• 专利附录
  • 专利说明
  • 权利要求
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    • 专利摘要:
    The invention relates to a method for updating association data between articles of a sales area and locations of said sales area, said method comprising the steps according to which: - a reading device (3) acquires a a label identifier sequence comprising at least two label identifiers whose electronic labels of gondolas (10, 11, 12) are adjacent, one of said electronic tags of adjacent gondolas being said gondola electronic tag to be located, and another said electronic labels of adjacent gondolas being an electronic gondola tag whose location is known, - the reading device (3) transmits the sequence of identifiers to a computer system (2) which updates the association data to from the label identifier sequence, by determining: • the items associated with the labels of the label sequence, The respective locations of said articles from the order of the labels in the sequence of labels.
    公开号:FR3039681A1
    申请号:FR1557153
    申请日:2015-07-27
    公开日:2017-02-03
    发明作者:Philippe Bottine;Francois Robin
    申请人:Store Electronic Systems SA;
    IPC主号:
    专利说明:

    Method of updating association data between articles and locations
    GENERAL TECHNICAL FIELD AND CONTEXT OF THE INVENTION
    The present invention relates to the association between articles of a sales area and locations of said sales area. The display of information relating to items presented for sale in a sales area is generally made using labels including the price of the article to which a label is associated, as well as other information such as the price by weight, etc ...
    The need for an up-to-date information display has justified the establishment in many areas of sale of electronic gondola labels, more conveniently referred to by their acronym EEG, having a screen on which the display of information is controlled remotely. The usefulness of such systems is essentially to allow, at the level of the shelves of a sales area such as a supermarket, hypermarket or any other sales area, to present to the consumer, for each item presented for sale, a corresponding price of reliably at the price as it appears in the central file of the site, that is to say at the price as it will actually be used in cash for the payment of the article.
    Another advantage of these known systems is that it allows automated price changes to be made in much shorter time periods than with manual display, whether for particular periods of promotion on the site, for all or part of the articles presented. on sale, to pass on rate changes, to deal with inflation situations where prices have to be raised very frequently, etc.
    EEG communications capabilities have recently been enhanced by providing a short-range radio frequency (NFC) device, or NFC (near field communication), or RFID (Frequency English). Identification for radiofrequency identification), in order to take advantage of customers' equipment from sales areas in intelligent mobile communication terminals. A common example of such a mobile terminal is a smartphone-type mobile phone, which offers both possibilities of connection and appropriate information processing.
    In fact, the interaction between the EEG and the customer's terminal makes it possible to offer the customer new services, such as the display of additional information on the product with which the EEG is associated. The patent application WO2013 / 153290 describes a particularly advantageous exploitation of these communication capabilities, by making it possible to transmit to the mobile terminal of the client spatially localized information associated with the location of said mobile terminal. The mobile terminal is located by identifying and locating at least one gondola tag with which the mobile terminal enters into communication. Such a location makes it possible to obtain a very high precision, of the order of a few centimeters, whereas the processes of geolocation based on internal triangulation from beacons emitting a radio signal allow at best only a precision of the order of the meter, which prevents to know before which product is the customer, and thus strongly restricts the possibilities of interactions based on the localization.
    However, the location of the mobile terminal from the EEGs requires accurate and correct knowledge of the location of said EEGs. The layout of a sales area is normally described by a planogram. A planogram is a set of association data between articles of a sales area and locations of said sales area. The planogram establishes which products should be at such height, on which shelves and on how many linear meters.
    Now, the planograms currently used are theoretical visions of what the sales area should be. Indeed, they are typically defined generically for a plurality of stores of similar size, for which the same layout and the same goodwill is expected. In fact, the layout of a given sales area is made on the basis of the theoretical planogram corresponding to the size of the sales area. In fact, the reality of the organization of the sales area deviates significantly from this theoretical planogram. Indeed, it is common that of the order of 10 to 15% of the items present in the sales area are not found on the planogram, for example because these items are specific to the sales area, and have not not been integrated into the planogram designed for a set of sales areas. In addition, the layout of items in the sales area may vary over time, due to product lags and adjustments made by the operators of the sales area, for example for seasonal products such as those offered only at Christmas or back to school.
    As a result, the planogram never conforms to reality, and the location using this planogram suffers from the inability of the planogram to reflect reality. But the inaccuracy of the planogram has other disadvantages, especially in terms of inventory management and other commercial aspects, since the planogram is for example used to estimate the quantities of items on the gondolas, based on the the theoretical extent of their presence, which, erroneously, can lead to unanticipated stockouts.
    PRESENTATION OF THE INVENTION
    A general object of the invention is to overcome all or part of the defects of the connecting devices of the prior art, by proposing a method for maintaining the planogram up to date and consistent with the actual layout of the products in the sales area. For this purpose, it is proposed a method of updating association data between articles of a sales area and locations of said sales area, said sales area having a plurality of gondola labels distributed in said sales area, each of said gondola labels being associated with an article and being disposed near a location associated with said article, each of said gondola labels being provided with a unique label identifier, said method comprising the steps according to which, to add at least one gondola tag: a reading device acquires a label identifier sequence comprising at least two tag identifiers whose gondola electronic tags are adjacent in a running direction of the locations of the sales area, one of said electronic labels of adjacent gondolas being the said added electronic gondola label, and another of said adjacent gondola electronic tags being an electronic gondola tag whose location is known, the reading device transmits the sequence of identifiers to a computer system, the computer system updates the association data from the label identifier sequence, by determining • the items associated with the tags of the label sequence, • the respective locations of said items from the order of the tags in the sequence of tags. tags.
    This method is advantageously completed by the following characteristics, taken alone or in any of their technically possible combination: the acquisition of the sequence of tag identifiers comprises the information by an operator of the reading device, an indication positioning relative to the location of the added tag of the adjacent tag whose location is known to the computer system, said relative positioning indication being transmitted by the reading device to the computer system; the direction of travel of the locations of the sales area is known, and an indication of relative positioning, with respect to the location of the localized label, of the adjacent label whose location is known to the computer system, is deduced from the acquisition order of the tag identifiers of the label identifier sequence; the reading device transmits to the computer system data relating to the association between the identifier of the added electronic tag and the reference of an article with which said added electronic tag is associated; a plurality of electronic gondola tags are added, said added gondola electronic tags being adjacent to each other in a running direction of the sales area locations, and acquisition of the tag ID sequence by the device reading device comprises acquiring the tag identifiers of said gondola electronic tags added in the order of their arrangement relative to the gondola electronic tag whose location is known; each electronic gondola label of said sequence is provided with a radio frequency device and the reading device acquires the identifier of said gondola electronic tags by establishing a radio frequency communication with said gondola electronic tags; the reading device comprises a displacement measuring member, and the method comprises determining the displacement of the reading device between the acquisition of the identifier of the electronic gondola tag whose location is known and the acquisition; the identifier of the electronic gondola label to be located; a distance between the electronic gondola label whose location is known and the gondola electronic tag to be located is determined from the displacement of the reading device between the acquisition of the identifier of the electronic gondola label whose location is known and the acquisition of the identifier of the electronic gondola tag to be located, and the computer processing system uses said distance to update the planogram; the method comprises the steps according to which: the reading device acquires a label identifier of an electronic gondola label; a dimension characteristic of the location associated with the gondola electronic tag is indicated in the device; for reading, • said location dimension feature is transmitted with the tag ID to the processing computer system. The invention also relates to a computer program product comprising program code instructions for executing the method according to the invention, when said program is executed on a computer. The invention also relates to an association data management system between articles of a sales area and locations of said sales area, comprising: a plurality of electronic gondola labels, each of said gondola labels being associated with a tag identifier of its own, - a reading device adapted to acquire the label identifiers of said plurality of electronic gondola tags and references of articles associated with said gondola electronic tags, - a computer system storing association data between articles of a sales area and locations of said sales area, configured to receive from the reading device the tag identifiers acquired by said reading device, said management system being adapted to implement the method according to the invention.
    PRESENTATION OF THE FIGURES Other features, objects and advantages of the invention will emerge from the description which follows, which is purely illustrative and nonlimiting, and which should be read with reference to the appended drawings in which: FIG. diagram illustrating a system according to a possible embodiment of the invention, - Figures 2, 3 and 4 are examples of menus displayed by the reading device in the context of the implementation of the invention in a manner of FIG. 5 is a diagram illustrating various steps of the method according to a possible embodiment of the invention.
    DETAILED DESCRIPTION
    FIG. 1 shows, for illustrative and non-limiting purposes, a data communication system corresponding to a possible embodiment of the invention, comprising a reading device 3, a central server 2 and a sequence 1 of electronic gondola tags (EEG).
    The reading device 3 is able to communicate with a central server 2. This reading device 3 is preferably provided with information display means, such as a screen, intended for a user of said reading device 1. , and input means such as a keyboard, buttons, and / or a touch screen. The communication between the reading device 3 and the central server 2 can be established by means of any communication network at least partially wireless, in particular via a wireless network type DECT, WIFI or 3G. Thus the communication can be established via the internet network to which the central server 2 is connected.
    EEGs are distributed in the sales area. EEGs have a high spatial density, typically about ten labels per square meter on average, but with significant variability. Each EEG is identified by a unique tag identifier of its own. This tag identifier therefore uniquely identifies a single EEG of the sales area. Each of said gondola labels is associated with an article and is disposed near a location associated with said article.
    In Figure 1 is illustrated a sequence 1 of EEG 10, 11, 12 placed along a rail 13 of gondola article presentation. Such an EEG includes a display screen 14 for displaying information relating to an article with which it is associated. Typically, this information includes the price of the article, and other information usually available in a sales area, for example the price per kilogram for a food product. The EEG also has a plastic housing inside which are housed the functional components of the EEG.
    In particular, the electronic tag comprises a radiofrequency communication module for receiving data representing information relating to an article from a central station connected to the computer system 2, a memory for storing said data, and a microcontroller for controlling the data. displaying information about the article. These various functional constituents are arranged on a printed circuit board housed in the housing. The EEG also includes a radio frequency device with which the reader device 3 can establish communication to acquire the tag identifier of said EEG. In fact, the reading device 3 is adapted to establish a wireless communication with the EEG.
    The radiofrequency device of the electronic tag comprises an antenna and an NFC chip (Near Field Communication for near-field communication) or RFID (acronym for Radio Frequency Identification). An NFC type radio frequency device operates for example with a frequency of 13.56 MHz as a radio frequency RFID RF type device.
    The central server 2 comprises computer processing means including at least one processor and a memory in which association data relating to the association between articles of a sales area and locations of said sales area are stored, said association data constituting the planogram.
    The memory of the central server 2 also stores data relating to the association between the tag identifier and a location of the sales area that corresponds to the location of the EEG identified by said identifier, as well as to the article with which the GET is associated. Thus, thanks to the tag identifier, one can find the location of the EEG identified by said identifier and the article to which it relates.
    The method makes it possible to update the association data between articles of a sales area and locations of said sales area. If there is a change in the association of an article with the EEG at one location, for example when an article is substituted for another at the same location, the operator performing the article change is sufficient successively acquiring the identifier of the EEG corresponding to this location, and the reference of the article corresponding to said location, and sending to the computer system data relating to the association between the identifier the EEG and the reference of the article. The data sent to the computer system is used to update the association data between the articles of the sales area and the locations of said sales area, that is to say the planogram, since the location of the EEG can be found by means of the label identifier thereof.
    The problem of updating the planogram arises especially when the arrangement of the EEG is modified, because of the displacement of an EEG, and more specifically when an EEG sequence must be modified by the addition of least one label, since the removal of a label requires only the deletion of associated data. It is then necessary to know the location of the displaced EEG whose location is unknown. It is therefore an EEG to locate compared to other EEG in the sales area, to update the planogram.
    The method thus proposes the updating of association data between articles of a sales area and locations of said sales area during the movement of at least one EEG, through the acquisition, by the reading device 3, at least two label identifiers whose EEGs are adjacent, in a running direction of the locations of the sales area, one of whose identifiers corresponds to the EEG to be located, and other than an EEG whose location is known. As an illustration, the present invention is described in detail in the context of the addition of an EEG. This is the configuration which is illustrated in FIG. 1. By choosing a reading direction of the electronic labels from the left to the right in FIG. 1, the added label 10 is the central label, framed by the preceding label. 11 and the following label 12. It should be noted that the physical placement of the EEG 10 at its location can be carried out before or after the method which will be described.
    FIG. 2 illustrates a nonlimiting example of a menu 20 that can be presented by the reading device 3. Several possibilities are offered to the operator. A first feature 21 called "from an associated tag" consists of locating an EEG to be located by means of an associated EEG whose location is known. A second feature 22 called "Simple Association" consists in associating an EEG whose location is known with an article by acquiring an article identifier. A third feature 23 called "geolocated associations" consists of associating an EEG to a location by manually entering the location. A fourth feature 24 called "Survey Mode" consists of sequentially locating several EEGs to be located. Finally, a fifth feature called "dissociation" is to dissociate an EEG from an article.
    In the following, we are particularly interested in the first functionality 21 and the fourth functionality 24. In the context of the first feature 21, once the operator has chosen it, another menu 30 such as the one of Figure 3 is presented to him. In order to determine the location of the added EEG 10, the acquisition of the label identifier sequence comprises the information by an operator of the reading device 3, a relative positioning indication of an adjacent label 11 or 12, whose location is already known, with respect to the added tag 10. The operator uses the reading device 3 to acquire (step S1) a label identifier of an adjacent EEG 11 or 12 at the same time. the location of the added EEG 10, which location may be either already occupied by the added EEG 10 or intended to receive the added EEG 10. Thus, the EEG whose label identifier is acquired is the EEG previous 11 or the following EEG 12. As indicated above, this acquisition is preferably by wireless communication type NFC. This adjacent EEG becomes the reference label, whose identifier appears in frame 32 of menu 30. The operator also indicates a relative positioning indication of the adjacent label with respect to the added label 10 (step S3) . In the example of FIG. 3, this is the direction of scrolling, by choosing in the menu 30 a scan direction 31: from left to right or from right to left. The operator therefore indicates whether the EEG whose identifier has just been acquired is the previous EEG 11 or the following EEG 12 by selecting the appropriate field, then it validates its indication.
    The reading device 3 can also propose to the operator a menu giving him the choice between the designation of the EEG whose identifier has just been acquired as the previous EEG or the next EEG in order to inform the user. relative positioning indication of the adjacent label relative to the added label 10.
    It is possible to provide the relative positioning indication of the adjacent EEG whose location is known with respect to the location of the added EEG before or after the acquisition of the label identifier of said EEG. adjacent whose location is known. The operator uses the reading device 3 to acquire the label identifier of the added EEG 10, preferably by NFC-type wireless communication, and then optionally informs the reference of the article intended to be associated with said label. associated if it is not yet associated with that article. This step can also be performed before or after the acquisition of the tag identifier of said adjacent EEG whose location is known and / or the information of the relative positioning indication of the adjacent EEG whose location is known with respect to the location of the added EEG 10.
    Different possibilities are possible to inform the reference of the article. The most common is scanning a barcode of the article, which usually encodes the article number. The reading device 3 is for this purpose provided with a barcode reader. Alternatively, the operator can manually enter the reference using the input means of the reading device, including a keyboard, real or virtual. If the article is provided with a radio frequency device such as an RFID chip, the reading device 3 can acquire the reference of the article by establishing a communication with said radio frequency device.
    The reading device 3 transmits (step S2) to the computer system 2 the tag identifier sequence comprising the identifier of the adjacent tag 11, 12 and the tag ID of the added EEG 10. The device reading 3 also transmits the relative positioning indication of said adjacent EEG 11 or 12 with respect to the added EEG 10. The data relating to the association between the identifier of the added EEG 10 and the reference of a The article to which said added EEG is associated may also be transmitted.
    Although the above description, for the sake of simplicity, deals only with the location of one EEG at a time, it is possible to locate several EEGs adjacent to each other in a running direction of the locations of the surface. of sale. This is the fourth function called "read mode" of the menu 20 of FIG. 2. In this case, the acquisition of the tag identifier sequence by the reading device comprises the acquisition of the identifiers of label of said gondola electronic tags added in the order of their arrangement in the scrolling direction.
    More specifically, the operator uses the reading device 3 to acquire a label identifier of an EEG adjacent to the location of the added EEG, which location may be either already occupied by the added EEG or receive the added EEG 10. Thus, the EEG whose label identifier is acquired is the previous EEG 11 or the following EEG 12.
    An indication of relative positioning of the adjacent EEG with respect to the added EEG is then determined. In this regard, the operator can inform the relative positioning indication with respect to the added EEG 10 of the adjacent EEG 11 or 12 whose location is known to the computer system, said relative positioning indication being transmitted by the reading device to the computer system. This EEG 11 or 12 whose location is known therefore serves as a reference for the locations of the added EEGs 10. The relative positioning indication can also be deduced by the fact that the direction in which the reading device 3 passes in front of the EEGs is predefined. The chronological order of the acquired references thus determines the relative positions of the EEGs to which these references belong. The operator then acquires the identifiers of the added EEGs in order, in terms of proximity, of the arrangement of the locations of the added EEGs with respect to the EEG 11 or 12 whose location is known to the computer system. Thus, if two EEGs are added between the EEGs 11 or 12, whose location is known, the operator acquires the identifier, for example from the previous EEG 11, then indicates the direction of movement, or that this is the EEG preceding the locations of the added EEGs. The operator then acquires the label identifier of the EEG closest to the EEG 11 and then the one furthest away from the EEG. 11.
    It should be noted that the relative positioning information transmitted to the computer system 2 may comprise a relative distance between the EEG whose location is known and the EEG to be located. This distance can be acquired by measuring the displacement of the reading device 3 between the moment when it acquires the identifier of the EEG whose location is known and the moment when it acquires the identifier of the EEG to be located. For this purpose, the reading device 3 comprises a displacement measuring member, and the method comprises determining the displacement of the reading device 3 between the acquisition of the identifier of the electronic gondola label whose location is known and the acquisition of the identifier of the electronic label of gondola to locate.
    For example, the reading device 3 may be provided with an accelerometer, making it possible to determine by integration the displacement of said reading device 3 between the two acquisitions, and thus to deduce the distance therefrom. The knowledge of this distance faithfully reflects the relative positioning of the EEG to be located with respect to the EEG whose location is known. It is also possible to consider as EEG whose location is known a dummy EEG, that is to say not associated with an article, constituting a benchmark for locating the other EEGs. This is for example the case of an EEG placed at one end of a gondola to locate it.
    The information acquired by the reading device 3, namely the tag identifiers, the relative positioning information, and possibly the association data between the articles of the sales area and the EEGs, are transmitted to the computer system 2, preferably by means of a wireless connection.
    The computer system 2 thus receives this information, and uses it to update (step S3) the association data between the articles of the sales area and the locations of said sales area, that is to say say the planogram. By means of the label identifier sequence, the computer system determines the location of the added EEG 10. From the reference of the article transmitted by the reading device 3 together with the identifier of the tag. added EEG tag 10, the computer system 2 also determines the article associated with the added EEG 10. As there is correspondence between the location of the article associated with the added EEG 10 and the location of said added EEG 10, the computer system determines at the same time the location of the article associated with the added EEG 10. The planogram is then modified so that this location corresponds to said article.
    The planogram preferably presents a referencing of the locations of the sales area taking the form of a cadastre, with a location of said locations by means of a reference frame or a set of coordinates representative of the spatial organization of the surface of the site. sale. For example, a first coordinate may indicate the radius of the sales area, while a second may designate a section of the gondola, a third the floor of the gondola, and a fourth the order of the location on that floor. A section of the gondola can be defined as being the extent of the gondola on which the floors are continuous. A break in the staging therefore means moving to another section.
    Thus, at each location is associated an EEG, and an article. Any modification of the arrangement of the locations of the EEG resulting in an addition or withdrawal of EEG, this change is immediately relayed to the computer system 2, and integrated in the planogram. Similarly, if there is a change in the association of an article with the EEG at one location, for example when an article is substituted for another at the same location, then it is sufficient for the operator performing the article change successively acquire the identifier of the EEG corresponding to this location, and the reference of the article corresponding to said location, and send to the computer system data relating to the association between the identifier EEG and article reference, as explained when adding an EEG. However, it is not necessary to acquire the identifier of an adjacent EEG since the arrangement of the EEG has not been modified.
    The data sent to the computer system is used to update the association data between the articles of the sales area and the locations of said sales area, that is to say the planogram, since the location of the EEG can be found by means of the label identifier thereof.
    In addition, it may be provided to modify a spatial characteristic of a location, and in particular the front end, better known by the term "facing", which is the visible length of length, facing the customer, used on a rack for the presentation of an article. Indeed, the locations of the planogram may have different frontals, depending in particular on the characteristics of the items placed therein, and market choices (advertising, shelf storage). Thus, the possibility of modifying the front (or "facing"), that is to say the width of presentation of a location, further improves the representativeness and performance of the planogram. For this purpose, the method may comprise the steps according to which: the reading device 3 acquires a label identifier of an electronic gondola label; a dimension characteristic of the location associated with the electronic gondola label; is indicated in the reading device 3, - said size feature of the location is transmitted with the tag identifier to the computer processing system.
    For example, the reading device 3 can propose a menu 40 as illustrated in FIG. 4. A first field 41 corresponds to the label number, that is to say the label identifier, which is indicated. by the operator or by the reading device 3 following the acquisition of the label identifier of an EEG. A second field 42 corresponds to a dimension characteristic of the location associated with the EEG identified with the first field 41, in this case the front end. The operator can change the value of this characteristic. The button "Next label" 44 serves to validate the characteristics associated with the EEG (tag number, frontal) and makes it possible to pass to the information of the characteristics of another EEG. Other features may be offered by this menu 40. It is for example possible to move to a next level 43, that is to say to a next gondola shelf. The button 45 deletes the last item scanned, it is a cancel button. Finally, the button 46 noted "Finish" validates. The planogram is updated with each change of the arrangement of articles in the sales area. It is therefore representative of the actual layout of each sales area, and is therefore no longer a theoretical vision of what should be the layout of this sales area.
    Furthermore, the data relating to the association between the identifier of the EEG and the reference of an article to which said EEG is associated are used by the computer system 2 to transmit to said EEG the display data related to this article, for example by radio transmission, so that the information on the article is displayed by the EEG. In addition, the computer system 2 also offers the possibility of modifying the planogram manually, for example by assigning articles to certain locations, in particular to initialize the planogram, and then adapting the association between an article and the EEG to take into account account the manual change made.
    The exact knowledge of the location of the products, which the planogram reflects, through the locations of the EEG, brings several advantages: - a location of the consumer, via the determination of the location of the EEG whose identifier is communicated by the consumer, as provided for by the application WO2013 / 153290, is more precise and accurate; - the possibility of informing about the location of items, the consumer or an operator of the sales area; - Better management of the items put on sale, both to manage stocks and to organize the commercial policy, - Better productivity of the operations carried out in the sales area because of a very precise knowledge of the location of the products, especially for the preparation of order, for a rotating inventory, or the storage of abandoned items in store out of their location.
    权利要求:
    Claims (11)
    [1" id="c-fr-0001]
    claims
    A method of updating association data between articles of a sales area and locations of said sales area, said sales area having a plurality of distributed gondola labels (10, 11, 12). in said sales area, each of said gondola labels (10, 11, 12) being associated with an article and being disposed near a location associated with said article, each of said gondola labels (10, 11, 12) being provided with a tag identifier of its own, said method comprising the steps according to which, to locate at least one gondola tag to be located, - a reading device (3) acquires (S1) a sequence of identifiers of label comprising at least two label identifiers whose electronic labels of gondolas (10, 11, 12) are adjacent in a running direction of the locations of the sales area, one of the labels adjacent gondola electronics being said gondola electronic tag to be located, and another of said adjacent gondola electronic tags being an electronic gondola tag whose location is known; - the reading device (3) transmits (S2) the gondola electronic tag to be located; identifiers to a computer system (2), - the computer system (2) updates (S3) the association data from the tag identifier sequence, determining • the items associated with the tags of the sequence of labels, • the respective locations of said articles from the order of the labels in the sequence of labels. f
    [2" id="c-fr-0002]
    The method of claim 1, wherein acquiring the label identifier sequence comprises information by an operator of the reading device, a relative positioning indication, relative to the location of the label to locate, the adjacent label whose location is known to the> computer system, said relative positioning indication being transmitted by the reading device to the computer system.
    [3" id="c-fr-0003]
    3. The method of claim 1, wherein the direction of travel of the locations of the sales area is known, and an indication of relative positioning, relative to the location of the localized label, the label "adjacent to Replacement is known from the computer system, is deduced from the order of acquisition of the tag identifiers of the sequence of tag identifiers.
    [4" id="c-fr-0004]
    4. Method according to any one of the preceding claims, wherein the reading device transmits to the computer system data relating to the association between the identifier of the electronic tag to be located and the reference of an article with which is associated said electronic tag added.
    [5" id="c-fr-0005]
    A method as claimed in any one of the preceding claims, wherein a plurality of electronic gondola tags are to be located, said gondola electronic tags to be located adjacent to each other in a running direction of the locations of the sales area, and the acquisition of the sequence of tag identifiers by the reading device comprises the acquisition of the tag identifiers of said electronic gondola tags to be located in the order of their arrangement with respect to the gondola electronic tag of which the location is known.
    [6" id="c-fr-0006]
    A method according to any one of the preceding claims, wherein each gondola electronic tag of said sequence is provided with a radio frequency device and the reading device acquires the identifier of said gondola electronic tags by establishing a radio frequency communication with said gondola electronic tags.
    [7" id="c-fr-0007]
    7. A method according to any one of the preceding claims, wherein the reading device 3 comprises a displacement measuring member, and the method comprises determining the displacement of the reading device 3 between the acquisition of the identifier of the electronic gondola label whose replacement is known and the acquisition of the identifier of the electronic gondola label to locate.
    [8" id="c-fr-0008]
    8. Method according to the preceding claim, wherein a distance between the gondola electronic label whose replacement is known and the gondola electronic tag to be located is determined from the displacement of the reading device 3 between the acquisition of the identifier of the electronic gondola tag whose replacement is known and the acquisition of the identifier of the gondola electronic tag to be located, and the computer processing system uses said distance to update a planogram.
    [9" id="c-fr-0009]
    9. Method according to one of the preceding claims, comprising the steps according to which: - the reading device (3) acquires a label identifier of an electronic gondola label, - a dimension characteristic of the location associated with the electronic gondola tag is filled in the reading device (3), - said size feature of the location is transmitted with the tag identifier to the computer processing system.
    [10" id="c-fr-0010]
    A computer program product comprising program code instructions for executing the method according to any one of the preceding claims, when said program is run on a computer.
    [11" id="c-fr-0011]
    11. An association data management system between articles of a sales area and locations of said sales area, comprising: a plurality of electronic gondola labels, each of said gondola labels being associated with an identifier its own label, - a reading device adapted to acquire the label identifiers of said plurality of electronic gondola tags and the references of the articles associated with said electronic gondola tags, - a computer system storing data of association between articles of a sales area and locations of said sales area, configured to receive from the reading device the tag identifiers acquired by said reading device, said management system being adapted to implement the process according to one of claims 1 to 8.
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    同族专利:
    公开号 | 公开日
    CN108140197A|2018-06-08|
    EP3329447B1|2021-02-17|
    US11010709B2|2021-05-18|
    ZA201800635B|2018-11-28|
    CA2993919A1|2017-02-02|
    SG11201800710SA|2018-02-27|
    MX2018001132A|2018-07-06|
    JP2018523884A|2018-08-23|
    BR112018001690A2|2020-10-27|
    AU2016298735A1|2018-03-01|
    AU2016298735B2|2021-10-28|
    US20180218316A1|2018-08-02|
    MA43332A|2018-06-06|
    EP3329447A1|2018-06-06|
    RU2695503C1|2019-07-23|
    JP6675002B2|2020-04-01|
    FR3039681B1|2018-06-29|
    HK1255365A1|2019-08-16|
    WO2017017366A1|2017-02-02|
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    法律状态:
    2016-07-11| PLFP| Fee payment|Year of fee payment: 2 |
    2017-02-03| PLSC| Publication of the preliminary search report|Effective date: 20170203 |
    2017-07-28| PLFP| Fee payment|Year of fee payment: 3 |
    2018-07-16| PLFP| Fee payment|Year of fee payment: 4 |
    2020-07-16| PLFP| Fee payment|Year of fee payment: 6 |
    2021-06-22| PLFP| Fee payment|Year of fee payment: 7 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1557153A|FR3039681B1|2015-07-27|2015-07-27|METHOD FOR UPDATING ASSOCIATION DATA BETWEEN ARTICLES AND LOCATIONS|
    FR1557153|2015-07-27|MA43332A| MA43332A|2015-07-27|PROCESS FOR UPDATING ASSOCIATION DATA BETWEEN ITEMS AND LOCATIONS|
    FR1557153A| FR3039681B1|2015-07-27|2015-07-27|METHOD FOR UPDATING ASSOCIATION DATA BETWEEN ARTICLES AND LOCATIONS|
    EP16750988.4A| EP3329447B1|2015-07-27|2016-07-25|Method for updating association data between articles and locations|
    BR112018001690-0A| BR112018001690A2|2015-07-27|2016-07-25|updating process of association data between articles and locations|
    MX2018001132A| MX2018001132A|2015-07-27|2016-07-25|Method for updating association data between articles and locations.|
    SG11201800710SA| SG11201800710SA|2015-07-27|2016-07-25|Method for updating association data between articles and locations|
    CA2993919A| CA2993919A1|2015-07-27|2016-07-25|Method for updating association data between articles and locations|
    PCT/FR2016/051930| WO2017017366A1|2015-07-27|2016-07-25|Method for updating association data between articles and locations|
    AU2016298735A| AU2016298735B2|2015-07-27|2016-07-25|Method for updating association data between articles and locations|
    CN201680056235.XA| CN108140197A|2015-07-27|2016-07-25|For the method for the associated data between more new article and position|
    RU2018106848A| RU2695503C1|2015-07-27|2016-07-25|Method of updating match data between merchandise and places|
    JP2018524558A| JP6675002B2|2015-07-27|2016-07-25|How to update association data between products and locations|
    US15/747,550| US11010709B2|2015-07-27|2016-07-25|Method for updating association data between articles and locations|
    ZA2018/00635A| ZA201800635B|2015-07-27|2018-01-30|Method for updating association data between articles and locations|
    HK18114504.0A| HK1255365A1|2015-07-27|2018-11-14|Method for updating association data between articles and locations|
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