KR20140029670A - Monitoring system using the augmented reality based on smart tag in energy storage system and method for mornitoring using the same - Google Patents

Abstract

The present invention relates to an energy storage system (ESS) monitoring system using augmented reality based on a smart tag and, more specifically, to an ESS monitoring system using augmented reality based on a smart tag and a monitoring method using the same capable of checking various information to be obtained in a number of ESSs using a smart tag technology, RFID, and an augmented reality technology through an application of a smart terminal. The ESS system using augmented reality based on a smart tag of the present invention includes: a number of ESSs (11, 12, 13 : 10) attached with smart tag (electronic tag) (RFID) (11a, 12a, 13a : 10a) with an inherent identification (ID); a database server (20) for storing various information of the ESS (10) transmitted from each of the multiple ESSs (10); a web server (30) for processing and providing the various information of the ESS stored in the database server for a web page; and a smart terminal (50) for receiving the various information of the ESS stored in the database server by augmented reality through a set application by accessing the web server (30) through a network (40) and then outputting the various information. [Reference numerals] (10) Smartphone; (20) Database server; (30) Web server; (40) Network

Description

Monitoring system using the Augmented Reality based on smart tag in Energy Storage System and method for mornitoring using the same}

The present invention relates to an energy storage system (ESS) monitoring using RFID-based augmented reality, and more particularly, a variety of information to be acquired from a plurality of energy storage systems (ESS) using RFID and augmented reality technology, which is a smart tag technology. The present invention relates to an energy storage system (ESS) monitoring system using a smart tag-based augmented reality that can be identified as an application (app) of a smart terminal, and a monitoring method using the same.

Energy Storage System (ESS: Energy Storage System) refers to a storage device that stores energy like a battery and can be used at any time. Since electric energy has a difference between production and storage, production in using electric energy The ESS is a system for storing and using energy efficiently, which allows for energy production.

Thus, when ESS is activated, it can save energy produced at dawn with relatively low energy consumption, so that it can be effectively used when energy supply is driven, and the energy production utilization rate can be increased.

It is recognized as an important energy system that can solve the current power shortage because it can accumulate new and renewable energy and distribute energy in small amount.

Among them, the ESS demonstration project in Jeju Island is expected to solve the electricity shortage because it is proceeding with 8 megawatts equivalent to one substation.

In recent years, energy production facilities such as wind power and solar power have been rapidly increasing as a policy to expand the supply of renewable energy for securing energy at national level.

As renewable energy is a key solution to the problem of depletion of fossil energy and environmental problems, research is being actively carried out in various countries including developed countries. In particular, among the renewable energy, solar power The power generation system is in the spotlight recently due to the fact that there is no pollution and it is easy to install and maintain.

There are two types of photovoltaic power generation systems such as a standalone power generation system that operates solely with a photovoltaic power generation system and a grid-connected power generation system that operates in conjunction with a photovoltaic power generation system and a commercial power system.

Converters and inverters that make up a photovoltaic system are determined by the rated voltage or the rated current set in the system design. In this case, since the capacity is fixed, when a capacity expansion is requested, a separate system must be constructed, which is difficult in terms of space and power consumption.

Korean Patent No. 10-1084214 (Grid-connected power storage system and power storage system control method) discloses a power storage system capable of expanding capacity while improving space and power consumption.

However, in the prior art, in most cases, the focus is on expanding the capacity while improving the power consumption. However, in the past, the conventional technology is focused on expanding the capacity while improving the power consumption. It is not convenient to know the information of each ESS in the site where multiple ESSs are installed, or to know the ID of each ESS, and to go directly to the relevant ESS. There is a problem in that it is urgent to take measures.

Accordingly, the present invention is to solve all the disadvantages and problems of the prior art as described above, the present invention uses a smart tag technology RFID and augmented reality technology to obtain a variety of information to be obtained from a plurality of energy storage system (ESS) An object of the present invention is to provide an energy storage system (ESS) monitoring system using smart tag-based augmented reality and a monitoring method using the same.

Energy storage system (ESS) monitoring system using the smart tag-based augmented reality according to the present invention for achieving the above object, Smart tag (electronic tag) (RFID) 11a, 12a, each of which is given a unique identifier (ID), A plurality of energy storage systems (ESSs) 11, 12, 13: 10 with 13a: 10a attached thereto; A database server 20 for storing various information of the energy storage system (ESS) 10 transmitted from each of the plurality of energy storage systems (ESS); A web server 30 for processing a variety of information of the energy storage system (ESS) stored in the database server 20 to provide a web page; The smart terminal 50 is connected to the web server 30 through a network 40 and receives and outputs a variety of information of the energy storage system (ESS) stored in the database server 20 as augmented reality as a set application (app). It characterized in that it is configured to include.

In addition, the monitoring method using the energy storage system (ESS) monitoring system using a smart tag-based augmented reality for achieving the above object, each smart tag (electronic tag) (RFID) ( In order to obtain various information of a plurality of energy storage systems (ESS) 11, 12a, 13a: 10a attached to 11a, 12a, 13a: 10a, first, executing the corresponding application in the smart terminal 50 (S10). ; In step S30, the smart terminal 50 searches for the smart tag 10a within an identifiable distance according to the execution of the application; Receiving the smart tag (10a) value (identification value) in the smart terminal (50) (S40); Transmitting the identification value of the received smart tag (10a) to a web server (30) via a network (40); The web server 30 is connected to a database server 20 to receive the energy storage system (ESS) 10 information matched to the smart tag (10a) (S60); The web server 30 converts the corresponding energy storage system (ESS) 10 information into XML and transmits the converted information to the smart terminal 50 (S70); And in the smart terminal 50, reading the position information and the power information (S80) (S90) and outputting the two-dimensional UI of the augmented reality method to the camera image (S100) (S110). .

The present invention has the following effects.

First, by using a smart tag and augmented reality technology that is a smart tag and to implement it as an application of the smart terminal, you can check a variety of information on a number of energy storage system (ESS) anytime, anywhere.

Second, by using augmented reality technology, power information of a plurality of energy storage systems (ESS) can be represented in the 2D UI according to the location of each energy storage system (ESS) in the smart terminal, so that the user can monitor more quickly and easily. have.

Third, even the unskilled person can minimize the monitoring error by using smart tag RFID and augmented reality technology.

Fourth, if the energy information of one of the energy storage systems (ESS) of the same specification is different from that of the other energy storage system (ESS) power information, there is a defect in the corresponding energy storage system (ESS). You can judge. In other words, the faulty energy storage system (ESS) can be found more quickly. Therefore, error recovery can be performed more quickly, thereby providing a reliable energy storage system (ESS).

1 is a view for explaining an energy storage system (ESS) monitoring system using a smart tag-based augmented reality according to the present invention,
2 is a view for explaining an example of implementing an energy storage system (ESS) monitoring using a smart tag-based augmented reality according to the present invention in the form of an application in a smart terminal,
3 is a flowchart illustrating a monitoring method using an energy storage system (ESS) monitoring system using a smart tag-based augmented reality according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In addition, although the term used in the present invention is selected as a general term that is widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, since the meaning is described in detail in the description of the relevant invention, It is to be understood that the present invention should be grasped as a meaning of a term that is not a name of the present invention. Further, in describing the embodiments, descriptions of technical contents which are well known in the technical field to which the present invention belongs and which are not directly related to the present invention will be omitted. This is for the sake of clarity of the present invention without omitting the unnecessary explanation.

1 is a view for explaining an energy storage system (ESS) monitoring system using a smart tag-based augmented reality according to the present invention, Figure 2 is an energy storage system (ESS) monitoring using a smart tag based augmented reality according to the present invention. Is a view for explaining an example implemented in the form of an application in a smart terminal.

 Energy storage system (ESS) monitoring system using a smart tag-based augmented reality according to the present invention, as shown in Figure 1, each smart tag (electronic tag) (RFID) (11), 12a is given a unique identifier (ID) , A variety of energy storage systems (ESSs) transmitted from each of a plurality of energy storage systems (ESS) 11, 12, 13: 10, and 13 a: 10a) and each of the plurality of energy storage systems (ESS) 10. Database server 20 for storing information, a web server 30 for processing a variety of information of the energy storage system (ESS) stored in the database server 20 to provide a web page, and access to the web server 30 Network 40 for providing a variety of information of the energy storage system (ESS) stored in the database server 20 to the wired and wireless Internet terminal (PC, smart terminal (smartphone, smart pad (iPad, Galaxy Tab, Galaxy Note, etc.)) , Energy processed by the web server 30 Field consists of a smart terminal (50) receiving as augmented reality to the application (app), it sets the various information of the system (ESS).

Here, the various information of the energy storage system (ESS) 10 may be a remaining capacity (power), voltage, current, temperature, and the like.

In addition, although not shown in the drawings, a plurality of energy storage systems (ESS) 10 are configured with a battery management system (BMS: Battery Management System) to constitute the energy storage system (ESS) 10, the remaining capacity of the battery, Values such as voltage, current, temperature, and fault are transmitted to the database server 20.

And smart tags (11a, 12a, 13a: 10a) is made of RFID, but if it can identify each of a plurality of energy storage system (ESS) 10 need not be particularly limited.

Meanwhile, the web server 30 refers to a server providing a web page (HTML file). A web server program capable of providing a web page using HTTP is installed and has a domain name. For example, when the smart terminal 50 enters 'http://epic.kdi.re.kr' as the URL in a web browser, a web page is displayed to a server having the domain name 'epic.kdi.re.kr'. The server then finds the file 'index.html' and sends it to the browser.

The smart terminal 50 selects the smart tag 10a identifying the energy storage system (ESS) 10 for which information is to be obtained, and then selects the smart tag 10a of the energy storage system (ESS) 10 identified by the corresponding smart tag 10a. Various information is received from the web server 30, for which a separate application is installed. The application is programmed to provide various information of the energy storage system (ESS) 10 based on image processing called augmented reality. When the smart tag 10a in the identifiable distance of the smart tag 10a (for example, about 100 m) is identified by the smart terminal 50 when the application is executed, it corresponds to the identified smart tag 10a (matched). Energy storage system (ESS) 10 to provide the information to the smart terminal (50). In this case, a two-dimensional (2D) UI (User Interface) graphic including a camera image and energy storage system (ESS) 10 information is displayed on the screen of the smart terminal 50 as shown in FIG. 2. Such two-dimensional (2D) UI graphics are to be arranged according to the position information. In this case, the smart terminal 50 may be connected after inputting an identifier (ID) and a password to distinguish legitimate users. The smart terminal 50 may be a wireless Internet (Wi-Fi, 3G, 4G, etc.) such as a smartphone, iPad, Galaxy Tab, Galaxy Note, and the like, if the application download and installation is not particularly limited.

Meanwhile, the camera may be automatically driven to implement augmented reality. In other words, when the camera is driven, augmented reality can be realized as much as possible.

3 is a flowchart illustrating a monitoring method using an energy storage system (ESS) monitoring system using a smart tag-based augmented reality according to the present invention.

In the monitoring method using the energy storage system (ESS) monitoring system using the smart tag-based augmented reality according to the present invention, as shown in Figure 3, each smart tag (electronic tag) (RFID) is given a unique identifier (ID) In order to obtain various information of a plurality of energy storage systems (ESS) 11, 12, 13: 10 to which 11a, 12a, 13a: 10a are attached, a corresponding application is first executed on the smart terminal 50 (S10). .

Subsequently, when the corresponding application is executed, a camera (video) is realized (S20). At this time, it is preferable to automatically execute the camera.

Then, according to the execution of the application, the smart terminal 50 searches for the smart tag 10a within an identifiable distance (S30).

Subsequently, the smart terminal 50 receives the smart tag 10a value (identification value) (S40).

The identification value of the received smart tag 10a is transmitted to the web server 30 through the network 40 (S50).

The web server 30 accesses the database server 20 and receives the energy storage system (ESS) 10 information corresponding to the smart tag 10a (S60). At this time, the web server 30 requests the database server 20 information (for example, power information) and location data of the energy storage system (ESS) 10 that matches the identification value of the smart tag 10a. Then, the database server 20 transmits the requested energy storage system (ESS) 10 power information and location data to the web server 30, and receives it from the web server 30.

Subsequently, the web server 30 converts the corresponding energy storage system (ESS) 10 information into XML and transmits the converted information to the smart terminal 50 (S70).

Then, the smart terminal 50 reads the positional information and the power information (S80) (S90), and as shown in FIG. 2, the two-dimensional UI on the executed camera image of the energy storage system (ESS) 10 position and power information. Output to (S100) (S110). In other words, when a two-dimensional UI graphic containing the energy storage system (ESS) 10 information is outputted to the camera image and the location thereof, the image is disposed to match the position information of the energy storage system (ESS) 10. Therefore, smart tags (RFID) and augmented reality technology in the application of the smart terminal it is possible to monitor the power information for a plurality of energy storage system (ESS) 10 on a single screen.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the examples disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10, 11, 12, 13: Energy Storage System (ESS)
10a, 11a, 12a, 13a: smart tag (electronic tag)
20: database server 30: web server
40: network 50: smart terminal

Claims (7)

A plurality of energy storage systems (ESSs) 11, 12, 13: 10 to which are attached smart tags (electronic tags) (RFIDs) 11a, 12a, 13a: 10a, each assigned a unique identifier (ID);
A database server 20 for storing various information of the energy storage system (ESS) 10 transmitted from each of the plurality of energy storage systems (ESS);
A web server 30 for processing a variety of information of the energy storage system (ESS) stored in the database server 20 to provide a web page;
The smart terminal 50 is connected to the web server 30 through a network 40 and receives and outputs a variety of information of the energy storage system (ESS) stored in the database server 20 as augmented reality as a set application (app). Energy storage system (ESS) monitoring system using a smart tag-based augmented reality, characterized in that configured to include.
The method of claim 1,
The smart terminal is an energy storage system (ESS) monitoring system using a smart tag-based augmented reality, characterized in that one or more of the smart phone, smart pad.

The method of claim 1,
Various information of the energy storage system (ESS) 10 is an energy storage system using a smart tag based augmented reality, characterized in that at least one of the remaining capacity (power), voltage, current, temperature, fault (fault), location information. (ESS) monitoring system.
The method of claim 1,
The application of the smart terminal 50 is programmed to provide a variety of information of the energy storage system (ESS) 10 based on the image processing called augmented reality, the screen of the smart terminal 50 and the camera image and its Smart tag, characterized in that the two-dimensional (2D) UI (UI) graphic containing the information on the energy storage system (ESS) 10 is displayed to be arranged in accordance with the position information of the energy storage system (ESS) (10). Energy storage system (ESS) monitoring system using augmented reality based.
A variety of energy storage systems (ESSs) 11, 12, 13: 10 with smart tags (electronic tags) (RFIDs) 11a, 12a, 13a: 10a, each assigned a unique identifier (ID). First executing a corresponding application in the smart terminal 50 to obtain information (S10);
In step S30, the smart terminal 50 searches for the smart tag 10a within an identifiable distance according to the execution of the application;
Receiving the smart tag (10a) value (identification value) in the smart terminal (50) (S40);
Transmitting the identification value of the received smart tag (10a) to a web server (30) via a network (40);
The web server 30 is connected to a database server 20 to receive the energy storage system (ESS) 10 information matched to the smart tag (10a) (S60);
The web server 30 converts the corresponding energy storage system (ESS) 10 information into XML and transmits the converted information to the smart terminal 50 (S70); And
The smart terminal 50 reads the location information and the power information (S80) (S90) and outputting a two-dimensional UI of the augmented reality method to the camera image (S100, S110); smart characterized in that it comprises a Monitoring method using ESS monitoring system using tag-based augmented reality.
6. The method of claim 5,
When the application is executed, the smart terminal automatically realizes a camera (image) (S20) further comprising a monitoring method using an energy storage system (ESS) monitoring system using a smart tag based augmented reality, characterized in that it further comprises. 6. The method of claim 5,
In step S60, the web server 30 accesses the database server 20 and receives the energy storage system (ESS) 10 information matched with the smart tag 10a.
When the database server 20 requests energy storage system (ESS) 10 information and location data that match the identification value of the smart tag 10a, the database server 20 requests the energy storage system (ESS). (10) Using the energy storage system (ESS) monitoring system using a smart tag-based augmented reality, characterized in that to transmit the power information and location data to the web server 30, and receives it from the web server (30). Monitoring method.

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