FR3021797A1 - SYSTEM AND METHOD FOR TOLL MANAGEMENT AND PARKING. - Google Patents

Abstract

Highway toll system and / or car park, comprising: - at least one toll terminal (B1, B2) equipped with a toll gate (11) and an optical code reader (12), - at least a laptop (S), in particular of the smartphone or tablet type, having a screen (E), the portable computer (S) being connectable to the Internet and to a geolocation system, - a mobile application downloadable on the laptop ( S) and capable of generating, on the screen (E) of the portable computer (S), a unique visual code (QR) which is remotely readable by the optical code reader (12), and - means of lifting (L) of the toll gate (11) in response to the reading of the visual code (QR) by the optical reader (12).

Description

1 The present invention relates to a motorway toll system and / or parking, and more generally to any place accessible to motor vehicles and equipped with a toll terminal including a toll barrier that is raised after validation and / or payment.

Toll highways are usually provided with toll gates where motorists must stop to take a toll ticket. This ticket includes data or information relating to the name of the entrance terminal that issued the ticket, and the time of passage. Upon the recovery of the toll ticket at the terminal, appropriate means control the lifting of the toll barrier so that the motorist can begin his journey on the toll motorway. When the motorist wants to leave the highway at an exit, he must go through a toll exit terminal at which he must present his toll ticket to an operator or an automatic machine that will determine the amount to pay. The payment of the amount can be made in cash or using a credit card. The payment orders the lifting of the toll gate, and the motorist can definitely leave the highway portion. This is the most conventional toll management system or method that can be found on motorways, particularly in France. On highways, there are also unique toll terminals to which the motorist must pay a predetermined amount to be able to perform a predetermined portion of road. This is the case for tolls for bridges, tunnels, or more generally for particular structures. There is also a motorway toll system, referred to as "electronic toll collection", which allows a motorist to pass a dedicated toll terminal equipped with a detector for detecting a signal emitted by an on-board box on board. a vehicle. With this system, the driver does not need to stop at the tollbooth, but simply to slow down the passage of the detector. However, this system requires the establishment of a transmitter box in the vehicle and the payment of a subscription to the company of Télépéage. As a result, this system is not very popular, with only certain company vehicles being equipped. In the prior art, we also know the toll terminals of 5 car parks that issue an entry ticket that is used at the exit of the car park to make the payment of the amount. The parking toll is similar to the highway toll system equipped with toll entrance and exit terminals. The present invention aims to get out of the known toll systems to propose a toll system that is both faster, simpler, less restrictive, and accessible to the greatest number. To achieve these aims, the present invention proposes a motorway toll system and / or car parks, comprising at least one toll terminal equipped with a toll barrier and an optical code reader, at least one portable computer. , including smartphone or tablet type, having a screen, the laptop is connectable to the Internet and a geolocation system, a mobile application downloadable on the laptop and able to generate on the screen of the laptop , a unique visual code which is remotely readable by the optical code reader, and means for lifting the toll gate in response to the reading of the visual code by the optical reader. So to speak, the traditional toll ticket is replaced in the present invention by a unique visual code displayed on a smartphone or tablet screen and which is detected or read by an optical code reader installed at the toll terminal. . Of course, the generation of unique visual code on the smartphone screen can only be done by appropriate software, in this case a mobile application, which is downloadable on the Internet. At the toll terminal, the only additional equipment is the optical code reader, the reading of which is used to control the lifting of the toll gate. According to a particularly advantageous feature of the present invention, the application is able to generate a visual code 3021797 3 only when the laptop is located by the geolocation system at a predetermined distance from the toll terminal. In short, the visual code is generated only near the toll terminal. This has several advantages. First, the geolocation is active only at the toll terminal, and not permanently, which preserves the autonomy of the laptop. Indeed, the geolocation is a system is extremely energy consuming, which exhausts the batteries of the laptop very quickly. By limiting the activation of the geolocation at each toll terminal, the use of the laptop battery is very considerably limited. This requires of course a geolocation prior to all toll terminals. Then, another advantage is of a security nature, since the motorist knows that he can not use his toll payment application other than at the tollgate. This prevents him from being occupied by his laptop as he rolls towards the tollgate. On the other hand, the geolocation of the laptop only at the tollgate gives an indication that the laptop is at the toll terminal, and not near or far. The predetermined distance may be of the order of a few tens of meters. According to a practical aspect of the present invention, the application may include means for requesting a visual code that activate the geolocation of the laptop and displays the name of the toll terminal in case of geolocation of the mobile phone. notebook at a distance less than or equal to the predetermined distance. Then, the application may include visual code display request means, in case of geolocation enabled, to display the visual code on the screen of the laptop. The visual code may contain data relating to the denomination of the toll terminal, and the date and time of generation of the visual code. The unique visual code thus generated on the computer screen is then presented by the driver or optical code reader, who detects or reads it remotely. The presentation of the unique visual code 3021797 4 can even be carried out through the windshield or the window of the vehicle. Thus, the user does not even need to lower his window to read his unique visual code. According to a common implementation, the system may comprise at least one toll entrance terminal and a toll exit terminal separated by a road portion, the mobile application generating a visual input code at the level of the roadway. input terminal for raising the toll barrier and a visual output code at the output terminal, the output visual code being correlated with the input visual code to determine the path traveled between the input terminals and output and / or the time between generations of visual input and output codes, in order to set the amount to be paid. This is a classic configuration with entry and exit points for tolls on motorways and car parks. The unique visual code issued at the entrance makes it possible to lift the entrance toll barrier and the output visual code issued to the output terminal is correlated with the input visual code to set the amount to be paid. Advantageously, the mobile application, before the generation of the output visual code, performs at least one verification operation among the geolocation activation, the existence of an output terminal near the laptop, the terminal of output is different from the input terminal, the distance traveled is compatible with the duration of the trip. In a traditional way, the visual code can act as a ticket for traditional payment in cash or credit card. In a more elaborate variant, the system may comprise a database connected to the mobile application, this database storing personal and banking information of the user of the laptop, so that reading of the visual code by the optical reader triggers the consultation of the database and the immediate payment of the amount to be paid. In this case, the system is close to that of the "electronic toll", since the reading of the visual code implies the immediate payment of the amount to be paid. The invention also defines a method for toll management of motorways and / or car parks, comprising generating a unique visual code 3021797 on a laptop screen connected to the Internet and to a geolocation system, to read the unique visual code remote by means of an optical code reader, and lift a toll barrier in response to reading the visual code. Advantageously, the method includes geolocating the computer near the optical drive, and then only generating the visual code. The spirit of the invention is to use current technologies accessible to the greatest number to generate a unique visual code that will replace the traditional toll ticket. The geolocation of the portable computer and the predetermined distances or near the toll terminal is a particularly advantageous feature of the invention. The invention will now be further described with reference to the accompanying drawings, giving by way of non-limiting example, an embodiment of the invention.

In the Figures: Figure 1 is a schematic view showing a highway toll system according to the invention, and Figure 2 is a flowchart illustrating the mode of use of the mobile application of the invention.

The invention is easily adaptable to all toll terminals, whether inbound or outbound, or whether they are motorways, car parks, bridges, tunnels, etc. The general design of the existing toll terminals can be preserved, the present invention only being grafted on these existing terminals. To illustrate the present invention reference has been made to highway toll entry and exit terminals. The present invention implements or uses a laptop, which will most often be in the form of a smartphone, because of its very wide distribution, its high mobility and its ease of manipulation, with the help of one hand. In the remainder of the description, reference will be made only to the smartphone as a portable computer.

The present invention also uses an optical code reader, which may for example be in the form of a compact housing installed at the input terminal of the output terminal. The present invention also implements a unique visual code, which may be in any suitable form, and particularly in the form of a QR code, which is a two-dimensional type of bar code, or a data matrix code -matrice, consisting of black modules arranged in a square with a white background. The arrangement of these points defines the information contained in the code. QR (short for Quick Response) means that the content of the code can be decoded quickly after being read by a barcode optical reader, a mobile phone, a smartphone or a webcam. Its advantage is to store more information than a traditional barcode. In the remainder of the description, reference will be made only to the QR code, as a unique visual code.

Referring to FIG. 1, there is schematically a portion of motorway A that separates two toll terminals, namely an input terminal B1 located upstream and an output terminal B2 located downstream. Each terminal B1, B1 is equipped with a tollgate 11 disposed downstream of the terminal, which is controlled by lifting means L. This barrier can be of a completely conventional type, that is to say said liftable by pivoting about a fixed axis. According to the invention, each terminal B1, B2 is also equipped with an optical code reader 12 which is capable of reading or detecting a remote QR code. The range of the reader 12 may for example be of the order of 1 meter. The more precise technical specifications will be given hereinafter for a particular model of reader 12. Exit terminal B2 also comprises means of payment 13, which may be traditional, or linked to a database B which will be detailed here. -after. At the input terminal B1, there is seen a vehicle V whose driver (or passenger) is equipped with a smartphone S comprising a screen E on which a unique visual code can be displayed, in this case a QR code. The vehicle V is positioned at the input terminal B1 of 3021797 7 so that the smartphone S can be presented to the code reader 12 so that it detects the QR code displayed on the screen E. The driver can by For example, he does not even have to lower his window. After reading the QR code 5 by the reader 12, this triggers a control signal that triggers the lifting means L of the tollgate 11. The driver of the vehicle V can then engage on the portion of the motorway A in the direction from the B2 output terminal. In FIG. 1, two zones Z delimited by a large dashed circle can also be seen. These zones Z represent the zone in which the smartphone S of the vehicle can be geolocated by a geolocation system G, for example of the GSM type. In this case, the Z zones are located in the direct vicinity of the B1 and B2 terminals and cover a field whose diameter is of the order of a few tens of meters maximum.

Preferably, zone Z is located close to terminals B1 and B2, in order to limit the geolocation field and to prevent drivers from consulting their smartphone S while they are driving. The present invention implements a mobile application downloadable from the Internet by the user of the smartphone S. It can be said that this mobile application is the heart of the present invention. Indeed, it is she who manages the interactions between the different technical elements, presents the information to the user of the smartphone and especially generates the QR code. The different functionalities of the mobile application of the invention will now be presented in detail.

The mobile application is intended to simplify the passage of motorway tolls. It provides smartphone owners with a quick and easy way to generate QR codes as an alternative to traditional tickets. The application interacts with optical code readers installed on the highway toll terminals which are able to read QR codes generated from the application. The mobile application is simple, intuitive and fast to use. The user will be able to enter his personal and banking information in order to be able, in the long term, to make the passage and the payment simultaneously when he arrives at a terminal of a toll without opening the window. This information will only be entered once and will be editable at any time. The main function of the application is the possibility of being geolocated in order to be able to generate an input or output QR code enabling the user to cross the toll terminals equipped with optical readers. At first, the user can use the application to replace the toll ticket, while making a payment by credit card as with the ticket. The user will also be able to consult his mobile application passage history. When the application is first launched, the general conditions of use are displayed: they are intended to define the methods for making the services provided by the mobile application available. Any access and / or use of the mobile application assumes the acceptance and respect of all the terms of these conditions and their unconditional acceptance. They therefore constitute a contract between the service and the user. Referring now to Figure 2 which shows schematically the different services and steps of the mobile application.

20 The welcome screen appears after the acceptance of the general conditions of use at the first launch. Two choices are available: My Account: provides access to his personal information, as well as his history of use. Obtain an entry ticket: allows you to geolocate at the 25 nearest the entry barrier and activate the identification of the terminal. Before pressing this button, make sure to be closer to the toll station, otherwise the Smartphone will signal you with an AlertView (pop-up). This screen changes appearance according to the steps. The input process is, for example, yellow. After having validated on the screen "Obtain an entry ticket", the application geolocates the user and displays 3021797 9 the nearest toll station (example above). The user validates "Show my ticket" and directly generates an input QR code. If the geolocation is not activated on the phone, then an AlertView (popup) will ask the user to activate it.

5 The QR code is used to lift the toll barrier. The bottom of the QR code, invisible to the eye, is different depending on whether the generated code is of type "Input" or "Output". A code contains the following data: ID-Code of the input terminal (name of the terminal), date and time of passage. These data also make it possible to configure the history. The generated QR code is a unique identifier for each ticket, any user confused. Once a valid input QR code has been generated, the screen changes to be able to generate the output process. The converse is also true: when a valid output code is generated, the screen changes to be able to generate a new input process. This screen appears after having validated the entry ticket (QR code). It has 2 choices: 20 Obtain an exit ticket: allows you to geolocate closer to the exit barrier and activate the identification of the terminal. Before pressing this button, make sure to be closer to the toll station, otherwise the Smartphone will signal you with an AlertView (pop-up).

25 See entry ticket: allows, in case of any problem, to be able to display its last ticket again. Attention, once the exit ticket generated, this option is no longer possible. After having validated on the screen "Obtaining an exit ticket", the application geolocates the user and displays the nearest toll station (example above). The valid user "Show my ticket" and 3021797 10 directly generates an exit QR code. If geolocation is not enabled on the phone, then an AlertView (pop-up) will prompt the user to activate it. The output process is for example green.

5 It is impossible to get out at the same toll station as the one at the entrance. During an exit code, it encrypts well the code of the input terminal because it is she who will define the amount of the journey traveled. When generating the exit code, a cross check 10 makes it possible to validate the coherence of the path carried out since the generation of the input code. Here are the possible verification steps before generating a code: geolocation enabled 15 user account creates existence of a terminal near the user output terminal different from the input terminal before displaying the code, checking that the distance between the terminals could be traveled in the time interval separating the two generations of code. Once the valid exit code is generated, the screen changes to generate a new input process. In the "My Account" section, the user has access to his personal and banking information. Banking information is not required for the proper functioning of the application. The user first provides his personal information (Name, First Name, Address, etc.), and in the future its banking information (type of credit card, credit card number, name of the owner of the card). The credit card number is encrypted, for example with the AES 256 encryption algorithm, and is stored in the local database B. All other banking and personal information is also stored in this database B without being encrypted. . The user also has access to his usage history. It is expected that the banking data will be used in the QR code to have only one action to be done at the entrance and exit, 5 without having to open the window of his car. For this to be possible, the application must be validated by the banking systems and PCI DSS compliant. If the payment is accepted, it will be necessary to be able to register two credit cards and to select the card to be used for the trip. This option will be useful in several cases, as for users with a professional bank card. A bill "invoice" will be sent automatically by email, previously informed in the personal information. In order to ensure that the application information is not compromised or used incorrectly, several security rules have been put in place. The generations of entry and exit tickets are automatically alternated. When an exit code is generated, it is verified that the exit toll terminal is different from the input terminal. Then, the application ensures that the geolocation is activated and that the user is located closer to a toll terminal. Finally, a final check is made to check the consistency of the path made from the input code. With regard to the optical code reader, the Matrix 300TM, which is an ultra-compact reader-imager based on a 25 barcode reading, designed for high-speed applications and direct part marking ( Direct Part Marking). The Matrix 300TM perfectly combines a high-resolution sensor with ultra-fast image acquisition: 1.3 megapixels, 60 frames per second. The optical system incorporates a liquid lens module for electronic focus controls. It is therefore completely harmless to the eye, which allows the reader to offer an automatic focusing adjustment without the addition of moving parts. Technical specifications are as follows: 3021797 12 Ultra-compact reader-High performance DPM playback Electronic control of liquid lens focusing Integrated dual illumination: Black background / Bright background High resolution and ultra fast image sensor: 1.3 5 Megapixels, 60 images / s "real" -High quality Ethernet option Extreme industrial quality: IP67, operating temperature between 0-50 ° C Precision dual laser aiming system Data filter for better security 10 The invention has been explained with reference to a highway toll including an entrance terminal and an exit terminal. However, the invention also applies to parking tolls and unique tolls including only one terminal. Thanks to the invention, it is possible to generate a virtual ticket (visual code) on its smartphone which serves to lift the toll barrier, and possibly to pay the amount to be paid.

Claims (11)

CLAIMS1.- toll system for motorways and / or car parks, comprising: at least one toll terminal (B1, B2) equipped with a toll gate (11) and an optical code reader (12), at least one portable computer (S), in particular of the smartphone or tablet type, having a screen (E), the portable computer (S) being connectable to the Internet and to a geolocation system, - a mobile application downloadable on the portable computer (S) and adapted to generate, on the screen (E) of the portable computer (S), a unique visual code (QR) which is readable remotely by the optical code reader (12), and - lifting means (L) of the toll gate (11) in response to reading of the visual code (QR) by the optical reader (12). 2.- toll system according to claim 1, wherein the application is able to generate a visual code (QR) only when the laptop (S) is located by the geolocation system at a predetermined distance from the terminal of toll (B1, B2). 3.- toll system according to claim 2, wherein the application comprises means for requesting a visual code (QR) that activate the geolocation of the laptop (S) and displays the name of the toll terminal (B1, B2) in case of geolocation of the portable computer (S) at a distance less than or equal to the predetermined distance. 4.- Toll system according to claim 3, wherein the application comprises visual code display request means (QR), in case of geolocation enabled, to display the visual code (QR) on the screen ( E) of the laptop (S). 3021797 14 A toll system according to any one of the preceding claims, wherein the visual code (QR) contains data relating to the denomination of the toll terminal (B1, B2), and the date and time of generation. visual code. 5 6.- toll system according to any one of the preceding claims, comprising at least one tolling input terminal (B1) and a toll exit terminal (B2) separated by a road portion (A), the mobile application generating a visual input code at the input terminal (B1) to raise the toll barrier (11) and a visual output code at the output terminal (B2), the visual code The output is correlated with the input visual code to determine the path traveled between the input (B1) and output (B2) terminals and / or the time between generations of the input and output visual codes. , in order to fix the amount to be paid. 7. A toll system according to claim 6, wherein the mobile application, before the generation of the output visual code, performs at least one verification operation among: - the activation of geolocation, - the existence of an output terminal (B2) close to the portable computer (S), - the output terminal (B2) is different from the input terminal (B1), - the path traveled is compatible with the duration of the path. 25 8.- toll system according to any one of claims 1 to 7, comprising a database (B) connected to the mobile application, this database (B) storing personal and banking information of the user of the laptop (S), so that reading of the visual code (QR) by the optical reader (12) triggers the consultation of the database (B) and the immediate payment of the amount to be paid. 3021797 15 9. A method for toll management of motorways and / or car parks, characterized in that it comprises the following steps: generating a unique visual code (QR) on a screen (E) of a portable computer (S) connected to the Internet and to a geolocation system, - read the unique visual code (QR) remotely by means of an optical code reader (12), and - raise a toll barrier (11) in response to the reading of the visual code (QR). 10 10. The method of claim 9, comprising the step of geolocating the computer near the optical reader (12), then only to generate the visual code (QR). 15 11.- Using the visual code (QR) generated by the toll system according to any one of the preceding claims as a ticket for the traditional payment in cash or credit card.