DE19841514A1 - Method for assigning a remote control to a base station - Google Patents

Abstract

The invention relates to a method for allocating a remote control to a base station. The base station (10) transmits a search signal (108), whereupon the remote control (20) re-transmits a contact signal (102) if the search signal matches a stored reference signal. Once the contact signal has been inputted, the base station (10) sends a variable activation signal for each allocation in order to verify remote control (20) affiliation. The variable activation signal, which is already determined (36) before the search signal is transmitted by the base station and stored, is retrieved for said allocation only.

Description

State of the art

The invention is based on a method of the generic type of the main claim, as in the German patent application AZ: 196 45 769.6. Then the assignment takes place remote control to one in a motor vehicle ordered base station by the latter a search signal sets what is in the range of the search signal remote controls by sending back a contact signal at times that are characteristic of the remote controls reply. By evaluating the entry times of the Kon The base station determines the clock signal feedback send remote controls. She selects one of them and leads with it a "Challenge Response" verification. Because clear remote control recognition already by off exchange of only one signal is possible, and the signal there it is not safety-relevant, simply be constructed can, the entire recognition takes place very quickly. Determining for the assignment speed is therefore above all subsequent challenge-response verification. It is based on the implementation of safety-relevant arithmetic operas tions that are extensive and require time  For quick calculation of the challenge or re sponsesignales are specially developed for this purpose user-specific integrated circuits (ASIC) sets which the challenge or response calculation in we perform in less than three milliseconds. So that can Trigger the assignment check by actuating the door handle fes of a vehicle, so that the opening of the door only is possible if the remote control belongs to the vehicle was verified. The user notices the assignment didn't go. The aforementioned ASICs fulfill their function good, but are comparatively manufacturing expensive.

It is an object of the invention to provide a method for mapping ner remote control to a base station to indicate which a quick implementation of an assignment check, especially especially a quick implementation of a verification commu nication allowed.

The task is solved by a procedure with the characteristics len of the main claim. The method according to the invention is easily as a program in the base station or remote control already existing microprocessor realizable, and eliminates the need for an ASIC. Grant it provides the same security as when using a ASICS. A gain in security can advantageously be realized by changing the speed of the challenge response Calculation is controlled specifically when the challenge Response dialog repeated several times in succession leads.  

An embodiment of the invention is described below Reference to the drawing explained in more detail.

drawing

In the drawings Fig. 1 is a block diagram of a Zugangsvorrich tung, Fig. 2 a flow chart illustrating its operation.

description

Fig. 1 shows a base station 10 , which can be part of a device or object or such is firmly assigned net. For example, the base station can be part of the access control device of a building or a motor vehicle. Another component of the access device shown in FIG. 1 is an actuating device 20 , which is referred to as remote control in the following and which is functionally assigned to the base station in a contactless manner via a signal transmission path 30 . The remote control can in particular be a transponder. The base station 10 acts on the technical device, part or which of which it is assigned, via active connections (not shown). When used in a motor vehicle, for example, it controls access to the vehicle or its commissioning.

Part of the base station 10 is a microprocessor 13 , which controls the operation of the base station 10 , in particular causes the output of signals and evaluates incoming signals. Connected to the microprocessor is a transmitting / receiving device 11 for delivering or receiving signals transmitted without contact via the signal transmission path 30 . A memory 14 is also assigned to the microprocessor 13 . This contains assignment information on the basis of which the base station 10 recognizes assigned remote controls 20 . The assignment information is: a serial number 15 , a manufacturer code 17 , a cryptic key code 31 , a directory 16 with information about the remote controls 20 assigned to the base station 10 , and a random number 18 . The serial number 15 is characteristic of mutually assigned base stations 10 and remote controls 20 . It is determined by the manufacturer of the technical device to which the base station 10 or the remote controls 20 are assigned. When used in motor vehicles, for example, the determination can be made by the vehicle manufacturer. The manufacturer code 17 uniquely designates the associated device, ie the base station 10 . It is assigned by the base station manufacturer and cannot be changed. The directory 16 contains for each de assigned remote control 20 a data record 16 a, 16 b, 16 c, each of which contains the group number 25 of a remote control 20 , its manufacturer code 27 , a random number and a target response. The group numbers 25 differentiate the remote controls assigned to a base station 10 with the same serial numbers, the associated manufacturer code 27 is used in conjunction with the cryptic key code 31 and the random number 18 that is generated by the microprocessor 13 to form the target response. The cryptic key code 31 is preferably also determined by the manufacturer of the associated technical device, for example a vehicle manufacturer. An entire data set 16 a, 16 b, 16 c allows the verification of an associated remote control 20 .

The remote control has a transceiver 21 corresponding to the base station side transceiver 11 for receiving signals emitted by the base station 10 or for emitting signals to the base station 10 . Analogous to the base station, the transmitting / receiving device 21 is followed by a microprocessor 23 which controls the operation of the remote control 20 , in particular performing the evaluation of the signals coming in via the transmitting / receiving device 22 , depending on the results, initiating follow-up measures and issuing Output signals monitored. A memory unit 24 is assigned to the microprocessor 23 , in which assignment information for assigning the remote control 20 to a base station 10 is stored. For this purpose - analog to base station 10 - a serial number 15 , a group number 25 , a manufacturer code 27 and a cryptic key code 31 are stored. The meaning of the memory contents corresponds to the meaning of the similar memory contents in the memory 14 of the base station 10 . The manufacturer code is assigned by the manufacturer of the remote control 20 and uniquely identifies it. The serial number 15 is a code for the overall device consisting of the base station 10 and associated remote controls 20 and is identical to the memory 14 of the base station 10 containing the serial number. The group number 25 distinguishes the sel be serial number 15 having remote controls 20 from each other. It is determined by the user when using the overall device. The cryptic key code 31 is determined by the manufacturer of the technical device belonging to the base station 10 and is identical to that present in the base station. In connection with the manufacturer code and the 27 through the signal transmission path 30 supplied from the base station 10 Challenge signal di net it for verification of the affiliation with a Basissta tion 10th

Between base station 10 and remote controls 20 there is a signal transmission path for the transmission of contactlessly transferable signals between the remote control transmitter / receiver device 21 and the base station transmitter / receiver device 11 . Signals outgoing from the base station-side transceiver 11 reach all remote controls 20 located within their range. Infrared or high-frequency signals are expediently used as signals.

Several remote controls 20 can be assigned to a base station 10 . All remote controls 20 and base station 10 have an identical serial number 15 in their memories 14 , 24 and use a cryptic key code 31 for verification. The individual remote controls 20 differ in their group numbers 25 and their manufacturer codes 27 .

The operation of the device shown in FIG. 1 is explained below with reference to FIG. 2. The sequence steps are preceded by a letter B or F, which indicates whether the associated sequence step takes place in the base station 10 : B or in a remote control 20 : F.

The assignment process is triggered by the actuation of a mechanical, electrical or electro-optical trigger mechanism (not shown) by a user, step 100 . When used in a motor vehicle, the trigger mechanism can consist in particular in operating the door handle.

On the basis of a signal emitted when the trigger is triggered, the microprocessor 13 of the base station 10 first sets an internal counter A to the value 0, step 102 . Then it loads from the memory 14 the random number 18 , which then forms the activation signal called the "Challenge" signal below, and the "Response Response" signals called GE, expected response signals 16 a, 16 b, 16 c for all remote controls 20 assigned to base station 10 , step 104 . He then increments counter A by 1, step 106 . The microprocessor 13 then initiates the transmission of a search signal by the transceiver 11 , step 108 . In addition to start and synchronization information, the search signal contains in particular the serial number 15 stored in the memory 14 . It is expediently unencrypted and is received by all remote controls 20 located within the range of the signal transmission path 30 via their transmitting / receiving devices 21 .

Upon receipt of a search signal, your microprocessors 23 check whether the serial number 15 transmitted with the search signal matches the serial number stored in the memory 24 of the remote control 20 and serves as a reference signal. If there is a mismatch, the remote control 20 no longer takes part in the further membership test. If the compared signals match, the microprocessor 23 causes a response in the form of a contact signal, step 112 . A short signal with a complex structure, for example the group number 25 of the respective remote control 20 in bit-coded form, serves as the contact signal. The contact signal is expedient as the search signal is not encrypted. The transmission of the contact signal causes the microprocessor 24 after a characteristic of the remote control 20 , determined by the group number 25 , from the receipt of the search signal. It then takes place in a time window with a predetermined length. The transmission is dimensioned such that a safe assignment of the contact signal to the time window is possible for both the remote control 20 and for the base station 10 .

By checking in which time windows contact signals have been received, the microprocessor 13 of the base station 10 now determines which remote controls 20 with which group numbers are present, step 114 . If no remote control 20 is found, the microprocessor 13 checks the value of counter A, step 116 . If it is smaller than a given reference value, for example 5, it immediately causes a search signal to be emitted again and the method continues from step 106 onwards. If the reference value is exceeded, the microprocessor 13 aborts the membership test, step 117 . Gave the test at step 114 that at least one remote control 20 is present, the microprocessor 13 selects from the present remote operations from a 20 with which it too gehörigkeitsprüfung performs below, step 118th After selecting a remote control, it counts a second internal counter B up one step, step 120 . Thereupon, the microprocessor 13 causes a subsequent Challenge signal to be transmitted via the transceiver 11 . The random number 18 stored in the memory 14 serves as the challenge signal.

The selected remote control 20 receives the challenge signal via its transceiver 21 and forms a "response" signal by linking it with the manufacturer code 27 and the cryptic key code 31 , which it sends back to base station 10 as a response signal, step 124 .

After receipt, the microprocessor 13 compares the response signal sent back by the remote control 20 with the target response signal 16 a, 16 , 16 c previously loaded in step 104 of the selected remote control 20 , step 126 . If the target response signal and response signal match, the microprocessor 13 resets the internal counter B to the value 0, step 132 and causes the output of a release signal which, for example, gives access to a motor vehicle and / or its operation allows step 134 . The microprocessor 13 then determines a random number 18 and thus determines a new target response signal for each group number 25 entered in the directory 16 , step 136 . With the random number 18 and the newly formed target response signals, it then occupies the memory locations 16 a, 16 b, 16 c and 18 anew. The new memory contents serve as the basis for the assignment check following the next renewed triggering process. When the memory contents 16 and 18 are rewritten , the membership test process is ended, step 138 .

If the check in step 126 that the remote hand 20 returned response signal does not match the loaded from the processor expected response signal 16 a, 16 b, 16 c matches, the microprocessor 13 the internal counter B to a Step up, step 128 . He then checks whether the content of counter B exceeds a predetermined limit value, for example the value 3, step 130 . If this is the case, the microprocessor 13 determines in step 136 a new random number 18 and new target response signals 16 a, 16 b, 16 c with which it overwrites the corresponding memory contents in the memory 14 . He then aborts the assignment check process, step 138 .

If the check in step 130 shows that the limit value assigned to the counter B has not yet been exceeded, the microprocessor 13 also carries out a redefinition of the random number 18 and the target response signals 16 a, 16 b, 16 c according to step 136 . Subsequently, however, he continues with the repetition of step 104 and immediately reloads the newly determined memory contents 18 and 16 a, 16 b, 16 c in order to subsequently carry out step 106 .

Provision can be made for the determination of a new random number and new target response signals to be carried out slowly in accordance with step 136 . Since the redetermination with authorized use only follows after the confirmation of membership and the issuance of a release signal, slow execution of step 136 has no effect for the authorized user. On the other hand, it is difficult for an unauthorized person to pretend that a remote control belongs to a base station, even if he succeeds in causing the base station to emit a challenge signal to the remote control by emulating a contact signal. By deliberately stretching the time to carry out step 136 , it is also difficult for him to determine a correct response signal by permutatively repeating possible response signals.

Claims (9)

1. A method for assigning a remote control to a base station, the base station ( 10 ) sending out a search signal ( 108 ), the remote control ( 20 ) sending back a contact signal ( 112 ) if the search signal matches a stored reference signal, and the base station ( 10 ) thereupon emits a variable activation signal for each assignment for verification of belonging to the remote control ( 122 ), characterized in that the variable activation signal is defined by the base station ( 136 ) even before the search signal is transmitted and is only called up for the assignment ( 104 ). 2. The method according to claim 1, characterized in that from the base station ( 10 ) even before stopping the search signal, the response signal is also defined ( 136 ) with which the associated remote control ( 20 ) is to respond after receiving the variable activation signal. 3. The method according to claim 1, characterized in that the definition of the variable activation signal depending Weil after completion of a successful assignment ( 126 , 134 ) of a remote control ( 20 ) to a base station ( 10 ). 4. The method according to claim 1, characterized in that a new variable activation signal is defined ( 136 ) when a response signal sent back from a remote control ( 20 ) to an activation signal does not match the predetermined response signal in the base station ( 10 ). 5. The method according to claim 1, characterized in that the search signal several times immediately in succession is sent if a con clock signal not received. 6. The method according to claim 4, characterized in that the execution time when redefining the changeable Chen activation signals compared to the shortest possible ver is lengthened. 7. base station for performing the method according to claim 1, characterized by

• a transmitting / receiving device ( 11 ) which is designed to emit search and activation signals and to receive contact and response signals from remote controls ( 20 ),
• Means ( 13 ) for causing / evaluating the signals to be transmitted / received via the transmitting / receiving device ( 11 ),
• - And a non-volatile memory unit ( 14 ) for storing fixed and changeable assignment information ( 15 , 17 , 31 , 16 , 18 ), which assign the base station ( 10 ) a least a remote control ( 20 ) and allow the membership to be checked.

8. Base station according to claim 7, characterized in that the non-volatile memory unit ( 14 ) is designed as a programmable storage medium once. 9. Remote control for performing the method according to claim 1, characterized by

• - A transmitting / receiving device ( 21 ), which is designed to receive search and activation signals and to emit contact and response signals,
• - means ( 23 ) for evaluating / initiating received / to be sent signals,
• - And a non-volatile memory unit ( 24 ) for storing assignment information ( 15 , 25 , 27 , 31 ) which assign the remote control ( 20 ) to a base station ( 10 ).