NL9402057A - System for authorizing code carriers. - Google Patents

Description

System for authorizing code carriers

The invention relates to a system for authorizing code carriers, each of which is provided with a unique identification code.

Such a system is known in various variants from the prior art and is used for various diverse applications, such as: access control to buildings or grounds where access is only granted to the bearer of an authorized transponder, access control for vehicles to, for example, parking areas or parking garages where access is only issued to vehicles equipped with an authorized transponder, control of goods that are in a warehouse and allowed to leave the warehouse only with an authorized transponder, control of persons placed under house arrest and visitors, the use of certain devices or allow machines only to the holders of certain code carriers, etc.

In a known embodiment of such a system, the interrogation stations are permanently in communication communication with the central processor via a cable or wireless. The polling stations transmit each received identification code to the central processor to be compared there with the said set of authorized identification codes, after which, if correspondence between the received code and one of the stored authorized codes is established, a return signal is sent to the relevant polling station there an authorization signal is generated whereby, for example, the holder of the code carrier is granted passage to a company site.

The drawback of this embodiment is that there must be a permanent communication link between each of the polling stations and the central processor. The use of such a system on a large site, for example a factory complex or the like, would entail considerable costs, especially with regard to the permanent communication links. Application in a situation with several buildings or sites, which are situated at a distance from each other, will therefore certainly not be obvious. Such systems are therefore generally only used for small-scale applications.

In another known embodiment of such a system, the interrogation stations function substantially independently. Each of the interrogation stations has a memory in which the sequence of authorized identification codes is stored, and each interrogation station is provided with means for comparing the received code with the series of stored codes to determine whether the received code occurs in the sequence . In this embodiment, the optional communication link to the central processor is used only to "update", i.e. change or correct, with intervening stored codes.

In this known system, there is no permanent communication link between each of the polling stations and the central processor. In order for the data in each of the polling stations to be updated, a communication link is established between the central processors of the respective polling station, for example via the normal telephone network . The drawback of such a system is that, for example, if a transponder is lost or stolen, measures cannot be taken immediately to block the code of this code carrier. It is also hardly possible to authorize a code carrier with a code that is normally not authorized, for example temporarily for a certain period of time. This is only possible if this particular period coincides with an update period.

The object of the invention is now to provide a system which does not require a permanent communication link between the central processor and the interrogation stations, while in a flexible manner the codes present in the interrogation stations can still be updated and any normally unauthorized codes can still be temporarily authorized.

This objective is met by a system comprising one or more polling stations provided with means for reading the identification code stored therein from a different carrier, a memory in which a series of authorized identification codes can be stored and means for compare the identification code received by the code carrier with the set of authorized identification codes stored in the memory, wherein, if the identification code received from the code carrier is recognized in the series of identification codes stored in the memory, the interrogation station issues an authorization signal, a central processor which is provided with a further memory in which a further set of identification codes can be stored, a communication network by means of which the polling stations can transfer data to the central processor and with which the central processor can transfer data to one or more polling stations in which the if a polling station of a code carrier receives an identification code which does not belong to the series of identification codes stored in the memory of the station, a communication connection with the central processor is established and the received identification code is transferred to the central processor where the identification confirmation code is compared with the further second series of authorized identification codes, after which if the received identification code belongs to the second series, a return signal of a first type is returned via the communication network to the relevant interrogation station in order to still generate an authorization signal, and otherwise, a return signal of a second type, not leading to the generation of an authorization signal, is returned.

The invention will be described in more detail in the following with reference to the accompanying figures.

Figure 1 shows a first system known from the prior art.

Figure 2 shows another system known from the prior art.

Figure 3 shows a first embodiment of a system according to the invention.

Figure 4 shows a second embodiment of a system according to the invention.

In the following, with reference to the figures, the particular application of the invention in a continuity control system will be discussed, but the invention is not limited thereto.

Figure 1 shows a first system known from the prior art, comprising a number of interrogation stations 10a ... 10d, which are connected via a fixed communication connection 18 to a central processor 12. The communication connection 18 can for instance be formed by a cable connection . A memory 14 is stored in the central processor 12, in which authorized identification codes are stored. Each of the interrogation stations 10a ... 10d is located at the entrance (entrance or exit) to a site, building, or the like and is intended to release the passage for persons, goods, animals, and the like only if they are provided with a transponder in which an authorized identification code has been stored. Figure 1 shows such a transponder schematic with 16.

In this known system, the interrogation stations 10a-10d continuously transmit interrogation signals. As soon as a transponder 16 enters the interrogation field, the transponder will be activated by the interrogation field and thereby transmit the identification code stored in the transponder. The relevant interrogation station 10b receives this identification code and sends the code via the communication link 18 to decentralized processor 12, where the received code is compared with the series of codes stored in the memory 14. In this comparison, it is determined that the received code is indeed authorized, then, by the processor 12, a signal is returned to the polling station 10b, which clears the passage in response, for example by unlocking a lock, opening a gate, turning a barrier upward, and the like. Further details of such a system are assumed to be known to the skilled person.

Another prior art system is schematically illustrated in Figure 2. This known system comprises a number of interrogation stations 20a ... 20d and a central processor 22. In this embodiment, each interrogation station is provided with its own memory 24a. .. 24d, in which authorized identification codes are stored. When a transponder 26 enters the interrogation field of one of the interrogation stations, for example interrogation station 20c, the transponder 26 is activated by the interrogation field to transmit its own identification code. In the interrogation station, this identification code is compared with the series of codes stored in the memory 24c . If it is determined that the received code is an authorized code, the station 20c takes measures to allow the passage.

The central processor 22 has the possibility of contacting each of the interrogation stations 20a ... 20d via a communication network 28. This is done, for example, once a day in such a way that the central processor 22 successively makes contact with one of the interrogation stations, in which case it is checked whether the identification data stored in the respective memory 24a ... 24d are still correct, or if need be corrected or changed. .

Figure 3 shows a first embodiment of a system according to the invention. This system is provided with a number of interrogation stations 30a ... 30d, each with its own code memory 34a ... 34d. Furthermore, the system is provided with a central processor 32, also provided with its own code memory 40. Connections can be established between the central processor 32 and each of the interrogation stations 30a ... 30d via a communication network 38.

If a transponder 36 enters the polling field of one of the polling stations, for example the station 30a, the transponder 36 will be activated by the polling field to transmit its own identification code. This identification code is received at the polling station 30a and compared therewith to the series of codes stored in the memory 34a. If it is thereby determined that the received code belongs to the series of authorized codes, the interrogation station 30a takes measures to allow the passage.

However, this comparison establishes that the received. code does not belong to the series of stored codes, the polling station 30a connects via the network 38 to the central processor 32. In the central processor 32 there is a memory 40, in which further identification codes are stored. Once the connection is established, the code not recognized as authorized in the station 30a is transferred to the central processor 32, in which the received code is compared with the series of codes stored in the memory 40. It is thereby determined that the received code is in the memory 40, the processor 32 sends a return signal of a first type to the polling station 30a, indicating that passage may nevertheless be allowed for this transponder. If the received code is not found in the memory 40, another return signal of a second type is returned, with which the interrogation station 30 is notified not to proceed.

in the system, the memories 34a ... 34d are provided with identification codes of transponders to which access must always be given. For example, if the system is used at a factory site with passageways for personnel and passageways for incoming and outgoing goods, then for example, each staff member must be provided with a transponder with an authorized identification code, with which the personnel can gain unhindered access to the site. These authorized identification codes are stored in the polling stations at those entrances / exits that staff members can use. As long as the member of staff concerned carries his transponder, he can use these inputs / outputs without hindrance.

On the other hand, transponders can be used within this system with which temporary access can be obtained. This may include people who are not directly employed by the company concerned or who must be regularly present in the building in question, but for example representatives, suppliers, visitors or other persons who have to pass through once or at least less frequently be granted. For example, suppliers can be provided with transponders that allow them access to the site within certain periods. Such transponders which can be accessed only within predetermined periods are programmed with identification codes which are also stored in the memory 40 in the central processor 32. For each of these identification codes, the memory 40 stores one or more time indications indicating which period or periods the holder of the transponder may be granted the transit with the relevant identification code. Only if the transponder is interrogated within a permitted period, a return signal of a first type is returned to the interrogation station where the transponder has reported and passage is granted. However, if the transponder is interrogated outside the allowed period (s), connection to the processor 32 will be established, the code will be compared to the second set of codes in the memory 40, the interrogation time being determined to be outside the allowed period, and a return signal of the second type will be returned, as a result of which the relevant interrogation station will be given the message not to allow passage.

Preferably, the system is designed such that whenever a transponder is scanned by a polling station and the identification code is recognized either in the polling station itself or in the central processor 32, then preferably the time at which the polling process takes place is in the polling station or registered in the central processor 32 in connection with the relevant identification code. By registering each time when a particular transponder has been interrogated at one of the interrogation stations, a certain control function can be performed. This makes it possible for staff members to carry out an attendance check, for example. If suppliers, visitors or others are using a transponder, the identification code of which is stored in the memory 40 of the central processor 32, it is possible, via these time records, to check when a supplier has delivered his goods, for example. down a carrier has collected goods or how long a visitor has been inside the building or on the premises.

In this system it is possible to remove the relevant identification code from the memories 34a ... 34d or from the memory 40 when a loss or theft of a transponder is reported. However, it is preferable to delete the identification code in the event of loss or theft being reported. leave the memory but provide it with a pending invalidity code. If the transponder in question is still interrogated by one of the interrogation stations 30a ... d, the code will be recognized, but in this recognition it is determined on the basis of the pending invalidity code that no passage may be granted despite the recognition. If this recognition takes place in one of the interrogation stations, an alarm signal is preferably generated, informing, for example, a doorman or other security personnel that a transponder has been presented that has been reported as lost or stolen. If the recognition takes place in the decentralized processor, then in such a case a return signal of a third type is preferably sent back to the relevant polling station, where on the one hand the passage is blocked and on the other hand the aforementioned alarm signal is generated with which security personnel than the doorman are alerted.

In a similar way, however, it is also possible to grant a transponder temporary access authorization again with little effort, in which case it is only necessary to store the relevant identification code in the memory 40 of the central processor 32.

It has already been pointed out above that, for example, suppliers who bring goods or carriers who pick up goods can be granted access within a certain period of time. It is also possible to limit the maximum access time to a predetermined period of time. limit which time period is sufficient for the delivery of the goods or for the collection of the goods. In that case, the authorization code of the respective transponder contains not only time period information, but also duration information, which indicates how long the passage remains open after the passage has been released. If, for some reason, a supplier is not satisfied with this duration, he can return to the polling station with his transponder. Provided that the transponder is still offered within the predetermined allowed time period, the transponder is recognized as authorized again, and passage is resumed from that time, so that it can be accessed again for the predetermined period of time.If the predetermined permitted period of time has expired, further access is not allowed. This makes it possible for the supplier to be present on the site or inside the building for a longer period of time, but this fact is then registered and is recognizable afterwards.

Preferably, the central processor, but possibly also at least a part of the interrogation stations, is provided with a peripheral device, with which it is possible to record the registrations stored in the memories, i.e. the times (and possibly an identification of the interrogating station if it concerns registration in the central processor) on which the various transponders were interrogated in the interrogation station. This could include, for example, a display screen on which the identification codes with associated interrogation times are made visible as a series. A printer with which a list of requested identification codes is printed together with the request times can also be envisaged. Of course it is also possible to provide each of the interrogation stations with an output connection, via which the relevant data can be read, for example, and stored in a temporary data acquisition unit, for example to be subsequently processed in a separate computer.

With regard to the communication channels 38, it has only been noted in the above that, if necessary, a communication connection is established between one of the stations 30 and the central processor 32. This connection may be, for example, a telephone connection or another data connection that is maintained for as long as is necessary to exchange the data between the polling station and the central processor and vice versa. It is also possible to use single connections, wherein the interrogation station places its data with the address of the central processor 32 on the communication network, after which the data is received by the processor 32 and the communication therewith is terminated. In the same way, after the comparison process has been carried out, the exchange processor can put the respective return signal along with the address of the relevant interrogation station on the communication path, after which it is received and processed by the interrogation station.

Other forms of communication are also possible as long as the relevant data can be transferred from the interrogation station to the central processor or from the central processor to the interrogation station.

In the above it has been assumed more or less tacitly that the interrogation stations 30a ... 30d belong, for example, to a single company site, to an office building or the like. However, it is also possible that the interrogation stations are positioned more or less geographically. This could include a large company with several branches, each branch having one or more interrogation stations that can all come into contact with a central processor 32 which is located somewhere in the country and does not even need to be present on one of the sites.

In a still further embodiment, one central processor 32 is used to monitor the sites or offices of multiple companies. Figure 4 shows such an embodiment schematically.

The system shown in Figure 4 comprises a number of interrogation stations 46a-46e each having a code memory 44a-44e. which interrogation stations are located at one or more entrances / exits of one or more sites or buildings of a first company. Furthermore, the system comprises a number of interrogation stations 50a / 50b, 50c, each with a code memory 48a, 48b, 48c, which interrogation stations are located at one or more entrances / exits of one or more grounds or buildings of a second company. The polling stations 54a and 54b, each with a code memory 52a, 52b, are located at one or more entrances / exits of third-party sites or buildings. All polling stations shown in Fig. 4 are connected via a communication network 58 to a central processor 42 which is provided with an identification code memory 56. It will be clear that the number of companies and the number of polling stations can be increased or decreased as desired. In this way, control can be exercised from one central post42 over the interrogation stations of a large number of companies, whereby interrogation stations per company can be present at several sites and / or buildings. For the communication network58, use can be made of the normal telephone network, the wireless telephone network, a car telephone network, a data network or another suitable communication route.

It is pointed out that, for example, a supplier who supplies mooring companies only needs a single transponder to gain access to the various companies. The only condition is that the code of its transponder is programmed in the memories of the polling stations (or the central processor), so that the transponder can be recognized at all these places.

Although the application of the invention has been discussed above in a continuity control system, it has previously been noted that other applications are also possible. For example, some of the polling stations can be installed in the vicinity of devices or machinery that may only be operated by the holder of an authorized code carrier. Within a business environment or a factory, for example, one can think of specialized equipment that may only be operated by certain professionals. Each of these professionals must have a code carrier with an authorized code. Only these skilled persons can operate the relevant machines by offering the code carrier to the associated polling station. Switching on and off an alarm installation or a security installation on a specific site or within a specific building can also take place in this manner in an authorized manner.

In addition, it is pointed out that very diverse code carriers can be used, such as E.M. transponders, magnetic cards, optically readable barcodes, etc.

Claims (15)

System for authorizing code carriers, each of which is provided with a unique identification code, comprising one or more interrogation stations provided with means for reading the identification code stored therein from a different code carrier, a memory in which a series of authorized identification codes can be stored and means to compare the identification code received from the code carrier with the set of authorized identification codes stored in the memory, wherein, if the identification code received from the code carrier is recognized in the series of identification codes stored in the memory, the interrogation station issues an authorization signal. central processor which is provided with a further memory in which a further set of identification codes can be stored a communication network by means of which the polling stations can transfer data to the central processor and with which the central processor can transfer data to a and or more interrogation stations in which, in the event that an interrogation station receives a identification code which does not belong to the series of identification codes stored in the memory of the interrogation station, a communication connection is established with the central processor and the received identification code is transferred to the central processor where the identification code is compared with the further second series of authorized identification codes, after which if the received identification code belongs to the second series, a return signal of a first type is sent back via the communication network to the relevant interrogation station in order to still generate an authorization signal and, otherwise, a return signal of a second type, not leading to the generation of an authorization signal, is returned. 2. System according to claim 1, characterized in that each time a code carrier is recognized as authorized, this fact is registered by storing in memory the time and possibly the place where the recognition took place in connection with the identification code of the relevant code carrier. . System according to claim 2, characterized in that the registration of each recognition is performed in the interrogation station if the identification code belongs to the series of identification codes stored in the interrogation station and is executed in the central processor if the identification code belongs to the second series stored in the central processor of identification codes. System according to claim 3, characterized in that the central processor is provided with a peripheral device with which stored registrations can be made visible. System according to claim or 3, characterized in that the at least part of the interrogation stations is provided with a peripheral device with which stored registrations can be made visible. System according to claim 4 or 5, characterized in that the peripheral device is formed by a printer and / or a display screen. System according to any one of the preceding claims, characterized in that each identification code may contain one or more period period indices (s) indicating one of the first series in the interrogation stations or in the second series in the central processor the associated identification code in memory after recognition should be considered authorized or unauthorized. System according to claim 7, characterized in that if the comparison of a received identification code takes place in the central processor within the permitted period of time, a return signal of the first type is generated and otherwise a return signal of the second type is generated. System according to any one of the preceding claims, characterized in that an invalid code can be added to each identification code in one of the first series and that if this identification code compares with a received identification code, a warning signal is generated. 10. System as claimed in any of the foregoing claims 1-9, characterized in that an invalid code can be added to each identification code in the second series and that if this identification code compares with a received identification code a return signal of a third party type is returned on the basis of which the relevant interrogation station does not generate an authorization signal, but does issue a warning signal. 11. A system according to any one of the preceding claims, characterized in that the code carrier consists of a passive transponder, which is activated under the influence of an interrogation field at a suitable frequency to transmit a programmed identification code and in that the interrogation stations are provided with means for generating such a question field. System according to any one of the preceding claims, characterized in that the code carrier consists of a carrier on which or in which a magnetic code is arranged, for instance a magnetic strip card, and that the interrogation stations are provided with means for reading this magnetic code. System according to any one of the preceding claims, characterized in that the code carrier consists of a carrier on or in which an optical code is arranged, for example a barcode, and that the interrogation stations are provided with means for reading this optical code. System according to any one of the preceding claims, characterized in that at least a part of the interrogation stations is located near one or more entrances / exits of one or more sites, buildings or parts thereof and that the authorization signal generated by a interrogation station is used to determine the relevant - unlock / exit and allow the holder of the code carrier to pass through. System according to any one of the preceding claims, characterized in that at least part of the interrogation stations are located near devices or machines which can only be operated after they have been released for that purpose by an authorization signal from the associated interrogation station.