component (encoder) and a slave system component (Receiver) wherein the master system component is designed such that this is suitable, a signal event in a reception area of the slave system component to give in, and the slave system component is configured in this way is that this enables to modulate the reception characteristics of them in a defined manner, in which Precautions have been taken in the area of the master system component are the changes the reception properties of the slave system component and the further data transfer based on this acquisition determine. Master system component for a system according to claim 18, which has a signal output device as a surface electrode is trained. Master system component according to claim 19, wherein this comprises an electronic signal processing device. Master system component according to claim 20, wherein the Signal processing device Access to a key data storage device Has. Master system component according to at least one of the Expectations 9 to 21, these - in a credit card-shaped body is included. Master system component according to at least one of the Expectations 19 to 22, which forms part of a vehicle key system. Slave system component for a system according to claim 18, which has a receiving device for receiving Input events based on capacitive interaction effects. Slave system component with the receiving device in the area of a cash register system, a pedestrian passage area, a sales system or equipment. A slave system component according to claim 24, wherein said Forms part of a vehicle door locking system. Method for changing the locking state of a motor vehicle under the handling of a Data transfers between a master system (transmitter / key) and a slave system (receiver / vehicle-side circuit component) in which the master system sends a signal event into a reception area of the slave system and the reception recording properties of the slave system are modulated in a defined manner and recognized and evaluated by the master system. Change procedure the locked state of a motor vehicle under settlement a data transfer between a master system (key device) and a slave system (vehicle-side circuit component) in particular as claimed in claim 27, in which on the part of the slave system a signal event is emitted into a reception area of the master system and defines the reception recording properties of the master system modulates and recognized and evaluated by the slave system 28 are methods according to claim 27 or 28 wherein the data transfer is handled on the basis of capacitive interaction effects.