EP3261061A1 - Access control method and system - Google Patents

Abstract

There is proposed a method for access control in an access control system for persons or vehicles comprising at least one access control device, within the scope of which at least one access control device information by means of a targeted modulation of the frequency and / or a spatial modulation and optionally additionally by means of a temporal modulation of light emissions of a predetermined number of light sources (5) receivable and demodulated by a mobile electronic device (4) comprising a camera, the information transmitted by an access control device including a unique ID of the access control device used to control the access control device Dependent on a mobile electronic device (4) receiving the transmitted information to control data transmitted to the access control system.

Description

The present invention relates to a method for access control in an access control system for persons or vehicles comprising at least one access control device according to the preamble of claim 1. Furthermore, the invention relates to an access control system for persons or vehicles comprising at least one access control device, in particular an access control system for Implementation of the method according to the invention.

The prior art discloses methods and systems for access control for persons or vehicles. In this case, it is generally intended to carry out an access control by means of the contactless reading of access authorizations, wherein access control devices are provided, which have means for detecting and evaluating the access authorizations and mechanical or other blocking devices which, after a valid access authorization, are present automatically or manually from a blocking position be transferred to an exemption.

The present invention has for its object to provide a method for access control in an access control system for people or vehicles comprising at least one access control device, through the implementation of the access control is simplified. Furthermore, an access control system for persons or vehicles comprising at least one access control device, in particular an access control system for carrying out the method according to the invention should be specified.

This object is achieved for a method by the features of patent claim 1. An access control system for persons or vehicles is the subject of claim 8. Further embodiments and advantages of the invention will become apparent from the corresponding dependent claims.

Accordingly, a method for access control in an access control system for persons or vehicles comprising at least one access control device is proposed within the scope of which at least one access control device information by means of a targeted modulation of the frequency or wavelength and / or a spatial modulation and optionally additionally by means of a temporal Modulation of light emissions are sent from a predetermined number of light sources that are receivable by a mobile electronic device comprising a camera, such as a smartphone and demodulated. Here, the information sent by an access control device includes a unique ID of the access control device that has sent by the modulation of the light sources the received information that is used to access the access control device in response to a mobile electronic device that receives the transmitted information Access control system transmitted data to control.

The modulation of the light emissions of the light sources by means of a controller.

Preferably, the light sources are designed and / or arranged and / or shielded such that the light emissions are receivable within a defined area around the access control device, where only one person in an access control device for persons under normal operating conditions and under normal access control device for vehicles Operating conditions only one vehicle can be located. This can be achieved, for example, via the light intensity, the emission angle of the light sources and suitable shielding. In this way, the information sent by an access control device may be receivable only by mobile electronic devices closest to the access control device in the access direction and access control device associated with the access control device, in the case of an access control system having a multi-lane access, each Access track is assigned an access control device is particularly advantageous.

The transmission of the information can be permanent, at regular intervals or after detection of a person or a vehicle by means of a suitable, known from the prior art sensor, wherein the light sources are controllable by means of a control for the purpose of modulation.

A modulation in the frequency domain results in a change in the wavelength of the light emissions, wherein a spatial modulation in the context of the invention means activating and deactivating individual light sources. Furthermore, a temporal modulation in the sense of the invention means a fast, preferably not visible to the human observer switching on and off of light sources as a function of time.

The information transmitted by means of the modulation can be received by a mobile electronic device comprising a camera, wherein a single image, a single image sequence at a defined time interval or a video are created by the camera, which contain the transmitted information which is demodulated and evaluated by means of suitable software , For example, an app installed on the mobile electronic device can be used to receive, demodulate and evaluate the information. Here, the app can automatically create a single image, a single image sequence in a defined time interval or a video depending on the light emissions.

An access control device according to the invention may be associated with an entrance or an exit or an exit, wherein it is checked at the exit or at the exit whether the fee for the stay in the area covered by the access control system has been paid. The access control devices are connected to a server for data processing.

According to the invention, an access control system for persons or vehicles comprising at least one access control device is proposed in which the side of the at least one access control device facing the arriving persons or vehicles comprises a plurality of light sources, for example LEDs, whose light emissions are in accordance with the method according to the invention be modulated in terms of frequency and / or spatially and optionally additionally in time for information transmission.

In the case of an access control system for vehicles, wherein the at least one access control device according to the prior art comprises a barrier tree, according to one embodiment of the invention, the side facing the incoming vehicles of the barrier boom on several LEDs whose light emissions in terms of frequency and / or spatially and optionally additionally temporally modulatable. In this case, according to an embodiment of the invention, both sides of the barrier tree each have a plurality of LEDs, the light emissions in terms of frequency and / or spatially and optionally additionally temporally modulated, which is detected on the basis of the signals of a sensor, such as an induction loop, on which side of the barrier boom There is a vehicle to activate the LEDs on this page. Alternatively or additionally, if present, a tracking light which indicates to the driver the clearance of the passage, a light strip on a side facing the incoming vehicles side of a parking column or any other available in a given radius of the access control device light source arrangement can be used to carry out the inventive method Light sources can be controlled by means of a control for the purpose of modulation.

In an access control system for persons, the at least one access control device may comprise a display facing the incoming persons, the backlighting of which is modulated according to the invention; Alternatively, a side of the at least one access control device facing the arriving persons can have a plurality of LEDs whose light emissions can be modulated in terms of frequency and / or spatially and optionally additionally in terms of time.

When a user wishes to enter a parking garage or enter an area covered by an access control system, when he is in front of an access control device in the defined area in which the light emissions are receivable, by means of a mobile electronic device Frame, a frame sequence at a defined distance or a video of the light emissions of the light sources created containing the transmitted information, which are demodulated and evaluated by means of suitable software, for example by means of an installed on the mobile electronic device app.

According to the invention, the information sent by the access control device includes a unique ID of the access control device which has sent the received information by means of the modulation of the light sources. In this case, according to an embodiment of the invention according to the described receipt of the ID via the mobile electronic device via a suitable communication channel, for example by modulating the flash of the mobile electronic device whose light emission is receivable and demodulated by the access control device, using WLAN, Bluetooth Low Energy ( BLE) or mobile preferably via an app, which serves the demodulation and evaluation of the transmitted information, transmitted to a server of the access control system information containing the ID of the access control device and identification data of the user, but at least a unique ID of the user or the mobile electronic device ,

If the light sources are designed and / or arranged and / or shielded such that the light emissions are receivable within a defined area around the access control device, which under normal operating conditions is only one person for an access control device for persons and only one for an access control device for vehicles Vehicle, the access control system, the information is transmitted, in which access control device, the user of the mobile electronic device or the person carrying it, in the case of access control device for people in the access lane just before the transition between the access control system covered area and the area not covered by the access control system. In an access control device for vehicles the information is transmitted to the access control system, in which access control device the user of the mobile electronic device or the person carrying it is in a vehicle in the access lane directly in front of the transition between the vehicle Covered by the access control system and the area not covered by the access control system.

For the realization of the communication channel, the person skilled in the well-known devices are provided; For example, in the event that the communication channel based on the BLE standard, BLE transmitting / receiving units are provided, which are connected to a server of the access control system data technology.

Following this interaction between the user and the access control system, a barring device of the access control device which has sent the received information is actuated in the opening sense if, upon entering the area covered by the access control system, the user is identified as a registered user, based on the ID of the user or the user mobile electronic device is detected or if based on the identification data of the user this is clearly identifiable or if the necessary fees have been paid when leaving the area covered by the access control system, resulting in a registered user by debiting his customer account or a credit card and an unregistered user by cash or credit card payment. In the case of a registered user, the payment of the fees takes place automatically, whereby in the case of an unregistered user the ID of the user or the mobile electronic device is read out or transmitted via the app during the payment. Upon extension, it is determined from the ID of the user or the mobile electronic device, whether the fees have been paid, and if so, a locking member of the access control device is operated in the opening sense.

Within the scope of a development of the invention, the information sent by the access control device contains, in addition to the unique ID of the access control device, further information, in particular location or event-related information. For example, the information sent by an access control device of an access control system for vehicles provided at an entrance includes the number of free ones Parking spaces, the location of free parking spaces, advertising about special offers in selected shops and / or current parking tariffs, etc. In addition, information about offers, plans, etc. can be transmitted to an access control system for trade fairs, ski resorts, theme parks, exhibitions.

Furthermore, it is possible, in the area covered by an access control system, to provide specially furnished info points comprising several light sources whose light emissions are modulated according to the inventive method with regard to frequency and / or time and / or space for information transmission, which send location or event-related information that are receivable and demodulated by mobile electronic devices comprising a camera.

If a user is identified as a member of the technical support using the transmitted ID of the mobile electronic device, status information about the access control device can be communicated immediately after identification using the described modulation of the light sources, such that first information about the status is available prior to inspecting an access control device.

The modulation of the light emissions of the light sources for information transmission can be done in different ways. According to the invention, the information may be contained in the spatial distribution of the light sources, wherein at a given time predetermined light sources are active at predetermined locations. From this local distribution of the active light sources, the information can be extracted similarly to a bar code scan. In order to simulate the users a steady lighting of all light sources, the light pattern contained the desired information in a second time step, which has the same period as the first, are active in the given light sources at predetermined locations, exactly inverted, with active in the first step Light sources are disabled and vice versa. Although this measure introduces redundancy into the available modulation code space, only half of the combinations of activated and deactivated light sources can be used, but is at a high level Frequency ensures a homogeneous brightness impression of all light sources for the user. This is particularly important for the illumination of a boom to implement a homogeneous backlighting.

Alternatively or additionally, the modulation of the light emissions of the light sources for information transmission over the frequency or the wavelength of the emissions of the light sources take place. In this case, an information unit is assigned to each section in the frequency spectrum. The exact grading of the frequency ranges depends on the sensitivity of the receiver, the desired robustness and the amount of information to be transmitted; the larger the amount of information, the finer the gradation will be.

The frequency modulation can be combined with the spatial modulation. In this case, a simple combination can take place in which spatially modulated light emissions are additionally color-coded, so that the information that can be represented is a multiple of the information that can be represented by the spatial modulation, the multiplier being the number of possible color levels or spectral ranges of the frequency modulation. The representable information can be further increased if each individual light source can be assigned a frequency independent of the other light sources at any time.

mögliche Informationseinheiten darstellbar. Wenn gemäß der Frequenzmodulation eine einheitliche Farbcodierung aller Lichtquellen gemeinsam vorgegeben ist, so sind für jeden obigen Zustand m weitere Kombinationen möglich. Somit erhöht sich die Gesamtanzahl der Informationseinheiten auf X ₂ = m · 2 ⁿ .The amount of information represented by the methods described above at each instant can be calculated as follows. Let n be the number of light sources and m the number of distinguishable color gradations. A purely spatial modulation allows the representation of exactly two states per light source, namely ON or OFF. Thus are $${\mathrm{<figure-callout\; id="1"\; label="X"\; filenames="imgf0002.png"\; state="\{\{state\}\}">X</figure-callout>}}_1=2^n$$

possible information units can be displayed. If, according to the frequency modulation, a uniform color coding of all light sources is specified together, then further combinations are possible for each state m above. Thus, the total number of information units increases to X ₂ = m × 2 ⁿ .

If, according to the frequency modulation, the homogeneity of the light color of the individual light sources is not required, then each individual light source can have m + 1 Carry information units (one possible color level or OFF). Thus, with n light sources X ₃ = ( m + 1) ⁿ possible displayable information units at each moment.
Additionally or alternatively, a further, third degree of freedom can be introduced, namely the modulation of the light emissions of the light sources over time. In this case, an analysis of the transmitted information takes place over several time slots. In order to make this possible, however, a single image is no longer sufficient, but a defined synchronized image sequence or a video sequence is necessary. Thus, an information unit independent of all previous time slots can be displayed in each time slot. If one takes k time slots in a given observation interval, then the possible number of transferable information units multiplied by just this factor. Thus, depending on the chosen method, X ₄ = X ₁ * k = k * 2 ⁿ (temporal and spatial modulation), X ₅ = X ₂ * k = k * m * 2 ⁿ (temporal and spatial modulation combined with frequency modulation in the case of homogeneity the light color of the individual light sources) and X ₆ = X ₃ * k = k * (m + 1) ⁿ (temporal and spatial modulation combined with frequency modulation without homogeneity of the light color of the individual light sources) Possibilities of the information units per observation interval, provided that it is assumed there can only be one OFF state per time slot.

Within the scope of an advantageous development of the invention, the frequency of the light emissions of the light sources lies exclusively in a frequency spectrum which is invisible to humans (for example infrared> 800 nm or ultraviolet <400 nm), so that visible light patterns which could irritate the user are avoided. In this case, the access control device according to the prior art may additionally comprise further light sources in a frequency spectrum which is visible to humans and which, for example, have a traffic light functionality.

Another way to avoid light patterns that could irritate the user is that the information to be sent selectively changes in different successive time slots of an observation period, the possible representable information per time slot of the transmitted information in the previous belonging to the same observation period Timeslots depends. Here, the ON-OFF ratio of the light sources over the entire observation period at the end of the observation period for all light sources must be identical, whereby a homogeneous brightness or intensity of the surface shown is guaranteed. The exact number of OFF states is thus arbitrary, but must be identical for all light sources. Furthermore, all the spectral regions used must be used exactly once for all light sources in the observation period, so that, on average over the observation period, if the singular color change takes place sufficiently quickly for the human eye, a uniform mixed color results. In this way, a color and intensity uniformly illuminated surface is guaranteed at any time measured by the perception resolution of humans.

For the abstraction and estimation of the displayable information units per observation interval, the OFF state can be regarded as a special case of a spectral range (0 Hz), which, in contrast to the other spectral ranges, can be used several times since this is not the result of the resulting color, which is perceived by humans. contributes. The number of OFF states need only be the same for all light sources during the observation period. If k time slots are present in the observation period and m spectral ranges are available, then l = km OFF phases must be installed per observation period. Alternatively, even integer multiples of the m spectral ranges can be built in, because in the middle over the human observation horizon again the same mixed color is perceived. If, for example, k = 9 timeslots are present in the observation period and m = 4 spectral ranges are available, then either m = 4 timeslots with color information and l = km = 5 timeslots with OFF states, or 2 · m = 8 timeslots with color information and l = k-2 · m = 1 time slot to be filled with an OFF state. The resulting overall color is identical in both cases and the illumination is homogeneous in both cases, provided that the same frequency is used for all light sources. In the former case, however, the area appears darker than in the second case. In a real implementation, shorter observation periods will be chosen since the order of the spectral regions over the time slots represents an information difference, but not the order of several OFF states. Only the absolute positions of the OFF states between the color states are relevant. The OFF state can thus are considered to be a non-color joker, which should ideally only be used once per observation period to allow for efficient implementation. An estimation of the possible displayable information units with this method can be carried out as follows: In a first time slot, the full number of possible combinations results to T ₁ = ( m + l ) ⁿ ; In the following interval, one less opportunity results per light source, since either one of the OFF states or else one of the spectral regions in the preceding time slot was used. Thus, T ₂ = ( m + 1 - 1) ⁿ possible combinations now result. Finally, in the last timeslot only one possibility remains, namely T _k = (m + 1 - k + 1) ⁿ = 1 ⁿ = 1.

The total amount of transferable information units per time slot results from the product $$T_{\mathit{ges}}=\underset{k}{\Pi }{T}_k\mathrm{,}$$

Taking into account that the individual order of the OFF states is not relevant to the information content, the result must be replaced by L = l ! = (1 · 2 · 3 · ··· l ).

A special special case of the latter method are light sources that are designed as RGB LEDs. Here m = 3 spectral ranges are selected (red, green, blue) to mix any color. The adjustable in the context of a pulse width modulation light and dark phases of the individual colors, which are each generated by a single-color LED, define the resulting mixed color, the dark phases are crucial for the brightness of the mixed color. In existing systems, the exact position of the phases of the pulse width modulation to each other and the position of the dark phases in an observation period is not relevant, since only in total over the observation period, the light-dark phases for each light source must be chosen appropriately. If, in these existing systems, the pulse modulation phases are subdivided into small time slots, which in turn result in the observation period, and the light-dark phases of the individual colors are varied according to the method previously indicated, it is already possible with these systems Help the temporal location of the individual states (in this case red-green-blue-OFF) to send information to a photosensitive sensor. There are advantageously no structural changes, but only make adjustments in the control software.

• Figur 1: eine schematische Darstellung einer Zugangskontrollvorrichtung eines Zugangskontrollsystems für Fahrzeuge zur Veranschaulichung des erfindungsgemäßen Verfahrens; und
• Figur 2: eine schematische Darstellung einer gemäß einer weiteren Ausführungsform der Erfindung ausgeführten Zugangskontrollvorrichtung eines Zugangskontrollsystems für Fahrzeuge zur Veranschaulichung des erfindungsgemäßen Verfahrens.

The invention will be explained in more detail below by way of example with reference to the attached figures. Show it:

• FIG. 1 a schematic representation of an access control device of an access control system for vehicles to illustrate the method according to the invention; and
• FIG. 2 : a schematic representation of an executed according to another embodiment of the invention access control device of an access control system for vehicles to illustrate the method according to the invention.

In FIG. 1 an access control device for vehicles is shown, comprising a parking column 1 and a barrier boom 2. According to the invention, in the example shown, the incoming vehicles facing side of the barrier boom 2 several LEDs 5, the light emissions in terms of frequency and / or spatially and optionally additionally can be modulated in time, whereby the access control device sends information that can be received and demodulated by a mobile electronic device 4 comprising a camera; the information sent by the access control device includes a unique ID of the access control device used to control the access control device in response to data communicated from the mobile electronic device 4 to the access control system. In the figure, the activated LEDs are dark.

In this case, the camera of the mobile electronic device 4 creates a single image, a single image sequence at a defined time interval or a video, which contain the transmitted information, which is demodulated and evaluated by means of suitable software in the mobile electronic device 4.

In this case, the LEDs 5 are designed and / or arranged and / or shielded in such a way that the light emissions can be received in a defined area around the access control device, in which only one vehicle can be located under normal operating conditions. If a vehicle-mounted mobile electronic device 4 can receive the light emissions, the vehicle is located in the access lane 3 just before the transition between the area covered by the access control system and the area not covered by the access control system.

After the demodulation of the information and receipt of the ID by the mobile electronic device 4, information is transmitted via a communication channel to the access control system containing the ID of the access control device and identification data of the user carrying the mobile electronic device 4 comprising at least one unique ID the user or the mobile electronic device, wherein the barrier tree 2 of the access control device, which has sent the information received from the mobile electronic device 4, is operated in the opening sense, when entering the area covered by the access control system based on the ID of the user or the mobile electronic device the user is identified as a registered user or if it is uniquely identifiable based on the user's identification data, or if, upon leaving the area covered by the access control system, the required premises are not identified a payment has been made to a registered user by debiting his customer account or a credit card and to an unregistered user by cash or credit card payment, with a registered user paying the fee automatically and an unregistered user making the payment the ID of the user or the mobile electronic device is read or transmitted via an app to the access control system. In FIG. 1 is denoted by 6 a server of the access control system to which the communication channel transmitted by the mobile electronic device 4 information is transmitted. The at least one access control device of the access control system is connected to the server 6 and technically controllable by this. According to one embodiment of the invention can over the Communication channel between the mobile electronic device and the access control system to the app the information to be transmitted, whether a single frame, a frame sequence at a defined time interval or a video to be created.

As an alternative to providing the LEDs 5 on the boom, the LEDs 5 may be provided on the incoming vehicles side facing a parking column 1, as shown FIG. 2 illustrated in which the barrier boom is not shown. In the FIG. 2 are analogous to example after FIG. 1 the activated LEDs are shown dark.

Claims (10)

Method for access control in an access control system for persons or vehicles comprising at least one access control device, characterized in that from the at least one access control device information by means of a targeted modulation of the frequency and / or a spatial modulation and optionally additionally by means of a temporal modulation of light emissions of a predetermined number from light sources (5) receivable and demodulated by a mobile electronic device (4) comprising a camera, the information transmitted by an access control device including a unique ID of the access control device used to control the access control device in dependence on a mobile electronic device (4) which receives the transmitted information to control data transmitted to the access control system. Access control method according to claim 1, characterized in that the light sources (5) are designed and / or arranged and / or shielded in such a way that the light emissions can be received in a defined area around the access control device in which only access is provided to an access control device for persons a person and, in the case of a vehicle access control device, only one vehicle, after receipt of the ID by a mobile electronic device (4) via a communication channel to the access control system transmitting information indicating the ID of the access control device and identification data of the user using the carrying mobile electronic device (4), comprising at least one unique ID of the user or the mobile electronic device (4), wherein a blocking member of the access control device, which has sent the information received from the mobile electronic device, in the Öf is sensed when entering the area covered by the access control system based on the ID of the user or the mobile electronic device (4) the user is identified as a registered user or based on the identification data of the user this is clearly identifiable or when leaving the access control system covered area have been paid by a registered user by debiting his customer account or a credit card and an unregistered user by cash or credit card payment, with a registered user, the payment of fees automatically and at an unregistered user in the Payment the ID of the user or the mobile electronic device (4) is read or transmitted via an app to the access control system. Access control method according to claim 1 or 2, characterized in that by the camera of the mobile electronic device (4) a single image, a frame sequence in a defined time interval or a video are created, which contain the transmitted information, which demodulated by means of suitable software and be evaluated. Method for access control according to Claim 1, 2 or 3, characterized in that the information sent by the at least one access control device contains, in addition to the unique ID of the access control device, further information, in particular location or event-related information. Access control method according to claim 4, characterized in that when a user is identified on the basis of the transmitted ID of the mobile electronic device (4) as a member of the technical support, immediately after the identification status information is transmitted via the access control device, so that before inspecting a Access control device first information about the status. Method for access control according to one of the preceding claims, characterized in that the frequency of the light emissions of the light sources (5) lies exclusively in a frequency spectrum which is not visible to humans. Access control method according to one of the preceding claims 1-5, characterized in that the information to be sent in different the possible displayable information per time slot depends on the transmitted information in the preceding time slots belonging to the same observation period, wherein the ON-OFF ratio of the light sources (5) over the complete observation period at the end of the observation period for all Light sources (5) is identical, whereby a homogeneous brightness or intensity of the surface shown is guaranteed, the exact number of OFF states for all light sources (5) is identical, all spectral ranges used in the observation period for all light sources (5) exactly be used once, so that averaged over the observation period, if the change for the human eye sufficiently fast, results in a uniform mixed color. Access control system for persons or vehicles comprising at least one access control device, characterized in that the arriving persons or vehicles facing side of the at least one access control device has a plurality of light sources (5) whose light emissions are modulated in terms of frequency and / or spatially and optionally additionally in time for information transmission in which information can be transmitted by means of the modulation which can be received and demodulated by a mobile electronic device (4) comprising a camera, wherein the light sources (5) are designed and / or arranged and / or shielded such that the light emissions are defined Receive area around the access control device in which in an access control device for persons only one person and in an access control device for vehicles only one vehicle can be located and the from an access control device g information is a unique ID of the access control device usable for controlling the access control device in response to data transmitted to the access control system from the mobile electronic device (4) receiving the sent information. Access control system for persons or vehicles according to claim 8, characterized in that in an access control system for vehicles, the at least one access control device of which is a barrier boom (2). comprises, the incoming vehicles facing side of the barrier boom (2) has a plurality of LEDs, the light emissions with respect to the frequency and / or spatially and additionally optionally temporally modulated. Access control system for persons or vehicles according to claim 8, characterized in that in an access control system for persons the at least one access control device has a display, the backlight in terms of frequency and / or spatially and additionally optionally temporally modulated or that in an access control system for persons one incoming persons facing side of the at least one access control device has a plurality of LEDs, the light emissions with respect to the frequency and / or spatially and additionally optionally temporally modulated.

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