CN108764386B - Intelligent vending method and system for unmanned supermarket - Google Patents

Abstract

The invention discloses an intelligent selling method and system of an unmanned supermarket, wherein a plurality of RFID antennas are arranged on a shelf of the unmanned supermarket to bear commodities, each commodity is provided with an identification tag, the unmanned supermarket is provided with an RFID reader-writer and a server, and the RFID reader-writer continuously scans the commodities borne by the RFID antennas to obtain commodity information and sends the commodity information to the server; the server acquires the commodity information of all current commodities after detecting that the customer goes out of the store and generates a commodity list for going out of the store, and the server compares the commodity list for going in the store with the commodity list for going out of the store to obtain a commodity list bought. Therefore, the customer does not need any operation after leaving the store, the server automatically calculates the shopping receivable according to the purchased commodity clearing bill, and the customer can directly leave the store without paying before leaving the unmanned supermarket; when the customer leaves, the door is opened automatically, quickly and conveniently without scanning and waiting.

Description

Intelligent vending method and system for unmanned supermarket

Technical Field

The invention relates to the field of unmanned supermarkets, in particular to an intelligent vending method and system for an unmanned supermarket.

Background

The unmanned supermarket is a supermarket, no salesperson is provided, shopping is carried out by self-selection, and convenience and easiness are realized. But the current unmanned supermarket is in a self-service shopping mode in nature. The goods in the store are all attached with special labels, such as bar codes or two-dimensional codes, which are used for identifying the contents and prices of the goods. The cash desk is located near the door, and after a customer selects goods to be bought, the goods need to be neatly placed in the goods identification area of the cash desk, and the price and the content of the goods can be immediately displayed on the electronic screen. The unmanned supermarket actually replaces a cashier of a traditional supermarket with a computer with a scanning function, the traditional payment comprises the operations of scanning commodities, scanning code payment and the like, and even a process of 'electronic searching' before going out and waiting for opening a gate is added, so that customers do not have much convenience except novel consumption experience, and even are more troublesome than the shopping in the traditional supermarket.

Disclosure of Invention

The invention aims to provide an intelligent vending method and system for an unmanned supermarket, which can automatically identify commodities purchased by a customer when the customer leaves the shop without the operations of scanning the commodities by the customer and the like, and can quickly and accurately identify the commodities when the customer leaves the shop without scanning or waiting.

In order to achieve the purpose, the invention adopts the following technical scheme:

an intelligent selling method of an unmanned supermarket is characterized in that a plurality of RFID antennas are mounted on a shelf of the unmanned supermarket to bear commodities, each commodity is provided with an identification tag, an RFID reader-writer and a server are mounted in the unmanned supermarket, and the RFID reader-writer continuously scans the commodities borne by the RFID antennas to obtain commodity information and sends the commodity information to the server;

the method comprises the following steps:

the method comprises the following steps that in the information binding step, a customer sends authentication information and requests to bind at least one payment mode to a server through a mobile terminal, and the server binds and stores the received authentication information and the received payment mode;

a step of entering a store, in which after an identity recognizer of the unmanned supermarket verifies that identity verification information of a customer is successful, the server acquires commodity information of all current commodities and generates a store-entering commodity list, then the server drives an induction door of the unmanned supermarket to open, and after verification is successful, one customer is limited to enter the unmanned supermarket every time;

and a step of paying off the bought account, wherein when a customer approaches the gate, an induction door of the unmanned supermarket is opened, the server acquires the commodity information of all current commodities and generates a commodity list of the bought account after detecting that the customer leaves the shop, the server compares the commodity list of the bought account with the commodity list of the bought account to obtain a commodity list of the bought account, the server identifies the commodity details of the bought account of the customer and settles the receivable amount of the bought account according to the commodity list of the bought account, and the server deducts the receivable amount of the bought account through a bound payment mode.

Preferably, the method further comprises the following steps:

a commodity position counting step, namely performing position coding on each RFID antenna, and generating a position distribution diagram of the RFID antenna in the server, wherein the commodity information comprises position data of the RFID antenna bearing the commodity;

and a shopping navigation step, wherein a customer sends a name of a commodity to be purchased to the server through a mobile terminal, the server searches commodity information corresponding to the name of the commodity to be purchased from the commodity list entering the store, marks the position of an RFID antenna bearing the commodity to be purchased on the position distribution diagram of the RFID antenna according to position data in the searched commodity information, and sends the marked position distribution diagram of the RFID antenna to the mobile terminal.

Preferably, the method further comprises the following steps:

and a discount information issuing step, wherein an operator edits discount information in the server, the discount information comprises discount commodities and discount prices, and the server sends the edited discount information to the mobile terminal of the customer.

Preferably, the method further comprises the following steps:

and a commodity information query step, wherein a customer sends a name of a commodity to be queried to the server through a mobile terminal, the server searches out commodity information corresponding to the name of the commodity to be queried from the commodity list entering the store and sends the commodity information to the mobile terminal of the customer, and the commodity information comprises a production place, a production date and components.

Preferably, the identification tag is an RFID electronic tag; the identity authentication information is a fingerprint, a password or a face image.

Preferably, the intelligent vending system of the unmanned supermarket is characterized in that a plurality of RFID antennas are mounted on a shelf of the unmanned supermarket to bear commodities, each commodity is provided with an identification tag, the unmanned supermarket is provided with an RFID reader-writer and a server, and the RFID reader-writer continuously scans the commodities borne by the RFID antennas to obtain commodity information and sends the commodity information to the server; further comprising:

the mobile terminal is used for the customer to send authentication information to the server and request to bind at least one payment mode;

the server includes:

the information binding module is used for binding and storing the received identity authentication information and the payment mode;

the identity recognizer is used for verifying identity verification information of the customer;

the store-entering commodity list generating module is used for acquiring commodity information of all current commodities and generating a store-entering commodity list after the identity recognizer verifies the identity verification information of the customer successfully;

the store-in and store-out control module is used for driving the induction door of the unmanned supermarket to be opened, and limiting a customer to enter the unmanned supermarket after verification is successful each time;

the outlet commodity list generating module is used for acquiring commodity information of all current commodities and generating an outlet commodity list after detecting that the customer is out of the store;

and the outlet deduction module is used for comparing the inlet commodity list with the outlet commodity list to obtain a purchased commodity list, identifying purchased commodity details of a customer according to the purchased commodity list, settling accounts for shopping accounts receivable and deducting the accounts for shopping through a bound payment mode.

Preferably, the mobile terminal is further configured to send a name of a commodity to be purchased to the server;

the server further comprises:

the commodity position counting module is used for carrying out position coding on each RFID antenna to generate a position distribution map of the RFID antenna, and the commodity information comprises position data of the RFID antenna bearing the commodity;

and the shopping navigation module is used for searching out commodity information corresponding to the name of the commodity to be purchased from the commodity list, marking the position of the RFID antenna bearing the commodity to be purchased on the position distribution diagram of the RFID antenna according to position data in the searched commodity information, and sending the marked position distribution diagram of the RFID antenna to the mobile terminal.

Preferably, the server further comprises:

and the discount information issuing module is used for editing discount information, wherein the discount information comprises discount commodities and discount prices, and sending the edited discount information to the mobile terminal of the customer.

Preferably, the mobile terminal is further configured to send a name of a commodity to be queried to the server;

the server further comprises:

and the commodity information query module is used for searching out commodity information corresponding to the name of the commodity to be queried from the commodity list entering the store and sending the commodity information to a mobile terminal of a customer, wherein the commodity information comprises a production place, a production date and components.

Preferably, the identification tag is an RFID electronic tag; the identity authentication information is a fingerprint, a password or a face image.

When shopping, the server generates a store-entering commodity list by acquiring all commodity information identified by the RFID reader-writer when a customer enters a store and generates a store-leaving commodity list by acquiring all commodity information identified by the RFID reader-writer when the customer leaves the store, so that the purchased commodity list is screened out by comparison, and the purchased commodities can be automatically identified without the operations of scanning the commodities by the customer and the like, so that the shopping is quick and accurate. Therefore, after the customer goes out of the store, the server does not need any operation, the server automatically calculates the shopping receivable according to the purchased commodity clearing bill, and the shopping receivable is automatically deducted through a bound payment mode, so that the operation is fast and convenient.

According to the intelligent selling method of the unmanned supermarket, after a customer takes a commodity, the customer does not need to go to other places to scan the taken commodity; the customer can directly leave the supermarket without paying before leaving the unmanned supermarket; when the customer leaves, the door is automatically opened without scanning or waiting.

Drawings

The drawings are further illustrative of the invention and the content of the drawings does not constitute any limitation of the invention.

Fig. 1 is a schematic diagram of a smart vending system of an unmanned supermarket according to one embodiment of the invention;

FIG. 2 is a diagram of an unmanned supermarket shelf according to one embodiment of the invention;

FIG. 3 is a flow chart of intelligent vending in an unmanned supermarket, according to one embodiment of the invention;

fig. 4 is a flow chart of an intelligent shopping guide of an unmanned supermarket according to an embodiment of the invention.

Wherein: a goods shelf 1; an RFID antenna 11; an identification tag 2; an RFID reader/writer 3; a server 4; and a mobile terminal 5.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1 and 2, in the intelligent vending method for the unmanned supermarket of the embodiment, a shelf 1 of the unmanned supermarket is provided with a plurality of RFID antennas 11 to bear commodities, each commodity is provided with an identification tag 2, the unmanned supermarket is provided with an RFID reader-writer 3 and a server 4, and the RFID reader-writer 3 continuously scans the commodities borne by the RFID antennas 11 to obtain commodity information and sends the commodity information to the server 4;

as shown in fig. 3, the method comprises the following steps:

an information binding step, wherein a customer sends authentication information and requests to bind at least one payment mode to the server 4 through a mobile terminal 5, and the server 4 binds and stores the received authentication information and payment mode;

a step of entering a store, in which after an identity recognizer of the unmanned supermarket verifies that identity verification information of a customer is successful, the server 4 acquires commodity information of all current commodities and generates a store-entering commodity list, then the server 4 drives an induction door of the unmanned supermarket to open, and after verification is successful, one customer is limited to enter the unmanned supermarket every time;

and a step of paying off, wherein when a customer approaches the gate, an induction door of the unmanned supermarket is opened, the server 4 acquires the commodity information of all current commodities after detecting that the customer goes out of the shop and generates a commodity list for going out of the shop, the server 4 compares the commodity list for going in the shop with the commodity list for going out of the shop to obtain a commodity list for shopping, the server 4 identifies the commodity details of the customer for shopping and settles the amount of receivable for shopping according to the commodity list for shopping, and the server 4 deducts the amount of receivable for shopping through a bound payment mode.

According to the intelligent selling method of the unmanned supermarket, a plurality of RFID antennas 11 are arranged on a shelf 1 of the unmanned supermarket to replace a supporting plate to bear commodities, each commodity is provided with an identification tag 2, each identification tag 2 is an RFID electronic tag, each identification tag 2 is provided with a unique identification code and corresponding commodity information, when an RFID reader-writer 3 scans the RFID antennas 11, the RFID reader-writer 3 scans the identification tags 2 of all commodities borne by the RFID antennas 11 to obtain commodity information in the identification tags 2, and the commodity information comprises commodity names and commodity prices, so that the commodities and the price of the commodities placed on each RFID antenna 11 can be clearly known. The unmanned supermarket only allows one customer to enter the supermarket at a time by verifying the identity verification information of the customer, so that the purchased commodities are ensured to be in one-to-one correspondence with the customers, and the phenomenon that the purchased commodities are not in correspondence with the customers when a plurality of people enter the supermarket to cause missed deduction or mistaken deduction is avoided. RFID technology, also known as radio frequency identification, is a communication technology that can identify a specific object and read/write related data by radio signals without establishing mechanical or optical contact between an identification system and the specific object. The radio signal is an electromagnetic field modulated to a radio frequency to transmit data from the identification tag 2 attached to the article to automatically identify and track the article. The identification tag 2 can obtain energy from the electromagnetic field emitted by the RFID reader-writer 3 during identification, and a battery is not needed; the identification tag 2 contains electronically stored information that can be identified within a few meters. The RFID reader/writer 3 performs wireless communication with the identification tag 2 via the RFID antenna 11, and can read or write the identification code and the stored commodity information. The RFID technology can identify high-speed moving objects and can simultaneously identify a plurality of identification tags 2, and the operation is rapid and convenient.

During shopping, the server 4 generates a store-entering commodity list by acquiring all commodity information identified by the RFID reader-writer 3 when a customer enters a store and generates a store-leaving commodity list by acquiring all commodity information identified by the RFID reader-writer 3 when the customer leaves the store, so that the purchased commodity list is compared and screened, and the purchased commodities can be automatically identified without the operations of scanning the commodities by the customer and the like, so that the shopping is quick and accurate. Therefore, after the customer goes out of the store, the server 4 automatically calculates the shopping receivable according to the purchased commodity statement and automatically deducts the shopping receivable through a bound payment mode without any operation, and the shopping receivable is fast and convenient. The payment mode is a non-cash payment mode, such as internet bank payment, mobile payment, credit payment and the like. According to the intelligent selling method of the unmanned supermarket, after a customer takes a commodity, the customer does not need to go to other places to scan the taken commodity; the customer can directly leave the supermarket without paying before leaving the unmanned supermarket; when the customer leaves, the door is automatically opened without scanning or waiting.

Preferably, as shown in fig. 4, the method further comprises the following steps:

a commodity position counting step of performing position coding on each RFID antenna 11, and generating a position distribution map of the RFID antenna 11 in the server 4, where the commodity information includes position data of the RFID antenna 11 carrying the commodity;

a shopping navigation step, in which a customer sends a name of a commodity to be purchased to the server 4 through a mobile terminal 5, the server 4 searches out commodity information corresponding to the name of the commodity to be purchased from the in-store commodity list, marks the position of the RFID antenna 11 bearing the commodity to be purchased on the position distribution diagram of the RFID antenna 11 according to position data in the searched commodity information, and sends the marked position distribution diagram of the RFID antenna 11 to the mobile terminal 5.

The customer searches out the position of the RFID antenna 11 bearing the commodity to be purchased by sending the name of the commodity to be purchased to the server 4, and the server 4 sends the position distribution diagram of the RFID antenna 11 marked with the position of the commodity to be purchased to the mobile terminal 5 of the customer, so that unmanned intelligent shopping guide is realized, the customer can find the commodity to be purchased quickly, the situation that the customer searches for the commodity in four places without a shopping guide is avoided, and convenience is brought to the customer.

Preferably, as shown in fig. 4, the method further comprises the following steps:

and a discount information issuing step, in which an operator edits discount information including a discount commodity and a discount price in the server 4, and the server 4 sends the edited discount information to the mobile terminal 5 of the customer. After entering the unmanned supermarket, the customer sends the discount information to the mobile terminal 5 of the customer through the server 4, so that the customer can know the latest discount information in time under the condition of no shopping guide, and convenience is brought to the customer.

Preferably, as shown in fig. 4, the method further comprises the following steps:

and a commodity information inquiry step, wherein a customer sends a name of a commodity to be inquired to the server 4 through a mobile terminal 5, the server 4 searches out commodity information corresponding to the name of the commodity to be inquired from the commodity list entering the store and sends the commodity information to the mobile terminal 5 of the customer, and the commodity information comprises a production place, a production date and components.

The customer can inquire the commodity information of all commodities in the unmanned supermarket at the mobile terminal 5, the phenomenon that the price cannot be known when some commodities are randomly placed is avoided, the customer can clearly know the production place, the production date and the components of each commodity through inquiry, the information is transparent, and particularly some vegetables, fruits and cooked foods are more comfortable when the customer purchases the commodities.

Preferably, the identification tag 2 is an RFID electronic tag; the identity authentication information is a fingerprint, a password or a face image.

Preferably, as shown in fig. 1 and 2, a shelf 1 of an unmanned supermarket is provided with a plurality of RFID antennas 11 to bear commodities, each commodity is provided with an identification tag 2, the unmanned supermarket is provided with an RFID reader-writer 3 and a server 4, and the RFID reader-writer 3 continuously scans the commodities borne by the RFID antennas 11 to obtain commodity information and sends the commodity information to the server 4; further comprising:

the mobile terminal 5 is used for the customer to send authentication information and request to bind at least one payment mode to the server 4;

the server 4 includes:

the information binding module is used for binding and storing the received identity authentication information and the payment mode;

the identity recognizer is used for verifying identity verification information of the customer;

the store-entering commodity list generating module is used for acquiring commodity information of all current commodities and generating a store-entering commodity list after the identity recognizer verifies the identity verification information of the customer successfully;

the store-in and store-out control module is used for driving the induction door of the unmanned supermarket to be opened, and limiting a customer to enter the unmanned supermarket after verification is successful each time;

the outlet commodity list generating module is used for acquiring commodity information of all current commodities and generating an outlet commodity list after detecting that the customer is out of the store;

and the outlet deduction module is used for comparing the inlet commodity list with the outlet commodity list to obtain a purchased commodity list, identifying purchased commodity details of a customer according to the purchased commodity list, settling accounts for shopping accounts receivable and deducting the accounts for shopping through a bound payment mode.

The intelligent vending system of the unmanned supermarket is characterized in that a plurality of RFID antennas 11 are arranged on a shelf 1 of the unmanned supermarket to replace a supporting plate to bear commodities, each commodity is provided with an identification tag 2, each identification tag 2 is an RFID electronic tag, each identification tag 2 is provided with a unique identification code and corresponding commodity information, when an RFID reader-writer 3 scans the RFID antennas 11, the RFID reader-writer 3 scans the identification tags 2 of all commodities borne by the RFID antennas 11 to obtain commodity information in the identification tags 2, and the commodity information comprises commodity names and commodity prices, so that the commodities and the prices of the commodities placed on each RFID antenna 11 can be clearly known. The unmanned supermarket only allows one customer to enter the supermarket at a time by verifying the identity verification information of the customer, so that the purchased commodities are ensured to be in one-to-one correspondence with the customers, and the phenomenon that the purchased commodities are not in correspondence with the customers when a plurality of people enter the supermarket to cause missed deduction or mistaken deduction is avoided.

During shopping, the server 4 generates a store-entering commodity list by acquiring all commodity information identified by the RFID reader-writer 3 when a customer enters a store and generates a store-leaving commodity list by acquiring all commodity information identified by the RFID reader-writer 3 when the customer leaves the store, so that the purchased commodity list is compared and screened, and the purchased commodities can be automatically identified without the operations of scanning the commodities by the customer and the like, so that the shopping is quick and accurate. Therefore, after the customer goes out of the store, the server 4 automatically calculates the shopping receivable according to the purchased commodity statement and automatically deducts the shopping receivable through a bound payment mode without any operation, and the shopping receivable is fast and convenient. The payment mode is a non-cash payment mode, such as internet bank payment, mobile payment, credit payment and the like. After the customers take the commodities, the intelligent vending system of the unmanned supermarket does not need to go to other places to scan the taken commodities; the customer can directly leave the supermarket without paying before leaving the unmanned supermarket; when the customer leaves, the door is automatically opened without scanning or waiting.

Preferably, the mobile terminal 5 is further configured to send a name of a commodity to be purchased to the server 4;

the server 4 further comprises:

the commodity position counting module is used for carrying out position coding on each RFID antenna 11 to generate a position distribution map of the RFID antenna 11, and the commodity information comprises position data of the RFID antenna 11 bearing the commodity;

and the shopping navigation module is used for searching out the commodity information corresponding to the name of the commodity to be purchased from the commodity list, marking the position of the RFID antenna 11 bearing the commodity to be purchased on the position distribution diagram of the RFID antenna 11 according to the position data in the searched commodity information, and sending the marked position distribution diagram of the RFID antenna 11 to the mobile terminal 5.

The customer searches out the position of the RFID antenna 11 bearing the commodity to be purchased by sending the name of the commodity to be purchased to the server 4, and the server 4 sends the position distribution diagram of the RFID antenna 11 marked with the position of the commodity to be purchased to the mobile terminal 5 of the customer, so that unmanned intelligent shopping guide is realized, the customer can find the commodity to be purchased quickly, the situation that the customer searches for the commodity in four places without a shopping guide is avoided, and convenience is brought to the customer.

Preferably, the server 4 further comprises:

and the discount information issuing module is used for editing discount information, wherein the discount information comprises discount commodities and discount prices, and sending the edited discount information to the mobile terminal 5 of the customer. After entering the unmanned supermarket, the customer sends the discount information to the mobile terminal 5 of the customer through the server 4, so that the customer can know the latest discount information in time under the condition of no shopping guide, and convenience is brought to the customer.

Preferably, the mobile terminal 5 is further configured to send a name of a commodity to be queried to the server 4;

the server 4 further comprises:

and the commodity information query module is used for searching out commodity information corresponding to the name of the commodity to be queried from the commodity list entering the store and sending the commodity information to the mobile terminal 5 of the customer, wherein the commodity information comprises a production place, a production date and components.

The customer can inquire the commodity information of all commodities in the unmanned supermarket at the mobile terminal 5, the phenomenon that the price cannot be known when some commodities are randomly placed is avoided, the customer can clearly know the production place, the production date and the components of each commodity through inquiry, the information is transparent, and particularly some vegetables, fruits and cooked foods are more comfortable when the customer purchases the commodities.

Preferably, the identification tag 2 is an RFID electronic tag; the identity authentication information is a fingerprint, a password or a face image.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (8)

1. An intelligent vending method for an unmanned supermarket is characterized in that: the method comprises the following steps that a plurality of RFID antennas are arranged on a shelf of an unmanned supermarket to bear commodities, each commodity is provided with an identification tag, the unmanned supermarket is provided with an RFID reader-writer and a server, and the RFID reader-writer continuously scans the commodities borne by the RFID antennas to obtain commodity information and sends the commodity information to the server;

the method comprises the following steps:

the method comprises the following steps that in the information binding step, a customer sends authentication information and requests to bind at least one payment mode to a server through a mobile terminal, and the server binds and stores the received authentication information and the received payment mode;

a step of entering a store, in which after an identity recognizer of the unmanned supermarket verifies that identity verification information of a customer is successful, the server acquires commodity information of all current commodities and generates a store-entering commodity list, then the server drives an induction door of the unmanned supermarket to open, and after verification is successful, one customer is limited to enter the unmanned supermarket every time;

a step of paying off, in which when a customer approaches a gate, an induction door of the unmanned supermarket is opened, the server acquires commodity information of all current commodities after detecting that the customer leaves the shop and generates a shop-leaving commodity list, the server compares the shop-entering commodity list with the shop-leaving commodity list to obtain a purchased commodity list, the server identifies purchased commodity details of the customer and settles a shopping receivable according to the purchased commodity list, the server deducts the shopping receivable through a bound payment mode, and the customer directly leaves the unmanned supermarket without paying before leaving the unmanned supermarket; when the customer leaves, the induction door is automatically opened without scanning or waiting;

further comprising the steps of:

a commodity position counting step, namely performing position coding on each RFID antenna, and generating a position distribution diagram of the RFID antenna in the server, wherein the commodity information comprises position data of the RFID antenna bearing the commodity;

and a shopping navigation step, wherein a customer sends a name of a commodity to be purchased to the server through a mobile terminal, the server searches commodity information corresponding to the name of the commodity to be purchased from the commodity list entering the store, marks the position of an RFID antenna bearing the commodity to be purchased on a position distribution diagram of the RFID antenna according to position data in the searched commodity information, and sends the marked position distribution diagram of the RFID antenna to the mobile terminal, so that unmanned intelligent shopping guide is realized, and the customer finds the commodity to be purchased quickly by himself.

2. The intelligent vending method for unmanned supermarkets of claim 1, further comprising the steps of:

and a discount information issuing step, wherein an operator edits discount information in the server, the discount information comprises discount commodities and discount prices, and the server sends the edited discount information to the mobile terminal of the customer.

3. The intelligent vending method for unmanned supermarkets of claim 1, further comprising the steps of:

and a commodity information query step, wherein a customer sends a name of a commodity to be queried to the server through a mobile terminal, the server searches out commodity information corresponding to the name of the commodity to be queried from the commodity list entering the store and sends the commodity information to the mobile terminal of the customer, and the commodity information comprises a production place, a production date and components.

4. The intelligent vending method of an unmanned supermarket according to claim 1, wherein:

the identification tag is an RFID electronic tag;

the identity authentication information is a fingerprint, a password or a face image.

5. The utility model provides an intelligent vending system in unmanned supermarket which characterized in that: the method comprises the following steps that a plurality of RFID antennas are arranged on a shelf of an unmanned supermarket to bear commodities, each commodity is provided with an identification tag, the unmanned supermarket is provided with an RFID reader-writer and a server, and the RFID reader-writer continuously scans the commodities borne by the RFID antennas to obtain commodity information and sends the commodity information to the server; further comprising:

the mobile terminal is used for the customer to send authentication information to the server and request to bind at least one payment mode;

the server includes:

the information binding module is used for binding and storing the received identity authentication information and the payment mode;

the identity recognizer is used for verifying identity verification information of the customer;

the store-entering commodity list generating module is used for acquiring commodity information of all current commodities and generating a store-entering commodity list after the identity recognizer verifies the identity verification information of the customer successfully;

the store-in and store-out control module is used for driving the induction door of the unmanned supermarket to be opened, and limiting a customer to enter the unmanned supermarket after verification is successful each time;

the outlet commodity list generating module is used for acquiring commodity information of all current commodities and generating an outlet commodity list after detecting that the customer is out of the store;

the outlet withholding module is used for comparing the commodity list of the inlet store with the commodity list of the outlet store to obtain a commodity list of purchased products, identifying the commodity details of the customer according to the commodity list of purchased products and settling accounts receivable for shopping, and deducting the accounts receivable for shopping through a bound payment mode, so that the customer can directly go out of the store without paying before leaving the unmanned supermarket; when the customer leaves, the induction door is automatically opened without scanning or waiting;

the mobile terminal is also used for sending the name of the commodity to be purchased to the server;

the server further comprises:

the commodity position counting module is used for carrying out position coding on each RFID antenna to generate a position distribution map of the RFID antenna, and the commodity information comprises position data of the RFID antenna bearing the commodity;

and the shopping navigation module is used for searching out commodity information corresponding to the name of the commodity to be purchased from the commodity list entering the store, marking the position of the RFID antenna bearing the commodity to be purchased on the position distribution diagram of the RFID antenna according to position data in the searched commodity information, and sending the marked position distribution diagram of the RFID antenna to the mobile terminal, so that unmanned intelligent shopping guide is realized, and a customer can find the commodity to be purchased quickly.

6. The intelligent vending system of an unmanned supermarket according to claim 5, wherein the server further comprises:

and the discount information issuing module is used for editing discount information, wherein the discount information comprises discount commodities and discount prices, and sending the edited discount information to the mobile terminal of the customer.

7. An intelligent vending system according to claim 5, wherein:

the mobile terminal is also used for sending the name of the commodity to be inquired to the server;

the server further comprises:

and the commodity information query module is used for searching out commodity information corresponding to the name of the commodity to be queried from the commodity list entering the store and sending the commodity information to a mobile terminal of a customer, wherein the commodity information comprises a production place, a production date and components.

8. An intelligent vending system according to claim 5, wherein:

the identification tag is an RFID electronic tag;

the identity authentication information is a fingerprint, a password or a face image.

Images