METHOD FOR CONTROLLING A NETWORK OF DYNAMIC FLIP DEVICES AND CONFIGURED GUIDE SYSTEM FOR IMPLEMENTIN

专利摘要:
The subject of the invention is in particular a method of controlling a network of dynamic signaling devices, comprising the following steps: - Step E1: Collection of the destination (D) of a user (U), - Step E2: Detection of the user (U) in a detection perimeter of a determined dynamic signaling device (10), - Step E3: Comparison of the destination with respect to the position and to a coverage area (Z1, Z2, Z3, Z4, Z5) of the determined dynamic arranger (10), when the destination (D) is outside the coverage area (Z1, Z2, Z3, Z4, Z5) of the determined dynamic arranger (10), a route is determined by choosing at least one dynamic signaling device (10) of the network that will relay the determined dynamic signaling device (10), Step E4: Sending a first control signal to the determined dynamic signaling device (10), the control signal indicating the angle of rotation that must t take the directional display device of the determined dynamic signaling device (10), - Step E5: Sending a second control signal to the determined dynamic signaling device (10), the second control signal indicating at least the destination (D) of the user (U).
公开号:FR3033662A1
申请号:FR1552011
申请日:2015-03-11
公开日:2016-09-16
发明作者:Christophe Quatrini
申请人:Charvet Industries SA；
IPC主号:

专利说明:

[0001] The present invention relates to the field of directional panels with dynamic content. These panels generally take place in busy places such as shopping malls, cities and amusement parks, etc. Conventionally, dynamic content directional signs or dynamic signage devices comprise an electronic graphic surface for modifying the content of the information at will. Their motorized arrows allow to point independently of each other, any direction on 3600. With this type of dynamic signage device, it is possible to cover all the events or places of a given perimeter by greatly limiting the multiplicity of the number of arrow in relation to the number of events or places. In spite of the high technology embedded in these dynamic signaling devices, they do not stand out very much from conventional static signaling devices 15 that are not customizable by a lambda user. The object of the invention is to remedy all or some of the aforementioned drawbacks. The subject of the invention is a method for controlling a network of dynamic signaling devices, comprising the following steps: Step El: Collection of the user's destination, - Step E2: Detection of a user in a perimeter for detecting a determined dynamic signaling device, Step E3: Comparison of the destination with respect to the position and coverage area of the determined dynamic-arrow device, when the destination is out of the coverage area of the device. determined dynamic arrows, and determining a route by choosing at least one dynamic network-pointing device which will relay the determined dynamic-arrow device, Step E4: Sending by the server of a first control signal to the dynamic-arrow device 30 determined, the control signal indicating the angle of rotation to be taken by the directional display device of the dyn arrow device Specifically, Step E5: Sending by the server of a second control signal to the determined dynamic signaling device, the second control signal indicating at least the destination of the user. Thus, thanks to the invention, it is possible to customize the guidance of the user to his destination without the need for additional external navigation equipment. According to one characteristic of the invention, the presence of the user in the detection perimeter of the determined dynamic arrow device is detected by a user terminal by comparing the user's position coordinates with the position of the determined dynamic arrowing device. , the presence of the user in the detection perimeter being transmitted to at least one server which triggers the steps E3, E4 and E5.
[0002] According to a characteristic of the invention, the control method comprises an additional step Ela of collecting the position of the user and a step Elb of obtaining the identity of the dynamic signaling device closest to the user to from the comparison of the data collected at the steps El, Ela with a mapping of the network of dynamic signaling devices, the mapping indicating the position of each dynamic signaling device and their coverage area, the steps Ela and Elb being prior to the step E2. Thus, the user is brought into the detection perimeter of a determined dynamic arrowing device, in this case the dynamic signaling device closest to the position of the user.
[0003] According to another characteristic of the invention, the steps E3, E4 and E5 are triggered only when the user enters a detection perimeter of the determined dynamic signaling device. According to one characteristic of the invention, as long as the user terminal is in the detection perimeter of the determined dynamic signaling device, the server repeats at least the step E1, E1 and E1f. To do this, the user terminal continuously sends the user's position to the server as long as it is in the detection perimeter of the determined dynamic signaling device. Advantageously, the detection perimeter of a dynamic signaling device is less than or equal to the coverage area of said dynamic signaling device. Preferably, the detection perimeter of each dynamic signaling device is defined according to the mode of locomotion of the user. Advantageously, the position of the user corresponds to coordinates using the global location system commonly called "GPS" 35 or "Global Positioning System". According to one characteristic of the invention, steps E1 and E1 can be carried out simultaneously or consecutively. According to another characteristic of the invention, the steps E4 and E5 can be carried out simultaneously or consecutively. According to one characteristic of the invention, the control method comprises a sub-step E1 in which the user terminal sends the data collected to the server at least at steps E1 and E1a. According to one characteristic of the invention, the control method comprises a sub-step Elf in which the server receives the data collected and sent by the user terminal. According to a characteristic of the invention, the identity of the dynamic signaling device closest to the user is determined by the user terminal and is sent to the server. According to a characteristic of the invention, when determining the identity of the dynamic signaling device closest to the user from the user terminal, the control method comprises a first substep E2a prior to the step Elb in which the server sends the position of each of the dynamic signaling devices of the network, a second substep E2b prior to step Elb in which the user terminal receives the positions of each dynamic signaling device. Alternatively and according to a characteristic of the invention, the identity of the dynamic signaling device closest to the user is determined by the server. According to one characteristic of the invention, when determining the identity of the dynamic signaling device closest to the user from the server, the step Elb is performed without a preceding substep. According to another characteristic of the invention, said control method comprises an additional step Elc in which the mode of locomotion of the user is collected, the step Elc being carried out before the step Elb.
[0004] According to one characteristic of the invention, the step Elc is carried out either simultaneously or consecutively with at least one of the steps Ela and / or El. According to one characteristic of the invention, the collection of the mode of locomotion is carried out by the user terminal. According to one characteristic of the invention, the user terminal sends the server the mode of locomotion of the user before the step E3 is carried out so that the determination of the route of the step E3 at least according to the data collected in steps El, Ela and Elc. According to another characteristic of the invention, said control method comprises an additional step Eld in which a user identification visual marker is collected, the step Eld being performed before step E5. According to one characteristic of the invention, the control method comprises a step Elg, in which the server associates the destination collected in step El with an event and communicates to the user terminal said event. According to a characteristic of the invention, the collection of the visual identification marker of the user is carried out by the user terminal. According to a characteristic of the invention, the user terminal sends the server the visual identification marker of the user before step E5 is performed so that during step E5, the second signal command 15 also orders the display of said visual identification marker of the user. For example, the visual identification marker of the user is a message and / or a light signal and / or a pseudonym. According to one characteristic of the invention, the directional display member displays the user's visual identification marker at regular intervals, for example every 10 seconds. According to a characteristic of the invention, the directional display member is configured to display one or more predetermined events or destinations and to orient in the direction of the predetermined event (s) or destination (s). According to a characteristic of the invention, the control method further comprises an additional display stop step E6 in which the server sends a third control signal to the dynamic signaling device closest to the user indicating the stopping the display of the directional member of the dynamic signaling device closest to the user. According to one characteristic of the invention, step E6 is triggered after a predetermined display time. Alternatively or in addition, step E6 is triggered when the user leaves the detection perimeter of the dynamic signaling device closest to the user.
[0005] Alternatively, the step E6 is triggered when the user terminal no longer continuously sends the user's position to the server, the absence of a signal from the terminal being considered by the server as the absence of a user in the server. detection perimeter of the dynamic signaling device. Thus, as long as the user is in the detection perimeter of the closest dynamic signaling device to the user, his destination is displayed at regular intervals on the directional display of said dynamic signaling device. According to one characteristic of the invention, the output of the user in the detection perimeter of the dynamic signaling device closest to the user is detected by the user terminal by comparing the position data of the user with the user. position of the dynamic signaling device closest to the user, the output of the user in the detection perimeter being transmitted to the server that triggers step E6. The invention also relates to a guidance system in a given zone arranged to implement the control method according to the invention, said guidance system comprising at least one network of dynamic signaling devices, at least one configured server. for receiving data from a user terminal, said server controlling each dynamic network signaling device according to the data sent by the user terminal. According to a characteristic of the invention, the data received by the server and sent by the user terminal are user identification data and / or geolocation data and / or identification data of a user. dynamic signaling device and / or data relating to the mode of locomotion of the user and / or data relating to the destination of the user.
[0006] According to one characteristic of the invention, the network of dynamic signaling devices comprises at least a first and a second dynamic signaling device, each dynamic signaling device being active in a predetermined coverage area, each dynamic signaling device comprising at least one dynamic signaling device. minus a directional display member configured to indicate at least one information in a particular orientation. According to one characteristic of the invention, the network of dynamic signaling devices is a mesh network. In the present invention, the term "meshed network" will be understood to mean that each dynamic signaling device of the network is grouped together in a mesh 35 whose intelligence, in this case the server, is centralized and remote.
[0007] According to one characteristic of the invention, each dynamic signaling device has a user detection perimeter. Advantageously, each coverage area of each dynamic signaling device at least partially covers at least one other coverage area of another dynamic signaling device. Preferably, the detection perimeter of each dynamic signaling device is defined according to the mode of locomotion of the user. For example, when the user walks on foot, the detection perimeter is about 40m. For example, when the user moves by bike, the detection perimeter 10 is about 60m. According to one characteristic of the invention, at least the directional display device of the first dynamic signaling device comprises at least one carrier, at least one actuator member configured to allow the rotational displacement of the directional display element. with respect to said support, said drive member being controlled by a control unit intended to be connected to a server. According to one characteristic of the invention, at least the directional display element of the first dynamic signaling device comprises an area equipped with light elements.
[0008] According to a characteristic of the invention, at least the directional display element of the first dynamic signaling device comprises a graphic zone configured to display at least one piece of information, for example the destination of the user. According to one characteristic of the invention, the information may also be a visual identification marker of the user such as a message and / or a light signal and / or a pseudonym. The invention will be better understood, thanks to the following description, which relates to embodiments according to the present invention, given by way of non-limiting example and explained with reference to the appended diagrammatic drawings in which: FIG. 1 represents the guidance system according to the invention according to one embodiment, FIG. 2 represents the guidance system according to the invention according to a variant of the embodiment shown in FIG.
[0009] The present invention relates to a method of controlling a network of dynamic signaling devices and a guidance system for implementing said control method. In FIG. 1 is shown the guidance system 1 according to the invention according to one embodiment, the guidance system 1 comprises at least one network of dynamic signaling devices 10, at least one server 12 configured to receive data from a user terminal 11, said server 12 controlling each dynamic signaling device 10 of the network according to the data sent by the user terminal 11.
[0010] Each dynamic signaling device 10 comprises a coverage area Z1, Z2, Z3, Z4, Z5, together defining a given perimeter P in which the dynamic signaling device network is implanted and in which the guidance system is active. In addition, each dynamic signaling device 10 includes a user detection perimeter P1, P2, P3, P4, P5. The coverage area Z1, Z2, Z3, Z4, Z5 of each dynamic signaling device may be the same or wider than the user detection perimeter P1, P2, P3, P4, P5. Each dynamic signaling device comprises a directional display member mounted on a support. The directional display member 20 includes a graphics area configured to display visual data. The directional display member is rotatable about its support so as to indicate a direction. The directional display member includes a peripheral edge equipped with light elements such as LEDs. The detail of the control method will now be described. The reference to the steps will be enclosed in parentheses. When a user U wishes to use the dynamic signaling device network to travel to a destination D, the user terminal U of the user U must have a dedicated application designed to communicate with the network of dynamic signaling devices through at least one server 12.
[0011] Once the application has been downloaded and a user account has been created, the user's position (Ela), the destination of the user (El) and optionally the mode of locomotion (Elc), a visual identification marker, are collected. (Eld). This collection can be performed either by a server 12 or by the user terminal 11. In the case where it is the user terminal 11 which collects the data, the user terminal 11 sends said data to a server 12 (Ele) which receive them (Elf).
[0012] Once the collection is carried out, the identity of the dynamic signaling device 10 closest to the user U (Elb) is obtained from the comparison of the data previously collected with a mapping of the network of dynamic signaling devices, mapping indicating the position of each dynamic-arrow device 10 and their coverage area Z1, Z2, Z3, Z4, Z5. In the case where, obtaining the dynamic signaling device closest to the user U is performed by the user terminal 11, the server 12 communicates to said user terminal 11 the position of each dynamic signaling device 10 (E2a) and the terminal user 11 receiving this mapping (E2b).
[0013] In addition, the server associates the destination with an event, if any, and communicates the event to the user terminal. After identifying the closest dynamic signaling device of the user U, the server 12 compares the destination with respect to the position and the coverage area of the dynamic signaling device closest to the user U (E3). when the destination is outside the coverage area of the nearest user dynamic signaling device U, the server 12 determines a route by choosing which dynamic signaling device (s) will relay the dynamic signaling device. 10 closest to the user U, the determination of the route is performed at least according to the data collected in steps Ela, El and optionally Elc. After determining the route, the server sends (E4) a first control signal to the dynamic signaling device closest to the user U, the control signal indicating the angle of rotation that the device must take. directional display of the closest dynamic signaling device 25 of the user U. In addition, the server 12 also sends (E5) a second control signal to the dynamic signaling device closest to the user U, the second signal command indicating at least the destination of the user or the associated event. The steps E3, E4 and E5 are advantageously triggered when the user U is present in the detection perimeter P1, P2, P3, P4, P5 of the dynamic signaling device closest to the user U. According to a characteristic of the In the present invention, the presence of the user in the detection perimeter of the closest dynamic signaling device to the user U is detected by the user terminal 11 by comparing the user's position coordinates with the position of the device. dynamic signaling closest to the user U, the presence of the user U in the detection perimeter being transmitted to the server 12 which triggers the steps E3, E4 and E5. When the user leaves the detection perimeter P1, P2, P3, P4, P5 of the dynamic signaling device closest to the user U, then the user terminal sends an absence signal in the detection perimeter to the server 12, said server 12 then sends (E6) a third control signal to the dynamic signaling device closest to the user U indicating the stopping of the display of the directional member of the dynamic signaling device closest to the user U.
[0014] Advantageously, the output of the user U in the detection perimeter of the dynamic signaling device closest to the user U is detected by the user terminal by comparison of the user's position data with the position of the user device. Dynamic signaling closest to the user U, the output of the user U in the detection perimeter P1, P2, P3, P4, P5 being transmitted to the server 12 which triggers the step E6. In the variant shown in Figure 2, only the fact that the guidance system comprises two servers 12 changes. Thus, one server communicates exclusively with the user terminal and the other server is in charge of controlling the network of dynamic signaling devices.
[0015] Of course, the invention is not limited to the embodiment described and shown in the accompanying figures. Modifications are possible, particularly from the point of view of the constitution of the various elements or by substitution of technical equivalents, without departing from the scope of protection nvention. 25

权利要求:
Claims (10)
[0001]
REVENDICATIONS1. A method of controlling a network of dynamic signaling devices, comprising the following steps: Step El: Collecting the destination (D) of a user (U), - Step E2: Detecting the user (U) in a detection perimeter of a determined dynamic signaling device (10), Step E3: Comparison of the destination with respect to the position and to a coverage area (Z1, Z2, Z3, Z4, Z5) of the determined dynamic signaling device (10), when the destination (D) is outside the coverage area (Z1, Z2, Z3, Z4, Z5) of the determined dynamic arrowing device (10), a route is determined by choosing at least one signaling device dynamic (10) of the network that will relay the determined dynamic signaling device (10), Step E4: Sending a first control signal to the determined dynamic signaling device (10), the control signal indicating the angle of rotation that must take the display organ directs 1 of the determined dynamic signaling device (10), Step E5: Sending a second control signal to the determined dynamic signaling device (10), the second control signal indicating at least the destination (D) of the user ( U).
[0002]
The control method as claimed in claim 1, wherein the presence of the user (U) in the detection perimeter (P1, P2, P3, P4, P5) of the determined dynamic signaling device (10) is detected by a user terminal (11) by comparing the position coordinates of the user (U) with the position of the determined dynamic arranger (10), the presence of the user (U) in the detection perimeter (P1, P2, P3, P4, P5) being transmitted to at least one server (12) which triggers steps E3, E4 and E5.
[0003]
3. Control method according to any one of claims 1 or 2, wherein the control method comprises an additional step Ela of collecting the position of the user (U) and a step Elb obtaining the identity of the dynamic signaling device (10) closest to the user (U) from the comparison of the data collected at the steps E1, E1a with a mapping of the network of dynamic signaling devices (10), the mapping indicating the position of each dynamic signaling device (10) and their coverage area (Z1, Z2, Z3, Z4, Z5), the steps Ela and Elb being prior to the step E2. 3033662 11
[0004]
4. Control method according to claim 3, the identity of the dynamic arrow device (10) closest to the user (U) is determined by a user terminal (12) and is sent to a server (12).
[0005]
5. The control method according to claim 3, wherein the identity of the dynamic signaling device (10) closest to the user (U) is determined by a server (12).
[0006]
6. A control method according to any one of claims 3 to 5, comprising an additional step E1c in which the user locomotion mode (U) is collected, step E1c being performed before step E1b. 10
[0007]
7. Control method according to any one of claims 1 to 6, comprising an additional step E1d in which is collected a visual identification marker of the user (U), step E1d being performed before step E5 .
[0008]
8. A control method according to a feature of the invention 1 to 7, further comprising an additional display stop step E6 in which the server (12) sends a third control signal to the dynamic signaling device (10). ) closest to the user (U) indicating stopping the display of the directional member of the dynamic signaling device (10) closest to the user (U).
[0009]
9. A guidance system (1) in a given area arranged to implement the control method according to any one of claims 1 to 8, said guidance system (1) comprising at least one network of dynamic signaling devices. (10), at least one server (12) configured to receive data from a user terminal (11), said server (12) controlling each dynamic network signaling device (10) based on the data sent by the terminal user (11).
[0010]
The guidance system of claim 9, wherein the array of dynamic flag devices (10) comprises at least a first and a second dynamic signaling device (10), each dynamic signaling device (10) being active in a dynamic signaling device (10). predetermined coverage area (Z1, Z2, Z3, Z4, Z5), each dynamic signaling device (10) comprising at least one directional display element configured to indicate at least one information in a determined orientation.

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法律状态:
2016-01-21| PLFP| Fee payment|Year of fee payment: 2 |

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2016-09-16| PLSC| Publication of the preliminary search report|Effective date: 20160916 |

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2017-01-26| PLFP| Fee payment|Year of fee payment: 3 |

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2018-01-11| PLFP| Fee payment|Year of fee payment: 4 |

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2020-01-10| PLFP| Fee payment|Year of fee payment: 6 |

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2021-01-29| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1552011A|FR3033662B1|2015-03-11|2015-03-11|METHOD FOR CONTROLLING A NETWORK OF DYNAMIC FLIP DEVICES AND CONFIGURED GUIDE SYSTEM FOR IMPLEMENTING SUCH A CONTROL METHOD|FR1552011A| FR3033662B1|2015-03-11|2015-03-11|METHOD FOR CONTROLLING A NETWORK OF DYNAMIC FLIP DEVICES AND CONFIGURED GUIDE SYSTEM FOR IMPLEMENTING SUCH A CONTROL METHOD|

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US15/065,751| US9736635B2|2015-03-11|2016-03-09|Method for controlling a network of dynamic signage devices and guidance system configured to implement such a control method|

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EP16159697.8A| EP3067661B1|2015-03-11|2016-03-10|Method for controlling a network of dynamic direction signage devices and guiding system configured to implement such a method|

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PT161596978T| PT3067661T|2015-03-11|2016-03-10|Method for controlling a network of dynamic direction signage devices and guiding system configured to implement such a method|

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MA040009A| MA40009A|2015-03-11|2016-03-10|PROCESS FOR CONTROL OF A NETWORK OF DYNAMIC ARROWING DEVICES AND GUIDANCE SYSTEM CONFIGURED TO IMPLEMENT SUCH A PROCESS|

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ES16159697.8T| ES2659429T3|2015-03-11|2016-03-10|Control procedure of a network of dynamic signaling devices and guidance system configured to perform such a procedure|