KR20210062896A - Unpowered ESL terminal receiving distribution history information through UHF RFID communication and distribution history management system using the same - Google Patents

Abstract

The present invention relates to an unpowered ESL terminal for receiving distribution history information through UHF RFID communication, and a distribution history management system using the same and, more specifically, to an unpowered ESL terminal for transmitting distribution history information through UHF RFID communication, which transmits distribution history information through wireless communication in an UHF RFID frequency band, thereby eliminating the need for installation of infrastructure such as conventional Zigbee, and receives power through reception of an external laser signal, thereby requiring no additional power supply unit, and a distribution history management system using the same. To this end, the unpowered ESL terminal comprises: an RF receiving unit for receiving a radio signal in an UHF RFID frequency band including distribution history information from the outside and extracting the distribution history information; a memory unit for storing the distribution history information extracted from the RF receiving unit; an image processor for processing the distribution history information, stored in the memory unit, as distribution history information in the form of a bitmap image; an ESL display unit for displaying the distribution history information in the form of the bitmap image processed by the image processor; an ESL driving unit for performing operation so that the distribution history information in the form of the bitmap image processed by the image processor is displayed on the ESL display unit; and a laser receiving unit for receiving the laser signal from the outside, converting the same into power, and supplying the converted power to the memory unit, the image processor, and the ESL driving unit.

Description

Unpowered ESL terminal receiving distribution history information through UHF RFID communication and distribution history management system using the same

The present invention relates to a non-powered ESL terminal that transmits distribution history information through UHF RFID communication and a distribution history management system using the same. More specifically, distribution history information is transmitted to an unpowered ESL terminal through wireless communication in the UHF RFID frequency band. A non-powered ESL terminal that transmits distribution history information through UHF RFID communication that does not require the installation of infrastructure like the existing ZigBee and does not require a separate power supply as it receives power through external laser signal reception and It relates to a distribution history management system using this.

Labels that display product information and prices are used to display and sell a significant number of products in a certain space, such as a retail store.

In general, a price label is a method of directly writing product information necessary for sales, for example, price and discount information, on paper or printing it on paper according to a standardized format and attaching it to the vicinity of the product display. is being used as

The conventional method as described above may seem simple, simple, and can be implemented at low cost, but a standardized form is used for tens of thousands of product items such as a large-scale distribution store, and the price fluctuates frequently. In this case, there is a limit to the existing paper label application method alone.

That is, when a price change of some of the many product items occurs, it is summarized and the product information such as the changed price is handwritten or printed, then goes to the location of the product displayed in the distribution store and corrects and replaces the label. should give

Therefore, whenever the price information of a product is changed, time and manpower are required for such correction and replacement, and the need for improvement is emerging due to the nature of large distribution stores.

In other words, there is a need to develop a means to change product information quickly, accurately and simply with minimal cost.

Recently, in order to satisfy this market demand, an attempt to replace the existing paper label with an electronic tag using an electronic device is in progress, and related technologies are disclosed in a number of documents such as Patent Document 1 and Patent Document 2.

Although it is called by various terms such as Electronic Shelf Label (ESL), Electronic Price Label (EPL), and Electronic Information Label (EIL) depending on the language/cultural difference of each country or organization developing related technologies, it recognizes labels and electronic tags. It is due to the cultural/linguistic difference in which it is described, and its purpose and use are largely the same.

Hereinafter, in the present invention, this will be referred to as "ESL".

On the other hand, electronic tags developed in the early stage mainly applied the so-called segment method (or passive method) in which predetermined segments are turned on or off in a panel on which a plurality of segments are arranged to display numbers, characters, special symbols, and the like.

Recently, with the development of related technologies such as display panels and communication technologies, electronic tags capable of displaying standardized characters and the like as well as outputting various images on a screen have been developed and are in the process of being put to practical use.

1 is a view showing a conventional ESL operating system.

Referring to the drawings, in the current ESL operating system, the manager who determines the price information directly accesses the ESL server 2 through the manager terminal 1 or accesses the ESL server 2 via the POS system 3 to access the price. ESL display information including information, product information, etc. is updated, and the ESL server 2 transmits the ESL display information to a plurality of ESL terminals 5 located within the gateway communication range through a plurality of gateways 4 to ESL The display information displayed on the terminal 5 is updated.

However, in the ESL operating system using such a network system such as ZigBee, it is advantageous to update the product information or price information through the ESL terminal 5 that is fixed in the store, but the product corresponding to the ESL terminal 5 is distributed. If the location is moved through the process, it becomes impossible to provide information on the product through continuous ESL terminals.

Therefore, development of an ESL terminal capable of displaying distribution history information and a distribution history management system using the same is required even when the product is moved to a location through the distribution process.

The present invention has been devised to solve the above problems, and as distribution history information is transmitted to an unpowered ESL terminal through wireless communication in the UHF RFID frequency band, there is no need to install an infrastructure such as the existing ZigBee, and power is supplied through external laser signal reception. The purpose is to provide an unpowered ESL terminal that receives distribution history information through UHF RFID communication, which does not require a separate power supply unit as it is supplied, and a distribution history management system using the same.

The present invention has the following features to achieve the above object.

The present invention includes: an RF receiver for receiving a radio signal of a UHF RFID frequency band including distribution history information from the outside and extracting distribution history information; a memory unit in which the distribution history information extracted from the RF receiver is stored; an image processor for processing the distribution history information stored in the memory unit as distribution history information in the form of a bitmap image; an ESL display unit for displaying distribution history information in the form of a bitmap image processed by the image processor; an ESL driving unit for driving control so that the distribution history information in the form of a bitmap image processed from the image processor is displayed on the ESL display unit; and a laser receiver for receiving a laser signal from the outside, converting it into power, and supplying the converted power to the memory unit, the image processor, and the ESL driving unit.

Here, the RF receiving unit includes an antenna unit for receiving a radio signal of the UHF RFID frequency band from the outside, an RF rectifier for rectifying the radio signal received from the antenna unit to convert it into power, and a rectified signal from the RF rectifier. A first booster converter for converting, a first voltage regulator for regulating the voltage of the power signal converted from the first booster converter, and a UHF RFID frequency band wireless signal received from the antenna unit Extract distribution history information included and a UHF RFID protocol decoder, wherein the UHF RFID protocol decoder is driven by receiving regulated power from the first voltage regulator.

In addition, the laser receiver includes a photovoltaic cell that converts a laser signal into power, a second booster converter that converts the power signal converted from the photovoltaic cell, and regulates the voltage of the power signal converted from the second booster converter. and a second voltage regulator.

In addition, when the distribution history information is stored in the memory unit, plaintext data and encrypted verification data are stored, and the plaintext data is visualized and stored in the form of a barcode. It is stored, and the encrypted verification data is stored at the end of the data in plaintext.

Meanwhile, the distribution history management system using an unpowered ESL terminal according to the present invention stores distribution history information transmitted from the outside through wireless communication in the UHF RFID frequency band in a designated memory unit, and displays the stored distribution history information on the ESL display unit. a terminal; Transmitting distribution history information to the unpowered ESL terminal through wireless communication in the UHF RFID frequency band, having a unique encryption key, using the encryption key to generate plaintext data and encrypted verification data, and transmit it to the unpowered ESL terminal RFID writer;

Here, the verification of the distribution stage information stored in the unpowered ESL terminal is made through a query on whether the plaintext data and the encrypted verification data match with the RFID writer for each distribution stage. At each distribution stage, the RFID writers use different encryption keys. It is configured so that the RFID writer cannot arbitrarily modulate the distribution history information of the previous stage in the subsequent distribution stage using

According to the present invention, as distribution history information is transmitted to the unpowered ESL terminal through wireless communication in the UHF RFID frequency band, there is no need to install an infrastructure such as the existing ZigBee. of transmission is possible.

In addition, power is supplied to the UHF RFID protocol decoder through the RF rectifier, the first booster converter, and the first voltage regulator that converts the radio signal of the UHF RFID frequency band into power, and the laser that converts the laser signal received from the outside into power As power can be supplied to the memory unit, the image processor, and the ESL driver through the receiver, a separate power supply unit in the ESL terminal can be omitted.

In addition, since RFID writers use different encryption keys in each distribution stage, and the encryption keys are distributed and stored, security can be strengthened, and it is difficult for RFID writers in the next distribution stage to falsify the previous distribution history.

1 is a view showing a conventional ESL operating system.
2 is a diagram illustrating an internal configuration of an unpowered ESL terminal according to an embodiment of the present invention.
3 is a diagram illustrating a process of storing data in a memory unit of an unpowered ESL terminal according to an embodiment of the present invention.
4 is a diagram illustrating a distribution history management system using an unpowered ESL terminal according to an embodiment of the present invention.

In order to explain the present invention and the operational advantages of the present invention and the object achieved by the implementation of the present invention, the following describes a preferred embodiment of the present invention and looks at with reference thereto.

First, terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention, and expressions in the singular may include a plurality of expressions unless clearly differently in context. In addition, in the present application, terms such as "comprise" or "have" are intended to designate the existence of features, numbers, steps, actions, components, parts, or a combination thereof described in the specification, but one or more other It is to be understood that the presence or addition of features, numbers, steps, actions, components, parts, or combinations thereof, does not preclude the possibility of preliminary exclusion.

In describing the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

2 is a diagram illustrating the internal configuration of an unpowered ESL terminal according to an embodiment of the present invention, and FIG. 3 is a diagram illustrating a data storage process in a memory unit of the unpowered ESL terminal according to an embodiment of the present invention.

Referring to the drawings, the non-powered ESL terminal 100 according to an embodiment of the present invention receives a radio signal of the UHF RFID frequency band including distribution history information from the outside and extracts distribution history information RF receiver 10 and, A memory unit 20 in which the distribution history information extracted from the RF receiver 10 is stored, and an image processor 30 that processes the distribution history information stored in the memory unit 20 into distribution history information in the form of a bitmap image And, the ESL display unit 40 that displays the distribution history information in the form of a bitmap image processed by the image processor 30, and the distribution history information in the form of a bitmap image processed by the image processor 30 is displayed in the ESL display unit ( 40), the ESL driver 50 receives a laser signal from the outside and receives the laser signal, converts it into power, and supplies the converted power to the memory unit 20, the image processor 30, and the ESL driver 50 It includes a laser receiver (60).

Here, the RF receiver 10 is provided to receive a radio signal in the UHF RFID frequency band including distribution history information transmitted from an external RFID writer 200 to the unpowered ESL terminal 100 to be described later, and this RF receiver ( 10), the distribution history information transmitted from the RFID writer 200 is extracted and transmitted to the memory unit 20 .

The RF receiver 10 includes an antenna unit 11 for receiving a radio signal of the UHF RFID frequency band from the outside, and an RF rectifier 12 for rectifying the radio signal received from the antenna unit 11 to convert it into power. and a first booster converter 13 that receives and converts the rectified signal from the RF rectifier 12, and a first voltage regulator 14 that regulates the voltage of the power signal converted from the first booster converter 13 ) and a UHF RFID protocol decoder 15 for extracting distribution history information included in the radio signal of the UHF RFID frequency band received from the antenna unit 11 .

Here, the RF rectifier 12 , the first booster converter 13 , and the first voltage regulator 14 convert the radio signal of the UHF RFID frequency band received from the antenna unit 11 into power, and convert it to a UHF RFID protocol decoder. By supplying to (15), the UHF RFID protocol decoder 15 can be driven without a separate internal power supply.

In addition, the laser receiver 60 also converts the laser signal received from the RFID writer 200, which will be described later, into power, and supplies power for driving the memory unit 20, the image processor 30, and the ESL driver 50. carry out To this end, the laser receiver 60 includes a photovoltaic cell 61 for converting a laser signal into electric power, a second booster converter 62 for converting a power signal converted from the photovoltaic cell 61, and the first and a second voltage regulator 63 regulating the voltage of the power signal converted from the second booster converter 62 .

In this way, the RF rectifier 12, the first booster converter 13 and the first voltage regulator 14 of the RF receiver 10, and the photovoltaic cell 61 of the laser receiver 60, the second booster converter 62 and the memory unit 20 that receives distribution history information from the RFID writer 200 by the second voltage regulator 63 and stores it, and the ESL display unit 40 performs image processing so that it can be displayed as a bitmap image. The image processor 30 and the ESL driving unit 50 that control the driving to display it as the ESL display unit 40 receive the necessary power despite the absence of a separate power unit in the ESL terminal 100, so that it is smoothly driven. .

On the other hand, in the non-powered ESL terminal 100 according to the present invention, the process history or distribution history information is continuously stored even if the location where the corresponding product goes through the process step or goes through the distribution process is changed, and the ESL display unit 40 The biggest feature is that it is displayed through

To this end, when the UHF RFID protocol decoder 15 extracts distribution history information included in the radio signal of the UHF RFID frequency band received from the antenna unit 11, it is stored in the memory unit 20, and the memory unit 20 ), plaintext data and encrypted verification data are stored respectively.

The plaintext data is visualized and stored in the form of a barcode, but if the previous barcode is stored, it is continuously stored at the rear end, and the encrypted verification data is continuously stored at the rear end of the data in plaintext as shown in FIG. 3 .

Here, the 128-bit encrypted verification data is obtained by encrypting plaintext data, and this encryption code is generated by the RFID writer 200 through its own encryption key.

Accordingly, in order to verify the authenticity of this in the subsequent distribution step, the RFID writer 200 that has performed the corresponding step needs to perform a query on the authenticity of the plaintext data and the encryption code.

On the other hand, plaintext data and encrypted verification data in the previous distribution stage can be used as plaintext data in the next stage, visualized in the form of a bar coat, and stored continuously at the rear end.

In addition, the data stored in the memory unit 20 is composed of elements such as a background color, a start point of a line, an end point of a line, and the thickness of a line, and the background color is configured to be selected from black or white according to an example. The remaining lines become white, and when white becomes the background, the remaining lines can be configured to become black.

4 is a diagram illustrating a distribution history management system using an unpowered ESL terminal according to an embodiment of the present invention.

Referring to the drawings, the distribution history management system 1000 using an unpowered ESL terminal according to an embodiment of the present invention stores distribution history information transmitted from the outside through wireless communication in the UHF RFID frequency band in a designated memory unit, and stores the stored A non-powered ESL terminal 100 that displays distribution history information on the ESL display unit 40 and the unpowered ESL terminal 100 transmit distribution history information through wireless communication in the UHF RFID frequency band, but have a unique encryption key and the corresponding password and an RFID writer 200 that generates plaintext data and encrypted verification data using the key and transmits the generated data to the unpowered ESL terminal 100 .

Here, the unpowered ESL terminal 100 is as described above, and the RFID writer 200 transmits the distribution history information to the unpowered ESL terminal 100 by including it in the radio signal of the UHF RFID frequency band.

At this time, a laser transmitter for transmitting a laser signal is provided to supply power to the unpowered ESL terminal 100 , and is configured to transmit the UHF RFID signal and simultaneously transmit the laser signal to the unpowered ESL terminal 100 .

As described above, the laser signal is converted into power through the laser receiver 60 of the non-powered ESL terminal 100 , and power required for driving the memory unit 20 , the image processor 30 and the ESL driver 50 is supplied. will do

Meanwhile, the RFID writer 200 generates plaintext data and encrypted verification data through its own encryption key when transmitting distribution history information to the unpowered ESL terminal 100 and transmits it to the unpowered ESL terminal 100 . do.

Since the RFID writer 200 may be provided for each distribution step, the verification of information at each step stored in the power-free ESL terminal 100 is performed by querying the data for plaintext and encrypted verification with the corresponding RFID writer 200 before. In each distribution stage, security can be further strengthened as the RFID writers 200 use different encryption keys and each encryption key is distributed and stored.

Accordingly, verification is possible even if it is not configured as a single network.

Of course, since the RFID writers 200 need to be able to perform a query when a query is required, networking should be made in a state where they can be connected to each other through a communication network.

As described above, in each distribution step, the RFID writer 200 generates distribution history information together with plaintext data and encrypted verification data through its own encryption key and stores it in the ESL terminal. 200) has the characteristic that it cannot arbitrarily tamper with the distribution history information of the previous stage.

As described above, the present invention has been described with reference to an embodiment shown in the drawings, but this is only exemplary, and those of ordinary skill in the art can recognize that various modifications and other equivalent embodiments are possible therefrom. I will understand.

Therefore, the true technical scope of the present invention should be determined by the technical spirit of the appended claims.

10: RF receiver 11: antenna unit
12: RF rectifier 13: first booster converter
14: first voltage regulator 15: UHF RFID protocol decoder
20: memory unit 30: image processor
40: ESL display part 50: ESL driving part
60: laser receiver 61: photovoltaic cell
62: second booster converter 63: second voltage regulator
100: no power ESL terminal 200: RFID writer
1000: distribution history management system

Claims (6)

an RF receiving unit 10 for receiving a radio signal of a UHF RFID frequency band including distribution history information from the outside and extracting distribution history information;
a memory unit 20 in which distribution history information extracted from the RF receiver 10 is stored;
an image processor 30 for processing the distribution history information stored in the memory unit 20 as distribution history information in the form of a bitmap image;
an ESL display unit 40 on which distribution history information in the form of a bitmap image processed by the image processor 30 is displayed;
an ESL driving unit 50 for driving control so that the distribution history information in the form of a bitmap image processed by the image processor 30 is displayed on the ESL display unit 40; and
Distribution through UHF RFID communication including a laser receiving unit 60 that receives a laser signal from the outside and converts it into power and supplies the converted power to the memory unit 20 , the image processor 30 and the ESL driving unit 50 . An unpowered ESL terminal that receives history information.
The method of claim 1,
The RF receiver 10 is
An antenna unit 11 for receiving a radio signal of the UHF RFID frequency band from the outside;
an RF rectifier 12 for rectifying the radio signal received from the antenna unit 11 to convert it into power;
A first booster converter 13 for converting by receiving a rectified signal from the RF rectifier 12;
a first voltage regulator 14 for regulating the voltage of the power signal converted from the first booster converter 13; and
and a UHF RFID protocol decoder 15 for extracting distribution history information included in the radio signal of the UHF RFID frequency band received from the antenna unit 11,
The UHF RFID protocol decoder (15) is an unpowered ESL terminal that receives distribution history information through UHF RFID communication, characterized in that it is driven by receiving regulated power from the first voltage regulator (14).
The method of claim 1,
The laser receiver 60 is
A photovoltaic cell 61 that converts a laser signal into electric power;
a second booster converter 62 for converting the power signal converted from the photovoltaic cell 61;
and a second voltage regulator (63) for regulating the voltage of the power signal converted from the second booster converter (62).
The method of claim 1,
When the distribution history information is stored in the memory unit 20, plaintext data and encrypted verification data are stored, and the plaintext data is visualized and stored in the form of a barcode. A non-powered ESL terminal that receives distribution history information through UHF RFID communication, characterized in that it is continuously stored and the encrypted verification data is stored at the rear end of the data in plaintext.
It relates to a distribution history management system using an unpowered ESL terminal according to any one of claims 1 to 4,
a power-free ESL terminal 100 for storing distribution history information transmitted from the outside through wireless communication of the UHF RFID frequency band in a designated memory unit, and displaying the stored distribution history information on the ESL display unit 40;
The unpowered ESL terminal 100 transmits distribution history information through wireless communication in the UHF RFID frequency band, has a unique encryption key, and uses the encryption key to generate plaintext data and encrypted verification data, and the non-powered ESL terminal A distribution history management system using an unpowered ESL terminal, characterized in that it includes; an RFID writer 200 for transmitting to (100).
The method of claim 5,
Verification of the information for each distribution stage stored in the power-free ESL terminal 100 is made through a query on whether plaintext data and encrypted verification data match with the RFID writer 200 for each distribution stage, and at each distribution stage, the RFID writer Distribution history management system using an unpowered ESL terminal, characterized in that the RFID writer 200 cannot arbitrarily modulate the distribution history information of the previous step in the subsequent distribution step by using different encryption keys. .

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