KR102248299B1 - User customized monitoring system and mehtod performing thereof - Google Patents

Abstract

A user-customizable measurement monitoring system according to an embodiment of the present invention includes terminal device, a data processing device, a user customizable device, and a central server. The system comprises: a terminal device which collects data sensed by a sensor and provides the data to the same processing device; a data processing device which processes data according to the type of signal received from the user customization device and stores the same in an internal database, reads data stored in an internal database according to the type of signal received from the user customization device and provides the same to the central server when data sensed by the sensor is received from the terminal device; a user customizing device for generating a signal referenced in a process in which the data processing device processes data received from the terminal device and providing the same to the data processing device, and a central server which monitors the module to which the sensor is attached based on the data received from the data processing device. Accordingly, the user-customizable measurement monitoring system and an implementation method thereof can be expected to directly improve on-site problem response ability and process control ability.

Description

User-customizable measurement monitoring system and its execution method {USER CUSTOMIZED MONITORING SYSTEM AND MEHTOD PERFORMING THEREOF}

The present invention relates to a user-customizable measurement monitoring system and an execution method thereof.

A conventional measurement monitoring system receives and displays a sensing value measured by a sensor through a terminal device, or transmits a signal when data is out of a specific range.

For example, the measurement monitoring system receives and displays data measured by a sensor through a terminal device, that is, values such as acceleration, pressure, distance, voltage, and current, or transmits a signal when the sensing value is out of a specific range.

As described above, the data measured by the sensor is collected in the central server through the terminal device, and the data collected in the central server is processed by a post-processing program or tool after signal processing, unit conversion and calculation/analysis, and then to an external device Control signals or result data were provided.

Conventional measurement monitoring systems have the advantage of being able to grasp the entire system when a user connects to the central server, but since the data of multiple terminal devices is all stored and processed in the central server, the overall measurement monitoring rather than the occurrence of excessive server load. There was a problem that the efficiency of the system was lowered.

In addition, since the plurality of terminal devices provide all the data sensed by the sensor to the central server, there is a problem that excessive communication costs are incurred.

Since the above central server often requires specialized knowledge in the process of processing the data after receiving the data sensed by the sensor from a plurality of terminal devices, the user performs a separate processing of the data stored in the central server. Was needed.

In the present invention, since a software expert who does not know exactly the needs and problems of the field builds a data system at once, it is difficult to solve the problem by using data when the process changes or an abnormality occurs during the process after construction. The purpose of this is to provide a user-customizable measurement monitoring system and a method for implementing the same, which enables direct improvement of the ability to respond to problems and process control in the field by making it possible.

In addition, the present invention does not transmit all the data sensed by the sensor to the server through user customization, but only transmits essential data, thereby reducing the load on the server, thereby improving the efficiency of the entire monitoring system and reducing the amount of data communication between the terminal device and the server. It is an object of the present invention to provide a user-customizable measurement monitoring system and an execution method thereof that can reduce communication costs through reduction.

In addition, the present invention enables a more comprehensive and diverse monitoring through the creation of a new data set requested by a user, and a user-customizable measurement monitoring system and execution thereof to improve direct control capability using the new data set. It aims to provide a method.

In addition, an object of the present invention is to provide an edge computing type measurement monitoring system and an execution method thereof, which can eliminate the inconvenience of minimizing an analysis process that was separately required after collection of data sensed by a sensor.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention that are not mentioned can be understood by the following description, and will be more clearly understood by examples of the present invention. In addition, it will be easily understood that the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

A user-customizable measurement monitoring system including a terminal device, a data processing device, a user customization device, and a central server for achieving this purpose is a terminal device that collects data sensed by a sensor and provides it to the data processing device, the Upon receiving the data sensed by the sensor from the terminal device, the data is processed according to the type of signal received from the user customizing device and stored in an internal database, and stored in the internal database according to the type of signal received from the user customizing device. A data processing device that reads stored data and provides it to the central server, a user customization device that generates a reference signal in the process of processing the data received from the terminal device by the data processing device and provides it to the data processing device, and the And a central server that monitors the module to which the sensor is attached based on the data received from the data processing device.

In addition, a user-customizable measurement monitoring method for achieving this purpose includes the steps of a terminal device collecting data sensed by a sensor and providing it to a data processing device, and a user customizing device receives the data processing device from the terminal device. Generating a signal referenced in the process of processing the data and providing it to the data processing device. When the data processing device receives the data sensed by the sensor from the terminal device, the signal received from the user customization device is Processing data according to types and storing them in an internal database, the data processing device reading data stored in the internal database according to the type of signal received from the user customization device and providing the data to the central server, and the central server And monitoring the module to which the sensor is attached based on the data received from the data processing device.

According to the present invention as described above, it is difficult for a software expert who does not know exactly the needs and problems of the field to collectively build a data system, so that it is difficult to solve the problem by using data when there is a change in the process or an abnormality in the process after construction. It has the advantage that it is possible to directly improve the ability to respond to problems and control the process in the field by allowing the field expert to customize the user.

In addition, according to the present invention, since all the data sensed by the sensor through user customization is not transmitted to the server, but only essential data is transmitted, the overall monitoring system efficiency is improved by reducing the load on the server and the amount of data communication between the terminal device and the server. There is an advantage in that communication cost can be reduced by reducing the value.

In addition, according to the present invention, there is an advantage in that a more comprehensive and diverse monitoring is possible through the creation of a new data set requested by a user, and direct control capability using a new data set can be improved.

In addition, according to the present invention, there is an advantage in that it is possible to eliminate the inconvenience of minimizing an analysis process that has been separately required after collection of data sensed by a sensor.

1 is a network configuration diagram for explaining a conventional measurement monitoring system.
2 is a network configuration diagram illustrating a user-customizable measurement monitoring system according to an embodiment of the present invention.
3 is a block diagram illustrating an internal structure of a user customization device according to an embodiment of the present invention.
4 is a block diagram illustrating an internal structure of a data processing apparatus according to an embodiment of the present invention.
5 and 6 are exemplary diagrams for explaining a user-customizable measurement monitoring process according to an embodiment of the present invention.
7 and 8 are exemplary diagrams for explaining a screen in which a user-customizable measurement monitoring process is executed in a user customization device according to an embodiment of the present invention.
9 is an exemplary view illustrating a screen in which a user-customizable measurement monitoring process is executed in a data processing device according to an embodiment of the present invention.

The above-described objects, features, and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, one of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description will be omitted. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar elements.

In terms of the terms used herein, "data set" refers to a set of one or more data collected according to the passage of time or an order defined in advance by a user.

1 is a network configuration diagram for explaining a conventional measurement monitoring system.

Referring to FIG. 1, the measurement monitoring system includes terminal devices 10_1 to 10_N and a central server 20.

The plurality of sensing terminal devices 10_1 to 10_N receive data sensed by the sensor and provide it to the central server 20. For example, the plurality of sensing terminal devices 10_1 to 10_N receive data such as acceleration, pressure, distance, voltage, and current sensed by the sensor and provide it to the central server 20.

The central server 20 processes and stores the data after receiving the data sensed by the sensor from the plurality of sensing terminal devices 10_1 to 10_N.

The conventional measurement monitoring system had the advantage of being able to grasp the entire system when a user accesses the central server 20, but the data of a plurality of sensing terminal devices 10_1 to 10_N are all stored in the central server 20 and then processed. Therefore, there is a problem that the efficiency of the overall measurement monitoring system is lowered due to the occurrence of excessive server load.

In addition, since the plurality of sensing terminal devices 10_1 to 10_N provide all the data sensed by the sensor to the central server 20, there is a problem that excessive communication costs are incurred.

Since the central server 20 frequently requires specialized knowledge in the process of processing data after receiving data sensed by a sensor from a plurality of sensing terminal devices 10_1 to 10_N, the user A separate processing operation for the data stored in the server 20 was required.

2 is a network configuration diagram illustrating a user-customizable measurement monitoring system according to an embodiment of the present invention.

Referring to FIG. 2, a user-customizable measurement monitoring system includes terminal devices 100_1 to 100_N, data processing devices 200_1 to 200_N, user customization devices 300_1 to 300_N, and a central server 400.

In FIG. 2, for convenience of explanation, a plurality of user customization devices 300_1 to 300_N and a central server 400 are separately illustrated, but the functions of the plurality of user customization devices 300_1 to 300_N are implemented in the central server 400 In this case, the central server 400 may be implemented as one component without a plurality of user customization devices 300_1 to 300_N.

The terminal devices 100_1 to 100_N are terminals that provide data sensed by a sensor to the data processing apparatuses 200_1 to 200_N.

The data processing devices 200_1 to 200_N receive data sensed by the sensor from the terminal devices 100_1 to 100_N, and process the data according to the type of signal received from the user customization devices 300_1 to 300_N, and store the data in the internal database. It stores and reads some of the data into the internal database according to the type of signal received from the user customization devices 300_1 to 300_N and provides it to the central server 400.

First, the data processing apparatuses 200_1 to 200_N may select data according to a data selection signal received from the user customizing apparatuses 300_1 to 300_N among data received from the terminal devices 100_1 to 100_N.

For example, a drive motor RPM and current sensor of an electric vehicle are connected to a plurality of terminal devices 100_1 to 100_N, and a data selection signal received from the user customization device 300_1 to 300_N is sensed by the drive motor RPM. When is indicated, the data processing apparatuses 200_1 to 200_N may select data sensed by the drive motor RPM among data sensed by the drive motor RPM of the electric vehicle and the data sensed by the current amount sensor.

Thereafter, the data processing apparatuses 200_1 to 200_N extract data corresponding to the filtering conditions received from the user customization apparatuses 300_1 to 300_N from among the data selected according to the data selection signal to generate a data set.

In one embodiment, the data processing apparatuses 200_1 to 200_N may generate a data set by extracting data corresponding to a data extraction range received from the user customization apparatus 300_1 to 300_N from among data selected according to the data selection signal. .

In another embodiment, the data processing apparatuses 200_1 to 200_N extract data corresponding to the data extraction start point and the data extraction end point received from the user customization devices 300_1 to 300_N from among the data selected according to the data selection signal. You can create a data set.

In addition, the data processing apparatuses 200_1 to 200_N calculate representative values of the data set according to the representative value calculation signals received from the user customization apparatuses 300_1 to 300_N.

In one embodiment, the data processing devices 200_1 to 200_N are the sum, average, maximum value, minimum value, mode, and median value of the data of the data set according to the representative value calculation signal received from the user customization devices 300_1 to 300_N. And RMS (Root Mean Square) may be calculated as a representative value.

In another embodiment, the data processing devices 200_1 to 200_N are the sum, average, maximum, minimum, mode, and intermediate data of the data set according to the representative value calculation signal received from the user customization devices 300_1 to 300_N. The representative value may be calculated by reflecting the operation information input by the user to any one of the value and the root mean square (RMS).

In addition, the data processing devices 200_1 to 200_N may generate a new data set using the data set according to a new data set generation signal received from the user customization devices 300_1 to 300_N.

In an embodiment, the data processing devices 200_1 to 200_N may generate a new data set through an operation between data sets according to a new data set generation signal received from the user customization devices 300_1 to 300_N.

In another embodiment, the data processing devices 200_1 to 200_N generate a new data set through an operation between the data set and the representative value of the data set according to the new data set generation signal received from the user customization devices 300_1 to 300_N. Can be generated.

In another embodiment, the data processing devices 200_1 to 200_N generate a new data set by converting the type of data in the data set according to the new data set generation signal received from the user customization devices 300_1 to 300_N. I can.

In addition, the data processing apparatuses 200_1 to 200_N extract a specific data set from among the data sets according to the storage data determination signal and store them in an internal database.

In addition, the data processing devices 200_1 to 200_N extract the required data set transmitted from the internal database to the central server 400 based on the essential data set determination signal received from the user customization devices 300_1 to 300_N, and then extract the required data. The three are provided to the central server 400.

At this time, the data processing devices 200_1 to 200_N extract the required data set transmitted from the internal database to the central server 400 according to the essential data extraction condition received from the user customization devices 300_1 to 300_N, and then extract the required data set. Provided to the central server 400.

The user customization devices 300_1 to 300_N generate a reference signal in the process of the data processing devices 200_1 to 200_N processing data received from the terminal devices 100_1 to 100_N and provide them to the data processing devices 200_1 to 200_N. do.

First, the user customization devices 300_1 to 300_N determine whether the data processing devices 200_1 to 200_N will process all or only part of the data sensed by each of the plurality of sensors connected to the terminal devices 100_1 to 100_N. A data selection signal is generated and provided to the data processing apparatuses 200_1 to 200_N.

For example, when a driving motor RPM and current amount sensor of an electric vehicle are connected to a plurality of terminal devices 100_1 to 100_N, the user customization devices 300_1 to 300_N are configured by the data sensed by the driving motor RPM and the current amount sensor. Whether to process each of the sensed amperage data in the data processing unit (200_1 to 200_N) or whether to use only one of the data sensed by the drive motor RPM and the amperage data sensed by the amperage sensor and ignore the rest of the data A data selection signal for determining is generated and provided to the data processing apparatuses 200_1 to 200_N.

In the above example, when it is determined that the user customization devices 300_1 to 300_N process the current amount data sensed by the current amount sensor in the data processing devices 200_1 to 200_N and ignore the data sensed by the driving motor RPM, the amount of current According to the output signal of the current amount data sensed by the sensor, a unit format that can be converted into an actual amount of current and a filtering method for removing noise are defined.

In addition, the user customization devices 300_1 to 300_N extract specific data from the data received by the data processing devices 200_1 to 200_N through the terminal devices 100_1 to 100_N, and determine filtering conditions for generating a data set to filter. Conditions are provided to the data processing devices 200_1 to 200_N.

In one embodiment, the user customization devices 300_1 to 300_N determine a data extraction range for generating a data set and provide the data processing devices 200_1 to 200_N as filtering conditions.

In another embodiment, the user customization devices 300_1 to 300_N determine a data extraction start time point and a data extraction end time point, and provide the data processing devices 200_1 to 200_N as filtering conditions.

In addition, the user customization devices 300_1 to 300_N extract specific data from the data received from the data processing devices 200_1 to 200_N through the terminal devices 100_1 to 100_N to calculate a representative value of the generated data set. The calculation signal may be provided to the data processing apparatuses 200_1 to 200_N. In this case, the representative value means one value that can represent the characteristics of the data set.

In one embodiment, the user customization devices 300_1 to 300_N represent any one of the sum, average, maximum, minimum, mode, median, and effective value (RMS: Root Mean Square) of the data of the data set. A representative value calculation signal may be provided to the data processing apparatuses 200_1 to 200_N to calculate a value.

In another embodiment, the user customizing devices 300_1 to 300_N are applied to any one of the sum, average, maximum, minimum, mode, median, and effective value (RMS: Root Mean Square) of the data of the data set. The representative value calculation signal may be provided to the data processing apparatuses 200_1 to 200_N to calculate the representative value by reflecting the operation information input by the user.

In addition, the user customization devices 300_1 to 300_N may provide a new data set generation signal to the data processing devices 200_1 to 200_N to generate a new data set using the data set.

In an embodiment, the user customization devices 300_1 to 300_N may provide a new data set generation signal to the data processing devices 200_1 to 200_N to generate a new data set through an operation between data sets.

In another embodiment, the user customization devices 300_1 to 300_N provide a new data set generation signal to the data processing devices 200_1 to 200_N to generate a new data set through an operation between the data set and the representative value of the data set. can do.

In another embodiment, the user customizing devices 300_1 to 300_N may provide a new data set generation signal to the data processing devices 200_1 to 200_N to generate a new data set through conversion of the data in the data set. have.

For example, when the data in the data set is in the time domain, the user customization devices 300_1 to 300_N create a new data set by converting the data in the data set into data in the frequency domain. A signal may be provided to the data processing apparatuses 200_1 to 200_N.

For another example, when the data in the data set is in the frequency domain, the user customizing device 300_1 to 300_N creates a new data set by converting the data in the data set into data in the time domain. A signal may be provided to the data processing apparatuses 200_1 to 200_N.

In addition, the user customization devices 300_1 to 300_N may provide a storage data determination signal for determining data to be stored in the internal database of the data processing devices 200_1 to 200_N among the data sets to the data processing devices 200_1 to 200_N. .

For example, when the first data set collected in the collection by the machining sensor processing device is the vibration sensing result and the second data set is data corresponding to a specific processing tool, the user customization devices 300_1 to 300_N are When the quality issue to be damaged is important, a storage data determination signal for determining the second data set without storing the first data set may be provided to the data processing apparatuses 200_1 to 200_N.

In addition, the user customization devices 300_1 to 300_N transmit essential data set determination signals for determining the essential data set transmitted to the central server 400 among the data sets stored in the internal database of the data processing devices 200_1 to 200_N. It can be provided in (200_1~200_N).

In addition, the user customization devices 300_1 to 300_N process data by determining essential data extraction conditions that determine the essential data set transmitted to the central server 400 among the data sets stored in the internal database of the data processing devices 200_1 to 200_N. It can be provided to the devices 200_1 to 200_N.

In one embodiment, the user customization devices 300_1 to 300_N are required data transmitted to the central server 400 among data sets corresponding to a predetermined extraction range among data sets stored in the internal database of the data processing devices 200_1 to 200_N. Essential data extraction conditions for determining the set may be determined and provided to the data processing apparatuses 200_1 to 200_N.

That is, the user customization devices 300_1 to 300_N determine the essential data extraction conditions corresponding to the abnormal operation section or the processing tool out of the data set stored in the internal database of the data processing devices 200_1 to 200_N. It can be provided to the processing apparatuses 200_1 to 200_N.

For example, in a steady state processing condition in which vibration signals are generated at three points at 50Hz, 100Hz, and 200Hz, if a signal occurs at a different vibration point during processing, it means an abnormality. 300_N) determines essential data extraction conditions for a data set for signals generated at points other than 50Hz, 100Hz, and 200Hz among the data sets stored in the internal database of the data processing devices 200_1 to 200_N. ) Can be provided.

The time information or the size of the data set may be determined as an essential data extraction condition and may be provided to the data processing apparatuses 200_1 to 200_N.

In addition, the user customization device (300_1 to 300_N) is a control signal that transmits a control signal to a corresponding terminal device or an external controller or both when the control signal transmission condition, the representative value, or the data condition of the data set exceeds or reaches a specific range. The transmission signal may be generated and provided to the data processing apparatuses 200_1 to 200_N. In this case, the control signal may mean a signal capable of operating a corresponding device according to the type of a terminal device or an external control device.

For example, when the type of a terminal device or an external control device is an alarm or a siren, the user customization devices 300_1 to 300_N generate an electrical signal capable of operating an alarm or siren, and the data processing device 200_1 to 200_N. Can be provided to.

For another example, when the type of the terminal device or the external control device is an actuator, the user customization devices 300_1 to 300_N may generate a PWM signal capable of operating the actuator and provide it to the data processing devices 200_1 to 200_N. have.

The central server 400 receives an essential data set from among the data sets stored in the internal database of the data processing devices 200_1 to 200_N from the data processing devices 200_1 to 200_N, and then monitors using the essential data set.

To this end, the central server 400 pre-registers identification information of each of the data processing devices 200_1 to 200_N to identify each of the data processing devices 200_1 to 200_N, and then sets the data from the data processing devices 200_1 to 200_N. When this is received, the identification information and data of the data processing apparatuses 200_1 to 200_N are associated and stored in a database.

As described above, since the central server 400 receives the essential data set from the data processing devices 200_1 to 200_N, the essential data set means a representative value, data corresponding to an abnormal situation, and data for improvement or problem solving. can do.

Therefore, when the data set for each terminal device 100_1 to 100_N corresponds to a representative value, the central server 400 visualizes and displays text or graphs, and the data set is data corresponding to an abnormal situation or for improvement or problem solving. If it is data, the contents of the data set are visualized and displayed through a separate notification window.

3 is a block diagram illustrating an internal structure of a user customization device according to an embodiment of the present invention.

Referring to FIG. 3, the user customization device 300 includes a communication unit 310, a signal generation unit 320, and a user interface providing unit 330.

The communication unit 210 communicates with each of the data processing devices 200_1 to 200_N to transmit and receive data.

The signal generation unit 320 generates a signal using information input through the user interface providing unit 330 and provides it to each of the data processing apparatuses 200_1 to 200_N through the communication unit 310.

That is, the signal generation unit 320 refers to the process of processing the data received from the terminal devices 100_1 to 100_N by the data processing apparatuses 200_1 to 200_N using the information input through the user interface providing unit 330 Generated signal.

First, the signal generation unit 320 uses the information input through the user interface providing unit 330, and the data processing apparatuses 200_1 to 200_N are sensed by each of a plurality of sensors connected to the terminal devices 100_1 to 100_N. A data selection signal for determining whether to process all or only part of data is generated and provided to each of the data processing apparatuses 200_1 to 200_N through the communication unit 310.

In addition, the signal generation unit 320 extracts specific data from the data received by the data processing apparatuses 200_1 to 200_N by using information input through the user interface providing unit 330 to generate a data set. After generating a filtering condition by using the filtering condition, the filtering condition is provided to each of the data processing devices 200_1 to 200_N through the communication unit 310.

In one embodiment, the user customization devices 300_1 to 300_N generate a filtering condition using a data extraction range for generating a data set input through the user interface providing unit 330 and then use the communication unit 310 to generate the data It is provided to the processing apparatuses 200_1 to 200_N.

In another embodiment, the user customization devices 300_1 to 300_N generate filtering conditions using the data extraction start time and the data extraction end time input through the user interface providing unit 330 and then use the communication unit 310. It is provided to the data processing devices 200_1 to 200_N.

In addition, the signal generation unit 320 extracts specific data from the data using the representative value calculation information input through the user interface providing unit 330, and uses the information on the calculation of the representative value of the generated data set. After generating a value calculation signal, it is provided to the data processing apparatuses 200_1 to 200_N through the communication unit 310.

In one embodiment, the signal generation unit 320 provides a new data set generation signal to the data processing apparatuses 200_1 to 200_N by using information on an operation between data sets input through the user interface providing unit 330 can do.

In another embodiment, the signal generation unit 320 generates a new data set generation signal by using information on an operation between a data set input through the user interface providing unit 330 and a representative value of the data set, It may be provided to the data processing apparatuses 200_1 to 200_N through 310.

In another embodiment, the signal generation unit 320 generates a new data set generation signal by using information on the type conversion of data in the data set input through the user interface providing unit 330 to generate a new data set generation signal, and the communication unit 310 ) Can be provided to the data processing apparatuses 200_1 to 200_N.

In addition, the signal generation unit 320 generates a storage data determination signal using information on data to be stored in the internal database of the data processing devices 200_1 to 200_N among the data sets input through the user interface providing unit 330 After that, it may be provided to the data processing apparatuses 200_1 to 200_N through the communication unit 310.

In addition, the signal generation unit 320 includes information on the essential data set transmitted to the central server 400 among the data sets stored in the internal database of the data processing devices 200_1 to 200_N input through the user interface providing unit 330 After generating the essential data extraction condition by using, it may be provided to the data processing apparatuses 200_1 to 200_N through the communication unit 310.

When the signal generation unit 320 receives information that the control signal transmission condition, the representative value, or the data condition of the data set exceeds or reaches a specific range through the user interface providing unit 330, the terminal device or the external controller or both A control signal transmission signal for transmitting a control signal to the device may be generated and provided to the data processing apparatuses 200_1 to 200_N through the communication unit 310.

4 is a block diagram illustrating an internal structure of a data processing apparatus according to an embodiment of the present invention.

Referring to FIG. 4, the data processing apparatus 200 includes a communication unit 210, a terminal device control unit 220, a data processing unit 230, a database 250, and a data control unit 260.

The communication unit 210 communicates with each of the terminal devices 100_1 to 100_N, the user customization devices 300_1 to 300_N, and the central server 400 to transmit and receive data.

The terminal device control unit 220 generates a control command for controlling the terminal devices 100_1 to 100_N and provides it to the terminal devices 100_1 to 100_N through the communication unit 210.

When the data processing unit 230 receives the data measured by the sensor from the terminal devices 100_1 to 100_N through the communication unit 210, it generates a data set in the form of a queue in the memory area, and from the user customization devices 300_1 to 300_N. A part of the data set is stored in the database 250 according to the received data selection signal.

For example, a drive motor RPM and current sensor of an electric vehicle are connected to a plurality of terminal devices 100_1 to 100_N, and a data selection signal received from the user customization device 300_1 to 300_N is sensed by the drive motor RPM. When is indicated, the data processing apparatuses 200_1 to 200_N may select data sensed by the drive motor RPM among data sensed by the drive motor RPM of the electric vehicle and the data sensed by the current amount sensor.

Thereafter, the data control unit 260 corresponds to the filtering condition received from the user customization devices 300_1 to 300_N among the data sets selected according to the data selection signal received from the user customizing devices 300_1 to 300_N through the communication unit 210. Extract the data set.

In an embodiment, the data control unit 260 may extract a data set corresponding to a data extraction range received from the user customizing devices 300_1 to 300_N from among the data sets through the communication unit 210.

In another embodiment, the data control unit 260 includes data corresponding to a data extraction start time point and a data extraction end time point according to the data selection signal received from the user customization devices 300_1 to 300_N through the communication unit 210 among the data sets. Three can be extracted.

In addition, the data control unit 260 calculates a representative value of the data set according to the representative value calculation signal received from the user customization devices 300_1 to 300_N through the communication unit 210.

In one embodiment, the data control unit 260 is the sum, average, maximum value, minimum value, and mode value of the data of the data set according to the representative value calculation signal received from the user customization devices 300_1 to 300_N through the communication unit 210. The representative value may be calculated from any one of, the median value and the RMS (Root Mean Square).

In another embodiment, the data control unit 260 includes the sum, average, maximum value, minimum value of the data of the data set according to the representative value calculation signal received from the user customization devices 300_1 to 300_N through the communication unit 210. The representative value may be calculated by reflecting the operation information input by the user to any one of the mode, median, and root mean square (RMS).

In addition, the data control unit 260 may generate a new data set using the data set according to a new data set generation signal received from the user customization devices 300_1 to 300_N through the communication unit 210.

In an embodiment, the data control unit 260 may generate a new data set through an operation between data sets according to a new data set generation signal received from the user customization devices 300_1 to 300_N through the communication unit 210.

In another embodiment, the data control unit 260 performs a new operation between the data set and the representative value of the data set according to the new data set generation signal received from the user customization devices 300_1 to 300_N through the communication unit 210. You can create a data set.

In another embodiment, the data control unit 260 converts the type of data in the data set according to the new data set generation signal received from the user customization devices 300_1 to 300_N through the communication unit 210 to provide a new data set. Can be created.

In addition, the data control unit 260 is a data control unit 260 received from the user customization device (300_1 ~ 300_N) through the communication unit 210, the second data received from the user customization device (300_1 ~ 300_N) through the communication unit 210 It is stored in the database 250.

In addition, the data control unit 260 extracts the essential data set transmitted from the second database to the central server 400 based on the essential data set determination signal received from the user customization devices 300_1 to 300_N through the communication unit 210. Thereafter, the required data set is provided to the central server 400.

At this time, the data control unit 260 extracts the essential data set transmitted from the internal database to the central server 400 according to the essential data extraction condition received from the user customization devices 300_1 to 300_N, and then transfers the essential data set to the central server ( 400).

5 and 6 are exemplary diagrams for explaining a user-customizable measurement monitoring process according to an embodiment of the present invention.

5 and 6, when the user customization device 300_1 to 300_N connects a total of two sensors, such as the RPM of the driving motor of the electric vehicle and the current amount sensor, to the terminal, whether to process both of them in the edge computer? One chooses whether to ignore it or not.

If only the amperage sensor is selected, the user customization devices 300_1 to 300_N define a unit conversion formula so that it can be converted into an actual amphere according to the output signal of the sensor, and a filtering method for removing noise.

For example, the user customizing apparatuses 300_1 to 300_N may define and apply the filtering method as a Kalman filter to obtain a result as shown in FIG. 5.

In addition, the user customization devices 300_1 to 300_N extract specific data from the data received by the data processing devices 200_1 to 200_N through the terminal devices 100_1 to 100_N, and determine filtering conditions for generating a data set to filter. Conditions are provided to the data processing devices 200_1 to 200_N.

For example, the user customization devices 300_1 to 300_N may selectively extract only data sections to be used after data processing and analysis, as shown in FIG. 6, excluding meaningless data during monitoring of the motor current sensor signal.

7 and 8 are exemplary views for explaining a screen in which a user-customizable measurement monitoring process is executed in a user customization device according to an embodiment of the present invention.

Referring to FIGS. 7 and 8, a UI software program capable of inputting or defining a method and procedure of an operation processed by the data processing device 200 may be previously installed in the user customization device 300. The UI software program is configured such that the user customization device 300 connects to the data processing device 200 so that the user can manipulate it.

First, the user customization device 300 provides a user interface as shown in FIG. 7 through a UI software program. The user interface as shown in FIG. 7 is a data selection signal that determines whether the data processing apparatuses 200_1 to 200_N process all or only part of the data sensed by each of the plurality of sensors connected to the terminal devices 100_1 to 100_N. Is an interface to create.

In addition, the user customization device 300 provides a user interface as shown in FIG. 8 through a UI software program. The user interface shown in FIG. 8 is an interface capable of generating a new data set generation signal to generate a new data set using the data set.

For example, the user interface of FIG. 8 generates a data set generation signal that enables the creation of a new data set through four arithmetic operations or engineering operations on the existing data sets of CH1 to CH4 through menu buttons and keyboard input. To be able to.

Although described by the limited embodiments and drawings, the present invention is not limited to the above embodiments, which can be various modifications and variations from these descriptions by those of ordinary skill in the field to which the present invention pertains. Therefore, the idea of the present invention should be grasped only by the claims set forth below, and all equivalent or equivalent modifications thereof will be said to belong to the scope of the idea of the present invention.

100_1~100_N: terminal device
200_1~200_N: Data processing unit
210: communication department
220: terminal device control unit
230: data processing unit
240: first database
250: second database
260: data control unit
300_1~300_N: User customization device
310: Ministry of Communications
320: signal generation unit
330: user interface providing unit
400: central server

Claims (10)

In a user-customizable measurement monitoring system including a terminal device, a data processing device, a user customization device, and a central server,
A terminal device collecting data sensed by a sensor and providing it to the data processing device;
Upon receiving the data sensed by the sensor from the terminal device, the data is processed according to the type of signal received from the user customizing device and stored in an internal database, and the internal database according to the type of signal received from the user customizing device A data processing device that reads data stored in and provides it to the central server;
The data processing device generates a reference signal in the process of processing the data received from the terminal device and provides it to the data processing device, and when the data condition exceeds or reaches a specific range, generates a control signal transmission signal to process data A user customization device provided to the device;
And a central server that monitors the module to which the sensor is attached based on the data received from the data processing device.
The method of claim 1,
The data processing device
After selecting data according to a data selection signal received from a user customizing device among data received from the terminal device, data corresponding to a filtering condition received from the user customizing device is extracted from the data selected according to the data selection signal Characterized in that to create three
User-customizable measurement monitoring system.
The method of claim 2,
The data processing device
Any one of the sum, average, maximum, minimum, mode, median, and root mean square (RMS) of the data of the data set according to the representative value calculation signal received from the user customization device Characterized in that to calculate a representative value
User-customizable measurement monitoring system.
The method of claim 2,
The data processing device
Generating a new data set by converting the type of data in the data set according to a new data set generation signal received from the user customization device.
User-customizable measurement monitoring system.
The method of claim 2,
The data processing device
A specific data set is extracted from the data set according to a storage data determination signal received from the user customization device and stored in an internal database, and a central server in the internal database based on a required data set determination signal received from the user customization device. After extracting the required data set to be transmitted to the central server, characterized in that provided to the
User-customizable measurement monitoring system.
Collecting, by the terminal device, the data sensed by the sensor and providing the data to the data processing device;
Generating, by a user customizing device, a signal referenced in the process of processing the data received from the terminal device by the data processing device and providing it to the data processing device;
When the data processing device receives the data sensed by the sensor from the terminal device, processing the data according to the type of signal received from the user customization device and storing the data in an internal database;
Reading, by the data processing device, data stored in an internal database according to a type of signal received from a user customizing device and providing the data to a central server; And
And performing, by the central server, monitoring the module to which the sensor is attached based on the data received from the data processing device.
User-customizable measurement monitoring method.
The method of claim 6,
The step of processing data according to the type of signal received from the user customization device and storing it in an internal database
Selecting, by the data processing device, data according to a data selection signal received from a user customization device among data received from the terminal device; And
And generating a data set by extracting, by the data processing device, data corresponding to a filtering condition received from the user customizing device from among data selected according to the data selection signal.
User-customizable measurement monitoring method.
The method of claim 7,
The step of processing data according to the type of signal received from the user customization device and storing it in an internal database
Any one of the sum, average, maximum, minimum, mode, median, and root mean square (RMS) of the data of the data set according to the representative value calculation signal received from the user customization device It characterized in that it comprises the step of calculating a representative value
User-customizable measurement monitoring method.
The method of claim 7,
The step of processing data according to the type of signal received from the user customization device and storing it in an internal database
And generating a new data set by converting the type of data in the data set according to a new data set generation signal received from the user customization device.
User-customizable measurement monitoring method.
The method of claim 7,
The step of processing data according to the type of signal received from the user customization device and storing it in an internal database
Extracting a specific data set from the data set according to a storage data determination signal received from the user customization device and storing it in an internal database,
The step of reading the data stored in the internal database by the data processing device according to the type of signal received from the user customizing device and providing it to the central server
And extracting the essential data set to be transmitted to the central server from the internal database based on the essential data set determination signal received from the user customization device, and providing it to the central server.
User-customizable measurement monitoring method.

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