• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to an object routing system, comprising a computer platform (3), and comprising embedded devices (2) in packages (E) each having at least one digital recognition code, the platform ( 3) including a database of the digital codes, the embedded devices (2) being each able to access geolocation resources (11), characterized in that the platform (3) comprises a diffusion module (31) of announcements to be broadcast, each associated with a geographic area of broadcast data, and in that it comprises transmitters / receivers (32), (100) between the platform and the on-board devices, the platform (3) being set to receive data on the geolocation of the packages (E) and send at least one advertisement to the on-board devices (2) when the geolocation data of said package (E) enters the geographical area of the advertisement broadcast .
    公开号:FR3056796A1
    申请号:FR1659056
    申请日:2016-09-26
    公开日:2018-03-30
    发明作者:Pierre Alain Cotte;Laurent Gaussin
    申请人:PaCotte SA;
    IPC主号:
    专利说明:

    The field of the invention is that of logistics. More specifically, the invention relates to the transportation of objects, and more particularly of objects the dimensions and weight of which allow them to be conveyed by any person and by any means or almost.
    As such, the invention relates to a system for transporting objects whose weight does not exceed 8 kg or, more generally, whose dimensions and weight correspond to the definition of hand luggage for Airlines companies. Of course, the invention also applies to objects of smaller dimensions and / or weight, which can go as far as the dispatch of simple folds.
    In the field of invention, certain providers of online purchases and sales of products have generated considerable expectations in terms of delivery of said products all over the world.
    However, on an international scale, express deliveries within a few hours are complicated or even impossible and are, at the very least, very slow and / or very expensive. There are therefore very limiting factors for international trade and private deliveries, while Internet commerce knows no borders. As a result, international express deliveries are only an extremely small market, despite the huge revenues experienced by some international delivery companies.
    This observation is linked to the fact that all current logistics delivery systems are based on a centralized control approach based in particular on:
    - grouping of goods to be transported;
    - mass transport;
    - sending by parcel.
    In addition, the analysis of classical practices leads to the observation that:
    - local mail is limited to limited deliveries in relatively small geographic areas, even local (the adoption of business models consisting in making resources available to users by actors different from traditional professionals, however, tending to generate new possibilities and important);
    - national deliveries (more or less monopolistic) work perfectly, with deadlines around 24 hours, but this market is by definition limited to a single country;
    - international deliveries remain niche markets, which favor the development of specialized international delivery companies, at times that are sometimes incompatible and even unacceptable.
    There is therefore currently an expectation, implicit or explicit, with regard to the dispatch and delivery of goods in reduced time compared to current practice, this for small amounts of service, even at low cost.
    However, one way to meet this expectation lies in a community and / or collaborative approach, insofar as each evolves in a universe within which a large proportion of individuals together provide multiple possibilities of travel.
    It is therefore possible according to this approach to make an object start from a starting point by entrusting it to one of the individuals of a collaborative system and to convey it to a point of arrival through this individual. alone or in relay with one or more other individuals in the collaborative system.
    Of course, in such a system, it remains necessary to know in real time the position of the object to be conveyed, to locate it vis-à-vis its point of arrival and / or vis-à-vis the individuals participating to the collaborative system.
    In this context, it is foreseeable to follow the movements of the objects to be transported, to equip them with geolocation resources and communication means allowing them to transmit data relating to their location. In this way we obtain a traceability system for the tracking of objects.
    However, such a solution creates a technical problem with regard to the power supply of geolocation and communication resources. It is also necessary to provide a system for recharging electricity of the supply means dedicated to the geolocation of the object, which implies constraints that are difficult to manage, in terms of transferring the responsibility for monitoring to individuals in the collaborative system. electric recharging of the means in question.
    Furthermore, whether it is part of a collaborative routing or not, insofar as the packaging of the objects to be conveyed is able to access geolocation resources, it may be useful or desired to be able to send information to destination of the carrier of the packaging or of individuals in the vicinity of this carrier, this through the packaging itself.
    Such information can be of any type, namely:
    - advertisements;
    - event information;
    - geographic and / or historical information;
    - information related to the routing in progress;
    The objective of the invention is therefore to respond to such an expectation, therefore being a matter of selectively distributing information by means of itinerant packaging, intended for its carrier and / or persons close to the carrier.
    The invention also aims to be part of a collaborative logistics approach which involves little or no constraint at the level of the individuals participating in the transport of the objects, particularly with regard to the management of the level of electrical recharging of the technical means coupled with the objects to be transported and involved in the spatiotemporal traceability of the objects.
    The invention also aims to provide a global object routing system, implementing such a selective information dissemination system.
    These objectives, as well as others which will appear subsequently, are achieved thanks to the invention which relates to a system for conveying objects, comprising a computer platform, and comprising devices embedded in packaging intended for containing the objects and each having at least one digital recognition code, the platform including a database of digital codes, the on-board devices each being capable of accessing geolocation resources, characterized in that the platform comprises a module for broadcasting of announcements to be broadcast, each associated with a geographical area of distribution data, and in that it includes transmitters / receivers between the platform and the on-board devices, the platform being configured to receive data on the geolocation of packaging and issue at least one announcement to on-board devices when the geoloc data alisation of said packaging enters the geographical area of dissemination of the ad.
    Thus, thanks to the invention, it is possible to selectively disseminate information, which can be of different natures, intended for the wearer of a package or the people present around him, this by means of the packaging.
    Selective distribution is based on the geolocation of the packaging (and therefore a priori also that of its carrier), and makes it possible to disseminate information for example of an advertising nature in connection with services and / or commercial establishments within a predefined perimeter around the location of the packaging. Of course, it is thus possible to significantly increase the relevance and impact of the advertisements displayed.
    According to a preferred embodiment, the packages are provided with a screen, the announcements being intended to be broadcast on the screen.
    Of course, this embodiment is not exclusive of other means of diffusion, for example sound.
    In this case, the screen is made of electronic paper.
    It will be recalled that electronic paper is, within the framework of the invention, particularly advantageous since it makes it possible to display text and images indefinitely, without consuming energy. In general, electronic papers consume energy only when the content displayed is modified. The pixels of such a system therefore have several distinct stable states, so as to keep intact the content displayed in the absence of an energy source.
    According to a first alternative embodiment, the geolocation resources are integrated into the on-board packaging devices.
    In the context of another alternative embodiment, the computer platform includes at least one computer application intended to be loaded by portable computer units owned by individuals likely to participate in the transport of objects, the geolocation resources being in this case advantageously integrated into the portable units.
    The portable units can then comprise first wireless proximity communication means, the on-board devices each comprising:
    - second wireless proximity communication means, capable of communicating with the first wireless proximity communication means,
    - At least one computer processing module capable of cooperating with the second wireless proximity communication means to recover and process data supplied by said second wireless proximity communication means.
    In addition, the computer module comprises said computer application in order to authorize the exchange of data between the computer module and the portable computer units, the computer application being configured to open a communication channel intended to allow the on-board devices to access and use the geolocation resources of IT units.
    Thus, we obtain a spatio-temporal traceability system of moving objects in a collaborative system of transporting objects by individuals from a community, this without transferring responsibility for the proper functioning of the technical means coupled to the object routed, in particular with regard to the level of electrical recharging of technical means coupled to the object to be routed to ensure its geolocation.
    Indeed, the technical means that consume a lot of electrical energy, such as geolocation resources, are absent from the technical means coupled with the object conveyed. Only the means implying a low electric consumption are coupled to the conveyed object.
    As a result, it is possible to electrically supply technical means coupled to the object conveyed by a simple battery, capable of providing electrical power autonomously over a long period.
    According to the principle of the invention, the on-board devices are sort of grafted onto portable, and possibly successive, units during the mobility of the object conveyed, by means of wireless proximity communication means and use "l 'intelligence' of portable units, in particular with regard to the geolocation resources integrated into portable units.
    On-board devices can therefore travel long distances with complete electrical autonomy. In addition, they can be reused many times, without having to recharge them electrically, by being coupled to different successive objects to be transported.
    Of course, the possible reuse of on-board devices several times gives the traceability system an obvious economic benefit, as well as an optimized carbon footprint by avoiding the rapid obsolescence of on-board devices, in whole or in part.
    In an object routing system according to the invention, the portable units are advantageously portable telephones carried by individuals. As a result, when an individual in the community carries an object to be transported, the on-board device is permanently close to the mobile phone of the individual in question, making it possible to communicate with him and to use his geolocation resources permanently or almost.
    It is noted that the on-board devices can comprise means of electrical supply in the form of a non-rechargeable battery.
    On-board devices are thus provided with relatively inexpensive long-life batteries. Thus, the only management of the power supply of the on-board devices is to simply replace the battery when it is completely discharged.
    The invention also relates to packaging used in a delivery system as described above, characterized in that it comprises:
    - an on-board device having at least one digital recognition code and being able to access geolocation means;
    transmission / reception means intended to communicate with a platform including a database of digital codes and comprising a module for broadcasting announcements to be broadcast, each associated with a geographic area broadcast data item, the on-board device being suitable to access geolocation means for transmitting data on the geolocation of the packaging to the platform and for receiving at least one announcement when the geolocation data of said packaging enters the geographical area in which the advertisement is broadcast.
    The invention also relates to a method of conveying objects using a system as described above, characterized in that it comprises the steps of:
    - transmission / reception between the platform and the on-board devices,
    - geolocation of on-board devices,
    - reception by the platform of data on the geolocation of packaging;
    - issue of at least one ad to on-board devices when the geolocation data of said packaging enters the geographic area in which the ad is broadcast.
    The invention also relates to a computer program comprising instructions suitable for carrying out the steps of the method described above when said computer program is executed by at least one processor.
    The invention also relates to a recording medium readable by a computer on which is recorded a computer program comprising instructions for the execution of the steps of the method described above.
    Other characteristics and advantages of the invention will appear more clearly on reading the following description of a preferred embodiment of the invention, given by way of simple illustrative and nonlimiting example, and of the appended drawings among which:
    - Figure 1 schematically illustrates an object delivery system according to the invention;
    - Figure 2 illustrates a particular embodiment of a package for a system according to the invention;
    - Figure 3 provides a schematic illustration of the on-board device of a packaging that can be used to transport an object, and its environment in an object transport system according to the invention.
    As indicated above, the principle of the invention is to provide a system for routing objects contained in packaging, which can be in collaborative mode, that is to say implemented by a set of individuals from a community, said system implementing a platform configured to receive data on the geolocation of packaging and issue at least one announcement intended for devices embedded in packaging when the geolocation data of said packaging enters a triggering geographical area the announcement.
    As illustrated in FIG. 1, such a system is of the type comprising:
    - portable computer units 1 owned by individuals I from a community;
    a computer platform 3 including a computer application 13 intended to be loaded by the portable computer units;
    - on-board devices 2 in packages E intended to contain the objects O to be conveyed, these packages being able to be any container (envelope, package, package, etc.) of shapes and dimensions adapted to the object to be conveyed, (the dimensions of the container and the overall weight of the container added to that of the content being preferably, but not exclusively, adapted to the criteria defined for hand luggage according to the criteria of the airlines).
    According to a particular and preferential embodiment, the portable computer units are constituted by ordiphones of a widespread common type, and notably comprising first wireless proximity communication means 10 and geolocation resources 11.
    According to the principle of the invention, the on-board devices are each able to access geolocation resources, and the platform comprises a broadcasting module 31 of announcements to be broadcast, each associated with a geographic area data item. In addition, the system comprises transmitters / receivers 32, 100 ensuring the exchange of data between the platform and the on-board devices, the platform being configured to receive data on the geolocation of the packages and to send at least one announcement to the devices. on-board when the geolocation data of said packaging enters the geographic area in which the ad is disseminated.
    According to this embodiment and as illustrated in FIG. 2, the packages are provided with a screen 200, the announcements being intended to be broadcast on the screen. This screen can be of different dimensions depending on the versions of the packaging, and will of course be placed on the walls of the packaging that are most exposed to the gaze of people close to the wearer, or to the gaze of the wearer himself, according to the vocation and the nature of the advertisement broadcast.
    A single package can thus be provided with several screens, with the possibility of affecting differentiated ad broadcasts depending on the position of the screens on the package.
    In any event, the screen is preferably made of electronic paper.
    As indicated above, the choice of electronic paper proves to be advantageous in the context of the invention, ensuring low energy consumption whatever the nature of the advertisement to be broadcast, the electrical consumption, while remaining low, being only dependent on the frequency of renewal of the advertisement displayed on the screen.
    Note that, as shown in Figure 2, a package according to the invention can take the form of a bag or a backpack, but can also take any other form, such as that illustrated in Figure 1 which is like a package.
    Likewise, according to the illustration provided in FIG. 2, the screen 200 is positioned on one side of the package, but can equally be placed on the front part of the package, on top of the package. As mentioned above, several screens can also be provided and distributed over the packaging.
    In any event, according to the principle of the invention, packaging E includes:
    - an on-board device 2 having at least one digital recognition code (the platform including a database of all the digital codes of the packaging) and being able to access geolocation means;
    - transmission / reception means (described in more detail below) intended to communicate, directly or indirectly, with the platform comprising a module for the dissemination of announcements to be broadcast, each associated with a geographic area data item.
    In addition, the on-board device being able to access geolocation means for transmitting data on the geolocation of the packaging to the platform and for receiving at least one announcement, from a broadcasting module 31 integrated into the platform, when the geolocation data of said packaging enters the geographical area of dissemination of the advertisement.
    According to a first approach of the invention, the geolocation resources are integrated into the on-board packaging devices. These also include means of communication allowing them to communicate directly with the platform. In this case, the on-board devices regularly send the data relating to the geolocation of the packaging to the platform. The latter may issue an advertisement to the packaging if the geographic area associated with the advertisement coincides with the geolocation of the packaging. The announcement is then received directly by the on-board device, which processes the data relating to the announcement so as to transmit this data to the screen (or any other means of dissemination).
    In the context of a second approach of the invention, the routing system implements a system comprising the computer platform 3, and based in particular on the use of on-board devices 2 comprising meanwhile second means of wireless proximity communication 20, able to communicate with the first wireless proximity communication means 10. In addition, these on-board devices comprise at least one computer processing module 21 capable of cooperating with the second wireless proximity communication means 20 to recover and process data supplied by these second communication means.
    According to a particular embodiment, the wireless proximity communication means are Bluetooth type transmitters / receivers.
    According to this second approach, the announcements are therefore broadcast by the broadcasting module 31 of the platform 3, by a transmitter / receiver 32. The announcement is received by the portable unit 1, thanks to its transmitter / receiver 100, and is then transferred to the on-board device by the first wireless proximity communication means 10. The announcement is received by the on-board device using its second wireless proximity communication means 20. The data relating to the advertisement is processed by the computer module 21 of the on-board device, the digital data relating to the advertisement being finally transmitted to the screen 200 (or to any other means of dissemination).
    Of course, the on-board devices may include many other structural and functional means, discussed below.
    According to the invention, the computer module 21 of the on-board devices and the computer units 1 jointly comprise a computer application 13 authorizing the exchange of data between them. This computer application 13 is configured to open a communication channel intended to allow access and use of the geolocation resources 11 of the computer units by the computer module 21 of the on-board devices 2. In other words, the computer modules integrate the computer application, which can also be loaded from the computer platform on the computer units owned by individuals in the community. Once the link has been established between the on-board device and the computer unit, the computer application (common to the on-board device and the computer unit) opens a communication channel via the first and second local communication means without wire, and authorizes access and use, by the on-board device, of the geolocation resources of the computer unit.
    Thus, in the context of the second approach, as illustrated by FIGS. 1 and 3, the computer module of the on-board devices use, as resources dedicated to geolocation (making it possible to obtain a packaging traceability system), those of the portable computer units (thus in this case those of the computer held by the individual transporting the object), this throughout the movement made by the individual. Of course, the traceability system also applies to the case where several individuals take turns to route the object, the on-board device then communicating successively with each individuals portable IT unit.
    As will be explained in more detail below, the geolocation of the object can also be obtained by means of a portable computer unit held by a depositary of the object, the object then being pending possible collection by an individual on the move.
    As previously indicated, the first wireless proximity communication means and the second wireless proximity communication means exchange data by Bluetooth (or parwifi according to another conceivable embodiment).
    The second wireless proximity communication means and the computer module for processing on-board devices are powered by a simple non-rechargeable battery 22.
    With reference to FIG. 3, it should be noted that the on-board devices can respond to other structural and / or functional means supplied, periodically or continuously by the device's battery, and in particular:
    - shock detection means 23
    - temperature sensor 24;
    - humidity sensor 25;
    - lighting means 26;
    - video capture means 27;
    - means of weight measurement 28:
    - opening / closing detection means 29
    - means of recognition of an individual (fingerprints, eyeprints, ...)
    As shown in FIG. 1, the object routing system comprises a computer platform 3 for managing the routing of objects, including the first long distance communication means intended to communicate with second integrated long distance communication means to portable computing units.
    This platform includes a server 30 accessible remotely and configured to receive data for the routing of an object from a starting point to an ending point. The method of entering the starting point and the ending point is described in more detail below.
    The server also comprises storage means 300 for geolocation data transmitted to the platform by the portable units.
    The traceability system of objects to be transported is therefore not limited to the local storage of geolocation data transmitted by portable IT units within the IT module of on-board devices. On the contrary, in addition to the geolocation resources of the portable computer units used by the on-board devices, the latter also use the long-distance communication means of the portable computer units to exchange with the management platform.
    According to the principle of the invention, the platform includes a module for the dissemination of announcements to be broadcast. These announcements can be stored in a database internal to the platform or external to the platform, in one or more hosts.
    In the case where the ads are stored in one or more external hosts, the ads then pass through the platform's dissemination module, and the geolocation data is then provided by the platform to the host (s) to trigger the targeted dissemination of announcements to geolocated packaging.
    Alternatively, the platform includes a buffer database of announcements to be broadcast. Ads, with their associated geographic area as a selective delivery criterion, are transmitted by advertisers to the platform administrator who processes them to store them in the buffer database.
    In any event, according to the principle stated above in the context of the use of the resources of portable computing units, the announcements are broadcast from the platform by the first long distance communication means of the platform, which communicate with the second means of long distance communication integrated into portable computing units. The announcements are then transferred to the on-board devices in the packages, via the communication channel between the first and second wireless proximity communication means, that is to say between the portable unit and the on-board device. The received advertisement is processed by the on-board device in order to display the advertisement on the packaging screen.
    In addition, the server hosts a first database 303 concerning the “client” individuals and the objects to be routed, among which:
    - information characterizing in weight and size and an object to be transported;
    - a departure date from a geolocated location;
    - a delivery date from a geolocated location.
    The server also hosts a second database 302 concerning the “traveler” individuals of the community and their portable computing units, among which (in addition to the identity of the individuals):
    - a date of departure of the individual;
    - a place of departure for the individual;
    - date of arrival of the individual;
    - a place of arrival of the individual.
    It is noted that each on-board device is identifiable by a digital identification code, the server 30 hosting a database of digital code 301 for identifying the on-board devices.
    It is further noted that the platform comprises means of connection and communication with the user interfaces configured to transmit requests for the routing of objects to the platform.
    In practice, these interfaces consist of computer phones on which a dedicated computer application has been loaded. The service may also be available from a computer.
    The server also hosts a third database 304 concerning the “custodians” of the community and their portable computing units and / or their computer, among which (in addition to their identity):
    - their geographic position;
    - the number of packages (with on-board device) available that they have.
    Databases 302, 303 and 304 can be dissociated or be combined into a global database. Each of them is capable of receiving data in connection with the computer applications dedicated to the user profile, in this case respectively to the “traveler” computer application 305, to the “customers” computer application 306 and the computer application "Depositaries" 307.
    The process of routing objects and of interaction between individuals in a routing system according to the invention will now be described.
    According to a first example of routing, an object is routed from a depository location to another depository location, the user of the service issuing the object then having to go to the first depository location to deposit the object to be routed and the he individual recipient must go to the second depository location to collect the item shipped.
    According to this process, the user with an object to be routed connects to the system platform to access the user interface allowing him to enter:
    - a departure date, from a geolocalized place (insofar as the user knows the nearest depositary place, failing which the platform can define this depositary place according to the geolocation of the user, by example according to his place of work or his domicile);
    - a delivery date and a geolocalized place (which can take the form of a destination address);
    - the weight and / or dimensions of the object;
    - possibly, a means of payment.
    Depending on the departure geolocation resources entered, the platform reserves a shipping package provided with an on-board device as described above, and signals this reservation to the depository location. If no shipping package is available at the defined depository location, the platform provides a service for sending a shipping package to the defined depository location.
    The user goes to the first depository with his object to be transported. Using a dedicated computer application loaded on the user's smartphone, the latter transmits to the depositary, which has the same computer application on his smartphone (or on a computer), data relating to the object and its routing. Using these identification data, the depositary identifies the shipping package assigned to the object to be shipped (the service platform having chosen a specific digital identification code of the on-board device integrated into the shipping package) .
    The depositary disposes of the object to be forwarded in the identified shipping package. The user validates, via its dedicated application, the discount to the depositary, the latter digitally accepting this discount, making him responsible for the item and the shipping package.
    It is noted at this stage that the on-board device of the shipping package begins to communicate, by wireless proximity communication means, with the depository's iphone to access the geolocation resources of this iphone.
    In parallel, a community of individuals declares themselves to the system's management platform, and who in particular enter:
    - a departure date;
    - a place of departure;
    - an arrival date;
    - a place of arrival.
    With the user data, and the data on the individuals of the community and on their movement, the server of the platform constitutes two databases, namely a database concerning the objects to be conveyed and a database concerning the portable units. held by individuals, with data relating to the movement of individuals.
    The management system compares in real time the data relating to the shipping package present in the depository premises and ready to be dispatched, with the database relating to the individuals of the community and their displacement. This comparison leads the platform to choose an individual for its presence near the depository location of departure and for its destination near the depository location of arrival. An alert is sent, for example, by text message to the individual traveler’s smartphone indicating when and where he must go to pick up the shipping package including the item to be shipped.
    At the departure depository, the traveler identifies himself with the depositary using the computer application loaded on his smartphone, and transmits to the depositary the identification of the shipping package he has just picked up.
    Through the computer system, the depositary validates the delivery of the shipping package to an individual traveler, which leads to:
    - disconnect the depositary's smartphone from the device embedded in the package;
    - connect the device embedded in the shipping package to the individual traveler’s smartphone.
    The traveling individual goes to the second depository location, namely the arrival depository location. During the trip, the device embedded in the shipping package is permanently connected with the individual traveler 's smartphone, ensuring tracking and geolocation of the object transported, this data can be periodically transmitted to the platform. to be accessible to the user and the sender.
    At the place of arrival, the individual traveler gives the shipping package to the depositary, this by indicating by computer the identification of the package and the shipment to the depositary, the latter validating in computer support for the package of , which leads to:
    - disconnect the on-board device from the shipping package of the individual traveler 's iphone;
    - connect the on-board device of the shipping package to the depository's iphone.
    The acceptance of the handling of the shipping package by the arrival depositary is signaled by computer to the system management platform, which sends an alert signal by SMS to the recipient user, sending them the geolocation data of the destination depository location.
    The recipient individual goes to the depository location of arrival and identifies himself to the depositary through the computer application loaded beforehand on his smartphone.
    The depositary verifies the identity of the individual recipient by computer and validates the delivery to this individual of the shipping package, which leads him to:
    - disconnect the on-board device from the depositary's packet smartphone;
    - connect the on-board device of the shipping package to the recipient's smartphone.
    The recipient user validates in computer the reception of the shipping package, this validation being transmitted to the system management platform which informs the sending user by SMS.
    Of course, the depositary and depositary routing system which has just been described can be enriched upstream and downstream, through the intervention of an individual traveler ensuring the routing of the shipping package between the sending individual and the depositing place of departure, and by the intervention of a traveling individual who can, at the other end of the route, ensure the movement of the shipping package from the depositing place of arrival to the individual recipient.
    It should be noted that the routing system according to the invention can be implemented by a responsibility transfer system, aiming to ensure traceability of successive takeovers of the package or packages equipped with the onboard devices described above.
    权利要求:
    Claims (5)
    [1" id="c-fr-0001]
    1. Object routing system, comprising a computer platform (3), and comprising on-board devices (
    [2" id="c-fr-0002]
    2) in
    5 packages (E) intended to contain the objects (O) and each having at least one digital recognition code, the platform including a database of digital codes, the on-board devices each being able to access geolocation resources (11 ), characterized in that the platform includes a broadcasting module
    10 (31) of announcements to be broadcast, each associated with a geographical area of broadcast data, and in that it comprises transmitters / receivers (32), (100) between the platform and the on-board devices, the platform being configured to receive data on the geolocation of packaging (E) and send at least one announcement to on-board devices (2) when the geolocation data of said packaging enters the geographical area in which the advertisement is broadcast.
    20 2. Object delivery system according to claim 1, characterized in that the packages (E) are provided with a screen (200), the announcements being intended to be broadcast on the screen.
    [3" id="c-fr-0003]
    3. Object routing system according to claim 2, characterized
    25 in that the screen (200) consists of electronic paper.
    [4" id="c-fr-0004]
    4. Object routing system according to any one of claims 1 to 3, characterized in that the geolocation resources (11) are integrated into the on-board devices (2) of the
    30 packages.
    Object routing system according to any one of Claims 1 to 4, characterized in that the computer platform (3) includes at least one computer application (13) intended to be loaded by portable computer units (1 ) owned by individuals who may be involved in the transportation of the items.
    Object routing system according to claim 5, characterized in that the geolocation resources (11) are integrated into the portable units (1).
    Object routing system according to claim 6, characterized in that the portable units (1) comprise first wireless proximity communication means (10), the on-board devices (2) each comprising:
    second wireless proximity communication means (20) capable of communicating with the first wireless proximity communication means (10),
    - At least one computer module (21) for processing capable of cooperating with the second wireless proximity communication means (20) for recovering and processing data supplied by said second wireless proximity communication means.
    Object routing system according to claim 7, characterized in that the computer module (21) comprises said computer application (13) for authorizing the exchange of data between the computer module and the portable computer units (1 ), the computer application being configured to open a communication channel intended to allow the on-board devices (2) to access and use the geolocation resources (11) of the computer units (1).
    9. Packaging used in a routing system according to claim 1, characterized in that it comprises:
    - an on-board device (2) having at least one digital recognition code and being able to access geolocation means (11);
    - transmission / reception means intended to communicate with a platform (13) including a database of digital codes and comprising a broadcasting module (31) of announcements to be broadcast, each associated with a geographic area data of broadcasting , the on-board device (2) being able to access geolocation means (11) for transmitting data on the geolocation of the packaging (E) intended for the platform (3) and for receiving at least one announcement when the geolocation data of said packaging (E) enters the geographical area of dissemination of the advertisement.
    10. Method for routing objects using a system according to any one of claims 1 to 8, characterized in that it comprises the steps of:
    - transmission / reception between the platform and the on-board devices,
    - geolocation of on-board devices,
    - reception by the platform of data on the geolocation of packaging;
    - issue of at least one ad to on-board devices when the geolocation data of said packaging enters the geographic area in which the ad is broadcast.
    11. Computer program comprising instructions suitable for carrying out the steps of the method according to claim 10 when said computer program is executed by at least one processor.
    [5" id="c-fr-0005]
    5 12. Recording medium readable by a computer on which a computer program is recorded comprising instructions for the execution of the steps of the method according to claim 10.
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    同族专利:
    公开号 | 公开日
    US20200027130A1|2020-01-23|
    EP3516605A1|2019-07-31|
    FR3056796B1|2020-01-03|
    US11216846B2|2022-01-04|
    CN109804393A|2019-05-24|
    WO2018055156A1|2018-03-29|
    JP2019537165A|2019-12-19|
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    法律状态:
    2017-09-04| PLFP| Fee payment|Year of fee payment: 2 |
    2018-03-30| PLSC| Publication of the preliminary search report|Effective date: 20180330 |
    2018-09-24| PLFP| Fee payment|Year of fee payment: 3 |
    2019-09-26| PLFP| Fee payment|Year of fee payment: 4 |
    2020-09-14| PLFP| Fee payment|Year of fee payment: 5 |
    2021-09-21| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1659056A|FR3056796B1|2016-09-26|2016-09-26|OBJECT ROUTING SYSTEM IMPLEMENTING A TARGETED INFORMATION BROADCASTING SYSTEM|
    FR1659056|2016-09-26|FR1659056A| FR3056796B1|2016-09-26|2016-09-26|OBJECT ROUTING SYSTEM IMPLEMENTING A TARGETED INFORMATION BROADCASTING SYSTEM|
    EP17776997.3A| EP3516605A1|2016-09-26|2017-09-25|System for conveying objects, implementing a system for targeted distribution of information|
    CN201780059355.XA| CN109804393A|2016-09-26|2017-09-25|System for transporting object realizes the system targetedly distributed for information|
    JP2019537873A| JP2019537165A|2016-09-26|2017-09-25|A system for transporting objects, implementing a system for distributing information to targets|
    PCT/EP2017/074216| WO2018055156A1|2016-09-26|2017-09-25|System for conveying objects, implementing a system for targeted distribution of information|
    US16/335,826| US11216846B2|2016-09-26|2017-09-25|System for conveying objects, implementing a system for targeted distribution of information|
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