CN108629911B

CN108629911B - Color-variable intelligent retail store and color-variable method thereof

Info

Publication number: CN108629911B
Application number: CN201810295424.3A
Authority: CN
Inventors: 李扬汉; 杨凯; 杨顺福; 蓝腾仔; 余珍珍
Original assignee: Xiamen Zlink Science & Technology Co ltd
Current assignee: Xiamen Zlink Science & Technology Co ltd
Priority date: 2018-03-30
Filing date: 2018-03-30
Publication date: 2020-11-10
Anticipated expiration: 2038-03-30
Also published as: CN108629911A

Abstract

Disclosed is a color-changeable intelligent retail store, which comprises a store main body and shelves arranged in the store main body for placing goods, wherein the store main body comprises a client with a processor, a recognition device for acquiring user information, a monitoring device for monitoring the goods state on the shelves and a light-emitting device for enabling the store main body to change colors; the client is connected with the identification device and the monitoring device respectively and used for regulating and controlling the identification device, the monitoring device and the light-emitting device.

Description

Color-variable intelligent retail store and color-variable method thereof

Technical Field

The invention relates to the field of unmanned retail, in particular to a color-variable intelligent retail store and a color-variable method thereof.

Background

With the advancement of technology, a batch of unmanned stores begin to appear on the market. However, the current unmanned store is generally set up like a convenience store, and generally cannot automatically identify the goods selected by the user, and even more cannot perform color transformation on the store according to the goods selected by the user. If the color of the shop can be changed according to the shopping history of the user or the goods being purchased, a better shopping experience can be better provided for the user. Therefore, there is a need for a method and smart retail store that can implement store color conversion based on a user's shopping history or shopping items.

Disclosure of Invention

To solve the above problems, the present invention discloses a method and a smart retail store for implementing a color change of the store according to a shopping history of a user or shopping of goods.

A first aspect of the present invention discloses a color-changeable intelligent retail store, comprising a store main body and shelves provided in the store main body for placing goods, the store main body comprising a client with a processor, an identification device for acquiring user information, a monitoring device for monitoring the state of goods on the shelves, and a light emitting device for causing the store main body to change color; the client is connected with the identification device and the monitoring device respectively and used for regulating and controlling the identification device, the monitoring device and the light-emitting device. Wherein the processor is configured to:

scanning the commodities on the goods shelf through the monitoring device to obtain the current state information of the commodities on the goods shelf;

comparing the current state information with first original state information stored in a database, and judging whether commodity data is lacked between the current state information and the first original state information; the first original state information is the state information of the commodities on the goods shelf, which is acquired by the processor before the current state information is acquired by the monitoring device;

if the commodity data are judged to be lacking, the commodity corresponding to the lacking commodity data is marked as a shopping commodity;

calling a color instruction corresponding to the purchased commodity according to the marked purchased commodity so as to instruct the light-emitting device to emit light according to the color instruction.

Further, the processor in the smart retail store is further configured to: acquiring user information through the identification device; accessing historical transaction profiles in a database associated with the user information, wherein the historical transaction profiles include historical consumption of the user within the intelligent retail store to which the user information is directed; and determining the category attribution of the user information according to the historical transaction data, and calling a color instruction corresponding to the user information according to the category attribution to indicate the light-emitting device to emit light according to the color instruction.

In a second aspect of the invention, a color conversion method for an intelligent retail store is disclosed for execution by a processor, comprising: scanning the commodities on the goods shelf through the monitoring device to obtain the current state information of the commodities on the goods shelf; comparing the current state information with first original state information stored in a database, and judging whether commodity data is lacked between the current state information and the first original state information; the first original state information is the state information of the commodities on the goods shelf, which is acquired by the processor before the current state information is acquired by the monitoring device; if the commodity data are judged to be lacking, the commodity corresponding to the lacking commodity data is marked as a shopping commodity; calling a color instruction corresponding to the purchased commodity according to the marked purchased commodity so as to instruct the light-emitting device to emit light according to the color instruction.

Further, the color transformation method further includes: acquiring user information through the identification device; accessing historical transaction profiles in a database associated with the user information, wherein the historical transaction profiles include historical consumption of the user within the intelligent retail store to which the user information is directed; and determining the category attribution of the user information according to the historical transaction data, and calling a color instruction corresponding to the user information according to the category attribution to indicate the light-emitting device to emit light according to the color instruction.

In a third aspect of the invention, a computer-readable storage medium is disclosed. The computer readable storage medium comprises a stored computer program, wherein the apparatus in which the computer readable storage medium is located is controlled to perform the color transformation method as described in the second aspect of the invention when the computer program is run.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the embodiments will be briefly described below. It is to be understood that the drawings in the following description are only some of the embodiments of the invention. Specifically, in the drawings:

fig. 1 is a schematic diagram of an architecture of an unmanned retail store according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of an architecture of an unmanned retail store system according to an embodiment of the present invention.

Fig. 3 is an antenna arrangement diagram of an RFID reader according to an embodiment of the present invention.

Fig. 4 is an antenna arrangement diagram of an RFID reader according to another embodiment of the present invention.

Fig. 5 is a flow diagram illustrating a color conversion method of an unmanned retail store system according to an embodiment of the present invention.

Fig. 6 is a flow diagram illustrating a color conversion method of an unmanned retail store system according to another embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 2, a first embodiment of the present invention provides an unmanned retail store system. The unmanned retail store system comprises a store main body 1 and a shelf 10 arranged in the store main body 1 for placing goods, wherein the store main body 1 comprises an entrance guard device 50 capable of opening and closing. The shop main body is provided with a client 100 with a processor, an identification device 20 for acquiring user information, a first monitoring device 30 for monitoring the state of the goods on the shelf, and a second monitoring device 40 for identifying that the user is ready to check out. The client 100 is connected to the access control device 50, the identification device 20, the first monitoring device 30, and the second monitoring device 40, and is configured to regulate and control the access control device 50, the identification device 20, the first monitoring device 30, and the second monitoring device 40. In this embodiment, the shop main body 1 is generally a closed space, is composed of a glass wall, and is provided with the door access device 50 as described above. It should be understood that the walls of the shop body 1 may be glass walls or may be only partially glass walls. In an embodiment, the perimeter of the shop body 1 is preferably composed of glass walls, and the top and bottom are optionally composed of glass or other walls. It is understood that the door access device 50 is provided on a certain glass wall constituting the periphery of the shop main body. Typically, the shelves 10 are disposed in a fixed position within the store body relative to the access control device 50 so that the shelves 10 and the items thereon are visible to the user upon entry into the store. In a further embodiment, however, shelves may be provided on side walls of the store body other than the wall on which the door guard 50 is located. Therefore, more goods can be selected through more shelves. Alternatively, each of the first monitoring device and the second monitoring device may be provided in plural, and the number is not limited herein. A plurality of first monitoring devices or second monitoring devices can be arranged according to specific use conditions in order to acquire more comprehensive monitoring information. Meanwhile, the monitoring device comprises a first monitoring device and a second monitoring device which can be equipment such as an RFID device, an AI image recognition device or a gravity sensor and the like which can be used for monitoring the states of commodities and users. In some embodiments of the present invention, the monitoring device may scan the goods on the shelf to obtain the current state information of the goods on the shelf, and then compare the current state information with the previously stored state information of the goods, and determine the change of the goods on the shelf according to the comparison result. However, in some other embodiments, for example, similar recognition techniques such as AI, image recognition, or even gravity sensing, the change of the goods on the shelf may also be sensed in real time. For example, when a product on a shelf changes, a monitoring device using AI or image recognition technology can sense the changed product and acquire a product attribute of the changed product. If the change is a decrease in the commodity data on the shelf, the decreased commodity data is placed in an electronically generated shopping list. If the change is that the commodity data on the goods shelf is changed, continuously judging whether the shopping list has the commodity data corresponding to the changed commodity; if yes, removing the commodity data from the shopping list.

In the embodiment of the present invention, the intelligent retail store is generally configured to accommodate 1-6 persons, and the length, width and height of the store main body are about 1-2 m × 2-3 m. Preferably, the length, width and height of the shop main body are 1.5m × 1.5m × 2.6 m. Under such a small space, the intelligent retail store can be conveniently arranged in various places including shopping malls with various people flows, railway stations, subway exits and the like.

In some embodiments, the glass wall may be a single layer of glass or a double layer of glass. In some embodiments, the glass wall is coated with a light adjusting film. The light adjusting film can effectively isolate UV (ultraviolet) and IR (infrared) in external light. Meanwhile, in some embodiments, the light adjusting film may also serve as a screen medium of a projection device, serving as a display device. In a further embodiment, the light adjusting film can be used with a transparent liquid crystal panel. The dimming film generally has two states, on and off. In the on state, the light adjusting film is in an atomized state. That is, at this time, the glass wall body to which the light adjusting film is attached is in an atomized state, and the outside and the inside of the shop cannot be clearly known from each other. And under the off state, the membrane of adjusting luminance then can see through the light well, and then is basic transparent state for inside and the external world of shop all can know each other comparatively clearly. Meanwhile, it should be understood that the dimming film is connected to the client 100, and is controlled by the client 100. For example, when the client 100 detects that the user has taken the product a from the shelf 10 by the first monitoring device, the client 100 instructs the dimming film to change. The change here may be to change the light adjusting film from the on state to the off state, or from the off state to the on state.

In addition, a light emitting device 70 may be provided on the glass wall. In some embodiments, the light emitting device 70 is integrated with a glass wall to form a luminescent glass. In the luminescent glass, the LED light source is embedded into the glass to form various patterns and designs. In other embodiments, the light emitting device 70 may be disposed separately from the glass wall. The light emitting device may be an LED device, or may be other similar devices that can emit light. The light emitting device 70 is connected to the client 100, so that the client 100 can control the light emitting device 70. It is understood that the client 100 can implement different color changes of the light emitting device 70 by sending different instructions to the light emitting device 70. For example, when the client 100 detects that the user has taken the article a from the shelf by the first monitoring device, the client 100 instructs the light-emitting device 70 to change the color of the emitted light. The color change here causes the inside of the shop body to appear different colors. Typically, the color change corresponds to the merchandise. That is, the mapping table relating to the color change and the product is stored in the client 100 system in advance. When the article a is taken, the light emitting color of the light emitting device 70 is changed according to the information pre-stored in the system, so that the user can more sense the characteristics of the article a through the color inside the store.

In some embodiments, display devices 60 are also included in the unmanned retail store system. The display device 60 may be a display screen or a projection device. It is also understood that the display screen may be an LED screen, an OLED screen, or other similar screens that can display electronic content. The projection device includes a projector and a projection medium. In the above-described embodiments, the glass to which the light adjusting film is attached can be directly used as a projection medium in a projection apparatus without being separately provided. It should be noted that the display device 60 is connected to the client 100 so that the client 100 can instruct the display screen to perform a specific content display. For example, if the client 100 detects that the user has picked up an item a from the shelf through the first monitoring device, the client 100 may instruct the display device 60 to display an advertisement corresponding to the item a. On the one hand, the displayed advertisement may enable the user to better understand and perceive the item; on the other hand, the display device 60 may also display introductions and advertisements of products related to or close to the article a, so that the user can compare the attributes between the products more specifically. In some embodiments, the display device 60 may also display a shopping list generated by the user according to the user information after the user enters the store. Typically, the shopping list may be displayed in the form of an electronic shopping cart, with associated data such as the name of the item, the quantity, the price (unit price and total price), and the like listed. Meanwhile, the display device 60 may play the content introduction and advertisement of the specific product according to the instruction of the client 100 when the user does not shop yet or the shop is unattended. Generally, in such embodiments, the display device 60 may be placed on the outer perimeter of the store body. However, in some embodiments, there may be a plurality of display devices 60, with some display devices 60 being located inside the main body of the store and some display devices 60 being located on the outer periphery of the main body of the store. Each displaying different information and data, controlled by the client 100. In a possible embodiment, the display device 60 may also be a projection device, which may be an AR projection end. When the first monitoring device detects that the commodity on the shelf leaves the goods, the client 100 instructs the AR projection terminal to project an AR image of the commodity.

In some embodiments, the unmanned retail store system further comprises a sample derivation device 80, wherein the sample derivation device 80 is configured to derive pre-stored samples. The reagent supply lead-out device 80 may include a storage mechanism and a lead-out mechanism, and the lead-out mechanism is communicated with the storage mechanism. Meanwhile, the whole trial product export device 80 is connected with the client 100, and the client 100 regulates and controls the trial product export device 80. The client 100 can export the pre-stored test items in the storage mechanism through the export mechanism by an instruction. For example, in some embodiments, the storage mechanism is a reservoir and the delivery mechanism is an ejection mechanism. The sample is stored in the storage bank in advance. When a user takes the commodity A (such as perfume) from the shelf, the spraying mechanism leads the test articles corresponding to the commodity A in the storage mechanism out of a specific area, so that the shopping user can smell the smell of the commodity A in a sensible manner to better experience shopping.

In some embodiments, the identification device 20 may be disposed near the access device 50 for identifying a person or thing approaching the access device. The recognition device 20 may be an infrared human body recognition device (e.g., an infrared human body sensor) or a human face recognition device. The identification means is used to identify the user in the designated area of the edge of the access control device 50, and the identified user information is sent to the client 100. The client 100 polls the database of the system or the cloud database according to the user information. If the data corresponding to the user information is stored in the database, the client 100 instructs the access control device to open so that the user can enter the access control device. In some other embodiments, the identification device may be only a two-dimensional code. The user scans the two-dimensional code through the user terminal, and sends an access request to a cloud server of the unmanned retail store, wherein the access request carries user information of the user. The client 100 in the store main body obtains the user information through the cloud, and polls the database of the system or the cloud database according to the user information. If the data corresponding to the user information is stored in the database, the client 100 instructs the access control device to open so that the user can enter the access control device. Meanwhile, in the above-described embodiment, after the client 100 has acquired the user information by the identification means and passed the user through the verification of the user information, the current presence state in the shop main body 1 is marked. In a possible embodiment, it should be understood that the recognition means may also employ recognition techniques including AI, image recognition, gravity sensing, etc. The unmanned retail store system employs a membership system, and user information of persons registered as members is stored in a cloud or a database of the client 100. When the identification device collects the user information ready to enter the shop main body in front of the shop main body, the user information is compared with the database according to the user information. If the verification is passed, that is, the user information exists in the database, it indicates that the user is a registered member of the unmanned retail store system. Typically, the registered member contains its usual payment means, which may be bound by a credit card, debit card (e.g., VISA, MASTER, ICBC) or other payment means (e.g., WeChat Payment, Payment) with the user. In subsequent automated checkout, automated checkout may be achieved by user confirmation, or even without user confirmation.

In some embodiments, as shown in fig. 3 and 4, the first monitoring device 30 for monitoring the shelf 10 is preferably an RFID device, and the RFID device includes an RFID reader 31 and an RFID identification terminal. In the present embodiment, the RFID identification terminal is a plurality of antennas 33, as shown in fig. 3 and 4. In more detail, each shelf 10 is provided with a plurality of antennas 33. The goods on the shelf 10 are provided with electronic tags so that the antenna 33 can scan. The antenna 33 on the shelf monitors the goods on the shelf in real time and feeds back the monitoring data to the RFID reader 31. The RFID reader/writer 31 scans the electronic tag on the shelf via the antenna 33, collects and collates the scanning of the electronic tag, and generates scanning information of the product on the shelf. The scanning information is continuously reported to the client 100 through the RFID reader 31, and the client 100 stores the scanning information. Meanwhile, the antenna 33 will periodically scan the electronic tags carried by the goods on the shelf, and report the data to the client 100 after each scan. The client 100 determines whether the commodity data on the shelf is missing by comparing the current scanning information with the previous scanning information. If so, it indicates that the user has removed the missing item from the shelf, and the client 100 places the missing item information in a shopping list generated by the processor of the client 100. If not, the antenna 33 continues to scan the commodity state on the shelf and continues to report the scanning information. It should be understood that the RFID device is used herein as an example only, and in further embodiments, monitoring devices including AI, image recognition, gravity sensing, etc. identification technologies may also be employed.

In the case of a shelf with multiple shelf layers 13, the RFID device may include an RFID reader, multiple antennas, multiple splitters. Each layer 13 on the shelf is provided with a plurality of antennae for monitoring the state of the goods on the layer 13. As shown in fig. 3, an antenna expansion method of preferential single-layer shelf scanning is embodied, an antenna in the same storage layer 13 and an antenna port on a reader-writer are ensured to be in a direct connection state at the same time, and an electronic tag in the same storage layer is rapidly scanned by using an efficient antenna switching algorithm in the RFID reader-writer 31, so that the single-layer inventory speed is the fastest. As shown, assume that the unmanned store has 1 shelf with N shelf layers (labeled H)₁，H₂，…，H_n) (ii) a The RFID device includes an RFID reader/writer 31, a splitter 32 (labeled as "RFID reader/writer")S₁-S_n) And an antenna 33 (labeled H) on each layer_mT₁，H_mT₂，…，H_mT_n(ii) a Where m denotes an mth device layer and n denotes an nth antenna sequentially arranged). The RFID reader/writer 31 has RT₁，RT₂，…，RT_nAnd an antenna port. Then as shown in FIG. 3, a layer H is placed₁Antenna H of₁A₁By means of a splitter S₁Antenna port RT with RFID reader₁Connecting, depositing a layer H₂Antenna H of₂A₁By means of a splitter S₁Antenna port RT with RFID reader₁Connection, …, layer H_nAntenna H of_nA₁By means of a splitter S₁Antenna port RT with RFID reader₁Connecting; layer H₁Antenna H of₁A₂By means of a splitter S₂Antenna port RT with RFID reader₂Connection, …, layer H_nAntenna H of_nA₂By means of a splitter S₂Antenna port RT with RFID reader₂Connecting; …, respectively; layer H₁Antenna H of₁A_nBy means of a splitter S_nAntenna port RT with RFID reader_nAnd (4) connecting. Thus, as shown, assume at time T₁Upper scanning layer H₁Then the client 100 controls the antenna port RT in turn₁And an antenna H₁T₁Connection, antenna port RT₂And an antenna H₁T₂Connection …, antenna port RT_nAnd an antenna H₁T_nThe connection is achieved. At time T₂Upper scanning layer H₂The client 100 then controls the antenna port RT in turn₁And an antenna H₂T₁Connection, antenna port RT₂And an antenna H₂T₂Connection …, antenna port RT_nAnd an antenna H_nT_nThe connection is achieved. And so on. It will of course be appreciated that the layers are illustrated herein in numerical order for convenience. In other embodiments, the order of the layer numbers scanned is not required, and may be based on realityThe actual application sets itself. In the above configuration method, if the layer to be scanned is H₁，H₂，…，H_nThis arrangement requires the inventory of each laminate layer in turn. According to the result, the time of all the storage layers on the inventory shelf is T₁+ T₂+…+ T_n。

As shown in fig. 4, another antenna configuration method is embodied. The method preferentially checks the total number of all the object layers, ensures that one antenna in each object layer is in a direct connection state with an antenna port on a reader-writer in the same time, and quickly and simultaneously scans the electronic tags in each object layer by utilizing an efficient antenna switching algorithm in the RFID reader-writer, so that the total counting speed of all the object layers is the fastest. For example, as shown in FIG. 4, a layer H is disposed₁Antenna H of₁A₁By means of a splitter S₁Antenna port RT with RFID reader₁Connecting, depositing a layer H₁Antenna H of₁A₂By means of a splitter S₁Antenna port RT with RFID reader₁Connection, …, layer H₁Antenna H of₁A_nBy means of a splitter S₁Antenna port RT with RFID reader₁Connecting; layer H₂Antenna H of₂A₁By means of a splitter S₂Antenna port RT with RFID reader₂Connection, …, layer H₂Antenna H of₂A_nBy means of a splitter S₂Antenna port RT with RFID reader₂Connecting; …, respectively; layer H_nAntenna H of_nA₁By means of a splitter S_nAntenna port RT with RFID reader_nConnection, …, layer H_nAntenna H of_nA_nBy means of a splitter S_nAntenna port RT with RFID reader_nAnd (4) connecting. Accordingly, at time T₁Simultaneously scanning goods on shelves on all layers and controlling an antenna port RT₁And a layer H₁Antenna H of₁T₁Connection, antenna port RT₂And a layer H₂Antenna H of₂T₁Connection, antenna port RT_nAnd deviceLayer H₁Antenna H of_nT₁And (4) connecting. At time T₂Simultaneously scanning goods on shelves on all layers and controlling an antenna port RT₁And a layer H₁Antenna H of₁T₂Connection, antenna port RT₂And a layer H₂Antenna H of₂T₂Connection, antenna port RT_nAnd a layer H_nAntenna H of_nT₂And (4) connecting. By analogy, scan T_mIn each time period, the m-th antenna on all shelves can be scanned. The connection mode is used for checking the commodities on all the commodity storage layers at the beginning, the label numbers in the racks on each layer are switched simultaneously according to the time period T, the number of new labels is read in combination with each period T, the time of each period T is dynamically adjusted through a software algorithm, and the total checking time of all the rack layers can be effectively shortened.

In some embodiments, the disclosed shelves may also have a distinction between public and private areas. Common commodities are placed in the public area, and some relatively private commodities can be placed in the private area. The public area and the private area can be divided physically, for example, a partition board is arranged on a shelf, and the public area and the private area are respectively arranged on two sides of the partition board. Alternatively, it may be arranged in the antenna configuration as above. For example, the layer H can be defined by a processor₁Antenna H of₁T₁To the antenna H₁T_aIs a common area, antenna H₁T_aTo the antenna H₁T_nThe area of (a) is a private area. Or can be a layer H₁To the deposit layer H_aThe region (D) is a common region, and a layer (H) is arranged_aTo the deposit layer H_nThe area of (a) is a private area. Wherein, the value of a is more than or equal to 1 and less than or equal to n. The division of specific public and private areas, by way of example only, may be customized by the client 100. In these embodiments, when the first monitoring device (RFID reader) monitors that the article taken by the user comes from the private area, the current state of the shop main body is determined. If the glass wall of the current store owner is in a transparent state, the client 100 will indicate the glass wallAtomization is carried out. For example, the client 100 sends an instruction, converts the instruction into an electric signal, and enables a dimming film on a glass wall to enter an on state, so that the atomization effect of the glass is realized, the outside cannot clearly see the inside of the shop main body, and the privacy of a user is protected.

In some embodiments, a second monitoring device 40 is also included within the store body. Generally, the second monitoring device 40 is disposed above the door access device. However, in some embodiments, the second monitoring device 40 may be disposed at any position in the main body of the store, as long as the second monitoring device 40 can monitor the designated area. In the present embodiment, it is preferable that the second monitoring apparatus 40 is provided near the door access apparatus. In this way, when the second monitoring device 40 detects that the user opens the door from the store main body, or the second monitoring device 40 monitors that the user is located in the designated area for more than a certain time, it is determined that the user is ready to check out. The checkout information is transmitted to the client 100 by the second monitoring apparatus 40. The client 100 settles the commodities in the shopping list according to the settlement information fed back by the second monitoring device 40, counts the shopping amount in the shopping list, and generates payment information according to the shopping amount. It should be understood that the second monitoring device 40 may be a signal sensor, a proximity trigger sensor, a position sensor, an infrared sensor, or a camera device. In a system in which the second monitoring apparatus 40 is an image capturing apparatus, an image recognition unit may be configured in the processor of the client 100 to recognize contents in an image reported by the image capturing apparatus. It should be understood that the RFID device is used herein as an example only, and in further embodiments, monitoring devices including AI, image recognition, gravity sensing, etc. identification technologies may also be employed.

As shown in fig. 5, the present invention discloses a color conversion method for an intelligent retail store, executed by a processor, comprising:

s100, scanning the commodities on the shelf through a monitoring device to obtain the current state information of the commodities on the shelf;

s200, comparing the current state information with first original state information stored in a database, and judging whether commodity data is lacked between the current state information and the first original state information; the first original state information is the state information of the commodities on the goods shelf, which is acquired by the processor before the current state information is acquired by the monitoring device;

s300, if the commodity data are judged to be lacking, marking the commodity corresponding to the lacking commodity data as a shopping commodity; calling a color instruction corresponding to the purchased commodity according to the marked purchased commodity so as to instruct the light-emitting device to emit light according to the color instruction.

Further, as shown in fig. 6, the color transformation method may further include:

a100, acquiring user information through the identification device;

a200, accessing historical transaction data associated with the user information in a database, wherein the historical transaction data comprises historical consumption conditions of a user pointed by the user information in the intelligent retail store;

and A300, determining the category attribution of the user information according to the historical transaction data, and calling a color instruction corresponding to the user information according to the category attribution to indicate the light-emitting device to emit light according to the color instruction.

In a third aspect of the present invention, a computer-readable storage medium is also disclosed, which is characterized in that the computer-readable storage medium comprises a stored computer program, wherein the computer program, when executed, controls an apparatus in which the computer-readable storage medium is located to perform the color transformation method as described above.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims

1. A color-changeable smart retail store, comprising a store main body and shelves provided in the store main body for placing goods; the shelf has a public area and a private area;

the shop main body comprises a client side with a processor, a recognition device for acquiring user information, a monitoring device for monitoring the commodity state on the shelf, a glass wall coated with a dimming film, and a light-emitting device for enabling the shop main body to change colors; the client is connected with the identification device, the monitoring device and the light adjusting film respectively and used for adjusting and controlling the identification device, the monitoring device, the light adjusting film and the light emitting device; the client can control the dimming film to be switched between an atomization state and a transparent state;

wherein the processor is configured to:

scanning the commodities on the goods shelf through the monitoring device to obtain the current state information of the commodities on the goods shelf; wherein the state information comprises commodity quantity information;

if the commodity data in the private area is judged to be lack, the light adjusting film is switched to be in an atomization state;

2. The color-changeable smart retail store of claim 1, wherein the processor in the smart retail store is further configured to:

acquiring user information through the identification device;

accessing historical transaction profiles in a database associated with the user information, wherein the historical transaction profiles include historical consumption of the user within the intelligent retail store to which the user information is directed;

and determining the category attribution of the user information according to the historical transaction data, and calling a color instruction corresponding to the user information according to the category attribution to indicate the light-emitting device to emit light according to the color instruction.

3. A color conversion method for the intelligent retail store of claim 1, executed by a processor, comprising:

and calling a color instruction corresponding to the purchased commodity according to the marked purchased commodity so as to instruct the light-emitting device to emit light according to the color instruction.

4. The color conversion method for intelligent retail stores according to claim 3,

acquiring user information through an identification device;

5. A computer-readable storage medium, characterized in that the computer-readable storage medium comprises a stored computer program, wherein the computer program, when run, controls an apparatus in which the computer-readable storage medium is located to perform the color transformation method according to any one of claims 3 to 4.