The invention relates to a secure entry system.
Secure entry systems are used in a wide variety of applications to control access to buildings, rooms, sports stadia, countries and the like. A typical secure entry system comprises authorisation apparatus including a reader for reading data from a record medium presented to the reader by a user.
In many situations, particularly border controls, sports stadia and the like, a secure entry system is commonly required to process a large number of users in as short a time as possible. This might occur at an airport, for example, where a number of planes arrive at similar times and all passengers need to be securely processed and admitted (or not) into the country. Other examples include secure entry systems to stadia for sporting events where again a large number of people need to be securely authorised in a short time.
Known secure entry systems have been implemented but often they fail to successfully authorise a user and the user then has to be redirected to a manual authorisation station. This slows down the authorisation process and requires multiple staff members to be available to assist users.
There is therefore a need to improve such secure entry systems to increase the rate at which they can authorise users and thus speed up the overall authorisation process while reducing the number of times a manual authorisation has to be performed.
In accordance with a first aspect of the present invention, a secure entry system comprises authorisation apparatus including a reader for reading data, and a record medium, wherein the record medium is presented to the reader, and characterised in that the reader and the record medium or a member connected to the record medium include one or more pairs of visible and/or tactile markings which, only when the record medium is correctly presented to the reader, cooperate with one another in a predetermined manner.
The inventor has realised that one of the problems with the use of conventional secure entry systems is that readers require the record medium to be presented to them in a particular orientation without significant tolerance and it is often difficult for a user to achieve this. The user may be unfamiliar with the reader or may not realise that although they have presented the record medium in an apparently acceptable manner, it is not sufficiently well presented for the reader to read data from it.
A further advantage is that the markings can easily be added to otherwise conventional readers and record media.
By including one or more pairs of markings, one of each pair on the record medium or member connected to the record medium, and the other on the reader, it becomes much easier for a user to correctly present the record medium to the reader by simply checking that the markings cooperate with one another in the predetermined manner.
If visible markings are used they may or may not also be tactile, while if tactile markings are used, they may or may not be visible. In most cases, a pair of markings will be of the same type—visible or tactile but in other examples one may be visible (and optionally tactile) while the other is tactile and not clearly visible. A tactile marking may not be visible if it is formed of a clear embossing or the like.
In a very simple application, the “data” that is read from the record medium is simply the presence or otherwise of indicia or an object, such as an electronic chip, in or on the record medium. This provides a relatively low level of authorisation.
In more sophisticated examples, the authorisation apparatus further comprises an input device for detecting information about a person presenting the record medium, and an analyser for comparing the detected information with the read data, such as biodata, and for allowing entry if a satisfactory comparison is achieved. This provides a higher level of authorisation in that the person presenting the record medium is authorised rather than simply acknowledging the possession of the record medium. Such embodiments can be used in the context of geographical border controls and the like.
In some embodiments, the authorisation apparatus is adapted to determine whether the markings cooperate with one another in the predetermined manner. For example, the apparatus could include an imaging device for detecting images of visible markings and then checking for the correct cooperation.
In preferred embodiments, however, the cooperation, between the pair of markings is visible and/or detectable by touch to the person presenting the record medium. This presents a lower cost approach but also enables the cooperation to be checked quickly and conveniently by the person presenting the record medium.
In the simplest embodiments, a single pair of markings is provided but occasionally this can lead to ambiguities if, to the relatively unskilled user, the markings appear to be correctly cooperating when in fact the orientation of the record medium is not correct. This problem can be significantly reduced if each of the reader and record medium or the member connected to the record medium is provided with at least two pairs of visible and/or tactile markings, the members of each pair cooperating together in a predetermined manner when the record medium is correctly presented to the reader. By having at least two pairs of markings, it will only usually be possible to present the record medium in a single orientation to the reader to achieve the desired cooperation.
In some cases, the members of each pair of markings are identical. This makes production of the markings on the reader and record medium or member connected to the record medium a simple task and has the benefit of users easily recognizing the markings for what they are. However, in order to reduce the risk of misorientation, in preferred examples, the members of each pair of markings differ from the members of the or each other pair of markings so as to introduce an asymmetry. This will mean that a number of unique pairings will be achieved which can be easily detected by the user. The markings could differ by being mirror images of one another, having the same shape but different colours, having the same colour but different shapes, or being in the form of alphanumeric characters spelling a word, or other known pairings of symbols.
The markings may differ from one another in a variety of ways including one or more of colour, shape, surface texture, size and/or graphic design.
Visible markings may also be or incorporate security devices such as holograms, security inks, perforations and embossings.
The predetermined manner in which the visible markings cooperate is preferably based on their relative geometric location, typically being arranged side by side when a record medium is correctly positioned relative to the reader. In other examples, the markings could be vertically aligned. This could be achieved if one of the markings (typically visible) is provided in or adjacent a transparent or semi-transparent part of the record medium or member connected to the record medium allowing the other marking to be viewed.
In one example, the reader includes a border region extending alongside a record medium presenting region, the border region having one of the or each pair of markings so that when the record medium is correctly presented on the record medium presenting region, the corresponding pairs of markings are aligned with one another. Typically, the record medium is slid along the presenting region to bring the markings into alignment or alternatively the record medium can be simply placed down onto the presenting region.
Examples of record media include identification cards, driving licenses, visas or page of a security booklet such as a passport. In the latter case, one member of the or each pair of visible markings may be provided on an outer surface of a cover of the security booklet.
In particularly preferable embodiments, at least one of the one or more pairs of visible and/or tactile markings are substantially invisible when illuminated by a natural light, and become visible when illuminated by a light having a wavelength outside the visible wavelength range, and the authorisation apparatus further comprises a light source configured to illuminate said at least one of the one or more pairs of visible and/or tactile markings with light having the wavelength outside the visible wavelength range. Preferably, the light having a wavelength outside the visible wavelength range is a light having a wavelength in the ultraviolet wavelength range. In one example, the light source is an illuminating hood configured to illuminate at least the reader.
In embodiments having markings that are substantially invisible in natural light, it is preferable that the markings are only made visible when the record medium is brought close to the reader. Therefore, preferably the authorisation apparatus further comprises a sensor configured to sense one or more of a person presenting the record medium and the record medium presented to the reader, and a controller configured to switch on the light source in response to the sensor sensing one or more of the person presenting the record medium and the record medium presented to the reader. Alternative embodiments are foreseen in which, for example, the intensity of the light source is increased and decreased instead of the light source being switched on and off.
In embodiments having markings that are substantially invisible in natural light, the or each pair of markings included on the record medium or the member connected to the record medium may be substantially invisible when illuminated by a natural light, and the or each pair of markings included on the reader substantially visible when illuminated by natural light. Alternatively, all of the one or more pairs of visible and/or tactile markings may be substantially invisible when illuminated by a natural light, and become visible when illuminated by a light having a wavelength outside the visible wavelength range.
In accordance with a second aspect of the present invention, we provide a record medium for use in a secure entry system according to the first aspect of the invention, the record medium or a member connected to the record medium including one or more pairs of visible and/or tactile markings which, when the record medium is correctly presented to the reader of the secure entry system, cooperate with a corresponding member in the reader in the predetermined manner.
In accordance with a third aspect of the present invention, we provide a security booklet for use in a secure entry system according to the first aspect of the invention, the security booklet including a record medium incorporating secure data such as biodata, the security booklet having a cover on an outer surface of which one member of one or more pairs of visible and/or tactile markings is provided such that when the record medium is correctly presented to the reader of the secure entry system, the member will cooperate with the other member of the marking pair on the reader in the predetermined manner.
In accordance with a fourth aspect of the present invention, we provide authorisation apparatus for use in a secure entry system according to the first aspect of the invention, the apparatus including a reader for reading data from a record medium presented to the reader, the reader including one member of one or more pairs of visible and/or tactile markings which, when a record medium is correctly presented to the reader, cooperates with the other member of the pair of visible and/or tactile markings on the record medium or a member connected to the record medium in the predetermined manner.
Some examples of security entry systems according to the invention will now be described with reference to the accompanying drawings, in which:—
A typical secure entry system for authorising entry at a geographical border is shown schematically in
The reader 4 outputs signals, representing biodata read from a passport 10 presented to it, to a control processor 12 located in the housing 1. Image data from the camera 3 representing the image of the face of a person 14 is also fed to the control processor 12 which then makes a comparison of the image data from the person 14 presenting the passport with the biodata read from the passport and, if a sufficient match is obtained, causing a pair of doors 16 to open and allow the user to pass through.
The reader 4 includes an upper surface 20 comprising an opaque border region 22 extending around three sides and a central, transparent region 24 defining a record medium presenting region made of plastic or glass. A passport 10 is placed by the user on the region 22, part of which is located in the slot 5 of the housing 1. Information on a data page in the passport is read by the reader 4 through the transparent region 24. It is therefore important to ensure that the passport is correctly aligned to enable that data to be read.
A typical passport construction is shown in
In order to achieve correct alignment, the cover 30 on its outer surface and the border region 22 of the reader 20 are provided with at least one cooperating pair of visible markings (not shown in
In the example shown in
The second pair of visible markings 52 comprises a pair of white dots 52B on the left hand side of the opaque border region 52 and a pair of white dots 52A on the left hand side of the passport cover 30.
When the passport 10 is correctly aligned with the reader, the two pairs of visible markings 50,52 are arranged in the (predetermined) manner shown in
It will readily apparent that there are many different combinations of visible markings which can be used.
In
In the example of
In each example, the two pairs of markings 50,52; 56,58; 60,62; and 56,62 differ from one another so reducing the risk of misalignment. However, it would be possible to use just one pair of markings or more than one pair of identical markings. In addition, within each pair the markings may be the same (
In all these examples, the markings have been provided on the sides of the passport 10 and border region 22. In addition, or alternatively, a marking could be provided on the part of the housing above the slot 5 with a cooperating marking on the cover at a position such that the two markings are aligned when the passport is fully inserted into the slot. This is shown in dashed lines in
In these examples, the markings are distinguished by their shapes and in each case the markings in each pair are mirror images of one another.
There are many other ways in which different markings could be provided, particularly by using different colours, graphic designs, alphanumeric characters, etc.
Finally,
While the markings of the above examples are described as visible markings, in other embodiments the markings on either or both of the reader and the record medium may be invisible when viewed under normal lighting conditions, and become visible when viewed under light having a wavelength outside of the visible wavelength range, and further, may become visible when the record medium is presented to the reader.
For example, the embodiment of
In further examples, the surface texture of the markings could be used to distinguish between them and determine the required cooperation. The surface texture of the markings could be varied by using gloss/matt inks or varnishes, tactile inks such as those described in WO2009106799, or embossing directly into the surface of the substrate or into a coating applied onto the substrate.
The markings can be provided on the cover 30 of the passport in any conventional manner including printing, embossing, foil transfer, laser marking, perforations either produced mechanically or by a laser and the like. The markings on the opaque border 22 of the reader can also be provided by printing or coating, moulding, laser marking etc.
In the examples described so far, markings have been shown provided on the passport cover 30. In other examples, markings could be provided on the data page 34 or any other designated page and this will depend on the nature of the reader. In the case of identification cards, the markings will be provided directly on the cards themselves.
Number | Date | Country | Kind |
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1410446.7 | Jun 2014 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/GB2015/051682 | 6/9/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2015/189594 | 12/17/2015 | WO | A |
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