JP2021056766A - Measurement apparatus, data transmitter, data receiver, data transmitting/receiving system, and program - Google Patents

Abstract

To transmit/receive data without using a communication channel.SOLUTION: A measurement apparatus includes a display section for displaying data relating to a physical amount, an encode section which encodes data relating to the measurement apparatus, for generating a plurality of two-dimensional codes, and a consecutive two-dimensional code generation section for generating a consecutive two-dimensional code which displays the plurality of two-dimensional codes generated at the encode section in a consecutive manner. The display section also displays the consecutive two-dimensional code generated by the consecutive two-dimensional code generation section.SELECTED DRAWING: Figure 5

Description

The present invention relates to the transmission and reception of data.

Data may be transmitted and received by connecting a measuring instrument such as an oscilloscope and a personal computer via a communication line (Patent Document 1).

For example, when it is desired to set a plurality of measuring instruments in the same state, a communication circuit is used to acquire the setting information from the measuring instrument having the desired setting information, and the acquired setting information is transferred to another measuring instrument. Copying is done.

Japanese Unexamined Patent Publication No. 2004-53513

However, depending on the location where the measuring instrument is installed and the measurement target of the measuring instrument, the communication circuit may be easily affected by noise, and data may not be transmitted / received normally. Further, when data is transmitted / received using a communication circuit, it is necessary to set a communication connection destination on both devices to be connected.

Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to send and receive data without using a communication circuit.

In order to solve the above problems, the measuring instrument in the present invention is a measuring instrument that measures a physical quantity, and has a display unit that displays data related to the measured physical quantity and a plurality of two that encode the data related to the measuring instrument. It has an encoding unit that generates a dimensional code and a continuous two-dimensional code generating unit that generates a moving image that continuously displays a plurality of two-dimensional codes generated by the encoding unit, and the display unit is the continuous unit. The moving image generated by the two-dimensional code generator is displayed.

Further, the data transmitter in the present invention encodes data and generates an encoding unit that encodes data and generates a plurality of two-dimensional codes arranged in order, and a plurality of two-dimensional codes generated by the encoding unit are continuously generated in the above order. It has a continuous two-dimensional code generation unit that generates a continuous two-dimensional code to be displayed, and a display unit that displays a continuous two-dimensional code generated by the continuous two-dimensional code generation unit. When generating the continuous two-dimensional code, if the same two-dimensional code is continuous in the plurality of two-dimensional codes arranged in the order, a predetermined number is set between the images of the same continuous two-dimensional code. Insert an image.

Further, the data receiver of the present invention is a photographing unit that captures an image of a continuous two-dimensional code generated by encoding data, in which a plurality of two-dimensional codes arranged in order are continuously displayed in the order. And a decoding unit that decodes the plurality of two-dimensional codes and acquires the data based on the image captured by the photographing unit, and the decoding unit decodes the plurality of two-dimensional codes. When the image captured by the photographing unit includes a predetermined image, the two two-dimensional codes before and after the predetermined image are two identical two-dimensional codes arranged in succession. Judge that there is.

Further, the data transmission / reception system in the present invention is a data transmission / reception system having a data transmission machine and a data receiver, and the data transmission / reception machine encodes data and generates a plurality of two-dimensional codes arranged in order. It is generated by an encoding unit, a continuous two-dimensional code generation unit that generates a continuous two-dimensional code that continuously displays a plurality of two-dimensional codes generated by the encoding unit in the above order, and a continuous two-dimensional code generation unit. The data receiver has a display unit that displays a continuous two-dimensional code, and the data receiver has a photographing unit that captures an image of the continuous two-dimensional code displayed on the display unit and an image captured by the photographing unit. The continuous two-dimensional code generation unit has a decoding unit that decodes the plurality of two-dimensional codes and acquires the data based on the above, and the continuous two-dimensional code generation unit generates the continuous two-dimensional code in the order described above. When the same two-dimensional code is continuous in a plurality of arranged two-dimensional codes, a predetermined image is inserted between the continuous images of the same two-dimensional code.

Further, the program of the present invention has an encoding function that encodes data on a computer and generates a plurality of two-dimensional codes arranged in order, and a plurality of two-dimensional codes generated by the encoding unit are continuously connected in the above order. A program for executing a continuous two-dimensional code generation function that generates a continuous two-dimensional code to be displayed and a display function that displays a continuous two-dimensional code generated by the continuous two-dimensional code generation unit. When the continuous two-dimensional code generation function generates the continuous two-dimensional code, if the same two-dimensional code is continuous in the plurality of two-dimensional codes arranged in the order, the continuous two-dimensional code of the same continuous two-dimensional code is used. A predetermined image is inserted between the images.

According to the present invention, data can be transmitted and received without using a communication circuit.

It is a figure which shows the measuring instrument 100 which is the data transmission machine which concerns on one Embodiment of this invention. (A) is a diagram showing a plurality of two-dimensional codes generated by the encoding unit 140 of the measuring instrument 100, and (B) is a continuous two-dimensional code generated by the continuous two-dimensional code generating unit of the measuring instrument 100. It is a figure which shows. It is a figure which shows the data receiver 200 which concerns on one Embodiment of this invention. (A) is a diagram showing a plurality of two-dimensional codes generated by the encoding unit 140 of the measuring instrument 100, and (B) is a diagram showing an example of a moving image based on the plurality of two-dimensional codes. C) is a diagram showing a continuous two-dimensional code generated by the continuous two-dimensional code generation unit of the measuring instrument 100. It is a flowchart which shows the method which the data transmission machine which concerns on one Embodiment of this invention transmits data. It is a flowchart which shows the method which the data receiver which concerns on one Embodiment of this invention receives data.

<Measuring instrument 100>
FIG. 1 is a diagram showing a measuring instrument 100 which is a data transmitter according to an embodiment of the present invention. The measuring instrument 100 is an instrument for measuring a physical quantity, for example, an oscilloscope. The measuring instrument 100 includes a measuring unit 110, a display unit 120, a storage unit 130, an encoding unit 140, and a continuous two-dimensional code generating unit 150.

The measuring unit 110 measures a physical quantity. For example, if the measuring instrument 110 is an oscilloscope, the measuring unit 110 measures the time change of the voltage.

The display unit 120 displays data on the physical quantity measured by the measuring unit 110. For example, if the measuring instrument 100 is an oscilloscope, the display unit 120 displays the time change of the voltage measured by the measuring unit 110 and the like.

The storage unit 130 stores the setting information of the measurement unit 110. The setting information is information related to the setting of the measuring instrument 100. For example, if the measuring instrument 100 is an oscilloscope, it is a value such as an attenuation ratio of the probe and a set value related to the vertical axis and the horizontal axis. The storage unit 130 may store data other than the setting information of the measuring device 100, for example, data related to the measured physical quantity.

The encoding unit 140 encodes the setting information stored in the storage unit 130 and generates a plurality of two-dimensional codes arranged in order. For example, a QR code (registered trademark), which is a type of two-dimensional code, can contain only information for a maximum of 4,296 characters in one code in the case of alphanumeric characters. On the other hand, there are hundreds of items of setting information for measuring instruments such as oscilloscopes, and they cannot be stored in one two-dimensional code. Therefore, in the present embodiment, when encoding the setting information, the encoding unit 140 divides the setting information and, as shown in FIG. 2A, sequentially includes the divided setting information. Generate multiple 2D codes that are lined up.

Further, when encoding the setting information, the encoding unit 140 first compresses the setting information, divides the compressed setting information, and includes a plurality of the compressed and divided setting information arranged in order. You may try to generate the two-dimensional code of.

The continuous two-dimensional code generation unit 150 continuously generates a plurality of two-dimensional codes generated by the encoding unit 140. That is, for example, in the continuous two-dimensional code, as shown in FIG. 2B, each frame of the continuous two-dimensional code is an image of the two-dimensional code. At that time, as shown in FIG. 2B, the continuous two-dimensional code generation unit 150 continuously displays a plurality of two-dimensional codes generated by the encoding unit 140 one by one in this order. You may want to generate a continuous two-dimensional code.

The display unit 120 also displays the continuous two-dimensional code generated by the continuous two-dimensional code generation unit 150.

<Data receiver 200>
FIG. 3 is a diagram showing a data receiver 200 according to an embodiment of the present invention. The data receiver 200 includes a photographing unit 210, a decoding unit 220, and a storage unit 230.

The photographing unit 210 photographs the image displayed by the display unit 120 of the measuring instrument 100. The photographing unit 210 converts the captured images into data one by one.

The decoding unit 220 decodes a plurality of two-dimensional codes based on the image captured by the photographing unit 210, and acquires the setting information of the measuring instrument 100. As described above, the photographing unit 210 can photograph all of the continuous two-dimensional codes generated by the measuring instrument 100. Therefore, the decoding unit 220 can acquire all of the continuous two-dimensional codes generated by the measuring instrument 100 from the photographing unit 210. As a result, the decoding unit 220 can acquire all of the plurality of two-dimensional codes arranged in order generated by the encoding unit 140 of the measuring instrument 100, and decodes and combines the acquired plurality of two-dimensional codes. Then, the setting information of the measuring instrument 100 can be acquired.

When the encoding unit 140 of the measuring instrument 100 encodes the setting information, it first compresses the setting information, divides the compressed setting information, encodes the compressed and divided setting information, and arranges them in order. However, when a plurality of two-dimensional codes are generated, the decoding unit 220 decodes the acquired plurality of two-dimensional codes, combines them, and then expands the combined compressed data to set the measuring instrument 100. Information can be obtained.

The storage unit 230 stores the setting information of the measuring instrument 100 acquired by the decoding unit 220. As a result, the setting information of the measuring instrument 100 is stored in the data receiving unit 200.

As described above, in the present embodiment, the data receiver 200 captures an image of the moving image displayed by the measuring instrument 100, so that data is transmitted and received between the measuring instrument 100 and the data receiver 200. That is, in the present embodiment, it is possible to send and receive data between the measuring instrument 100 and the data receiver 200 without using a communication circuit. Therefore, when it is desired to set a plurality of measuring instruments in the same state, the setting information is acquired from the measuring instrument having the desired setting information without using a communication circuit, and the acquired setting information is used as another measuring instrument. It will be possible to copy to.

Although the transmission / reception of the setting information of the measuring instrument 100 has been described above, in the present embodiment, even if the data is other than the setting information of the measuring instrument 100, for example, the data related to the physical quantity measured by the measuring unit 110. Similar to the above, transmission / reception can be performed between the measuring instrument 100 and the data receiver 200.

Further, in the present embodiment, since the data is divided and the divided data is stored in a plurality of two-dimensional codes, it is possible to suppress the amount of data stored in each of the plurality of two-dimensional codes. As a result, in the present embodiment, since the amount of data stored in each of the two-dimensional codes is small, a simple pattern of the two-dimensional code is sufficient, and it is possible to suppress an error in reading the two-dimensional code.

Further, in the present embodiment, since the moving image is displayed by the display unit that displays the data related to the measured physical quantity, it is not necessary to newly add a display device. Also, when shooting a moving image, a normal video camera can be used, and there is no need to develop a new device.

The amount of data stored in each of the two-dimensional codes constituting the continuous two-dimensional code may be determined so as to match the resolution of the display unit 120 of the measuring instrument 100. By doing so, even if the resolution of the display unit 120 of the measuring instrument 100 is low, it is possible to send and receive data by the above method.

The continuous two-dimensional code generation unit 150 of the measuring instrument 100 displays the image of the last two-dimensional code of the plurality of two-dimensional codes arranged in order generated by the encoding unit 140 for a longer time than the images of other two-dimensional codes. As described above, a continuous two-dimensional code may be generated. By doing so, the decoding unit 220 has the order in which the two-dimensional codes displayed on the display unit 120 of the measuring unit 100 are generated by the encoding unit 140 of the measuring instrument 100 for a longer time than the other two-dimensional codes. It is possible to recognize that it is the last two-dimensional code of the plurality of two-dimensional codes arranged in, and it is possible to start combining the data obtained by decoding the plurality of two-dimensional codes.

Further, the continuous two-dimensional code generation unit 150 of the measuring instrument 100 displays an image other than the two-dimensional code after the image of the last two-dimensional code of the plurality of two-dimensional codes arranged in the order generated by the encoding unit 140. As described above, a continuous two-dimensional code may be generated. The decoding unit 220 is the last two dimensions of a plurality of two-dimensional codes in which the two-dimensional codes of the image displayed immediately before the image other than the two-dimensional code are arranged in the order generated by the encoding unit 140 of the measuring instrument 100. It can be recognized that it is a code, and it is possible to start combining the data obtained by decoding a plurality of two-dimensional codes.

Further, the storage unit 230 may store the continuous two-dimensional code generated by the photographing unit 210. Then, the decoding unit 220 may acquire the image captured by the photographing unit 210 from the continuous two-dimensional code stored in the storage unit 230. By doing so, the decoding unit 220 outputs a plurality of two-dimensional codes at a timing different from the timing at which the image of the continuous two-dimensional code displayed on the display unit 120 of the measuring instrument 100 is photographed by the photographing unit 210. It is possible to decode and acquire the setting information of the measuring instrument 100.

<When two same two-dimensional codes are consecutive>
A plurality of two-dimensional codes arranged in order generated by the encoding unit 140, as shown in FIG. 4A, two or more same two-dimensional codes may be continuous. In such a case, as shown in FIG. 4B, when a continuous two-dimensional code that continuously displays a plurality of two-dimensional codes arranged in order is generated, the continuous two-dimensional code has two. There is no change in the display of the continuous two-dimensional code in the part where the same two-dimensional code is continuously displayed. Therefore, at the time of decoding, it is difficult to accurately determine whether this part displays two same two-dimensional codes or only one two-dimensional code.

For example, in order to accurately recognize that the part where these two same two-dimensional codes are displayed is displaying two same two-dimensional codes, the continuous two-dimensional code generation unit 150 of the measuring unit 100 has all two. A continuous two-dimensional code is generated so that the display time of the image of the dimension code is the same, and the display unit 120 of the measuring instrument 100 displays all the images of the two-dimensional code of the continuous two-dimensional code at this same display time. Then, the photographing unit 210 of the data receiver 200 needs to photograph all the images of the two-dimensional code at this same display time. As a result, even if there is a part where two same two-dimensional codes are displayed consecutively, considering that the display time of this part is twice the display time of the image of the other two-dimensional code. , It becomes possible to accurately recognize that this part displays two same two-dimensional codes.

Therefore, in one embodiment of the present invention, the continuous two-dimensional code generation unit 150 of the measuring instrument 100 has the same two-dimensional code when the same two-dimensional code is continuous in a plurality of two-dimensional codes arranged in order. As shown in FIG. 4C, a predetermined image is inserted between the continuous images of the same two-dimensional code to show that they are continuous. For example, in the continuous two-dimensional code generator 150, as shown in FIG. 4C, each frame is a two-dimensional code, and a blank frame is inserted between two consecutive frames of the same two-dimensional code. Generates the inserted continuous two-dimensional code. Then, when the decoding unit 220 of the data receiver 200 includes a predetermined image in the image generated by the photographing unit 210 at the time of decoding, the decoding unit 220 has two two-dimensional codes before and after the predetermined image. The image is determined to be two images of the same two-dimensional code arranged in succession.

<Data transmission method>
FIG. 5 is a flowchart showing a method in which a data transmitter according to an embodiment of the present invention transmits data. The data is encoded and a plurality of two-dimensional codes are generated (step S510). A moving image that continuously displays the generated two-dimensional codes is generated (step S520). The generated moving image is displayed (step S530).

<How to receive data>
FIG. 6 is a flowchart showing a method in which a data receiver according to an embodiment of the present invention receives data. An image of the moving image displayed on the display unit of the data transmitter is taken (step S610). Based on the captured image, a plurality of two-dimensional codes are decoded and data is acquired (step S620).

The present invention has been described above according to a preferred embodiment of the present invention. Although the present invention has been described here with reference to specific examples, various modifications and changes can be made to these specific examples without departing from the spirit and scope of the present invention described in the claims.

100 Measuring instrument 110 Measuring unit 120 Display unit 130 Storage unit 140 Encoding unit 150 Continuous two-dimensional code generator 200 Data receiver 210 Imaging unit 220 Decoding unit 230 Storage unit

Claims (5)

A measuring instrument that measures physical quantities
A display unit that displays data related to the measured physical quantity, and
An encoding unit that encodes data related to the measuring instrument and generates a plurality of two-dimensional codes,
It has a continuous two-dimensional code generation unit that generates a continuous two-dimensional code that continuously displays a plurality of two-dimensional codes generated by the encoding unit.
The display unit is a measuring instrument that displays a continuous two-dimensional code generated by the continuous two-dimensional code generation unit. An encoding unit that encodes data and generates multiple two-dimensional codes arranged in order,
A continuous two-dimensional code generation unit that generates a continuous two-dimensional code that continuously displays a plurality of two-dimensional codes generated by the encoding unit in the above order, and a continuous two-dimensional code generation unit.
It has a display unit that displays a continuous two-dimensional code generated by the continuous two-dimensional code generation unit, and has a display unit.
When the continuous two-dimensional code generation unit generates the continuous two-dimensional code, if the same two-dimensional code is continuous in the plurality of two-dimensional codes arranged in the order, the continuous two-dimensional code is the same. A data transmitter that inserts a predetermined image between the images of. An imaging unit that captures an image of a continuous two-dimensional code in which a plurality of two-dimensional codes arranged in order, which are generated by encoding data, are continuously displayed in that order.
It has a decoding unit that decodes the plurality of two-dimensional codes and acquires the data based on the image captured by the photographing unit.
When the decoding unit decodes the plurality of two-dimensional codes, when the image captured by the photographing unit includes a predetermined image, the two two-dimensional codes before and after the predetermined image are displayed. , A data receiver that determines that it is two identical two-dimensional codes that are lined up in succession. A data transmission / reception system having a data transmission machine and a data receiver.
The data transmitter
An encoding unit that encodes data and generates multiple two-dimensional codes arranged in order,
A continuous two-dimensional code generation unit that generates a continuous two-dimensional code that continuously displays a plurality of two-dimensional codes generated by the encoding unit in the above order, and a continuous two-dimensional code generation unit.
It has a display unit that displays a continuous two-dimensional code generated by the continuous two-dimensional code generation unit, and has a display unit.
The data receiver is
A photographing unit that captures an image of a continuous two-dimensional code displayed on the display unit, and a photographing unit.
It has a decoding unit that decodes the plurality of two-dimensional codes and acquires the data based on the image captured by the photographing unit.
When the continuous two-dimensional code generation unit generates the continuous two-dimensional code, if the same two-dimensional code is continuous in the plurality of two-dimensional codes arranged in the order, the continuous two-dimensional code is the same. A data transmission / reception system that inserts a predetermined image between the images of. On the computer
An encoding function that encodes data and generates multiple two-dimensional codes arranged in order,
A continuous two-dimensional code generation function that generates a continuous two-dimensional code that continuously displays a plurality of two-dimensional codes generated by the encoding unit in the above order, and a continuous two-dimensional code generation function.
A program for executing a display function for displaying a continuous two-dimensional code generated by the continuous two-dimensional code generator.
When the continuous two-dimensional code generation function generates the continuous two-dimensional code, if the same two-dimensional code is continuous in the plurality of two-dimensional codes arranged in the order, the continuous two-dimensional code of the same continuous two-dimensional code is used. A program that inserts a given image between images.

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