CN110288441B

CN110288441B - Design method of unmanned shop

Info

Publication number: CN110288441B
Application number: CN201910560240.XA
Authority: CN
Inventors: 孙成通; 赵金鹏; 王金鹏
Original assignee: Inspur Financial Information Technology Co Ltd
Current assignee: Inspur Financial Information Technology Co Ltd
Priority date: 2019-06-26
Filing date: 2019-06-26
Publication date: 2022-03-22
Anticipated expiration: 2039-06-26
Also published as: CN110288441A

Abstract

The invention discloses a design scheme of a novel unmanned shop, wherein a client gets a shopping container and carries the shopping container to enter a magnetic induction entrance guard, and the magnetic induction entrance guard detects that a non-magnetic client lets the client enter a shopping area; the method comprises the steps that a customer selects commodities and puts the commodities into a shopping container, the shopping container is placed in a payment area after shopping is finished, an RFID reader reads commodity information, a shopping list is displayed after the information is read, at the moment, the customer defaults to pay if sealing processing is selected, the customer can take out the commodities before, the shopping container can be automatically sealed if payment is finished, the customer carries the shopping container after sealing and passes through magnetic induction access control without hindrance, then the shopping container enters a demagnetization area, the shopping container is opened, and the customer can leave after returning the shopping container. Through the mode, the invention can provide a unique design scheme on the basis of the structure of the existing unmanned store so as to solve the problem of the shopping process which is difficult to solve at present.

Description

Design method of unmanned shop

Technical Field

The invention relates to the field of unmanned stores, in particular to a design method of an unmanned store.

Background

The unmanned stores have been developed greatly in recent years, but the concept of the unmanned stores is developed rapidly from the point of being proposed to the present, but is still in an incomplete stage, because no complete design scheme exists at present, so that the design schemes of the unmanned stores made by various manufacturers have respective advantages and disadvantages, a consensus is not reached, and a complete design standard of the unmanned stores is urgently needed.

Unmanned stores begin to test business in various places throughout the country, and a section of hot tide is lifted, and the famous products include Binguo box, Rosen, Amazon Go and the like.

The current representative Amazon Go is a new store that does not require a checkout counter. Through technologies such as computer vision, sensor fusion and deep learning, waiting in line is not needed, an Amazon Go application program is used for entering a shop, a desired product is purchased, and long waiting in line in front of a checkout counter is not needed. To summarize the model, the main flow is: registering APP entrance to entrance guard-shop shopping-shopping data analysis-shopping completion-non-sensitive payment-shopping completion. The method comprises a plurality of behavior identification, sensor feedback, algorithm operation and the like, the technical cost required by an unmanned shop is high, a large number of sensors, cameras, microphones and the like need to be laid to complete the analysis of shopping data so as to achieve the purpose of accurate analysis, but relatively speaking, certain security holes must exist in the algorithm, and if the human traffic is increased, the identification accuracy and the load on a computing unit are greatly challenged.

The existing domestic developed illi unmanned store and amazon unmanned store almost use the same technology in principle, and the combination of sensor feedback and computer vision completes the analysis of shopping behavior and deduction of consumption, and the design of the illi unmanned store and amazon unmanned store undoubtedly creates no small challenges for the construction cost and technical attack of the illi unmanned store.

The prior art relies on computer vision to complete shopping behavior analysis and sensors to analyze cargo state, which is theoretically error-free, but these all rely on huge background calculations to implement, thus leading to the following problems:

when the data volume is large, the current mode relates to a large number of algorithms for behavior recognition, and challenges are brought to the cost of server erection at present;

the accuracy of shopping behavior analysis is difficult to guarantee in the prior art when the flow of people is large, although the technology has certain technical foresight, the same purpose can be realized by a cheaper design scheme in the prior art;

although behavior recognition is good, behaviors related to calculation are too many, and the error probability is also high, for example, Amazon Go customers do not want to buy a certain commodity when shopping, put the commodity everywhere or put other articles with the same weight, which is some problems difficult to solve at present;

compared with the release and return, the release cost of the unmanned stores in the current mode can be higher than the labor cost, and the release and return become impractical.

Disclosure of Invention

The invention mainly solves the technical problem of providing a design method of an unmanned shop, which ensures the credit of shopping by a shopping container, and compared with the construction mode of the current unmanned shop, the payment confirmation and shopping process of the invention have more stability, and the invention can not cause the payment error when the flow of people is large; the invention has low requirements on the setting cost and technical requirements of the unmanned stores, integrates more mature technologies at present, and has absolute advantages in convenient setting cost; according to the invention, the access control limitation and the special access control design flow are not included for the shopper, and the access is not hindered when the shopper does not carry commodities, so that the psychological experience of the shopper can be improved.

In order to solve the technical problems, the invention adopts a technical scheme that: the design method of the unmanned shop is provided, the unmanned shop is divided into a shopping container storage area, a shopping area and a payment area, a demagnetization area is arranged in the shopping container storage area, and the shopping container storage area and the shopping area are separated by magnetic induction access control; an access control system, a monitoring system, a shopping management system, a background system and a payment system are arranged in the unmanned shop;

a shopping container is placed in the shopping container storage area, a shielding layer is arranged on the inner wall of the shopping container, an RFID antenna is arranged in the shopping container, a container contact is arranged outside the shopping container, and the container contact is connected with the RFID antenna; the shopping container is provided with a seal which can be opened and closed, the built-in space of the shopping container after the seal is closed shields electromagnetic interference with the outside, and the closed shopping container cannot be read when passing through a magnetic induction access control; the sealing position of the shopping container is locked and sealed by adopting a magnetic buckle, the magnetic buckle is automatically released when the shopping container is placed in a demagnetizing area, and the magnetic buckle can be reused in a demagnetizing mode;

the magnetic induction entrance guard is an entrance guard for detecting a commodity label, and the magnetic induction entrance guard can sense an RFID label of a commodity; the frequency of the RFID antenna arranged in the shopping container is consistent with the frequency of the RFID read by the magnetic induction entrance guard, and the frequency of the magnetic buckle at the sealing position of the shopping container is inconsistent with the frequency of the RFID antenna and the frequency of the RFID read by the magnetic induction entrance guard;

a payment contact, a face recognition camera and a display screen are arranged in the payment area, an RFID reader is arranged in the payment area, and the payment contact is connected with the RFID reader; the shopping container is placed in a payment area, a container contact is effectively contacted with a payment contact, after the contact is combined, a customer confirms to purchase commodities, an RFID reader reads information of all commodities in the container to settle accounts, a face recognition camera arranged in the payment area is used for face recognition settlement, the account bound by the customer is deducted, payment is completed, and payment confirmation information made in the period can be confirmed or cancelled through a mobile phone end; after payment is completed, the magnetic buckle of the shopping container is blocked;

a customer enters a shopping container storage area to pick up a shopping container, the shopping containers in the shopping container storage area are all positioned in a demagnetizing area and cannot be locked and sealed, the customer can carry the shopping container to enter a magnetic induction entrance guard, the magnetic induction entrance guard is provided with a photoelectric sensor or other modes, the customer can enter the shopping area when detecting that the customer can be opened without magnetism, and otherwise, the customer cannot be opened when carrying commodities containing RFID tags; the method comprises the steps that a customer selects commodities in a shopping area and puts the commodities into a shopping container, the shopping container is placed in a payment area after shopping is completed, the shopping container and an RFID reader in the payment area form a read RFID container when a container contact is in contact with the payment contact, the read RFID container returns to a background after information is read, the read RFID container is uploaded to the payment area, a display screen in the payment area displays a shopping list, at the moment, if the customer selects sealing processing, payment is carried out by default, the customer can take out the specified commodities before the payment, if the payment is completed, the shopping container can be automatically sealed, after the shopping container is sealed, the customer can take the shopping container with no obstacle to take shopping through magnetic induction access control, then the shopping container enters a demagnetizing area in the shopping container storage area, the shopping container is opened, and the customer can leave after returning the shopping container.

Furthermore, the access control system is responsible for managing access control and has an alarm function; the monitoring system monitors consumer behaviors and analyzes consumption data for behavior analysis; the shopping management system is used for managing and supplementing goods and supporting shopping of consumers; the background system carries out calculation analysis on the data of the unmanned store; the payment system facilitates the completion of the payment.

Further, the magnetic buckle can be realized by acoustomagnetic.

The beneficial effects of the invention comprise the following points:

1. the invention is unique in the design of the shopping container, realizes the settlement of the commodities by the shopping container, saves the cost and the process of manual calculation and also saves the trouble of counting the parts by the client;

2. the invention considers certain setting of the entrance guard, does not have a certain limitation of free setting of customers to the current amazon or domestic unmanned stores, is not good for shopping experience, and can improve the good feeling of the customers by shielding entrance guard detection by a container without customer operation;

3. compared with the prior art, the method reasonably applies the behavior recognition only for improving the customer experience instead of using the key payment process, thereby ensuring the accuracy of the payment and eliminating the problems of increased people flow and inaccurate behavior analysis;

4. compared with the mode that a large number of sensors are laid in an unmanned store at present and shopping behavior analysis is completed by the cameras, the number of the sensors and the cameras which move in the invention is far less than that of the sensors and the cameras in the existing mode, requirements on master control and a server are much lower, and the system has more advantages in cost erection naturally.

Drawings

Fig. 1 is a flowchart of a design method of an unmanned shop according to a preferred embodiment of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

Referring to fig. 1, an embodiment of the present invention includes:

a method of designing an unmanned store, comprising: the unmanned store is divided into a shopping container storage area, a shopping area and a payment area, wherein the shopping container storage area is internally provided with a demagnetization area, and the shopping container storage area and the shopping area are separated by a magnetic induction access control;

the magnetic induction entrance guard is an entrance guard for detecting a commodity label, and the magnetic induction entrance guard can sense an RFID label of a commodity; the frequency of the RFID antenna arranged in the shopping container is consistent with the frequency of the RFID read by the magnetic induction entrance guard, and the frequency of the magnetic buckle at the sealing position of the shopping container is inconsistent with the frequency of the RFID antenna and the frequency of the RFID read by the magnetic induction entrance guard; the magnetic buckle can be realized by acoustic magnetic or other frequency RFID, and the magnetic induction entrance guard cannot detect the frequency or type of the magnetic buckle label;

an access control system, a monitoring system, a shopping management system, a background system and a payment system are arranged in the unmanned shop; the access control system is responsible for managing access control and has an alarm function; the monitoring system monitors consumer behaviors and analyzes consumption data for behavior analysis; the shopping management system is used for managing and supplementing goods and supporting shopping of consumers; the background system carries out calculation analysis on the data of the unmanned store; the payment system assists in completing payment; the invention also relates to an RFID reading technology, a sound and magnetism degaussing technology, a photoelectric sensor technology, a computer vision analysis technology, a monitoring technology and the like;

the shopping process of the unmanned shop is shown in a figure 1, a customer enters a shopping container storage area to pick up a shopping container, the shopping containers in the shopping container storage area are all positioned in a degaussing area and cannot be sealed in a locking way, the customer can carry the shopping container to enter a magnetic induction entrance guard, the magnetic induction entrance guard is provided with a photoelectric sensor or other modes, the customer can enter the shopping area when detecting that no magnetism exists, and otherwise, the customer cannot be opened when carrying commodities containing RFID tags; the method comprises the steps that a customer selects commodities in a shopping area and puts shopping containers into the shopping area, the shopping containers are placed in a payment area after shopping is completed, the shopping containers and RFID reader main boards in the payment area form a reading RFID container, information is read and then returned to a background, the reading RFID container is uploaded to the payment area, a display screen is arranged in the payment area to display a shopping list, the customer defaults to pay if the customer selects to seal the shopping container, the customer can take out the appointed commodities before the payment, the shopping container can be automatically sealed if the payment is completed, after the shopping container is sealed, the customer can take the shopping container to take away shopping through magnetic induction door control without hindrance, then the shopping container enters a demagnetizing area in the shopping container storage area, the shopping container is opened, and the customer can leave after returning the shopping container.

The invention ensures the credit of shopping by the shopping container, and compared with the construction mode of the current unmanned store, the payment confirmation and shopping process of the invention has more stability, and the invention can not cause the payment error when the flow of people is large; the invention has low requirements on the setting cost and technical requirements of the unmanned stores, integrates more mature technologies at present, and has absolute advantages in convenient setting cost; according to the invention, the access control limitation and the special access control design flow are not included for the shopper, and the access is not hindered when the shopper does not carry commodities, so that the psychological experience of the shopper can be improved.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A design method of an unmanned store is characterized in that the unmanned store is divided into a shopping container storage area, a shopping area and a payment area, a demagnetization area is arranged in the shopping container storage area, and the shopping container storage area and the shopping area are separated by a magnetic induction entrance guard; an access control system, a monitoring system, a shopping management system, a background system and a payment system are arranged in the unmanned shop;

a payment contact, a face recognition camera and a display screen are arranged in the payment area, an RFID reader is arranged in the payment area, and the payment contact is connected with the RFID reader; placing a shopping container in a payment area, enabling a container contact to be in effective contact with a payment contact, after the contact is combined, confirming the purchase of commodities by a customer, reading information of all commodities in the container by an RFID reader for settlement, carrying out face recognition settlement through a face recognition camera arranged in the payment area, deducting an account bound by the customer, completing payment, and confirming or canceling payment confirmation information made in the period through a mobile phone terminal; after payment is completed, the magnetic buckle of the shopping container is blocked;

a customer enters a shopping container storage area to pick up a shopping container, the shopping containers in the shopping container storage area are all positioned in a demagnetizing area and cannot be locked and sealed, the customer can carry the shopping container to enter a magnetic induction entrance guard, the magnetic induction entrance guard is provided with a photoelectric sensor, the customer can enter the shopping area when detecting that the customer is not magnetic, and otherwise, the customer cannot be opened when carrying a commodity containing an RFID label; the method comprises the steps that a customer selects commodities in a shopping area and puts the commodities into a shopping container, the shopping container is placed in a payment area after shopping is completed, the shopping container and an RFID reader in the payment area form a read RFID container when a container contact is in contact with the payment contact, the read RFID container returns to a background after information is read, the read RFID container is uploaded to the payment area, a display screen in the payment area displays a shopping list, at the moment, if the customer selects sealing processing, payment is carried out by default, the customer can take out the specified commodities before the payment, if the payment is completed, the shopping container can be automatically sealed, after the shopping container is sealed, the customer can take the shopping container with no obstacle to take shopping through magnetic induction access control, then the shopping container enters a demagnetizing area in the shopping container storage area, the shopping container is opened, and the customer can leave after returning the shopping container.

2. The design method of an unmanned shop according to claim 1, wherein: the access control system is responsible for managing access control and has an alarm function; the monitoring system monitors consumer behaviors and analyzes consumption data for behavior analysis; the shopping management system is used for managing and supplementing goods and supporting shopping of consumers; the background system carries out calculation analysis on the data of the unmanned store; the payment system facilitates the completion of the payment.

3. The design method of an unmanned shop according to claim 1, wherein: the magnetic buckle is realized through acoustomagnetic.