KR20190109621A - IoT-Based system integrating various measuring instruments - Google Patents

Abstract

Provided is an IoT-based heterogeneous measuring instrument integrated system, which comprises a heterogeneous measuring instrument connected to a heterogeneous management system including an information acquisition unit and a communication unit, a one-dimensional row arranged in one or more, and a two-dimensional column connected in one or more. According to the present invention, a unique format for each manufacturer, collected in various methods, is converted into a single format data scheme. Also, a data modeling object has six types which are a data type, a type of a data generating device, a location of the data generating device, communication connecting information on the data generating device, information on a server to be transmitted, and information on a connected network, and two byte orders. In addition, the IoT-based heterogeneous measuring instrument integrated system collects power information on a plurality of heterogeneous digital measuring instruments, and provides a history of the collected power quality and load information for a server and an internal computer network in real time.

Description

IoT-based system integrating various measuring instruments

The present invention relates to an IoT-based heterogeneous instrument integration system, and more particularly, to an IoT-based heterogeneous instrument integration system for providing data converted in real time from a plurality of heterogeneous instruments in a single format.

There are various types of digital instruments on the market. These digital instruments commonly output data obtained from the instrument to external terminals.

Digital measuring instruments make it easy to build a system that connects equipment of the same manufacturer using a communication format unique to each manufacturer.

However, in the existing case, when installing a new type of digital measuring instrument or replacing an existing digital measuring instrument, the only option was to build or install a new system that is compatible with the communication format of the new equipment.

To solve this problem, there is a need for an integrated management system corresponding to various instruments.

In order to solve the above technical problem, an IoT-based heterogeneous instrument integration system according to the present invention aims to provide a single format by converting data collected in real time from a plurality of heterogeneous instruments.

In addition, an object of the present invention is to provide an IoT-based heterogeneous measuring instrument integration system that allows administrators to collectively manage and monitor a large number of data.

IoT-based heterogeneous measuring instrument integration system according to an embodiment of the present invention for achieving the above object is a one-dimensional ROW (row) of at least one heterogeneous measuring instrument connected to a heterogeneous management system consisting of an information acquisition unit and a communication unit And a two-dimensional COLUMN (column) connected to at least one.

In addition, the heterogeneous management system includes the information acquisition unit, and converts a manufacturer-specific format collected from various communications into a single format method, and the data modeling target is a type of data, a type of data generating device, or data generation. 1 Word Signed Integer, 2 Word Float, 2, including location of device, communication connection information of data generating device, information of server to be transmitted, connected network. At least one of: 2 Word Signed Integer, 4 Word Signed Integer, 2 Word Unsigned Integer, and 4 Word Unsigned Integer The data type and the byte order of at least one of Big-endian or Little-endian are provided.

In addition, the heterogeneous management system is characterized by providing a platform that allows the non-expert to easily maintain the system even after the new installation, replacement of the existing digital instrument installed.

According to the present invention described above, it is possible to easily and conveniently expand a number of heterogeneous digital measuring instruments and to collectively collect power state information of an electric device.

In addition, according to the present invention, the administrator located in the field having weak environmental conditions (low accessibility, etc.) or the site administrator who does not open the door of the power distributor by wireless application function wirelessly transmits the power status information of the power distributor. It can be delivered quickly and easily by communication, and the status information, monitoring information, and device abnormality monitoring information of the power distributor are transmitted to the server, so the field manager can send text / voice message, text / sound information for alarm, etc. through the mobile terminal. Can be delivered quickly in various forms.

In addition, according to the present invention, even a manager who does not have a communication-related specialty can easily configure the system using a platform provided by the IoT-based heterogeneous measuring instrument integration system.

This enables the on-site manager to quickly identify the cause of the device failure or damage and respond to it, minimizing the occurrence of an accident. Accordingly, the IoT-based heterogeneous measuring instrument integration system according to the present invention can be effectively applied to the energy platform.

1 is a view for explaining a heterogeneous measuring instrument integration system based on IoT in an embodiment of the present invention.
2 is a diagram illustrating a method of processing data when a plurality of heterogeneous measuring instruments are connected in accordance with one embodiment of the present invention.
FIG. 3 is a diagram for explaining the configuration of single format data according to one embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

1 is a view for explaining a heterogeneous measuring instrument integration system based on IoT in an embodiment of the present invention. IoT-based heterogeneous measuring instrument integration system according to the present invention may include a server 100, heterogeneous management system 200, heterogeneous measuring instrument (300). Here, the heterogeneous management system 200 may include an information acquisition unit 210 and a communication unit 220. In addition, the information obtained by the information acquisition unit 210 may be converted into a single format data 400 and used. The heterogeneous measuring instrument 300 may include various measuring instruments regardless of the type.

2 is a diagram illustrating a method of processing data when a plurality of heterogeneous measuring instruments are connected in accordance with one embodiment of the present invention.

3 is a diagram for explaining the configuration of single format data according to one embodiment of the present invention.

The single format data 400 has six types and two byte orders.

The data type 410 is Type 1: 1 Word Signed Integer, Type 2: 2 Word Float, Type 3: 2 Word Signed Integer, Type 4: 4 Word Signed Integer, Type 5: 2 Word Unsigned Integer, Type 6: 4 Word Unsigned Integer and 2 Sorting Methods Big-endian: Sorting with large units leading Little-endian: Sorting with small units leading. As an example, a 4 word signed integer data is used and a little endian method is expressed as 4,2. The data is separated by commas (,) for convenience, but separated by other characters. The data starts with 1, but can be composed of other numbers.

The type 420 of the data generating apparatus records the ID number, the number of data to be processed, and the address number to be processed. As an example, when device 1 is a measuring instrument having five types of processing capacities, and the address of address is 10, 11, 12, 13, 14, 1, 5, 10, 11, 12 , 13, 14.

The position 430 of the data generating apparatus is configured as a two-dimensional array having rows and columns. As an example, when device 1 is in column 1 of row 1, device 2 is in column 2 of row 1, and device 3 is in column 1 of row 2, 111,212,321 is recorded in the top-bottom order according to the present invention. The position 430 of the data generating apparatus will be described.

The communication connection information 440 of the data generating device includes a communication speed, a data length, a parit bit, and a stop bit. For example, when the communication speed of device 1 is 9600bps, the data length is 8 bits, the parit bat is even, and the stop bit is 1, it is indicated as 1,9600,8, E, 1.

The information 450 of the server to be transmitted is configured in order of whether to use a domain name, a domain name or an IP address, and a server port number to be received. For example, N, 192.168.0.1,1234 is displayed when transmitting to a server having port 1234 without using a domain name, and Y, comel.co.kr, 1234 is displayed when using a domain name.

 The connected network information 460 is network information to which the device is connected and configures the IP address of the device, the port number of the device, and the IP address of the gateway. For example, if the IP address of the device is 192.168.0.101, the port number of the device is 1234, and the IP address of the gateway is 192.168.0.1, then it is displayed as 192.168.0.101,1234,192.168.0.1.

100: server and internal network
200: heterogeneous management system
210: information acquisition unit
220: communication unit
300: heterogeneous measuring instrument
400: single format data
410: data type
420: Type of data generating device
430: location of the data generator
440: communication connection information of the data generating device
450: Information of server to send
460: information of the connected network

Claims (3)

IoT-based heterogeneous measuring instrument integration system, characterized in that the heterogeneous measuring instrument connected to the heterogeneous management system composed of the information acquisition unit and the communication unit includes at least one one-dimensional row (row) and at least one two-dimensional COLUMN (column) connected to at least one. . The method of claim 1,
The heterogeneous management system includes the information acquisition unit, and converts a manufacturer-specific format collected from various communications into a single format method, and the data modeling target includes data types, types of data generating devices, and data generating devices. It includes the location, the communication connection information of the data generating device, the information of the server to be transmitted, and the connected network, and includes a 1 word signed integer, a 2 word float, and a 2 word code for the data modeling target. Data type of at least one of two integers: 2 Word Signed Integer, 4 Word Signed Integer, 2 Word Unsigned Integer, and 4 Word Unsigned Integer IoT-based heterogeneous instrument integration system, characterized in that the byte order of at least one of Big-endian or Little-endian is given. . The method of claim 2,
The heterogeneous management system is an IoT-based heterogeneous measuring instrument integration system comprising inputting only the text as set forth in claim 2 so that even non-experts can easily maintain the system even after the new installation and replacement of the existing digital measuring instrument.

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