KR20200008750A - Apparatus and method for collecting behavior data of person in the factory for using FEMS - Google Patents

Abstract

The present invention provides an apparatus for collecting worker behavior data for an efficient factory energy management system. According to the present invention, the apparatus for collecting factory worker behavior data comprises: a plurality of camera sensors installed in a factory; a worker position analysis unit to analyze the position of a worker in the factory by analysis of images photographed by cameras; a worker position storage unit to store analysis results of the worker position analysis unit at regular time intervals; a power state checking unit to recognize on/off states of power consumption devices installed in the factory; an on/off time storage unit to sequentially store on/off time detected by the power state checking unit; and a worker behavior pattern analysis unit to analyze a behavior pattern of a worker by position analysis of a person in the factory in the worker position storage unit stored at a time zone corresponding to the on/off time stored in the on/off time storage unit.

Description

Apparatus and method for collecting behavior data of person in the factory for using FEMS}

The present invention relates to a method for collecting worker behavior data for an efficient plant energy management system. More specifically, the present invention relates to a camera sensor and various power switches installed inside a plant to detect movements and behavior patterns of a worker or a task manager. The present invention relates to a method for collecting worker traffic data for an efficient factory energy management system that can be analyzed in connection with an off state and reflected in a factory energy management system.

The factory consumes a considerable amount of power in a certain scale of factories equipped with various mechanical and electronic facilities, and the power consumption is increasing as most factory facilities become more modern. As a result, not only users who use energy, but also suppliers and management authorities that supply energy are conducting various researches on the Factory Energy Management System (FEMS) for efficient use of energy.

As a part of such research, technologies related to factory energy management systems, such as 10-1749456 and 10-1749457, which have been filed and registered with the Korean Intellectual Property Office, are disclosed.

On the other hand, a factory having a predetermined scale to which a factory energy management system should be applied is consumed for driving electric power consumed for the safety and security of a factory facility, and direct operation equipment installed in the factory, although each factory situation is different. There is no difference in the purpose and characteristics of power consumption such as the power consumed for the management of the space in which the movable equipment is installed, such as the electric power, lighting or heating and cooling, and the movable equipment, but the power consumed for the convenience of the worker or the work manager inside the plant. Will be.

In addition, a factory may be divided into sectors in which a worker or a work manager is to be arranged, a sector in which a worker or a work manager is not to be arranged, a sector in which a worker or a work manager is not required but a person enters or exits. .

Therefore, in addition to the parts that must be supplied with power at all times, which is essential for the operation of the plant, there are considerable areas where energy can be reduced through the attention of the operator or the work manager. As a result, energy managers often fail to reflect autonomously even though they constantly ask for promotions or plans for ways to reduce energy waste.

Korea Patent Office Registered Patent Publication No. 10-1749456 Korea Patent Office Registered Patent Publication No. 10-1812777 Korea Patent Office Registered Patent Publication No. 10-1749457

The purpose of the present invention is to solve the conventional problems as described above, the factory energy management system by analyzing the copper wire and behavior patterns that the worker or the work manager inside the factory is connected to the camera sensor and various switches installed inside the factory The present invention relates to an apparatus and method for collecting worker behavior data for an efficient plant energy management system.

The present invention can be configured as follows to achieve the object of the invention as described above.

An operator behavior data collection device for an efficient factory energy management system according to an embodiment of the present invention includes a plurality of camera sensors installed inside a factory; A worker location analyzer to analyze a location of a worker in a factory through analysis of an image photographed by a camera; A worker location storage unit for storing the analysis result of the worker location analyzer at a predetermined time interval; A power state checking unit for recognizing an on / off state of power consumption devices installed in a factory; An on-off time storage unit which sequentially stores the on-off time detected by the power state checking unit; And a worker behavior pattern analyzer configured to analyze a worker's behavior pattern by analyzing a location of a person in a factory in a worker location storage stored in a time zone corresponding to an on / off time stored in an on / off time storage. Configuration can be made, including.

In the worker behavior data collection device for an efficient factory energy management system according to an embodiment of the present invention, the worker behavior pattern analyzer analyzes the behavior from a predetermined time based on a specific on / off time stored in the on / off time storage unit. It can be set to.

In the worker behavior data collection device for an efficient factory energy management system according to an embodiment of the present invention, the worker behavior pattern analysis unit analyzes the frequency of a zone where one or more workers are located and a copper line analysis of one or more workers at predetermined time intervals. It can be set to analyze the behavior pattern of the worker through.

In the worker behavior data collection device for an efficient factory energy management system according to an embodiment of the present invention, the worker location storage unit may be set to store on / off states of a specific power consumption device in a factory stored in an on / off time storage unit. have.

In the worker behavior data collection device for an efficient factory energy management system according to an embodiment of the present invention, the worker location analysis unit has one worker location per entire area or unit area within the factory through a composite analysis of images captured by a plurality of cameras. It can be configured to be processed on a frame of.

According to another aspect of the present invention, a method for collecting worker behavior data for an efficient factory energy management system includes a worker location analysis step of analyzing a location of a worker in a factory through analysis of images captured by a plurality of cameras installed in a factory; A worker location analysis result storage step of storing the result analyzed in the worker location analysis step; Recognizing a power state of power consumption devices installed in a factory and storing a situation in which power of a specific power consumption device is turned on and off in chronological order; And a worker behavior pattern analysis step of analyzing a worker's behavior pattern by analyzing a location of a person in a factory in a time zone corresponding to a time zone when power of a specific power consumption device is turned on and off. It may be made, including.

According to the present invention, an apparatus and method for collecting worker behavior data for an efficient factory energy management system according to the present invention is to analyze the behavior patterns of workers in a factory based on the on-off state of a camera and a power consuming device. Compared to the analysis by the more objective and accurate analysis can be used to efficiently manage the power consumed by the power consumption devices in the plant has the advantage.

1 is a schematic configuration diagram of a factory worker behavior data collection apparatus according to an embodiment of the present invention.
2 is a view showing an example of an image frame for explaining the position frequency of the worker in the factory according to an embodiment of the present invention.
3 is a view showing an example of an image frame for explaining the movement of the worker in the factory according to an embodiment of the present invention.

Hereinafter, an apparatus and method for collecting worker behavior data for an efficient factory energy management system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram illustrating a configuration of an apparatus for collecting worker behavior data for an efficient plant energy management system according to an embodiment of the present invention, and FIG. 2 is an efficient plant according to an embodiment of the present invention. An example of a frame showing the location frequency of a worker in a factory analyzed by a worker behavior data collection device for an energy management system, FIG. 3 is a view illustrating a worker behavior data collection device for an efficient factory energy management system according to an embodiment of the present invention. This is an example of the frame showing the movement of workers in the analyzed factory.

The worker behavior data collection device 100 (hereinafter, abbreviated to the factory worker behavior data collection device) for an efficient factory energy management system according to the present invention is a plurality of cameras 110 installed in the factory as shown in FIG. Storage of the worker position to store the analysis results of the worker position analysis unit 120 and the worker position analysis unit 120 to analyze the position of the worker in the factory through analysis of the image taken by the camera 110 at a predetermined time interval. An on-off time for sequentially storing the on-off time detected by the power supply unit confirming unit 140 and the power supply state checking unit 140 to recognize the on-off state of the power consumption device 200 installed inside the factory. The worker through the analysis of the position of the person in the factory in the worker location storage unit 130 stored in the time zone corresponding to the on-off time stored in the storage unit 150 and the on-off time storage unit 150 This configuration may be achieved, including the operator behavior pattern analysis unit 160 to analyze the behavior pattern.

In the factory worker behavior data collection apparatus 100 according to the present invention, a plurality of cameras 110 may be installed according to the area or shape of a factory. On the other hand, the images taken by the plurality of cameras 110 may be configured to process the entire inside of the factory on one frame, or to process one frame per unit zone for a wider factory area or other reasons. To this end, the images captured by the plurality of cameras 110 may be configured to display the entire internal area of the factory in one frame or one frame per unit area through an image synthesis process.

The worker location analyzer 120 analyzes the images captured by the plurality of cameras 110 to determine the location of the worker, and records the location of the worker in the worker location storage unit 130 at a predetermined time interval. It is composed.

On the other hand, the camera 110 used in the factory worker behavior data collection device 100 may be applied to a CCD camera, an infrared camera, an ultraviolet camera, and the like, and may also be applied to other special cameras that can be identified by analyzing the location of the worker. There will be.

The position analysis process of the worker in the factory may reflect the position detected by the position detection means that can be carried by an individual including a mobile phone capable of recognizing the position of the worker based on the image photographed by the camera 110. In addition, a chip that can be attached to the body of workers for a certain period of time may be used for analysis of factory worker behavior patterns. The location information of the worker may be constructed to be transmitted to the worker location analyzer 120 by various communication means.

2 shows an example of an image frame analyzed by the worker position analyzer 120 according to the present invention and recorded in the worker position storage unit 130. As shown in FIG. 2, the image frame 310 recorded in the worker position storage unit 130 has a set time interval at a predetermined time interval (for example, from 10:00 AM to 10:10 AM). Or show the frequency at which the worker was located within a specific unit area.

3 shows an example of an image frame analyzed by the worker position analyzer 120 according to the present invention and recorded in the worker position storage unit 130. As shown in FIG. 3, the image frame 320 recorded in the worker position storage unit 130 has a set time interval at a predetermined time interval (for example, from 10:00 am to 10:10 am) or the entire area inside the factory. The movement of a certain worker or a plurality of specific workers within a specific unit area is shown.

Of course, the images captured by the plurality of cameras 110 may be stored as a video in the original state or a video in the compressed state.

Various types of power consumption devices 200 may be installed in a factory to which the factory worker behavior data collection device 100 is applied. Depending on the purpose of the factory, it is essential for the operation of the factory, the equipment necessary to illuminate the inside of the plant, the equipment used to power the expense or management of the factory facility, used for the convenience of workers in the factory Devices and the like.

The power state checking unit 140 of the factory worker behavior data collecting device 100 is for recognizing a state in which the power consumption of the power consumption devices 200 installed inside the factory as described above is turned on or off. . The power state checking unit 140 may be installed in one or more inside the factory, it may be provided integrally to each power consumption device 200.

The state in which each of the power consumption devices 200 identified by the power state checking unit 140 described above is turned on or off is recorded in the on-off time storage unit 150 in time series.

On the other hand, the worker behavior pattern analysis unit 160 of the factory worker behavior data collection device 100, the worker position recorded in the worker position storage unit 130 at a time corresponding to the time zone recorded in the on-off time storage unit 150 Importing data to analyze the behavior pattern of the operator corresponding to the on and off of the specific power consumption device 200. The analysis in the worker behavior pattern analysis unit 160 may be processed in real time, but may be preferably set to be performed in a section requiring analysis by selection and instruction of a manager. In addition, the analysis may be set to be performed at a predetermined time interval after a predetermined time has elapsed.

In particular, when an analysis of a specific time recorded in the on-off time storage unit 150 is requested in the process of analyzing a worker's behavior pattern, the worker behavior pattern analysis unit 160 requests a specific time (specific power consumption device for which the analysis is requested). When the on-off is made) may be configured to analyze the worker behavior pattern from a predetermined time before the predetermined time.

In addition, the worker behavior pattern analysis unit 160 of the factory worker behavior data collection device 100 through the frequency analysis of the area where the worker or a plurality of workers are located at regular time intervals and the worker's behavior pattern through the analysis of the worker's or workers' movements. It can be set to analyze. The worker behavior analysis in the worker behavior pattern analysis unit 160 is performed through a process of analyzing the worker position frequency image frame and the worker moving image frames recorded in the worker position storage 130.

 On the other hand, the image stored in the worker location storage unit 130 may be set to be stored in one unit when the on-off operation of the specific power consumption device 200. In addition, a setting for analyzing a worker behavior pattern during a section in which the specific power consumption device 200 is On (On), and a setting for analyzing a worker behavior pattern during a section in which the specific power consumption device 200 is Off (Off). This may optionally be configured.

The worker behavior data collection device 100 for an efficient factory energy management system configured as described above may be set to operate through the following steps.

First, the location of the worker in the factory is analyzed by analyzing images captured by the plurality of cameras 110 installed in the factory in the worker location analysis step, and the location of the workers analyzed in the worker location analysis result storage step is stored.

And it recognizes the power state of the power consumption devices installed in the factory and stores the situation in which the power-off state of the specific power consumption device occurs in time series.

The worker behavior pattern analysis unit 160 of the factory worker behavior data collecting device 100 analyzes the behavior of the worker by analyzing the location of the person in the factory in a time zone corresponding to the time zone when the power of the specific power consumption device 200 is turned on and off. Will be analyzed.

The behavior patterns of workers in the factory analyzed by the above devices and methods can be used as objective data in the process of improving the energy efficiency of the factory as an analysis result associated with the power consumption devices installed in the factory.

In the above, with reference to the accompanying drawings, an apparatus and method for collecting worker behavior data for an efficient factory energy management system according to an embodiment of the present invention has been described. These embodiments are included in the technical spirit described in the claims of the present invention. In addition, the above-described embodiments are merely illustrative and should not be construed limitedly.

100: factory worker behavior data collection device
110: camera 120: worker position analysis unit
130: worker position storage unit 140: power state check unit
150: on-off time storage unit 160: worker behavior pattern analysis unit

Claims (6)

A plurality of cameras installed inside the factory;
A worker location analyzer to analyze a location of a worker in a factory by analyzing the image photographed by the camera;
A worker location storage unit for storing the analysis result of the worker location analyzer at a predetermined time interval;
A power state checking unit for recognizing an on / off state of power consumption devices installed in a factory;
An on-off time storage unit which sequentially stores the on-off time detected by the power state checking unit; And
A worker behavior pattern analysis unit analyzing a worker's behavior pattern by analyzing a location of a person in a factory in a worker location storage unit stored in a time zone corresponding to an on / off time stored in the on / off time storage unit; Worker behavior data collection device for an efficient factory energy management system, characterized in that comprises a. The method of claim 1,
The worker behavior pattern analysis unit for analyzing the worker behavior data for an efficient factory energy management system, characterized in that for analyzing the behavior from a predetermined time before the predetermined on the basis of a specific on-off time stored in the on-off time storage unit. The method of claim 1,
The worker behavior pattern analysis unit is an efficient factory energy management system characterized in that for analyzing the behavior pattern of the worker through the frequency analysis of the area where one or more workers are located at regular intervals and the copper line analysis of the one or more workers. Worker behavior data collection device. The method according to any one of claims 1 to 3,
The worker location storage unit worker behavior data collection device for an efficient factory energy management system, characterized in that configured to store the on-off state of a specific power consumption device in the factory stored in the on-off time storage unit by unit. The method of claim 4, wherein
An efficient factory energy management system, wherein the worker location analyzer is configured to process the location of one or more workers on one frame for each entire area or unit area through a composite analysis of images captured by the plurality of cameras. Worker behavior data collection device. A worker location analysis step of analyzing a location of a worker in the factory by analyzing images captured by a plurality of cameras installed inside the factory;
A worker location analysis result storage step of storing the result analyzed in the worker location analysis step;
Recognizing a power state of power consumption devices installed in a factory and storing a situation in which power of a specific power consumption device is turned on and off in chronological order; And
A worker behavior pattern analysis step of analyzing a worker's behavior pattern by analyzing a location of a person in a factory in a time zone corresponding to a time zone when power of the specific power consumption device is turned on and off; Worker behavior data collection method for an efficient factory energy management system, characterized in that comprises a.

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