JP2002501360A - Remote control device - Google Patents

Abstract

(57) Abstract: A remote control device for controlling at least one function of an access device is provided. The remote control comprises a plurality of types of transmitters (1-5) and a type of receiver (10), the receiver being operatively connected to the access device. Each of the transmitters uses a storage device for storing a system identification word (SI1 to SI5) and a serial number, and encodes a transmission signal using an algorithm known per se using the system identification word (SI1 to SI5) and the serial number. And an encoder for performing the operation. Each type of transmitter (SI1 to SI5) is assigned a different system identifier and a different range of serial numbers. One type of receiver (10) includes a storage device for storing system identification words and serial number ranges of all types of transmitters, and a decoder for decoding a transmission signal received by an algorithm. Furthermore, at least one tuning unit is provided in the receiver. Via this tuning unit, one or more transmitters and receivers (10) can tune while transmitting the serial numbers and storing the serial numbers in the receiver.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001] The present invention relates to a remote control device for controlling at least one function of an access device.

[0002] Remote control devices having one transmitter and one receiver for controlling an access device, for example, a garage doorway drive device, are known. The receiver is located in the garage and starts the drive for the garage doorway. The user has a transmitter for transmitting the encoded signal. In this case, the encoded signal contains identification data. The receiver decodes each transmission signal and compares the identification data with the identification data stored in the storage device. If the identification data match, the receiver activates the garage doorway drive for operating the garage doorway. In such a remote control device, the transmitter is usually formed as a portable type, for example located in a car or integrated directly into a car. Thereby, the user can operate the transmitter at any time when entering or leaving the garage. When the transmitter is integrated into the vehicle, means of integration are taken later, and it is not possible for an automobile manufacturer to provide a transmitter in the vehicle from the beginning. The reason is that the transmitter is attached to the receiver and the garage doorway drive controlled by the receiver, so that the user can determine what kind of garage doorway drive he or she wants to incorporate into the garage. Because the manufacturer does not know.

[0003] An object of the present invention is to provide a remote control device for controlling at least one function of an access device, from which different users can access a different access device equally. It is.

This problem is solved according to the invention by the features of claim 1. According to the present invention, a remote control device for controlling at least one function of an access device includes a plurality of types of transmitters and one type of receiver, that is, a uniform receiver, and the receiver controls the access device. In control, each type of transmitter has a system identifier and a different serial number assigned to that type, eg, each type is assigned to a manufacturer. Uniform receivers, i.e. one type of receiver, have different system identifiers of different types of transmitter stored, for example in a microcontroller. Thus, the receiver can understand the transmission signals of all kinds of transmitters. The remote control allows a uniform microcontroller with a large number of system identifiers to be designed for the receiver and a large number of such microcontrollers to be manufactured. The transmitters each have a manufacturer-dependent system identifier. In order to have equal access to different types of transmitters, an agreement must be made regarding the serial numbers to be set for the different types of transmitters. In the present invention, the range of serial numbers is stored in the receiver. In this case, each range is assigned to a system identifier, ie one type of transmitter. By this means, the receiver is universal (
Designed universally), different access device manufacturers maintain independence with respect to their transmitters. That is, for example, the transmitter of maker 2 cannot operate the receiver of maker 3 and vice versa. Each manufacturer of the access device only knows the unique identifier.

[0005] Advantageous developments and improvements are possible by means of the measures recited in the dependent claims. Preferably, a universal transmitter, ie one other transmitter, can be provided.
This transmitter has a different system identifier from that of other types of transmitters, and its serial number is not restricted. This allows the universal transmitter to be integrated into the vehicle from the outset, for example by the vehicle manufacturer.

In another preferred embodiment, a modification or roll code for encoding and decoding the transmitted signal is used to increase security. Thereby, the transmission signal changes each time the transmitter is operated. In this case, for synchronization between the transmitter and the receiver, the actual synchronization information is encoded into a transmission signal by the transmitter and supplied, and the synchronization information is compared at the receiver. In the preferred embodiment, an allowance window is provided for evaluation. Accordingly, the operation of the access device can be performed when the synchronization is released based on the operation of the transmitter outside the reception range of the receiver.

An embodiment of the present invention is shown in the drawings. Next, this embodiment will be described in detail. FIG. 1 schematically shows a remote control device according to an embodiment of the present invention.

FIG. 1 schematically shows a remote control system operating on a wireless basis. The remote control system includes a receiver 10 called a universal receiver, and a plurality of types of transmitters 1 to 5. In this case, the transmitters 2 to 5 can be specially formed by the manufacturer.

Each of the transmitters 2 to 5 has one storage device. The storage device stores a system identification word unique to each type of transmitter and a serial number assigned to each type of transmitter 2 to 5. Further, each transmitter includes a processing unit or encoder. This encoder contains an algorithm known per se. In this case, a transmission signal is generated using the system identifier, the respective serial number, and possibly information stored in a storage device or contained in an encoder. This transmission signal is transmitted to the receiver 10.

As can be seen from the figure, all types of transmitters 2 to 5 have system identifiers SI 2 to SI 2.
In addition to SI5, a serial number range is assigned. This serial number range is shown in FIG.
For example, transmitter type 2 is indicated by 1 to 999999. Within this range, serial numbers can be given to different transmitters of one type of transmitter.

The receiver 10 also includes a storage device and a processing unit or decoder. This processing unit or decoder can be formed as a microcontroller. The receiver 10, i.e. the storage device or microcontroller, stores the system identifiers SI2 to SI5 of the individual types of transmitters 2 to 5, and further assigns them to the respective types of transmitters 2 to 5 and the system identifier. The stored serial number range is stored. The receiver further includes an algorithm or mathematical basis. With this algorithm or mathematical basis, transmitters 2-5 encode the transmitted signal.

[0012] The transmitter and receiver of the remote control can control different functions, for example when using the remote control for entering and exiting a garage or for other access control devices, the transmitter and the receiver Thereby, opening and closing of the garage doorway, lighting, and activation or stop of the alarm device can be controlled. The functions are programmed with one or more keys on each transmitter. In this case, a corresponding key or switch is provided on the receiver 10. When multiple functions are controlled by the transmitter, information about the functions is integrated into the transmitted signal and communicated to the receiver.

When the transmitter is operated, encoding starts. That is, the system identification word which is fixed and cannot be read and the serial number of each transmitter operate the set algorithm. This algorithm supplies as a transfer function via the processing unit a codeword, for example 64 bits long. In particular, this code word contains the information about the desired function to be performed and the information about the synchronization state of the transmitter in an encrypted manner, and contains the transmitter serial number in an unencrypted manner.

The transmitted transmission signal or codeword described above reaches the receiver 10. The receiver first checks whether the serial number was stored in the storage device at the time of the previous initialization or synchronization and whether it is currently present. If not, the transmitted information is ignored and the transmitter is treated as invalid. Having the serial number reveals all the necessary information, namely the system identifier, the serial number and the algorithm, so that the transmitted signal transmitted can be decrypted. If the system identifiers do not match, the decryption cannot be performed and the transmitter is again recognized as invalid. If the identifier is present in the receiver, the signal is decoded and decoded, and the receiver checks whether the transmitter serial number is within the range assigned to the system identifier. If not, the function is not performed. When all the values match, desired control is performed.

In particular, modified or roll codes are used as algorithms. With this code, the encoding is changed each time the encoding is performed, that is, every time the transmission key of the transmitter is operated. As a result, eavesdropping of the transmitted code and subsequent reproduction by an unauthorized transmitter are not possible due to successive changes of the code. For example, receivers and transmitters can be provided with internal counters. In this case, the algorithm can use the counter reading included in the transmitted signal.

In order for the transmitter and receiver to agree on the changed code, synchronization or learning of the receiver for each transmitter must be performed. This synchronization or learning can only be performed effectively when the transmitter and the receiver have the same system identifier. At the receiver, for receiver synchronization or learning,
A tune key or switch must be pressed for the desired function. Thereby, the receiver 10 enters the synchronization mode or the learning mode. Subsequently, the key or input element to which this function is assigned is operated at the transmitter. Subsequently, the transmitter transmits the encoded transmission signal. This transmitted signal conveys all information to the receiver. The receiver holds the serial number, information about the key pressed, and the identification information of the transmitter in the storage mode in the synchronization mode. Immediately after that, the same key on the transmitter must be pressed again. Since the serial number is already stored in the buffer storage of the receiver, the decoding and comparison of the synchronization information is performed again. This synchronization information must then have a deviation from the previously stored value by a precisely defined value. If there is a deviation, the serial number and synchronization information are finally stored, the receiver returns to normal operating conditions, and learning or synchronization is achieved. If other tuning keys are provided for different functions, the same process can be performed for each other tuning key present. In this case, assignment to individual functions can be freely performed.

If the transmit key is operated outside the reception range of the receiver, the synchronized system between the transmitter and the receiver will not work. This is because, after further manipulation within the reception range, ie after transmitting the transmitted transmission signal to the receiver, the decoding provides the actual synchronization information of the transmitter. However, since this synchronization information is not different from the stored information, the receiver will not control the controller operatively connected thereto.

To avoid this, the receiver is provided with a so-called tolerance window for the deviation between the synchronization information stored in the receiver and the actual synchronization information transmitted from the transmitter. Have been. When the synchronization information is within the set predetermined tolerance window, the desired function is performed. In addition to the first tolerance window, a second tolerance window that is larger than the first tolerance window may be stored at the receiver. However, if the deviation is outside the first tolerance window and within a larger second tolerance window, then the synchronization information is temporarily stored and the desired function is not performed. The user thinks that the transmission key was not operated normally, and usually presses the transmission key again. Again all the information is transmitted, decrypted, and the comparison of the synchronization information gives the expected result and the selected function is performed. At the same time, the actual information is stored again, and the transmitter and receiver operate again in synchronization. A small tolerance window contains deviations for 16 operations, for example outside the reception range, and a large tolerance window contains a large number of operation deviations. If the key is pressed more frequently than the operation of the second large tolerance window, the system cannot synchronize and
The function is no longer implemented. In this case, a completely new synchronization must be performed using the tuning key.

It may be desirable for the remote control system to include a universal transmitter. This universal transmitter is arranged, for example, in the case of a vehicle entry control device, for example, in a sun visor or in a rear-view mirror head of a vehicle interior. In the case of existing universal transmitters, the vehicle manufacturer can incorporate this universal transmitter independently of the other types of transmitters 2-5. That is, it can be incorporated irrespective of which entry control device the automobile user will use later. This is indicated by the dashed line in FIG. In this case, the universal transmitter is provided with transmitter type 1. The universal transmitter 1 likewise has the system identification word SI1. This identifier is different from the other identifiers and is stored in the receiver 10 as well. In order to enable this transmitter 1 to be used as a universal transmitter, the transmitter is not assigned a serial number range and can be given a serial number without restriction. The transmitter responds to all receivers of receiver type 10.

If one of the transmitters 1 to 5 is lost or a car incorporating the transmitter is stolen, unauthorized access must be prevented. Therefore, the serial number stored in the receiver can be deleted. In this case, any tuning key of the receiver is continuously pressed for a long time. Then, all the serial numbers held in the storage devices of all the transmitters thus synchronized are deleted.

The storage device included in the receiver is not volatile. That is, when the current supply is stopped,
The information contained in this storage does not disappear. All the above-mentioned operating states of the receiver are displayed on the display. The receiver, as well as the receiver, must be locked and stored in order to prevent unauthorized persons from pressing the tuning key of the receiver. That is, it must be arranged in a room where entry is prohibited.

It may be desirable to return information from the receiver to the transmitter. In this case, the transmitter has a receiving unit, and the receiver has a transmitting unit. Via this two-way transmission path, the receiver can, for example, report whether the desired function has been performed. This method is particularly important when activating the alarm device wirelessly. This is because it is possible to know whether this alarm device has actually been initialized. Of course, other signals, such as signals relating to the configuration of the transmission path, synchronization signals or other tuning signals, can be transmitted via the bidirectional transmission path.

In the above embodiment, wireless transmission is performed at a frequency of, for example, 433 MHz. Of course, other transmission methods that fulfill the function are also conceivable.

[Procedural Amendment] Submission of translation of Article 34 Amendment of the Patent Cooperation Treaty

[Submission date] January 24, 2000 (2000.1.24)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claim 1

[Correction method] Change

[Correction contents]

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0002

[Correction method] Change

[Correction contents]

[0002] Remote control devices having one transmitter and one receiver for controlling an access device, for example, a garage doorway drive device, are known. The receiver is located in the garage and starts the drive for the garage doorway. The user has a transmitter for transmitting the encoded signal. In this case, the encoded signal contains identification data. The receiver decodes each transmission signal and compares the identification data with the identification data stored in the storage device. If the identification data match, the receiver activates the garage doorway drive for operating the garage doorway. In such a remote control device, the transmitter is usually formed as a portable type, for example located in a car or integrated directly into a car. Thereby, the user can operate the transmitter whenever he enters or leaves the garage. When the transmitter is installed in a vehicle, means of installation are taken later, and it is not possible for an automobile manufacturer to provide a transmitter in the vehicle from the beginning. The reason is that the transmitter is attached to the receiver and the garage doorway drive controlled by the receiver, so that the user can determine what kind of garage doorway drive he or she is trying to incorporate into the garage. Because the manufacturer does not know. U.S. Pat. No. 5,686,904 discloses a self-learning safety device with an encoder and a decoder. In this case, the encoder encodes the information, including the stored user code, using a stored non-linear algorithm to generate a value that is transmitted to the decoder. At this time, the user encryption is based on one type of master key (system identification word) determined by the manufacturer and one serial number. The decoder uses the master key and an algorithm stored in the decoder to decrypt the value.

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Claims (13)

[Claims] A remote control device for controlling at least one function of an access device, comprising: a plurality of types of transmitters (1 to 5); and a type of receiver (10).
Wherein the receiver is connected to the access device, and the transmitter respectively stores the system identification word and the serial number, and a transmission signal according to a known algorithm using the system identification words SI1 to SI5 and the serial number. An encoder for encoding is provided, and each type of transmitters SI1 to SI5 is assigned a different system identifier and a different range of serial numbers, and one type of receiver stores the system identifier and the serial number range. And a decoder for decoding the transmitted signal received by the algorithm, and further comprising at least one tuning unit,
A remote control device characterized in that one or more transmitters and receivers can transmit serial numbers via the tuning unit and tune while storing the serial numbers in the receiver. 2. The receiver receives a serial number and a system identifier included in a transmission signal,
The apparatus of claim 1, wherein the access data is compared with the stored data and the access device is activated if there is a match. 3. A further kind of transmitter (1) having a system identifier SI1 is provided, which is formed as a universal transmitter, whose serial number is not assigned to a serial number range and the receiver (1) The apparatus according to claim 1 or 2, wherein the system identification word is stored in the storage device according to (10). 4. The method according to claim 1, wherein the algorithm includes a roll code and a modification code, and the code for encoding the transmission signal is changed each time after transmitting the encoded transmission signal. 3. The apparatus according to any one of 3. 5. When each transmitter (1-5) is tuned to a receiver (10), synchronization information on the state of a roll code or a change code together with a serial number is transmitted from each transmitter to the receiver. 5. The device according to claim 1, wherein the device is transmitted. 6. A first tolerance window for unexpected deviations of the synchronization information stored in the received signal together with the transmitted signal from the actually transmitted synchronization information,
6. The apparatus according to claim 5, wherein the control is set in the receiver and the control is performed within the tolerance window. 7. When a second large tolerance window is set in the receiver and the deviation of the synchronization information is within the large tolerance window, the actual synchronization information is temporarily stored and no control is performed. Then, when a transmission signal is newly transmitted, the temporarily stored synchronization information is compared with actual synchronization information, and control is performed in the case of an expected deviation. Item 7. The apparatus according to Item 6. 8. The transmitter includes a selection unit for selecting a plurality of functions to be controlled by the access device, wherein information on the functions to be controlled is included in the encoded transmission signal, and the receiver controls the tuning unit. 8. The device according to claim 1, wherein the functions to be controlled are tuned via the control unit. 9. Apparatus according to claim 1, wherein the unit comprises one or more switches or keys. 10. The device according to claim 1, wherein an erasing device for erasing the stored serial number is provided in the receiver. 11. Each transmitter comprises a receiving unit, wherein the receiver comprises a transmitting unit, wherein the transmitting unit of the receiver receives received transmission signals or reception information relating to the function performed, a synchronization signal and / or a tuning signal. The device according to any one of claims 1 to 10, wherein the signal is transmitted to a receiving unit of the transmitter. 12. The device according to claim 1, wherein the transmitter and the receiver are radio devices transmitting a transmission signal at a frequency of 433 MHz. 13. The transmitter according to claim 1, wherein the transmitter is arranged in the motor vehicle, and the access device is a control device for operating a garage doorway or the like.
An apparatus according to any one of claims 1 to 12.