KR102119144B1 - Method for reading code - Google Patents

Abstract

The present invention relates to a code reading method. More specifically, by dividing a large amount of information into multiple types of segmented information in accordance with the storage capacity of a code to be generated and generating the segmented information as an individual code, a large amount of information can be transmitted using a code having the limited storage capacity, and a plurality of codes generated from the large amount of information can be sequentially and continuously outputted to be read. The conventional user can individually input a user command for generating each code, and easily and quickly read a large amount of information compared to a method of reading each time each code is generated.

Description

Method for reading code

The present invention relates to a code reading method, and more specifically, it is divided into a plurality of pieces of divided information according to the storage capacity of a code to generate a large amount of information, and each segmented information is generated as a separate code, thereby limiting the storage capacity of QR codes, barcodes, etc. A large amount of information can also be transmitted by using a code having. By sequentially outputting and reading a plurality of codes generated from the large amount of information, a conventional user individually inputs a user command for generating each code and inputs each It relates to a code reading method that can easily and quickly read a large amount of information compared to the method of reading each time the code is generated.

Various information codes such as barcodes and QR codes that can store information such as letters and numbers have been developed and used.

A QR code is a two-dimensional (matrix) type code that contains a variety of information in a rectangular horizontal and vertical grid pattern, and is the acronym for'Quick Response','QR'. Developed by Denso Wave Inc. in Japan in 1994, it is widely used in various fields.

While existing one-dimensional barcodes can store only 20 or more numeric information, QR codes can store up to 7,089 characters, up to 4,296 characters (ASCII), up to 2,953 bytes in binary (8 bits), and up to 1,817 characters in Chinese characters, It has better recognition speed, recognition rate and resilience than general barcodes. If the barcode is mainly used for calculation, inventory management, product identification, etc., the QR code is often used for marketing, promotion, and PR means.

The use of QR codes has increased with the spread of smartphones. Smartphone users can easily obtain various information simply by downloading the free QR code scanning application and then scanning the QR codes posted on billboards, promotional papers, posters, magazines, and the Internet with their smartphones.

On the other hand, by reading the QR code displayed on the smartphone to the QR code reader, it has the advantage of easily transmitting information from the smartphone to the QR code reader.

Information codes such as barcodes and QR codes have the advantage of easily transmitting predetermined information stored through a reading process. Looking at the reading process of a conventional information code, an information code is displayed on a code output device such as a smartphone, and the code is read. The device obtains information by reading the information code displayed on the code output device.

However, there is a limitation that the amount of information that can be stored in a barcode is very small, and a QR code can store a large amount of information compared to a barcode, but it can still store only a limited amount of information. It has the problem that it cannot be used more widely.

The present invention is to solve the problems of the above-mentioned conventional information code reading method, and an object of the present invention is to sequentially display a plurality of codes in a code output device and sequentially display in a code reading device. It is to provide a method of reading a code that reads multiple codes to generate a large amount of overall information.

Another object to be achieved by the present invention is to determine whether there is a code to be continuously read based on the sequence identifier in the code reading apparatus by including a sequence identifier indicating whether there is a sequence code to be displayed in the code when the code is continuously generated. Therefore, a method of reading a code capable of acquiring a large amount of information is provided.

Another object to be achieved by the present invention is that when the reading of the displayed code is completed, the feedback is sent to the information generating device so that the next continuous code is sequentially displayed, so that a large amount of information can be rapidly obtained from multiple information codes. It provides a method for reading the code.

Another object of the present invention is to provide a method for reading a code that outputs a notification sound to the user when the reading of multiple codes continuously displayed is notified to inform that the reading of the code is completed.

Another object to be achieved by the present invention is that when a read error occurs in the entire information generated from a plurality of consecutively read codes, the error code having the read error is determined and the error code is displayed again, thereby accurately retrieving the entire information from the plurality of codes. It is to provide a method of reading a code that can generate.

In order to achieve the object of the present invention, a method for reading a code according to the present invention includes reading a first code displayed on a code output device and sequentially reading a continuous code displayed on a code output device after the first code. And determining whether the sequential code displayed on the code output device is the last sequential code displayed last, and ending reading of the code displayed on the code output device if the displayed sequential code is the last sequential code. do.

Preferably, the method for reading a code according to an embodiment of the present invention further includes generating, when the last continuous code is read, combining code information sequentially read from the first code to the last continuous code to generate overall information. It is characterized by.

Preferably, the method of reading a code according to an embodiment of the present invention further comprises the step of transmitting a read waiting message requesting the display of the next consecutively displayed continuous code to the code output device after reading the first code or the continuous code. It is characterized by including.

Here, the first code or the continuous code includes a continuous identifier indicating whether there is a continuous code to be successively displayed next.

Preferably, in the method of reading a code according to an embodiment of the present invention, when the first code or the sequential code includes a sequential identifier indicating that there is a sequential code to be displayed next, the sequential code to be successively displayed And waiting for reading.

Preferably, in the method of reading a code according to an embodiment of the present invention, if the first code or the continuous code includes a continuous identifier indicating that there is a continuous code to be displayed next, after reading the first code or the continuous code It characterized in that it further comprises the step of transmitting a read waiting message requesting the display of successively displayed successive codes to the code output device.

Preferably, in the method of reading a code according to an embodiment of the present invention, when the last continuous code is read, a read error exists in all information generated from a combination of code information sequentially read from the first code to the last continuous code Determining whether a read error exists in the entire information, and requesting to redisplay an error code in which a read error occurred among the first code or the last sequential code, and sequentially reading the first code to the last sequential code. And replacing the displayed error code with a substrate-read error code on the basis of generating the entire information. How to read the code

Preferably, in the code reading method according to an embodiment of the present invention, when the continuous code displayed on the code output device is the last continuous code displayed on the code output device, a notification sound indicating the end of reading the code displayed on the code output device It characterized in that it further comprises the step of outputting.

First, the method of reading a code according to the present invention sequentially causes a plurality of codes to be sequentially displayed in a code output device, and the code reading device reads a number of consecutively displayed codes to generate entire information, thereby generating existing information. A large amount of information can be obtained using a code.

Second, the method of reading a code according to the present invention includes a continuous identifier indicating whether there is a continuous code to be displayed in the code when the code is generated, so that there is a code to be continuously read based on the continuous identifier in the code reading apparatus. By judging, a large amount of information can be obtained.

Third, in the method of reading a code according to the present invention, when the reading of the displayed code is completed, by sending feedback to the information generating device and requesting the display of the next continuous code, a large amount of information can be quickly obtained from multiple codes. .

Fourth, in the method of reading a code according to the present invention, it is easy to know that the reading of a plurality of codes is completed by outputting a notification sound to a user when reading of a plurality of codes that are continuously displayed is completed.

Fifth, in the method of reading a code according to the present invention, when a read error occurs in all information generated from a plurality of consecutively read codes, the error code having a read error is determined and the error code is displayed again to request a plurality of codes. Can accurately generate the entire information.

1 is a functional block diagram for explaining a code reading system according to the present invention.
2 is a functional block diagram for describing a code output device that continuously generates codes and outputs the codes according to the present invention to a display unit.
3 is a functional block diagram for explaining a code reading apparatus for continuously reading codes according to the present invention to generate overall information.
4 is a functional block diagram illustrating an example of an information generating unit according to the present invention.
5 is a flowchart illustrating an embodiment of a method for generating code in a code output device according to the present invention.
6 is a flowchart illustrating another embodiment of a method for generating code in a code output device according to the present invention.
7 is a flowchart illustrating an embodiment of a method for reading a code in a code reading apparatus according to the present invention.
8 is a view for explaining an example in which a plurality of codes are sequentially output in a code reading method according to the present invention.
9 is a flowchart for explaining an embodiment of a step of generating all information according to the present invention.
10 is a flowchart illustrating another embodiment of a method for reading a code in a code reading apparatus according to the present invention.

It should be noted that the technical terms used in the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. In addition, technical terms used in the present invention should be interpreted as meanings generally understood by a person having ordinary knowledge in the technical field to which the present invention belongs, unless otherwise defined in the present invention. It should not be interpreted as a meaning or an excessively reduced meaning. In addition, when the technical term used in the present invention is a wrong technical term that does not accurately represent the spirit of the present invention, it should be understood as being replaced by a technical term that can be correctly understood by those skilled in the art.

In addition, the singular expression used in the present invention includes a plural expression unless the context clearly indicates otherwise. In the present invention, terms such as “consisting of” or “comprising” should not be construed to include all of the various components, or various stages, described in the invention, including some of the components or some stages. It may or may not be construed as further comprising additional components or steps.

In addition, it should be noted that the accompanying drawings are only for easy understanding of the spirit of the present invention and should not be interpreted as limiting the spirit of the present invention by the accompanying drawings.

Hereinafter, a code reading method according to the present invention will be described in more detail with reference to the accompanying drawings.

1 is a functional block diagram for explaining a code reading system according to the present invention.

Referring to FIG. 1 in more detail, a user terminal 10, a code processing device 30, and an information management server 70 are connected to the network 50. Here, the network 50 transmits and receives data between the user terminal 10 and the information management server 70, or transmits and receives data between the code processing device 30 and the information management server 70, various types of wired or wireless. Networks can be used.

As the user terminal 10, various types of terminals, such as a smart phone, a laptop, and a PDA, that generate a code having information and output the generated code to a display unit (not shown) can be used. The user terminal 10 is provided When the total amount of information to be performed exceeds the amount of information that can be stored in one code, the entire information is divided into a plurality of pieces of division information, and a plurality of codes for storing each segmentation information are continuously generated, and successively generated codes are sequentially displayed on the display. do.

The code processing device 30 reads at least one code displayed on the user terminal 10, and combines information read from at least one code to generate overall information.

The user terminal 10 and the code processing device 30 can transmit and receive data to and from each other by a short-range communication method such as Bluetooth or infrared communication. Whenever the user terminal 10 continuously outputs the generated code to the display unit Generates a signal informing the output of a new code and transmits it to the code processing device 30 or the code processing device 30 requests a continuous code output when reading the code output to the user terminal 10 is completed Can be generated and transmitted to the user terminal 10. Accordingly, the user terminal 10 and the code processing device 30 may rapidly provide or receive a large amount of information as a continuous code through a signal informing a continuous output of a new code or a signal requesting the output of a continuous code.

According to the field to which the present invention is applied, the operations of the user terminal 10 and the code processing device 30 are interchanged, and the user terminal 10 is equipped with a camera that scans codes and an application capable of reading the scanned codes. The downloaded and executed code processing apparatus 30 generates a plurality of codes continuously and includes codes generated continuously when the total amount of information to be provided to the user terminal 10 exceeds the amount of information that can be stored as one code. It can be operated to output sequentially through the display unit.

The user terminal 10 or the code processing device 30 may combine the read at least one or more codes to generate the entire information, and transmit the entire information to the information management server 70 through the network 50. The information management server 70 may provide various services to the user by using the entire information.

2 is a functional block diagram for describing a code output device that continuously generates codes and outputs the codes according to the present invention to a display unit.

The code output device described with reference to FIG. 2 operates in a user terminal when generating a code in a user terminal, and operates in a code processing device when generating a code in a code processing device.

Looking at the code output device in more detail with reference to FIG. 2, the code generation unit 110 divides a large amount of information to be transmitted and generates it as a plurality of pieces of segmented information, and sequentially generates a plurality of codes for storing each piece of segmented information. do. Preferably, when the code generating unit 110 sequentially generates a code for storing each segmentation information, the number of segmentation information generated from the large amount of information together with the segmentation information, and the sequence identifier of the segmentation information stored in the corresponding code among the plurality of segmentation information In addition, a code may be generated by including a sequential identifier indicating whether there is continuous segmentation information after the segmentation information of the corresponding code or whether there is a continuous code after the segmentation code.

The output control unit 130 outputs and controls the first code storing the first split information to be transmitted among the multiple codes generated by the code generation unit 110 to the code output unit 150. Here, the output unit 150 may be a display unit that displays a number of codes. The output control unit 130 determines whether there is a continuous code to be sequentially output after the first code, after outputting the first code among the multiple codes, and sequentially controls the continuous code to the code output unit 150. The output control unit 130 determines whether all of the multiple codes are continuously output, and when all of the multiple codes are completely output, the output of the codes ends.

Here, the output control unit 130 sequentially outputs and controls the plurality of codes sequentially from the first code at predetermined time intervals.

Preferably, when receiving the request signal of the continuous code from the code reading device, the output control unit 130 may sequentially output and control the next continuous code. That is, the communication unit 170 transmits and receives data to and from the code reading device. When the communication unit 170 receives a request signal for the next continuous code from the code reading device, the communication unit 170 sends the request signal for the next continuous code to the output control unit 130. In response, the output control unit 130 may output and control the next continuous code to the code output unit 150 when there is a next continuous code to be continuously output in response to a request signal for the next continuous code.

More preferably, the output control unit 130 outputs the user interface screen for notifying that the output of the multiple codes is completed through the code output unit 150 when the multiple codes are completely output, or the output of the multiple codes is The output sound can be controlled through a separate speaker (not shown) to notify that it is completed.

3 is a functional block diagram for explaining a code reading apparatus for continuously reading codes according to the present invention to generate overall information.

The code reading apparatus described with reference to FIG. 3 operates in the code processing apparatus when the code is read by the code processing apparatus, and operates in the user terminal when the code is read by the user terminal.

Looking at the code reading device in more detail with reference to FIG. 3, the reading unit 210 reads a plurality of codes sequentially output from the code output device, and generates information for dividing information stored in each read code 270 ).

The reading control unit 230 determines whether there is a code to be continuously read based on the continuous identifier stored in each read code, and if there is a code to be continuously read, the reading unit 210 to continuously read the code The read control of the standby. Preferably, the reading control unit 230 requests to output the next continuous code when there is a code to be continuously read based on the sequence identifier or the sequence identifier stored in the read code, and at the same time, the reading unit 210 is finished reading the code. The read waiting message is generated, and the generated read waiting message may be generated through the communication unit 250 to the code output device.

When the information generation unit 270 sequentially reads multiple codes sequentially through the reading unit 210, the information of the multiple codes is combined to generate a large amount of overall information.

Preferably, the information generating unit 270 determines whether all of the large-capacity multiple codes generated by the code output device have been read and determines whether an error code having an error exists among the read multiple code division information. That is, the information generating unit 270 does not accurately determine whether there is an unread error code among the multiple codes based on the sequence identifiers of the multiple codes sequentially read, or combines the information of the multiple codes to generate the entire information accurately. The error code that causes an error is determined.

When an error code exists, the reading control unit 230 generates a code re-request message and transmits the generated code re-request message to the code output device through the communication unit 250. When the error control code 230 displays the error code again in response to the code re-request message, the reading control unit 230 controls to read the error code through the reading unit 210 and reprints it through the information generating unit 270 It is controlled to generate the entire information by substituting the information of the unique error code with the information of the unique error code.

4 is a functional block diagram illustrating an example of an information generating unit according to the present invention.

Referring to FIG. 4 in more detail, the storage unit 271 temporarily stores each code whenever multiple codes are sequentially read.

The error determination unit 273 determines whether an error exists in code information read from each code whenever each code is temporarily stored in the storage unit 271 or when a plurality of codes are temporarily stored in the storage unit 271. . The error determination unit 273 determines whether there is an unread error code among a plurality of codes or an error code that is not correctly read among the plurality of codes based on the number or sequence identifier of the total division information stored in the code. do.

The error reading unit 273 generates a code re-request message for re-requesting the error code when an error code exists, and transmits it to the code output device through the communication unit, and responds to the code re-request message to the storage unit 271 When the error code is read and temporarily stored, the information of the temporarily pre-stored error code is replaced with the re-read code information.

When the information combination unit 275 receives a signal indicating that the multiple codes are all normally read from the error reading unit 273 and temporarily stored in the storage unit 271, the information combining unit 275 receives the division information of the multiple codes stored in the storage unit 271. Combined to generate the entire information.

5 is a flowchart illustrating an embodiment of a method for generating code in a code output device according to the present invention.

Looking in more detail with reference to FIG. 5, it is determined whether a code request message is received from the code reading device (S111).

When receiving the code request message, a large amount of information to be provided to the code reading device is divided into a plurality of pieces of segmentation information, and a first code for storing the first segmentation information to be provided first among the pieces of segmentation information is generated and generated. The first code is output to the display unit (S113).

After outputting the first code to the display unit, it is determined whether there is a continuous code to be continuously generated after the first code (S115). If there is a continuous code, a continuous code for storing the divided information to be provided next among a plurality of pieces of divided information is generated, and the generated continuous code is output to the display unit (S117). The first code and the continuous code are sequentially generated at predetermined time intervals, and the generated first code and the continuous code are sequentially output at a predetermined time interval and output to the display unit.

On the other hand, if the last sequential code for storing the last segmentation information among the plurality of segmentation information is output to the display unit, when there is no more segmentation information to be provided, the code generation ends.

6 is a flowchart illustrating another embodiment of a method for generating code in a code output device according to the present invention.

Referring to FIG. 6 in more detail, it is determined whether a code request message is received from the code reading device (S131).

When receiving the code request message, a large amount of information to be provided to the code reading device is divided into a plurality of pieces of segmentation information, and a first code for storing the first segmentation information to be provided first among the pieces of segmentation information is generated and generated. The first code is output to the display unit (S133).

After outputting the first code to the display unit, it is determined whether there is a continuous code to be continuously generated after the first code (S135). If there is a continuous code, a code output message is sent to the code reading device informing of the output of the continuous code storing the next divided information to be provided among the multiple pieces of information (S137), and the code reading device is responsive to the code output message. It is determined whether a read waiting message requesting the output of the continuous code is received (S138). When a read waiting message is received, a continuous code is generated and the generated continuous code is output to the display unit (S139).

Preferably, when a read waiting message is not received from the code reading device within a predetermined time in response to the code output message, the code output message is retransmitted back to the code reading device, and the read waiting message is received in response to the retransmitted code output message. The next continuous code is generated and output to the display unit. However, if a read waiting message cannot be received within a predetermined time in response to the retransmitted code output message, a code unavailable message is generated and output to the user.

On the other hand, if the last sequential code for storing the last segmentation information among the plurality of segmentation information is output to the display unit, when there is no more segmentation information to be provided, the code generation ends.

7 is a flowchart illustrating an embodiment of a method for reading a code in a code reading apparatus according to the present invention.

Referring to FIG. 7 in more detail, the first code output from the code output device is read (S211).

It is determined whether there is a continuous code to be continuously read after the first code based on the sequence identifier or the sequence identifier stored in the first code together with the read first code division information (S213).

If there is a continuous code to be read continuously, the next continuous code is read. The next continuous code that is output from the code output device is read (S218).

When the last sequential code storing the last segment information among the plurality of pieces of segmentation information is read based on the sequential identifier or sequence identifier stored in the sequential code together with the segmentation information of the read continuous code, the code reading ends, and the plurality of pieces of segmentation information All of them are combined to generate all information from a plurality of pieces of divided information (S219).

Preferably, when there is a continuous code to be continuously read based on the sequence identifier or sequence identifier stored in the sequence code, a message to be read is generated to request the next sequence code to be output, and the generated message to be read is transmitted to the code output device. (S215). When the code output message is received from the code output device in response to the read waiting message, the next sequential code is read (S217). More preferably, if a code output message cannot be received within a predetermined time from the code output device in response to the read waiting message, the read waiting message is retransmitted to the code output device, and the code output message is received in response to the retransmitted read waiting message. If it is, wait for the next continuous code to be read. However, if the code output message cannot be received within a predetermined time in response to the readout message that has been retransmitted, a code unread message is generated and output to the user.

8 is a view for explaining an example in which a plurality of codes are sequentially output in a code reading method according to the present invention.

When there is a large amount of information to be transmitted by a QR code, the large amount of information is divided into three pieces of information and each piece of information is sequentially generated by three QR codes, as shown in FIG. 8(a). On the user terminal, a first code for storing segmentation information to be transmitted for the first time among three pieces of segmentation information is displayed.

As shown in FIG. 8(b), a continuous code that needs to be sequentially output after the first code is displayed on the user terminal, and as shown in FIG. 8(c), it must be sequentially output after the continuous code. The last continuous code is displayed on the user terminal.

The three codes are sequentially output at predetermined time intervals, or are sequentially output when a read waiting message is received from the code reading device.

As described above, in the case of the code reading method according to the present invention, a limited storage capacity, such as a QR code, a barcode, and the like, is limited by dividing the information into a plurality of pieces of information according to the storage capacity of the code to generate a large amount of information and generating each piece of information as individual codes. Branches can also transfer large amounts of information using code. In addition, the code reading method according to the present invention sequentially outputs and reads a plurality of codes generated from large-capacity information, so that a conventional user individually inputs a user command for generating each code and each code is generated. Compared to the method of reading each time, it is possible to read large amounts of information easily and quickly.

9 is a flowchart for explaining an embodiment of a step of generating all information according to the present invention.

Referring to FIG. 9 in more detail, it is determined whether there is an unread error code among a plurality of codes based on the sequence identifier of a plurality of codes sequentially read or the number of all division information, or a combination of information of a plurality of codes. When generating information, it is determined whether there is an error code that does not accurately read and generates an error (S231). When the error code does not exist, the entire information is generated by combining division information of a plurality of codes in a sequential read order from the first code to the last consecutive code (S239).

However, if there is an error code among a plurality of codes (S233), a code re-request message requesting re-output of the error code is generated, and the generated code re-request message is sent to the code output device to request the error code again (S235). ).

When the error code is re-output from the code output device in response to the code re-request message, the error code is read, and the read information is reprinted based on the sequence identifier of the error code and the output information of the read error code is reprinted. The code is replaced with segmentation information (S237).

Based on the sequential reading order of the first code to the last sequential code, the displayed error code is replaced with a read error code to generate the entire information (S239).

10 is a flowchart illustrating another embodiment of a method for reading a code in a code reading apparatus according to the present invention.

Referring to FIG. 10 in more detail, the first code output from the code output device is read (S211).

The information type of the continuous code to be continuously read is determined based on the read first code (S253). Here, the first code includes an information identifier indicating the type of information to be output by the code output device.

The code reading device transmits an information type message including information on the type of information that the code reading device is to receive to the code output device based on the read first code information (S255).

The code output device reads at least one or more continuous codes displayed on the code output device based on information on the information type provided in the information type message (S256). In more detail, the code output device divides a large amount of information to be provided to the code reading device, which is requested by the code reading device, into a plurality of pieces of segmented information based on the information type message, and at least one or more consecutive codes from each piece of segmented information. To create.

It is determined whether there is a continuous code to be continuously read after the first continuous code based on the sequence identifier or the sequence identifier stored in the first continuous code together with the read division information of the first continuous code (S257).

If there is a continuous code to be read continuously after the first continuous code, a read waiting message for requesting the next continuous code is sent to the code output device and is read (S278). The next sequential code is sequentially read from the next sequential code output from the code output device.

If the last sequential code storing the last segment information among the plurality of pieces of segmentation information is read based on the sequential identifier or sequence identifier stored in the sequential code together with the segmentation information of the read sequential code, reading of the code is ended, and a plurality of consecutive codes The whole information is generated from the plurality of pieces of divided information by combining all of the pieces of divided information obtained from (S259).

In the code reading method according to another embodiment of the present invention, the code output device provides the code output device through the first code by sequentially reading successive codes requested by the code reading device in response to the first code. A type of information that can be transmitted is first transmitted to a code reading device, and the code reading device obtains a large amount of information successively and sequentially through continuous codes by requesting information required by the code reading device as a code output device based on the information type can do.

Meanwhile, the above-described embodiments of the present invention can be written in a program executable on a computer, and can be implemented in a general-purpose digital computer that operates the program using a computer-readable recording medium.

The computer-readable recording medium includes magnetic storage media (eg, ROM, floppy disk, hard disk, etc.), optical reading media (eg, CD-ROM, DVD, etc.) and carrier waves (eg, the Internet). Storage media).

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and other equivalent embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

10: user terminal 30: code processing device
50: network 70: information management server
110: code generation unit 130: output control unit
150: code output unit 170: communication unit
210: reading unit 230: reading control unit
250: communication unit 270: information generation unit
290: output

Claims (9)

Reading a first code displayed on the code output device among all the transmitted files;
Sequentially reading successive codes excluding the first code among the entire transmission files, sequentially displayed on the code output device after the first code;
Determining whether the sequential code displayed on the code output device is the last sequential code displayed last among the entire transmission files, and when the displayed sequential code is the last sequential code, ending reading of the code displayed on the code output device; And
And determining whether there is an unread error code among codes sequentially read from the first code to the last consecutive code based on the sequence identifier or sequence identifier of the read code.
If the error code is present, based on the sequential identifier or sequence identifier of the error code, only the error code is requested to be displayed again to the code output device, and the displayed error code is replaced with a unique error code to generate the entire information.
After the first code, a read waiting message requesting the output of a continuous code is transmitted to the code output device, and the code output device sequentially displays the next successive code whenever the code waiting device receives a read waiting message. Characteristic code reading method.
The method of claim 1, wherein the code is read
And when the last continuous code is read, further comprising generating coded information by combining code information sequentially read from the first code to the last continuous code.
The method of claim 2, wherein the code is read
And after reading the first code or the continuous code, transmitting a read waiting message to the code output device requesting the display of the next successively displayed continuous code.
The method of claim 3,
The first code or the sequential code includes a sequential identifier indicating whether there is a sequential code to be successively displayed next.
The method of claim 4, wherein the code is read
If the first code or the sequential code includes a sequential identifier indicating that there is a sequential code to be displayed next, the method further comprises waiting for reading the sequential code to be successively displayed. How to read the code.
The method of claim 4, wherein the code is read
If the first code or the sequential code includes a sequential identifier indicating that there is a sequential code to be displayed next, reading the first code or the sequential code and requesting the subsequent sequential code to be displayed And transmitting the read waiting message to the code output device.
The method of any one of claims 2 to 6, wherein the code is read
Determining whether there is a code in which a read error occurs among codes sequentially read from the first code to the last continuous code;
If there is a code in which a read error occurs, requesting to display again the error code in which a read error occurred among the first to last sequential codes; And
And generating the entire information by replacing the error code displayed again with a readable error code based on the sequential reading order of the first to last sequential codes.
The method for reading the code according to any one of claims 1 to 6,
If the sequential code displayed on the code output device is the last sequential code displayed last, further comprising the step of outputting a notification sound indicating the end of the reading of the code displayed on the code output device. Reading method.
The method of claim 1, wherein the code is read
After reading the first code, further comprising the step of transmitting an information type message to the code output device,
And reading the continuous code displayed in response to the information type message in the code output device after the first code.

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