CN112926703A - Commodity object display information processing method, device and system - Google Patents

Abstract

The embodiment of the application discloses a commodity object display information processing method, a device and a system, wherein the system comprises: a plurality of near field communication tags located at a plurality of preset locations on a shelf for storing first information, the first information including information associated with the near field communication tags; the commodity object tag is used for being arranged at a position, corresponding to the associated commodity object, on the goods shelf, and is correspondingly provided with a near field communication card reader, and first information stored in the near field communication tag is read through the card reader; the server is used for determining the position information of the commodity object related to the commodity object label on the shelf according to the received first information and second information stored in advance; the second information includes location information associated with the near field communication tag. By the embodiment of the application, the automatic acquisition of the actual display condition of the commodity objects on the shelves of the entity stores can be realized.

Description

Commodity object display information processing method, device and system

Technical Field

The present application relates to the field of information processing technologies, and in particular, to a method, an apparatus, and a system for processing merchandise display information.

Background

In the business model of "new retail," a retailer who opens an online physical store may open an online "cloud store" through the commodity object information service system, and issue discount information of the offline physical store, information of the commodity object, and the like through such a cloud store. The consumer user can browse and purchase on the online App, and online orders can be specifically processed by an offline entity shop, so that services such as '2 hours reach' are provided for users in a certain geographic range. Further, the consumer user may directly go to an offline physical store to purchase the commodity object, and so on.

Among them, shelf merchandise display is one of the marketing cores of the offline physical stores. The display sequence of the commodities has a very direct influence on the quality of the sales situation, so that the commodity display design drawing is elaborately designed by a special design team in the physical shop, and then the specific commodities are displayed on the corresponding positions on the goods shelves according to the design drawing. However, in continuous sales activities, the difference between actual shelf merchandise display and design drawings may become larger due to a product break, a shortage, a merchandise adjustment, and the like. Particularly, when a plurality of physical stores are paved, the headquarters further loses the ability of tracking and controlling the display condition of each physical store, and the work of the offline marketing organization is very disadvantageous.

Therefore, how to more effectively realize tracking control of the merchandise display situation in the physical store becomes a technical problem to be solved by those skilled in the art.

Disclosure of Invention

The application provides a commodity object display information processing method, a commodity object display information processing device and a commodity object display information processing system, which can automatically acquire the actual display condition of commodity objects on shelves of an entity store.

The application provides the following scheme:

a merchandise object display information processing system comprising:

a plurality of near field communication tags located at a plurality of preset locations on a shelf for storing first information, the first information including information associated with the near field communication tags;

the system comprises a commodity object label, a server and a control module, wherein the commodity object label is associated with a commodity object and is used for being arranged at a position, corresponding to the associated commodity object, on a goods shelf, the commodity object label is correspondingly provided with a near field communication card reader, first information stored in the near field communication label is read through the card reader to be read, and the first information is submitted to the server;

a server for determining the position information of the commodity object associated with the commodity object label on the shelf according to the received first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

A merchandise object display information processing method, comprising:

receiving first information submitted by a near field communication card reader corresponding to a commodity object label; the system comprises a plurality of commodity object labels, a plurality of short-distance communication labels and a plurality of communication terminals, wherein the commodity object labels are arranged at positions corresponding to associated commodity objects on a target shelf in a target entity store, and the short-distance communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag;

determining the position information of the commodity object related to the commodity object label on the shelf according to the first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

A commodity object display information tracking control method comprises the following steps:

receiving information of actual display conditions of commodity objects related to a target shelf in a target entity store; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

and displaying the information of the actual display condition of the commodity object associated with the target shelf so as to be used for comparing with the commodity object display design scheme associated with the target shelf.

A merchandise object display information processing method, comprising:

receiving task work order information, wherein the task work order is generated under the condition that the display condition of the commodity object in the target shelf needs to be adjusted by comparing the information of the actual display condition of the commodity object associated with the target shelf in the target entity shop with the display design scheme of the commodity object associated with the target shelf; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

and displaying the task work order information so as to execute a task of adjusting the display condition of the commodity objects in the target shelf according to the information of the task work order.

A label for an object of an article of merchandise,

the commodity object label is provided with a near field communication card reader, the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are also arranged at a plurality of preset positions on the target shelf and used for storing first information associated with the near field communication labels; the card reader is used for reading first information stored in the near field communication tag and submitting the first information to the server so that the server can determine the position information of the commodity object related to the commodity object tag on the shelf according to the received first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

A merchandise object display information processing apparatus comprising:

the information receiving unit is used for receiving first information submitted by a near field communication card reader corresponding to the commodity object label; the system comprises a plurality of commodity object labels, a plurality of short-distance communication labels and a plurality of communication terminals, wherein the commodity object labels are arranged at positions corresponding to associated commodity objects on a target shelf in a target entity store, and the short-distance communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag;

a position information specifying unit configured to specify position information of the commodity object associated with the commodity object tag on the shelf, based on the first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

A merchandise object display information processing apparatus comprising:

an exhibition information receiving unit configured to receive information on actual exhibition of the commodity object associated with the target shelf in the target physical store; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

and the display unit is used for displaying the information of the actual display condition of the commodity object associated with the target shelf so as to compare the information with the commodity object display design scheme associated with the target shelf.

A merchandise object display information processing apparatus comprising:

the system comprises a task work order information receiving unit, a task work order information processing unit and a task work order information processing unit, wherein the task work order information receiving unit is used for receiving task work order information, and the task work order is generated under the condition that the display condition of the commodity object in the target shelf needs to be adjusted by comparing the information of the actual display condition of the commodity object related to the target shelf in the target entity shop with the display design scheme of the commodity object related to the target shelf; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

and the display unit is used for displaying the task work order information so as to execute a task of adjusting the display condition of the commodity objects in the target shelf according to the information of the task work order.

According to the specific embodiments provided herein, the present application discloses the following technical effects:

according to the embodiment of the application, a plurality of near field communication tags are arranged at preset positions on the shelf, and the near field communication card reader is associated with the commodity object tags. In this way, when the commodity object tag is mounted on the shelf at a position corresponding to the commodity object, the first information stored in the near field communication tag that can be read by the card reader can be used, and can be submitted to the server. In this way, the server can specify the position information of the commodity object associated with the commodity object tag on the shelf based on the position information related to the short-range communication tag stored in advance and the received first information. After the position information of the commodity objects associated with the plurality of commodity object labels on the shelf is determined, the actual display condition of the specific commodity object on the shelf can be automatically determined, and the actual display condition can be used for comparing with a design scheme associated with the specific shelf, and the like. In a word, the automatic acquisition of the actual display condition of the commodity objects on the shelf can be realized, and the efficiency is improved.

Of course, it is not necessary for any product to achieve all of the above-described advantages at the same time for the practice of the present application.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic diagram of a first system provided by an embodiment of the present application;

FIG. 2 is a schematic view of a shelf structure provided in an embodiment of the present application;

FIG. 3 is a flow chart of a first method provided by an embodiment of the present application;

FIG. 4 is a flow chart of a second method provided by embodiments of the present application;

FIG. 5 is a flow chart of a third method provided by embodiments of the present application;

FIG. 6 is a schematic diagram of an item object tag provided by an embodiment of the present application;

FIG. 7 is a schematic diagram of a first apparatus provided by an embodiment of the present application;

FIG. 8 is a schematic diagram of a second apparatus provided by an embodiment of the present application;

FIG. 9 is a schematic diagram of a third apparatus provided by an embodiment of the present application;

FIG. 10 is a schematic diagram of a computer system provided by an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments that can be derived from the embodiments given herein by a person of ordinary skill in the art are intended to be within the scope of the present disclosure.

In the embodiment of the application, in order to more effectively realize the tracking control of the commodity display situation in the physical store, a corresponding solution is provided. In this scheme, it is considered that the merchandise objects displayed on the shelf usually correspond to respective merchandise object tags (which may be generally referred to as "price tags" or the like, and for convenience of description, the "price tags" are described as an example in some examples hereinafter) to mark information such as names, specifications, prices, and the like of the merchandise objects for reference of the consumer user. The specific commodity object label can also be an electronic price label, corresponding commodity object information can be displayed through a display device such as a display screen or electronic paper, and when a commodity object corresponding to a certain electronic price label changes, the content displayed in the electronic price label is modified. In short, the position of the merchandise object tag may generally represent the position of the merchandise object on the shelf, and even though a specific merchandise object may be removed or the like according to the purchasing activity of the consumer user, the position of the merchandise object tag on the shelf is not changed unless the display position of the merchandise object is moved by a tally or the like. Therefore, in the solution provided by the embodiment of the present application, the information related to the position of the label of the commodity object on the shelf may be obtained in some way, and then the display position of the commodity object on the shelf is tracked through such information.

In order to achieve the above object, in a specific implementation, a plurality of near field communication tags may be disposed at a plurality of preset positions on a shelf. The communication transmitting and receiving parties transmit information by radio waves, and the transmission distance is limited to a short range (several tens of meters or less), which is called short-range wireless communication or short-range wireless communication. Specific Near Field Communication tags may include RFID (Radio Frequency Identification) tags, NFC (Near Field Communication) tags, and the like. In addition, the position-related information such as the shelf identifier, the layer identifier, and the position information in the layer associated with the near field communication tag may be stored in a server or the like in some manner. Additionally, a card reader may be associated with the price tag. The effective signal range of the near field communication tags is usually smaller, for example, the effective signal range can be controlled to be 1-2 cm, and the like, so that after one price tag is placed on a shelf, signals sent by two near field communication tags can be read at most, and thus the near field communication tag closest to the price tag can be determined. Then, the position information of the price tag on the shelf can be determined according to the position information of the short-distance communication tag closest to the price tag. The information about the location of each price tag on the shelf can then be compared to the design associated with the shelf to determine whether an out-of-specification display condition exists, and so on.

The following describes in detail a specific technical solution provided in an embodiment of the present application.

Example one

Referring to fig. 1, a system for processing information on display of merchandise objects according to a first embodiment of the present invention may specifically include:

a plurality of near field communication tags 101 located at a plurality of preset locations on a shelf for storing first information, the first information including information associated with the near field communication tags;

the system comprises a commodity object label associated with a commodity object, a server and a short-distance communication card reader 102, wherein the commodity object label is arranged at a position on a shelf corresponding to the associated commodity object, reads first information stored in the short-distance communication label through the card reader, and submits the first information to the server;

a server 103 configured to determine, based on the received first information and second information stored in advance, position information of the commodity object on the shelf, the commodity object associated with the commodity object tag; the second information includes location information associated with the near field communication tag.

In a specific implementation, the proximity communication tag may be deployed according to the structure of a specific shelf, the placement position of the commodity object tag on the shelf, and the like. For example, as shown in fig. 2, a specific shelf may have a multi-layer structure, each layer may include a layer, a plurality of the merchandise object tags 201 may be mounted on the layer, and correspond to a plurality of different merchandise objects 202, and a plurality of the near field communication tags 203 may be provided at a plurality of preset positions on the same layer.

In the concrete implementation, in order to facilitate installation of the near field communication tag and the commodity object tag, the guide rail can be installed on the laminate of the shelf, and the specific near field communication tag can be laid on the guide rail in a sticking mode and the like. In this way, the association relationship between the specific near field communication tag and the shelf and the layer is generated, and the association relationship is usually stable. After the specific commodity object is displayed on the shelf, the commodity object tag may be attached to the guide rail on which the short-range communication tag is laid, depending on the position of the specific commodity object. Of course, since the display of the merchandise object on the shelf may change frequently, the position of the merchandise object tag on the shelf may also change frequently, or the position of the merchandise object tag itself may not change, but the associated merchandise object information may change, and so on.

The specific commodity object label can be correspondingly provided with a near field communication card reader, and in the specific implementation, the specific card reader can be arranged in the commodity object label, or can be arranged in an external mode and the like, so long as the binding relationship between the card reader and the commodity object label can be established logically. In a specific implementation, the article object label meeting the above condition may specifically include: the electronic tag with the near field communication card reading function is provided with a display device and is used for displaying information of the associated commodity object. The specific display device may be a display screen, or electronic paper, etc.

It should be noted that, because the tag of the commodity object is provided with the card reader, the information stored in the near field communication tag needs to be continuously read, and the information needs to be reported to the server, in an optimal implementation manner, continuous electric energy may be provided for the tag of the commodity object, otherwise, if the battery is used for supplying power, the battery may need to be frequently replaced, which affects the implementation effect of the scheme. In order to achieve the above object, in an alternative embodiment of the present application, the specific guide rail may be made of a conductive metal material, and may even be divided into an upper guide rail and a lower guide rail, which are respectively used for connecting with the positive electrode and the negative electrode of the power supply. In addition, the commodity object label can also be provided with two electrode contact pieces, namely a positive electrode contact piece and a negative electrode contact piece, so that the two electrode contact pieces can be respectively contacted with the upper guide rail and the lower guide rail when the commodity object label is installed on the guide rail. In this way, a plurality of commodity object labels on the same layer can obtain continuous electric energy through the guide rail on the layer.

In addition, since the short-range communication tag capable of reading the first information by the card reader corresponding to the specific product object tag is usually the short-range communication tag closest to the product object tag, the position information of the product object tag can be specified from the position information of the short-range communication tag. In order to facilitate more accurate positioning, a coverage area of a signal emitted by the near field communication tag may be smaller than a preset threshold (e.g., 2-3 cm, etc.), so that a card reader corresponding to the commodity object tag can only read signals emitted by at most two near field communication tags in a layer where the tag is located. That is, in a specific implementation, a certain tag of an article may generally read only information of one near field communication tag closest to the tag, but there may be a case where signals of two near field communication tags are read, and of course, since signal coverage of the near field communication tags is controlled, there are at most two tags. In this case, it means that the article object tag is located between the positions of the two short-range communication tags. Therefore, the commodity object tags can read the signals sent by the two near field communication tags and can be submitted to the server, and the server can determine the positions of the commodity object tags according to the position information associated with the two near field communication tags.

The nfc tag may be produced by a user such as an associated vendor, and when the nfc tag is shipped from a factory, the nfc tag may be in a roll unit, and a plurality of the nfc tags may be equidistantly distributed on the backplane. With respect to the distance information between specific proximity tags, specific requirements may be provided to the supplier so that the supplier performs the production of the proximity communication tags as required. In the embodiment of the present application, the back plate may be attached to the layer corresponding to the shelf by means of, for example, adhesive, and then the tag of the merchandise object associated with the card reader may be attached to the layer corresponding to the shelf according to the specific display condition of the merchandise object on the shelf. In this way, the card reader can read the signal sent by the nearest near field communication tag on the layer, and the reading result is submitted to the server.

The server can be located at the cloud end, or can be located in a specific entity shop, and certainly, in practical application, the server is mainly located at the cloud end and can provide services for a plurality of entity shops at the same time. Specifically, the server may store the position information related to the near field communication tag in advance, so that after receiving the read result information submitted by the card reader corresponding to a specific commodity object tag, the position information of the commodity object tag on the shelf may be determined according to the read position information related to the near field communication tag. Since the position of the commodity object tag represents the position of the commodity object, the position information of the commodity object on the shelf can be specified.

Specifically, the server may have a plurality of specific forms when storing the location information related to the nfc tag. For example, in one of the manners, the correspondence between the identification information of the near field communication tag and the location information of the near field communication tag on the shelf may be directly stored, for example, taking the NFC tag as an example, the correspondence may be specifically shown in table 1:

TABLE 1

In this case, the first information stored in the near field communication tag may only include identification information of the near field communication tag, and thus, the first information read by the card reader corresponding to the commodity object tag may also be the first information stored in the near field communication tag that can be read by the first information. The near field communication tag capable of reading the first information is usually a near field communication tag closest to the tag of the commodity object. After the card reader reads first information stored in a specific near field communication tag, the first information and associated commodity object tag identification information can be submitted to a server, and the server can determine the position of the near field communication tag as the position of the commodity object tag.

That is, in the foregoing implementation manner, the second information stored by the server specifically may include: and the corresponding relation between the identification information of each short-distance communication label and the shelf identification, the layer identification and the specific position information in the layer. Alternatively, in another mode, in order to reduce the amount of information stored in the server, since a plurality of near field communication tags associated with the same layer may be arranged at equal intervals, the encoding mode of the identifiers of the near field communication tags in the same layer may be specified in advance, for example, sequentially increasing or decreasing from one side of the same layer of the shelf, or the like. In this way, the server can obtain the location information of other near field communication tags in the same layer only by storing the layer identifier of one near field communication tag in the same layer, the location information in the layer and the distance information between the near field communication tags. For example, still taking the NFC tag as an example, it may be specifically shown in table 2:

TABLE 2

Thus, assuming that the NFC tag identifier submitted by a certain merchandise object tag is 400005, it can be determined that the NFC tag is located at the first layer of the shelf 1, at a position 2+5 × 4 ═ 22cm from the left side, and so on.

In the above scheme, the server may record position coordinate information of each near field communication tag in a specific layer of the shelf, or at least record position coordinate information of at least one near field communication tag in the same layer in the specific layer of the shelf, so as to infer position coordinate information of other near field communication tags in the same layer in the specific layer of the shelf. Correspondingly, after the card reader corresponding to a certain commodity object label reads the information associated with a certain near field communication label, the position coordinate information of the specific commodity object label and the commodity object associated with the specific commodity object label in the goods shelf can be determined.

In a specific implementation, in the above manner, the server may directly record the correspondence between the identifiers of a group of near field communication tags (corresponding to the same layer), and the shelf and the layer where the tags are located, instead of storing the position coordinate information, the distance information, and the like of the specific near field communication tags, and the first information stored in the near field communication tags may include the identifier information of the near field communication tags, and the identifier information of the near field communication tags may include the arrangement order code information of the near field communication tags on the guide rail. Therefore, the server can determine the arrangement order information of the specific short-distance tag in the layer according to the arrangement order coding information of the short-distance communication tag on the guide rail. Further, upon receiving the first message associated with the read near field communication tag submitted by the specific receiver, the server may determine the shelf identifier, the layer identifier, and the arrangement order information between the commodity objects associated with the plurality of different commodity object tags in the same layer.

The information on the order of arrangement also allows checking of the display of the specific product objects on the shelves to a certain extent. For example, a shelf is a multi-layer shelf, and multiple kinds of commodity objects are sequentially displayed on each layer, and if the information about the order of the commodity objects displayed on the same layer from left to right or from right to left is obtained, it can be determined to some extent whether the design schemes corresponding to the shelf are consistent. Therefore, in order to reduce the difficulty of checking, the arrangement order information of the commodity objects on the shelf may be acquired as the position-related information. At this time, the information stored in the specific server may be as shown in table 3:

TABLE 3

In the foregoing implementation schemes, the correspondence between the identification of the near field communication tag and the information related to the specific location is directly stored in the server. In this way, before or after a specific proximity communication tag is associated with a specific layer on a specific shelf, identification information such as an ID of the specific proximity communication tag needs to be read by a device such as a card reader, and then the identification information of the specific proximity communication tag and the associated shelf identifier, layer identifier, even position information in the specific layer, etc. are submitted to a server for storage.

In another implementation, in order to simplify the difficulty of entering information into the server, the location information related to the near field communication tag may be stored in another manner. Specifically, in this scheme, the server may not directly store the correspondence between the identifier of the specific proximity tag and the specific location information, but record the correspondence by using the identifier information of the guide rail on which the proximity tag is located.

Specifically, as described above, after the nfc tag is produced, the tag may be first placed on the guide rail by means of pasting or the like, and then the guide rail may be installed in a certain layer of a specific shelf. Wherein, the specific guide rail can also be produced by a specific supplier according to the requirement of the embodiment of the application. In specific implementation, a supplier producing the near field communication tag can provide the produced near field communication tag to a guide rail supplier, and the guide rail supplier lays the specific near field communication tag on a guide rail and then provides the specific near field communication tag to a specific entity shop. In this case, in addition to the unique identification information of each specific near field communication tag, the identification information of the associated guide rail may be written into the specific tag during the production of the near field communication tag. That is, the first information stored in one near field communication tag may include an identifier of the near field communication tag and a rail identifier of a rail on which the near field communication tag is located; the identification information of the near field communication tag may also include information of the rank code of the near field communication tag on the track. In addition, it is necessary that the same guide identification can be written in the near field communication tags associated with the same guide.

It should be noted that, in the embodiment of the present application, the guide rail identification information specifically written in the near field communication tag may be virtual information, that is, the guide rail itself does not actually have identification information, and since a group of near field communication tags is laid on a certain guide rail, and the identification such as a guide rail ID written in the group of near field communication tags is to give an identification information to the guide rail. In a specific implementation, in order to facilitate an executor in a specific physical store to know specific track identification information, when a supplier of the near field communication tags provides the specific track supplier with the near field communication tags, the supplier of the near field communication tags may also provide the track identification information corresponding to each group of the near field communication tags to the track supplier. In this way, when laying each group of near field communication tags on the guide rail, the guide rail supplier can also provide identification information such as ID of the specific guide rail at the free positions such as two ends of the guide rail by printing or pasting materials.

Therefore, after the specific entity shop acquires the guide rails paved with the near field communication tags, the identification information of each guide rail can be conveniently acquired. After a specific guide rail is installed on a certain layer of a certain shelf, the corresponding relation among the guide rail identification, shelf identification and layer identification information can be submitted to a server. Thus, the information specifically stored in the server can be as shown in table 4:

TABLE 4

Physical store identification	Shelf label	Layer identification	Guide rail mark
				Shop A	Goods shelf	1	1 layer of	500001
Shop A	Goods shelf	1	2 layers of						500002
				Shop A	Goods shelf	1	3 layers of	500003
……	……	……	……

That is, the position information on the near field communication tag stored in the server may be stored as position information of a guide mark associated with specific near field communication. The second information stored in the server may be a correspondence between a guide rail identifier associated with the near field communication and a specific shelf identifier or layer identifier. In addition, since the identification information of the specific near field communication tag and the associated guide rail identification are written in the near field communication tag, after the card reader corresponding to the specific commodity object tag reads the first information stored in a certain near field communication tag, the identification information of the specific near field communication tag and the associated guide rail identification can be acquired from the first information. After the information is submitted to the server, the server can determine the shelf identifier and the layer identifier where the specific short-range communication tag is located, because the information shown in table 4 can be recorded in the server. In addition, the identifications of the different near field communication tags in the same layer can be encoded in an increasing or decreasing mode, so as to embody the arrangement order information in the layer board. Therefore, according to the difference of the identifications of the short-distance communication labels read by the label readers of different commodity objects in the same layer, the arrangement sequence information among the commodity objects related to the labels of the different commodity objects in the same layer can be determined.

For example, a group of close range communication tags has 8 tags, which are respectively identified as: 4000001, 4000002, 4000003 … … 4000008, the associated rail is identified as 500001.

The identifiers of the near field communication tags respectively read by the card readers associated with the commodity object tags A, B, C are respectively: 4000002, 4000006 and 4000004, and the guide rail identifiers are 500001.

The server can determine that the commodity object A, B, C is located in the same layer according to the reading result information, and determine the shelf identifier and the layer identifier where the commodity object label A, B, C is located according to the shelf identifier and the layer identifier corresponding to the guide rail identifier 500001. Further, from the rank identifiers among the identifiers of the short-range communication tags read by the product tags A, B, C, it can be determined that the arrangement order information of the product tag A, B, C in the layer is: from left to right in turn item label A, C, B.

In short, in the above specific implementation manner, the signal generated by the near field communication tag may include the identifier of the near field communication tag and the rail identifier of the rail on which the near field communication tag is located; the identification information of the near field communication tag comprises arrangement order information of the near field communication tag on the guide rail. Correspondingly, the information stored in the server can be the corresponding relation between the guide rail identification and the shelf identification and the layer identification. In this way, the server can determine the shelf identifier and the layer identifier of the commodity object associated with the commodity object tag and the arrangement sequence information among the commodity objects associated with a plurality of different commodity object tags in the same layer according to the stored information, the identifier of the near field communication tag submitted by the card reader and the rail identifier of the rail on which the tag is located.

In this case, the distance information between the near field communication tags may be stored in the server. In this case, the server may further determine the position coordinate information of the commodity object associated with the commodity object tag in the layer according to the arrangement order information of the near field communication tag read by the commodity object tag on the guide rail and the distance information.

After the information related to the position of the specific commodity object on the shelf is determined, information related to the actual display condition of the commodity object in the shelf can be provided, that is, the virtual shelf can be displayed in a sequence for comparing with the commodity object display design scheme associated with the shelf. Specifically, when performing the ranking presentation of the virtual shelf, there may be a plurality of ways, for example, in one way, only the identifier and the layer identifier of the specific shelf, and information such as the IDs of the commodity objects in each layer of the specific shelf may be presented in sequence according to the determined ranking relationship information. Or, in order to improve the intuitiveness of the display information, the graphic information of various goods shelves and goods objects can be stored in advance, so that the virtual goods shelves can be displayed in a graphical mode, a user can determine the actual display situation of specific goods objects in the goods shelves more intuitively, and the comparison with the design information is facilitated.

In this case, the information about the actual display situation of the commodity objects in the shelves may be provided to users of various identities, for example, in one case, there may be a manager user having a management authority for the display of the commodity objects in the plurality of physical stores, and therefore, the information may be provided to such a user client having a management authority for the plurality of physical stores, so that the user client can grasp the actual display situation of the commodity objects in each physical store on a specific shelf in time.

Alternatively, in another case, the information on the actual display condition of the commodity object on the shelf may be provided to the management user client of the physical store to which the shelf is associated. In this way, the administrator user may also assign a user such as a tally clerk in a specific physical store to adjust the display situation of the commodity objects on the specific shelf when finding that the actual display situation does not match the design information of the corresponding shelf.

In addition, the server may also store the identity information of the operators in each physical store in advance, so that after the information of the actual display situation of the commodity object in the shelf is obtained specifically, the information can be directly compared with the commodity object display design scheme associated with the shelf to determine whether the adjustment of the display situation of the commodity object in the shelf is needed. If so, generating a corresponding task work order and providing the task work order to a corresponding executor user client in the shelf-associated entity shop.

That is, the server may also assign shelf display adjustment tasks directly to performer users in a particular physical store. In this case, the server may also track the performance of the task. Specifically, since the wireless signal receiver continuously submits the latest sensing result to the server, if the display condition on a certain shelf is adjusted at a certain time, the sensing result of the receiver changes from the previous time, and accordingly, the server can also know the change according to the latest sensing result received. Therefore, in specific implementation, after a preset time (for example, one hour, etc.) after the work order is generated, the server may determine the execution condition of the task work order by comparing the information of the actual display condition of the commodity objects in the shelf with the commodity object display design scheme associated with the shelf again; the associated administrator user client may also be notified if the task work order has not been executed.

In addition, since the specific merchandise object tag may include a tag with an electronic display screen, which is also called an electronic price tag, when the display mode of the merchandise object on the shelf needs to be adjusted, the information displayed on the display screen of the electronic price tag needs to be modified correspondingly. Therefore, in an alternative embodiment, if it is found that the actual display situation on the shelf does not match the design scheme and the display situation of the commodity objects on the shelf needs to be adjusted, the information displayed in the commodity object labels may be modified according to the arrangement order designed in the display design scheme, so as to adjust the arrangement order of the commodity objects on the shelf according to the modified information. That is, the server may also implement communication with a specific merchandise object tag, and may directly trigger modification of information displayed in the display screen of the merchandise object tag in a case where the display situation needs to be adjusted. In this way, when the performer and the like in the specific physical store specifically adjust the commodity object information on the shelf, the performer and the like can refer to the information in the price tag display screen after modification, thereby improving the efficiency.

In a specific implementation, an image capturing device such as a camera may be installed in front of the shelf, and during the tracking of the shelf display condition through the signal emitting source and the receiver, the specific image capturing condition may be further verified.

In summary, according to the embodiment of the present application, a plurality of near field communication tags are set at preset positions on a shelf, and a near field communication card reader is set for a tag of a commodity object. In this way, when the tag of the commodity object is mounted on the shelf at a position corresponding to the commodity object, information stored in a certain near field communication tag therein can be read by the card reader and can be submitted to the server. In this way, the server can determine the position information of the commodity object associated with the commodity object tag on the shelf according to the position information related to the short-range communication tag stored in advance and the read information related to the short-range communication tag. After the position information of the commodity objects associated with the plurality of commodity object labels on the shelf is determined, the actual display condition of the specific commodity object on the shelf can be automatically determined, and the method can be used for comparing with a design scheme associated with the specific shelf and the like. Thus, the automatic acquisition of the actual display condition of the commodity objects on the shelf can be realized, and the efficiency is improved.

Example two

The second embodiment corresponds to the first embodiment, and provides a method for processing merchandise object display information from the perspective of a server, and referring to fig. 3, the method may specifically include:

s301: receiving first information submitted by a near field communication card reader corresponding to a commodity object label; the system comprises a plurality of commodity object labels, a plurality of short-distance communication labels and a plurality of communication terminals, wherein the commodity object labels are arranged at positions corresponding to associated commodity objects on a target shelf in a target entity store, and the short-distance communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag;

s302: determining the position information of the commodity object related to the commodity object label on the shelf according to the first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

In the specific implementation, the goods shelf is of a multilayer structure, a guide rail is arranged on a layer plate of each layer, a plurality of near field communication tags corresponding to the same layer plate are laid on the guide rail in advance, and the commodity object tags are arranged on the guide rail on which the near field communication tags are laid and at positions corresponding to display positions of the related commodity objects.

In one implementation manner, the first information stored in the near field communication tag includes an identifier of the near field communication tag, and the identification information of the near field communication tag includes arrangement order information of the near field communication tag on the guide rail; in this case, the second information pre-stored in the server includes: and the corresponding relation between the identification of the near field communication label and the shelf identification and the layer identification. In this case, the shelf label and the layer label of the product object associated with the product object label, and the arrangement order information between the product objects associated with the plurality of different product object labels in the same layer may be determined based on the first information and the second information stored in advance.

In another implementation, the first information stored by the near field communication tag includes: the identification of the near field communication label and the guide rail identification of the guide rail where the near field communication label is located; the identification information of the near field communication tag comprises arrangement order information of the near field communication tag on the guide rail; at this time, the second information pre-stored in the server may include: the corresponding relation between the guide rail mark and the shelf mark and the layer mark; in this case, the server may determine, based on the first information and the second information stored in advance, a shelf label and a layer label in which the commodity object associated with the commodity object label is located, and arrangement order information between the commodity objects associated with a plurality of different commodity object labels in the same layer.

In specific implementation, the distances among a plurality of near field communication tags which are arranged on the same guide rail can be equal; at this time, the server can also store the distance information between the near field communication tags; then, the position coordinate information of the commodity object associated with the commodity object tag in the layer can be determined according to the arrangement order information of the short-range communication tag read by the commodity object tag on the guide rail and the distance information.

In a specific implementation, the server may further provide information about actual display conditions of the commodity objects on the shelf according to the position information of the commodity objects associated with the commodity object tags on the shelf, so as to compare the information with the commodity object display design scheme associated with the shelf.

Specifically, the information on the actual display situation of the commodity objects on the shelves may be provided to a user client having management authority for a plurality of physical stores.

Or, the information of the actual display situation of the commodity objects in the shelves is provided to the management user client of the entity shop associated with the shelves.

In addition, the server can also determine whether the display condition of the commodity objects in the shelf needs to be adjusted by comparing the information of the actual display condition of the commodity objects in the shelf with the commodity object display design scheme associated with the shelf; if so, a corresponding task work order can be generated and provided to a corresponding executor user client in the shelf-associated entity store.

In addition, after the preset time after the work order is generated, the execution condition of the task work order can be determined by comparing the information of the actual display condition of the commodity objects in the goods shelf with the commodity object display design scheme associated with the goods shelf again; and if the task work order is not executed, notifying an associated manager user client.

EXAMPLE III

In a third embodiment, which also corresponds to the first embodiment, there is provided a merchandise object display information processing method from the perspective of a user client having a management authority for a plurality of physical stores or a management user client of a physical store, and referring to fig. 4, the method may specifically include:

s401: receiving information of actual display conditions of commodity objects related to a target shelf in a target entity store; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

s402: and displaying the information of the actual display condition of the commodity object associated with the target shelf so as to be used for comparing with the commodity object display design scheme associated with the target shelf.

In particular implementations, the need for adjusting the merchandise objects displayed on the particular shelves may also arise in particular physical stores, for example, when the actual display situation on the shelves does not match the design plan, or when some sales promotion needs to be temporarily held, etc. Therefore, in the embodiment of the present application, an instruction for adjusting the display condition of the commodity object associated with the target shelf in the target entity shop may be received; then, a corresponding adjustment task work order can be generated according to the instruction, and is used for being issued to the executor user client in the target entity shop.

Example four

A fourth embodiment is also corresponding to the first embodiment, and provides a commodity object display information processing method from the perspective of a user client such as a specific executive in a physical store, which may specifically include, referring to fig. 5:

s501: receiving task work order information, wherein the task work order is generated under the condition that the display condition of the commodity object in the target shelf needs to be adjusted by comparing the information of the actual display condition of the commodity object associated with the target shelf in the target entity shop with the display design scheme of the commodity object associated with the target shelf; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

s502: and displaying the task work order information so as to execute a task of adjusting the display condition of the commodity objects in the target shelf according to the information of the task work order.

EXAMPLE five

The fifth embodiment further provides a commodity object tag, referring to fig. 6, the commodity object tag is provided with a near field communication card reader 601, the commodity object tag 601 is provided at a position corresponding to an associated commodity object on a target shelf in a target entity store, and a plurality of near field communication tags are further provided at a plurality of preset positions on the target shelf and used for storing first information associated with the near field communication tags; the card reader is used for reading first information stored in the near field communication tag and submitting the first information to a server so that the server can determine the position information of the commodity object related to the commodity object tag on the shelf according to the received first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

In the specific implementation, since the specific card reader needs to submit the first information stored in the near field communication tag to the server after reading the first information, in practical application, the reading frequency may be relatively high, but it is not necessary to upload all the reading results of each time to the server, and some simple processing such as storage and filtering may be performed, and then the processing is uploaded to the server. In order to meet the above requirements, as shown in fig. 6, the commodity object tag may further be associated with a microcomputer or a single chip Microcomputer (MCU) system and a storage system. In addition, in order to submit specific reading result information to the server, a wireless network base station device based on protocols such as bluetooth and WiFi may be deployed in the physical store, and meanwhile, the commodity object tag may be associated with a corresponding wireless network terminal module. In this way, the first information specifically read by the card reader can be submitted to the wireless network base station device in the entity shop through the wireless network terminal module, and the wireless network base station device can be connected to the internet in advance, so that the first information specifically read by the card reader can be submitted to the server. During concrete implementation, if the transmission of the first information is realized by adopting a Bluetooth protocol, the MCU carrying the Bluetooth module can be directly adopted, namely, the MCU module and the wireless network terminal device can be combined into a whole, and the connection structure of each part is simplified. Of course, the article object tag may be an electronic tag, and may have a display device such as a display screen or electronic paper, and therefore, the article object tag may also be associated with a display driving module. For example, in the case of displaying using electronic paper, a specific display driving module may be an EPD (electronic paper display driving chip) to implement display control of the electronic paper, and the like. In addition, an indicator light, such as an LED light, may be associated with the specific product object tag to indicate the operating state of the product object tag. Further, a power supply controller, and the like may be included.

Corresponding to the second embodiment, the embodiment of the present application further provides a commodity object display information processing apparatus, referring to fig. 7, the apparatus may specifically include:

an information receiving unit 701, configured to receive first information submitted by a near field communication card reader corresponding to a commodity object tag; the system comprises a plurality of commodity object labels, a plurality of short-distance communication labels and a plurality of communication terminals, wherein the commodity object labels are arranged at positions corresponding to associated commodity objects on a target shelf in a target entity store, and the short-distance communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag;

a position information specifying unit 702 configured to specify position information of the commodity object associated with the commodity object tag on the shelf, based on the first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

The goods shelf is of a multilayer structure, a guide rail is arranged on each layer of layer plate, a plurality of near field communication tags corresponding to the same layer plate are laid on the guide rail in advance, and the goods object tags are arranged on the guide rail on which the near field communication tags are laid and at positions corresponding to display positions of related goods objects.

In a specific implementation, the first information stored in the near field communication tag includes an identifier of the near field communication tag, and the identifier information of the near field communication tag includes information of the rank code of the near field communication tag on the guide rail; the second information pre-stored in the server includes: the corresponding relation between the identification of the near field communication label and the shelf identification and the layer identification;

at this time, the location information determining unit may be specifically configured to:

and determining the shelf mark and the layer mark of the commodity object associated with the commodity object label and the arrangement sequence information among the commodity objects associated with a plurality of different commodity object labels in the same layer according to the first information and the second information which is saved in advance.

In another mode, the first information stored in the near field communication tag includes: the identification of the near field communication label and the guide rail identification of the guide rail where the near field communication label is located; the identification information of the near field communication tag comprises arrangement order coding information of the near field communication tag on the guide rail; the pre-saved location information associated with the near field communication tag includes: the corresponding relation between the guide rail mark and the shelf mark and the layer mark;

at this time, the location information determining unit may be specifically configured to:

and determining the shelf mark and the layer mark of the commodity object associated with the commodity object label and the arrangement sequence information among the commodity objects associated with a plurality of different commodity object labels in the same layer according to the first information and the second information which is saved in advance.

In specific implementation, the distances among a plurality of near field communication tags which are arranged on the same guide rail can be equal; in this case, the apparatus may further include:

a distance information storage unit for storing distance information between the near field communication tags;

and the position coordinate information determining unit is used for determining the position coordinate information of the commodity object related to the commodity object label in the layer according to the arrangement order information of the short-range communication label read by the commodity object label on the guide rail and the distance information.

In addition, the apparatus may further include:

and the display condition information providing unit is used for providing information about the actual display condition of the commodity objects in the shelf according to the position information of the commodity objects related to the commodity object labels on the shelf so as to be used for comparing with the commodity object display design scheme related to the shelf.

Wherein the display case information providing unit may be specifically configured to:

and providing the information of the actual display situation of the commodity objects in the shelves to a user client having management authority for a plurality of entity shops.

Alternatively, the display case information providing unit may be specifically configured to:

and providing the information of the actual display situation of the commodity objects in the shelves to the management user client of the entity shop associated with the shelves.

In addition, the apparatus may further include:

the comparison unit is used for comparing the information of the actual display situation of the commodity objects in the goods shelf with the commodity object display design scheme associated with the goods shelf to determine whether the display situation of the commodity objects in the goods shelf needs to be adjusted or not;

and the work order generating unit is used for generating a corresponding task work order and providing the corresponding task work order to a corresponding executor user client in the shelf-associated entity shop if the work order is positive.

Further, the method may further include:

the execution condition determining unit is used for comparing the information of the actual display condition of the commodity objects in the goods shelf with the commodity object display design scheme associated with the goods shelf again after the preset time after the work order is generated, and determining the execution condition of the task work order;

and the notification unit is used for notifying the associated manager user client if the task work order is not executed.

Wherein the merchandise object tags comprise tags with electronic display screens;

the apparatus may further include:

and the label modifying unit is used for modifying the information displayed in the commodity object labels according to the arrangement sequence designed in the display design scheme if the display condition of the commodity objects in the shelf needs to be adjusted, so that the arrangement sequence of the commodity objects on the shelf is adjusted according to the modified information.

Corresponding to the third embodiment, the present application further provides a commodity object display information processing apparatus, and referring to fig. 8, the apparatus may specifically include:

an exhibition information receiving unit 801 configured to receive information on actual exhibition of the commodity object associated with the target shelf in the target physical store; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

a display unit 802, configured to display information of an actual display situation of the commodity object associated with the target shelf, so as to compare the information with the commodity object display design scheme associated with the target shelf.

In a specific implementation, the apparatus may further include:

adjustment instruction receiving means for receiving an instruction to adjust a display situation of a commodity object associated with a target shelf in a target physical store;

and the work order generating unit is used for generating a corresponding adjustment task work order according to the instruction so as to be issued to the executor user client in the target entity shop.

Corresponding to the fourth embodiment, the embodiment of the present application further provides a commodity object display information processing apparatus, referring to fig. 9, the apparatus may specifically include:

a task work order information receiving unit 901, configured to receive task work order information, where the task work order is generated when the display condition of the commodity object in the target shelf needs to be adjusted by comparing information of an actual display condition of the commodity object associated with the target shelf in the target entity store with a commodity object display design scheme associated with the target shelf; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

and the display unit 902 is configured to display the task work order information, so as to execute a task of adjusting the display condition of the commodity object in the target shelf according to the information of the task work order.

In addition, the present application also provides a computer-readable storage medium, on which a computer program is stored, wherein the program is implemented to implement the steps of the method described in the foregoing embodiments when executed by a processor.

Further, there is provided a computer system comprising:

one or more processors; and

a memory associated with the one or more processors for storing program instructions that, when read and executed by the one or more processors, perform the steps of the method described in the preceding embodiments.

Fig. 10 illustrates an architecture of a computer system, which may specifically include a processor 1010, a video display adapter 1011, a disk drive 1012, an input/output interface 1013, a network interface 1014, and a memory 1020. The processor 1010, the video display adapter 1011, the disk drive 1012, the input/output interface 1013, and the network interface 1014, and the memory 1020 may be communicatively connected by a communication bus 1030.

The processor 1010 may be implemented by a general-purpose CPU (Central Processing Unit), a microprocessor, an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits, and is configured to execute related programs to implement the technical solution provided by the present Application.

The Memory 1020 may be implemented in the form of a ROM (Read Only Memory), a RAM (Random Access Memory), a static storage device, a dynamic storage device, or the like. The memory 1020 may store an operating system 1021 for controlling the operation of the electronic device 1000, a Basic Input Output System (BIOS) for controlling low-level operations of the electronic device 1000. In addition, a web browser 1023, a data storage management system 1024, and a display information processing system 1025, and the like can be stored. Display information processing system 1025 may be an application program that implements the operations of the above steps in this embodiment of the present application. In summary, when the technical solution provided in the present application is implemented by software or firmware, the relevant program codes are stored in the memory 1020 and called for execution by the processor 1010.

The input/output interface 1013 is used for connecting an input/output module to realize information input and output. The i/o module may be configured as a component in a device (not shown) or may be external to the device to provide a corresponding function. The input devices may include a keyboard, a mouse, a touch screen, a microphone, various sensors, etc., and the output devices may include a display, a speaker, a vibrator, an indicator light, etc.

The network interface 1014 is used for connecting a communication module (not shown in the figure) to realize the communication interaction between the device and other devices. The communication module can realize communication in a wired mode (such as USB, network cable and the like) and also can realize communication in a wireless mode (such as mobile network, WIFI, Bluetooth and the like).

Bus 1030 includes a path that transfers information between various components of the device, such as processor 1010, video display adapter 1011, disk drive 1012, input/output interface 1013, network interface 1014, and memory 1020.

It should be noted that although the above devices only show the processor 1010, the video display adapter 1011, the disk drive 1012, the input/output interface 1013, the network interface 1014, the memory 1020, the bus 1030, etc., in a specific implementation, the device may also include other components necessary for normal operation. Furthermore, it will be understood by those skilled in the art that the apparatus described above may also include only the components necessary to implement the solution of the present application, and not necessarily all of the components shown in the figures.

The implementation scheme for automatically acquiring the display condition of the commodity object in the physical store provided by the embodiment of the application can realize automatic verification of the display condition. In practical application, similar schemes to those in the embodiments of the present application may be adopted in similar scenarios. For example, in a parking lot scene, some parking lots may need to track which parking space a vehicle specifically entering the parking lot specifically enters, and this information may be transmitted to a self-service query device or the like in the parking lot, so that a driver may query through the device when needing to find his or her vehicle. Alternatively, in the case that different parking spaces have different charging standards, the charging management system of the parking lot may also use the above information to charge a specific vehicle, and so on. Under the above requirement, in order to realize tracking of the parking space where the specific vehicle is located, a near field communication tag (NFC, RFID, etc.) may be installed in advance for each parking space, where the parking space identification information such as a specific associated parking space number may be stored. In addition, a plurality of tags similar to "admission tickets" or "admission tickets" can be equipped at the vehicle entrance of the parking lot, and can be realized by adopting electronic tags, and a (built-in or external and the like) short-distance communication card reader can be correspondingly arranged. When a specific vehicle enters a parking lot, vehicle identification information such as a license plate number of the vehicle can be read through some electronic identification devices, then the vehicle identification information can be written into an electronic tag, and the electronic tag which is written with the vehicle identification information and is provided with a near field communication card reader is issued to a driver of the vehicle so as to be used for placing the electronic tag in the vehicle. Therefore, when the vehicle specifically enters a certain parking space, the card reader corresponding to the electronic tag can read the parking space identification information stored in the short-distance communication tag of the parking space. The previously written vehicle identification information and the read parking space identification information may then be provided to the server. The server may provide the correspondence information to a corresponding application system, for example, a self-service query device in a parking lot, or a billing system.

Or, another application scenario may be a warehouse shelf unmanned vehicle scenario, and in this scenario, it is an important issue how to guide an unmanned vehicle to a goods location where goods in a specific task are located after a certain unmanned vehicle is assigned a picking task. Under the condition of using the scheme provided by the embodiment of the application, the goods space of the warehouse shelf can be equipped with the near field communication tag in advance, wherein specific goods space identification information can be stored. After a goods picking task is allocated to a certain unmanned vehicle, the goods position identification information of specific goods in the picking task can be determined, and in addition, a near field communication card reader can be equipped for the unmanned vehicle. Therefore, in the process of driving the unmanned vehicle, the information stored by the near-distance communication tag can be read and compared with the goods position information of the related goods in the task of the unmanned vehicle, if the matching is successful, the driving can be stopped, and after the specific goods are loaded into the unmanned vehicle, the driving is continued, and the like.

Similar application scenarios can be diversified, and are not detailed in detail here.

From the above description of the embodiments, it is clear to those skilled in the art that the present application can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the present application may be essentially or partially implemented in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments or some parts of the embodiments of the present application.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the system or system embodiments are substantially similar to the method embodiments and therefore are described in a relatively simple manner, and reference may be made to some of the descriptions of the method embodiments for related points. The above-described system and system embodiments are only illustrative, wherein the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

The method, the device and the system for processing the merchandise object display information provided by the application are introduced in detail, specific examples are applied in the description to explain the principle and the implementation of the application, and the description of the embodiments is only used for helping to understand the method and the core idea of the application; meanwhile, for a person skilled in the art, according to the idea of the present application, the specific embodiments and the application range may be changed. In view of the above, the description should not be taken as limiting the application.

Claims (27)

1. A merchandise object display information processing system, comprising:

a plurality of near field communication tags located at a plurality of preset locations on a shelf for storing first information, the first information including information associated with the near field communication tags;

the system comprises a commodity object label, a server and a control module, wherein the commodity object label is associated with a commodity object and is used for being arranged at a position, corresponding to the associated commodity object, on a goods shelf, the commodity object label is correspondingly provided with a near field communication card reader, first information stored in the near field communication label is read through the card reader to be read, and the first information is submitted to the server;

a server for determining the position information of the commodity object associated with the commodity object label on the shelf according to the received first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

2. The system of claim 1,

the merchandise object tag includes: the electronic tag with the near field communication card reading function is provided with a display device and is used for displaying information of the associated commodity object.

3. The system of claim 1,

the coverage range of the short-distance communication tags which can be read is smaller than a preset threshold value, so that after the commodity object tags are arranged on the shelf, the card readers corresponding to the commodity object tags can only read signals generated by at most two short-distance communication tags.

4. The system of claim 1,

the goods shelf is of a multilayer structure, each layer comprises a layer plate for displaying commodity objects, and a plurality of near field communication tags are arranged at a plurality of preset positions of the same layer plate.

5. The system of claim 4,

the shelf is provided with a guide rail, a plurality of near field communication tags corresponding to the same shelf are laid on the guide rail in advance, and the commodity object tags are mounted on the guide rail on which the near field communication tags are laid and at positions corresponding to display positions of the associated commodity objects.

6. The system of claim 5,

the first information stored by the near field communication tag includes: the identification information of the near field communication tag comprises the arrangement order coding information of the near field communication tag on the guide rail;

the second information pre-stored in the server includes: the corresponding relation between the identification of the near field communication label and the identification of the shelf and the layer identification is formed;

the server is specifically configured to determine, according to the first information and the second information that is pre-stored, a shelf identifier and a layer identifier where the commodity object associated with the commodity object tag is located, and information of an arrangement order between the commodity objects associated with a plurality of different commodity object tags in the same layer.

7. The system of claim 5,

the first information stored by the near field communication tag includes: the identification of the near field communication label and the guide rail identification of the guide rail where the near field communication label is located; the identification information of the near field communication tag comprises arrangement order coding information of the near field communication tag on the guide rail;

the second information pre-stored in the server includes: the corresponding relation between the guide rail mark and the shelf mark and the layer mark;

the server is specifically configured to determine, according to the first information and second information stored in advance, a shelf identifier and a layer identifier where the commodity object associated with the commodity object tag is located, and information of an arrangement order between the commodity objects associated with a plurality of different commodity object tags in the same layer.

8. The system of claim 6 or 7,

the distances among the plurality of near field communication tags which are arranged on the same guide rail are equal;

the server is further configured to store distance information between the near field communication tags, so as to determine position coordinate information of the commodity object associated with the commodity object tag in the layer where the commodity object is located according to the arrangement order information of the near field communication tags read by the commodity object tag on the guide rail and the distance information.

9. A merchandise object display information processing method, comprising:

receiving first information submitted by a near field communication card reader corresponding to a commodity object label; the system comprises a plurality of commodity object labels, a plurality of short-distance communication labels and a plurality of communication terminals, wherein the commodity object labels are arranged at positions corresponding to associated commodity objects on a target shelf in a target entity store, and the short-distance communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag;

determining the position information of the commodity object related to the commodity object label on the shelf according to the first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

10. The method of claim 9,

the goods shelf is of a multilayer structure, a guide rail is arranged on each layer of layer plate, a plurality of near field communication tags corresponding to the same layer plate are laid on the guide rail in advance, and the goods object tags are arranged on the guide rail on which the near field communication tags are laid and at positions corresponding to display positions of related goods objects.

11. The method of claim 10,

the first information stored in the near field communication tag comprises an identifier of the near field communication tag, and the identifier information of the near field communication tag comprises arrangement order coding information of the near field communication tag on the guide rail;

the second information pre-stored in the server includes: : the corresponding relation between the identification of the near field communication label and the identification of the shelf and the layer identification is formed;

the determining the location information of the item object associated with the item object tag on the shelf comprises:

and determining the shelf mark and the layer mark of the commodity object associated with the commodity object label and the arrangement sequence information among the commodity objects associated with a plurality of different commodity object labels in the same layer according to the first information and the second information which is saved in advance.

12. The method of claim 10,

the first information stored by the near field communication tag includes: the identification of the near field communication label and the guide rail identification of the guide rail where the near field communication label is located; the identification information of the near field communication tag comprises arrangement order coding information of the near field communication tag on the guide rail;

the second information pre-stored in the server includes: the corresponding relation between the guide rail mark and the shelf mark and the layer mark;

the determining the location information of the item object associated with the item object tag on the shelf comprises:

and determining the shelf mark and the layer mark of the commodity object associated with the commodity object label and the arrangement sequence information among the commodity objects associated with a plurality of different commodity object labels in the same layer according to the first information and the second information which is saved in advance.

13. The method according to claim 11 or 12,

the distances among the plurality of near field communication tags which are arranged on the same guide rail are equal;

the method further comprises the following steps:

storing distance information between the close range communication tags;

and determining the position coordinate information of the commodity object associated with the commodity object label in the layer according to the arrangement order information of the short-range communication label read by the commodity object label on the guide rail and the distance information.

14. The method of claim 9, further comprising:

and providing information about the actual display condition of the commodity objects in the shelf according to the position information of the commodity objects associated with the commodity object labels on the shelf, so as to be used for comparing with the commodity object display design scheme associated with the shelf.

15. The method of claim 14,

the providing information about actual display of the merchandise objects on the shelf includes:

and providing the information of the actual display situation of the commodity objects in the shelves to a user client having management authority for a plurality of entity shops.

16. The method of claim 14,

the providing information about actual display of the merchandise objects on the shelf includes:

and providing the information of the actual display situation of the commodity objects in the shelves to the management user client of the entity shop associated with the shelves.

17. The method of claim 14, further comprising:

comparing the information of the actual display situation of the commodity objects in the shelf with the commodity object display design scheme associated with the shelf to determine whether the display situation of the commodity objects in the shelf needs to be adjusted;

and if so, generating a corresponding task work order and providing the task work order to a corresponding executor user client in the shelf associated entity shop.

18. The method of claim 17, further comprising:

after the preset time after the work order is generated, determining the execution condition of the task work order by comparing the information of the actual display condition of the commodity objects in the goods shelf with the commodity object display design scheme associated with the goods shelf again;

and if the task work order is not executed, notifying an associated manager user client.

19. A merchandise object display information processing method, comprising:

receiving information of actual display conditions of commodity objects related to a target shelf in a target entity store; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

and displaying the information of the actual display condition of the commodity object associated with the target shelf so as to be used for comparing with the commodity object display design scheme associated with the target shelf.

20. The method of claim 19, further comprising:

receiving an instruction for adjusting the display condition of the commodity object associated with the target shelf in the target entity shop;

and generating a corresponding adjustment task work order according to the instruction, so as to be issued to the executor user client in the target entity shop.

21. A merchandise object display information processing method, comprising:

receiving task work order information, wherein the task work order is generated under the condition that the display condition of the commodity object in the target shelf needs to be adjusted by comparing the information of the actual display condition of the commodity object associated with the target shelf in the target entity shop with the display design scheme of the commodity object associated with the target shelf; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

and displaying the task work order information so as to execute a task of adjusting the display condition of the commodity objects in the target shelf according to the information of the task work order.

22. A merchandise object label, characterized in that,

the commodity object label is provided with a near field communication card reader, the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are also arranged at a plurality of preset positions on the target shelf and used for storing first information associated with the near field communication labels; the card reader is used for reading first information stored in the near field communication tag and submitting the first information to the server so that the server can determine the position information of the commodity object related to the commodity object tag on the shelf according to the received first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

23. A commodity object display information processing apparatus comprising:

the information receiving unit is used for receiving first information submitted by a near field communication card reader corresponding to the commodity object label; the system comprises a plurality of commodity object labels, a plurality of short-distance communication labels and a plurality of communication terminals, wherein the commodity object labels are arranged at positions corresponding to associated commodity objects on a target shelf in a target entity store, and the short-distance communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag;

a position information specifying unit configured to specify position information of the commodity object associated with the commodity object tag on the shelf, based on the first information and second information stored in advance; the second information includes location information associated with the near field communication tag.

24. A commodity object display information processing apparatus comprising:

an exhibition information receiving unit configured to receive information on actual exhibition of the commodity object associated with the target shelf in the target physical store; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

and the display unit is used for displaying the information of the actual display condition of the commodity object associated with the target shelf so as to compare the information with the commodity object display design scheme associated with the target shelf.

25. A commodity object display information processing apparatus comprising:

the system comprises a task work order information receiving unit, a task work order information processing unit and a task work order information processing unit, wherein the task work order information receiving unit is used for receiving task work order information, and the task work order is generated under the condition that the display condition of the commodity object in the target shelf needs to be adjusted by comparing the information of the actual display condition of the commodity object related to the target shelf in the target entity shop with the display design scheme of the commodity object related to the target shelf; the actual display condition of the commodity objects is determined by receiving first information submitted by a near field communication card reader corresponding to a commodity object label and second information which is pre-stored, wherein the commodity object label is arranged at a position corresponding to the associated commodity object on a target shelf in a target entity shop, and a plurality of near field communication labels are respectively arranged at preset positions of the target shelf; the first information comprises information related to the near field communication tag read by a card reader corresponding to the commodity object tag; the second information includes location information related to the near field communication tag;

and the display unit is used for displaying the task work order information so as to execute a task of adjusting the display condition of the commodity objects in the target shelf according to the information of the task work order.

26. A computer system, comprising:

one or more processors; and

memory associated with the one or more processors for storing program instructions which, when read and executed by the one or more processors, perform the steps of the method of any of claims 9 to 21.

27. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method of any one of claims 9 to 21.

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