KR101135774B1 - Watt hour meter management system and method using technology of augmented reality - Google Patents

Abstract

According to an aspect of the present invention, there is provided a power meter management system including a terminal for capturing a photographic image of a surrounding terrain, a facility, or a electricity meter. A power meter management server configured to generate power meter information existing within the power meter, and to transmit the matching information obtained by matching the meter information to the actual image to the terminal, wherein the terminal displays the matching information transmitted from the power meter management server. It is characterized in that, by combining augmented reality technology in the electricity meter management system and management method to efficiently manage the electricity meter.

Description

Watt hour meter management system and method using technology of augmented reality}

The present invention relates to a power meter management system and management method using augmented reality, and more particularly, a power meter management system using augmented reality, which can efficiently manage a power meter by incorporating an augmented reality technology into a power meter management system and a management method. And to a management method.

With the recent rapid development of the industry and cities, environmental improvement, and the increase of new cities and planned urbanization, the difficulty of managing electricity meters has increased, and the efficiency of operation has been reduced. A situation is needed.

Currently, many electricity meters are installed in various environments, and they are managed / operated through the system. However, it is difficult to obtain accurate reality information of the site in the center due to the gap of information understanding between the site and the center (office, operation room, etc.).

Therefore, in the center, it is inevitable for site visit confirmation or additional report / delivery confirmation to manage / operate the electricity meter.

In addition, in the field, it is difficult to generate and transmit real information of the live site, and there is a limit in receiving various information in the center system in real time, which makes it difficult to accurately and efficiently manage and operate the site.

Therefore, there is a need for the management and operation of the electricity meter, which is the efficiency factor through the real-time generation and transmission of accurate information between the site and the center.

An object of the present invention is to efficiently manage a electricity meter by incorporating augmented reality technology into a electricity meter management system and a management method by providing a lot of information to workers and managers for electricity meter management.

In addition, an object of the present invention, through the power meter management system and management method using augmented reality to support a variety of tasks such as performing work and providing information for this.

In addition, an object of the present invention is to make it easy to manage the electricity meter through the real-time positioning and control / control for the electricity meter and the operator.

The electricity meter management system using the augmented reality of the present invention for achieving the object of the present invention as described above, in the electricity meter management system having a terminal for photographing the actual image of the surrounding terrain, facilities or electricity meter, the terminal A power meter management server configured to receive the live image captured by the camera and location information of the terminal, generate power meter information existing in the area of the live image, and transmit matching information obtained by matching the power meter information to the terminal; Includes, the terminal is characterized in that for displaying the matching information transmitted from the electricity meter management server.

In addition, the electricity meter information includes the position information of the electricity meter existing in the area of the live-action image, basic information of the electricity meter, installation and construction information, contact person information, instantaneous and inspection information, management and action information on failure or failure, Basic information of the electricity meter may include a manufacturing number, meter reading data or ID, and a facility name.

In addition, the terminal preferably includes a head mounted display (HMD), a smart phone, a net pad, a netbook, a notebook computer, a desktop PC monitor, and an LCD / PDP / DLP.

In addition, the electricity meter includes a marker, and the marker preferably includes a one-dimensional barcode, a two-dimensional barcode, a three-dimensional barcode, a manufacturing number, a facility management number or an ID, a facility name, an installation place, a contact person name, a contact person, and a contact number. Do.

Furthermore, the location information of the terminal may be measured using GPS positioning information transmitted from a GPS satellite through a GPS receiver provided in the terminal, and the electricity meter management server is legacy through an enterprise service bus (ESB). It is desirable to work with the system.

On the other hand, the electricity meter management method using the augmented reality of the present invention for achieving the object of the present invention as described above, (a) receiving a photorealistic image of the surrounding terrain, facilities or electricity meter photographed using a camera; (b) transmitting the location information of the terminal measured at the time of photographing the live image and the live image to a power meter management server; and (c) matching information obtained by matching the power meter information to the live image from the power meter management server. And (d) displaying the matching information.

Alternatively, the electricity meter management method using the augmented reality of the present invention for achieving the object of the present invention as described above, (a) the operator selecting any one of the work items on the electricity meter on the terminal and (b) Receiving the location information of the terminal through the GPS provided in the terminal and displaying a map of the location and the surroundings on the terminal; (c) Searching and displaying a power meter corresponding to the selected job on the map; d) performing a task according to the selected task in the electricity meter, and recording and storing the task result.

In addition, the work item preferably includes status management, installation and construction management, instantaneous and inspection management, failure and failure management, history and report management, control situation and control management for the electricity meter.

In addition, the step (c) may further include displaying a path to the electricity meter corresponding to the work item and tracking the movement of the worker along the path.

In addition, the electricity meter management method using the augmented reality of the present invention for achieving the above object of the present invention, (a) displaying a map of a specific area on the administrator terminal and (b) within the area of the specific area Receiving the location information of the existing worker to display on the map and (c) the administrator selects a specific worker from the displayed worker to perform a voice or video call, message transmission.

According to the electricity meter management system and management method using the augmented reality of the present invention, by combining the augmented reality technology with the electricity meter management system and management method to provide more visible information to workers and managers for electricity meter management to reduce the information gap and on-site It is possible to generate and transmit accurate information in real time between the center and the center.

In addition, according to the electricity meter management system and management method using the augmented reality of the present invention, the operator can perform various and efficient work on the electricity meter, there is an advantage that the manager's work support for this.

In addition, according to the present invention, real-time location confirmation and path search and tracking are possible for the electricity meter and the worker, so that it is easy to control / control the electricity meter and the worker, and thus management of the electricity meter can be easily performed.

In addition, by linking the legacy system for various business support and information services required for the management of the electricity meter with the electricity meter management server, there is an advantage of preventing investment costs for redundant development and dualization of data management.

1 is an internal block diagram of a terminal included in a power meter management system using augmented reality according to the present invention,
2 is a block diagram illustrating a power meter management system using augmented reality according to an embodiment of the present invention,
3 is a view for explaining the process of the electricity meter management system using augmented reality according to an embodiment of the present invention,
4 is a flowchart illustrating a power meter management method using augmented reality according to the present invention,
5 is a flowchart illustrating a power meter management method using augmented reality according to another embodiment of the present invention,
6 is a flowchart illustrating a power meter management method using augmented reality according to another embodiment of the present invention.
7 is a flowchart illustrating a power meter management method using augmented reality according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments of the present invention described below are provided to enable those skilled in the art to more easily understand the present invention, and the scope of the present invention is not limited to the described embodiments.

First, the electricity meter management system and management method according to the present invention uses augmented reality technology, where the augmented reality technology combines the real world and the vivid cyber world with a computer to provide image expression or information that is impossible in the real world. Technology.

In detail, augmented reality technology is a technology derived from virtual reality technology that improves awareness of the real world, which excludes interaction with the real world and only interacts with each other in the pre-established virtual space. Unlike the virtual reality technology that processes the action, the real-world information (called augmented information), which is built in advance based on real-time processing, is superimposed on the image of the real world actually observed through a special interface, and the interaction with the real Technology that allows observers to make quick and convenient situational judgments about real-world observation areas.

In other words, the present invention manages and operates an augmented reality technology that can provide combined visualized information of a virtual reality of a 2D / 3D virtual image and a real environment image image (hereinafter, referred to as a real-world image). Attempt to integrate the system.

To this end, an embodiment of the present invention includes a live image together with a live image using an augmented reality technology for synthesizing information on a power meter generated by a power meter management server to a live image captured by a camera provided in the terminal. The meter information is displayed on the terminal at the same time.

Hereinafter, an internal configuration block diagram of a terminal included in a power meter management system using augmented reality according to the present invention will be described with reference to FIG. 1.

The terminal according to an embodiment of the present invention is a camera 10 for taking a photorealistic image of the surrounding terrain, facilities or electricity meter, GPS receiver 20 for positioning the terminal location information and gyro sensor unit 30 , A controller 40, a location information generator 50, a graphics processor 60, and a display 70.

The GPS receiver 20 may immediately find the location of the terminal by receiving a radio wave from the GPS satellite through the antenna. That is, the terminal receives GPS positioning information transmitted from the GPS satellites through the built-in GPS receiver 20.

In addition, the terminal according to an embodiment of the present invention may further include the gyro sensor unit 30 as a posture positioning device, the gyro sensor unit 30 may measure the change in posture of the terminal.

In the following description, the GPS positioning information transmitted from the GPS satellites and the posture information of the gyro sensor unit are well known in the art, and thus detailed description thereof will be omitted.

The controller 40 performs an overall control operation of the terminal, and if there is a menu selection (for example, clicking a specific button on the terminal) for using the electricity meter management system according to the present invention, the operator is located around the place. The camera may be driven to capture live-action images of the terrain, facilities, or electricity meters of the unit.

At the same time, the control unit 40 may drive the GPS receiver 20 and the gyro sensor unit 30 together to measure the shooting position and posture of the live image, and the GPS received from the GPS satellite through the GPS receiver 20. By using the positioning information to determine the current position of the terminal, it is possible to calculate the current posture change based on the angle of the terminal transmitted from the gyro sensor unit 30.

In other words, the photographing position of the live image or the position information of the terminal is measured from the GPS receiver 20 and the gyro sensor unit 30 provided in the terminal.

When a live image for requesting power meter information is photographed through the camera 10, that is, at the moment when the photographing shutter is pressed, the controller 40 measures a photographing position and posture (ie, location information) of the live image at the time of photographing.

In addition, when a request is made to receive information on the electricity meters included in the live-action image from the operator, the controller 40 may display various information items related to the electricity meters on the display unit 70, and the worker may display these items. You can select any one of these items.

Here, the various information about the electricity meters may include the position information of the electricity meter existing in the real-world image, the manufacturing number of the electricity meter, meter reading data or ID, basic information including equipment name, installation and construction information, person in charge information, instantaneous and inspection. Includes information, management and action information for failures or failures.

Subsequently, the location information generation unit 50 generates location information of the terminal by using the photographing location and posture information measured on the live-action image at the time of photographing, and transmits the generated location information together with the selected item to the electricity meter management server. do.

The graphic processor 60 converts the matching information (information of matching the information on the electricity meter to the live image) from the electricity meter management server under the control of the controller 40 into an image in a format that the terminal can display.

The matching information in the converted format is displayed on the display unit 70.

Hereinafter, a power meter management system using augmented reality according to an embodiment of the present invention will be described with reference to FIG. 2.

2 is a block diagram illustrating a power meter management system using augmented reality according to an embodiment of the present invention.

The electricity meter management system using augmented reality according to the present invention includes a electricity meter 110, a terminal 130, and a electricity meter management server 170.

The electricity meter management server 170 is provided with a live image of a specific electricity meter including a surrounding terrain, a facility, or a marker photographed and provided by the terminal 130, and the location information of the terminal 130. The electricity meter information existing in the area is generated, and the matching information obtained by matching the electricity meter information to the live image is transmitted to the terminal 130.

The electricity meter management server 170, various information about the electricity meter 110, for example, the position information of the electricity meter, the manufacturing number of the electricity meter, meter data or ID, basic information including the equipment name, installation and construction information, contact information In addition, the intermittent and check information, management and action information on the fault or failure, and the database (DB) 180 including the marker information of the electricity meter and the like receives information about the electricity meter 110 to generate electricity meter information.

The database (DB) 180 may be provided separately from the electricity meter management server 170 to transmit information about the electricity meter, but may be configured to be included in the electricity meter management server 170.

In addition, the electricity meter management server 170 may be linked with the legacy system 190 through an ESB (Enterprise Service Bus). Such a legacy system 190 includes a power meter operation management system, a comprehensive weighing information system, a sales information management system, a new distribution information system (NDIS), an enterprise resource planning (ERP) system, a groupware system, and the like. The electricity meter management server 170 is interlocked with the legacy system 190 without needing to separately establish information (power consumption, system information, customer information, Geographic Information System (GIS) information, etc.) of various operating conditions for the electricity meter. Can be serviced in real time.

In addition, the electricity meter 110 may include a marker. The marker may include a 1D barcode, a 2D barcode, a 3D barcode, a manufacturing number, a facility management number or an ID, a facility name, an installation place, a contact person, a contact person. The electricity meter management server 170 recognizes the marker of the electricity meter 110 through the live image of the electricity meter 110 photographed and provided from the terminal 130, and from the database 180 to the corresponding electricity meter. Receive information about the information and transmit it to the terminal 130.

The terminal 130 photographs a photographic image of the terrain, facilities, or the electricity meter 110 around the worker using the camera 10, and displays the matching information received from the electricity meter management server 170 on the display unit 70. Display.

The terminal 130 may include a head mounted display (HMD), a smartphone, a net pad, a netbook, a notebook, a desktop PC monitor, an LCD / PDP / DLP, and the like.

The terminal 130 and the electricity meter management server 170 are connected to the wired / wireless network 150, and the connection network 150 has a medium of Wi-Fi, Wibro, and code division multiple access. Multiple Access, CDMA), Power Line Communication (PLC), Trunked Radio System (TRS), 3G / 4G networks and the like.

Hereinafter, a process of a power meter management system using augmented reality according to an embodiment of the present invention will be described with reference to FIG. 3.

The electricity meter management server 170 is a live-action image of the surrounding terrain, facility or electricity meter photographed and measured by the camera 10, the GPS receiver 20, and the gyro sensor unit 30 of the terminal 130. The location information is transmitted through the wired / wireless network 150. At this time, the video interface 171 of the electricity meter management server 170 performs image stream processing on the live-action image so that matching information for augmented reality of information can be generated. The tracking module 173 extracts parameter adjustments, marker sizes, and pattern information to recognize markers such as 1D barcodes, 2D barcodes, 3D barcodes, manufacturing numbers, and facility control numbers from the actual image of the electricity meter. , Extracting marker information from the database 180, and the rendering module 175 loads / unloads a virtual object, loads / unloads it for translation, translation, rotation, scaling, and database 180. 3D modeling, etc. based on the electricity meter information By measuring and collision processing the augmented image processed through the adjusted information and the virtual object, the measurement module 177 compares the real image and the virtual object (power meter information) through a process of distance measurement and interference inspection between the virtual objects. Generate matching information that is the result of matching.

The generated matching information is integrated with information about various electricity meters obtained from the database 180 or the legacy system 190, and is transmitted to the terminal 130 and displayed through the display unit 70.

Hereinafter, a power meter management method using augmented reality according to a preferred embodiment of the present invention will be described in detail with reference to FIG. 4.

4 is a flowchart illustrating a power meter management method using augmented reality according to the present invention.

First, the camera 10 of the terminal 130 is photographed and input (S200) a photorealistic image of the surrounding terrain, facility or electricity meter.

Next, at the time of capturing the live-action image, the position information of the terminal measured through the GPS receiver 20 and the gyro sensor unit 30 of the terminal 130 along with the live-action image to the electricity meter management server 170 ( S210).

Subsequently, the electricity meter management server 170 generates matching information by matching the electricity meter information to the live image through the image interface 171, the tracking module 173, the rendering module 175, and the measurement module 177. 130, the terminal 130 receives the matching information (S220) and displays it on the display unit 70 (S230).

Here, using the camera 10 of the terminal 130, in particular, when photographing the actual image of the electricity meter and transmitted to the electricity meter management server 170, the electricity meter management server 170 finds and recognizes the marker included in the electricity meter accurately You should be able to. To this end, the marker information of the electricity meter is continuously secured and tracked, and stored and updated as marker information in the database 180. Through this, the electricity meter management server 170 receives the marker information from the database 180 to receive a one-dimensional barcode. To ensure accurate analysis and recognition of markers, including 2D barcodes, 3D barcodes, manufacturing numbers, facility control numbers or IDs, facility names, installation locations, staff names, and contact numbers.

Hereinafter, a power meter management method using augmented reality according to another embodiment of the present invention will be described in detail with reference to FIG. 5.

5 is a flowchart illustrating a power meter management method using augmented reality according to another embodiment of the present invention.

Use the electricity meter management method using augmented reality according to the present invention to perform tasks such as current meter management, installation and construction management, instantaneous and inspection management, fault and failure management, history and report management, control situation and control management, etc. Can be.

When the worker selects any one of the work items related to the electricity meter on the terminal (S300), the terminal 130 receives and measures the position information of the terminal through the GPS receiver 20 and the gyro sensor unit 30. In operation S310, a corresponding location and a map of the vicinity thereof are displayed on the terminal through a UI (User Interface) service combined with GPS and Geographic Information System (GIS) technology (S320).

At this time, the map may be converted into a road view form according to a worker's selection.

Based on this, the electricity meter corresponding to the selected job is searched for on the map of the corresponding location and the surrounding (S330) and displayed (S340). The searched power meter may be displayed in various forms of UI through setting of a layer or legend such as a list form or an image form on a map.

In addition, it is possible to display the path (S350) for the electricity meter corresponding to the selected job, it is also possible to track the movement of the worker along the path (S360).

Subsequently, the worker may perform a task on a specific electricity meter (S370), record and store the result of the task in the terminal (S380), and also transmit the task result to the electricity meter management server 170 to the database 180. You can also save or update to.

Hereinafter, a power meter management method using augmented reality according to another embodiment of the present invention will be described in detail with reference to FIG. 6.

6 is a flowchart illustrating a power meter management method using augmented reality according to another embodiment of the present invention.

This embodiment relates to an embodiment when a failure and failure management task is selected among the work items for the electricity meter in the embodiment of FIG. 5.

When the worker selects a fault and failure management operation among the work items related to the electricity meter on the terminal (S400), the terminal 130 receives the position information of the terminal through the GPS receiver 20 and the gyro sensor unit 30. Measurement (S410), and displays the location and the map of the periphery on the terminal through a UI (User Interface) service combined with GPS and Geographic Information System (GIS) technology (S420).

In this case, it has already been described that the map may be converted into a road view form according to a worker's selection.

Based on this, the power meter corresponding to the obstacle and the failure is searched and displayed on the map of the corresponding location and its surroundings (S430). When a specific electricity meter is selected from the list or images of the electricity meter corresponding to the detected faults and failures (S440), the operator may not only check the position information of the electricity meter existing on the map, but also the manufacturing number, meter data or ID, equipment of the electricity meter. Various information such as basic information including name, installation and construction information, person in charge information, instantaneous and inspection information, management and action information about failure or failure, history information, customer information, and power consumption information can be additionally checked.

In addition, the route for the specific electricity meter may be displayed on the map (S450), and the movement of the worker along the route may be tracked (S460). That is, the location information of the worker can be transmitted to the electricity meter management server 170 in real time, and the administrator can control and control the worker in real time.

In addition, when a worker transmits a photogram of a specific electricity meter to the electricity meter management server 170, the electricity meter management server 170 adds additional information about the specific electricity meter to the terminal 130 as matching information matched to the actual electricity meter. Can transmit

Subsequently, the worker may perform a countermeasure operation for a failure and a failure for a specific electricity meter (S470), record and store the result of the operation in the terminal (S480), and also output the work result to the electricity meter management server 170. The transmission may be stored or updated in the database 180.

Hereinafter, a power meter management method using augmented reality according to another embodiment of the present invention will be described in detail with reference to FIG. 7.

7 is a flowchart illustrating a power meter management method using augmented reality according to another embodiment of the present invention.

This embodiment relates to an embodiment in the case of selecting the instantaneous and check management work among the work items on the electricity meter in the embodiment of FIG.

When the worker selects the instantaneous and check management operation of the work item on the electricity meter on the terminal (S500), the terminal 130 receives the position information of the terminal through the GPS receiver 20 and the gyro sensor unit 30 and In operation S505, a corresponding location and a map of the vicinity thereof are displayed on the terminal through a user interface (UI) service combined with GPS and Geographic Information System (GIS) technology (S510).

Based on this, the power meter corresponding to the instantaneous and inspection targets is searched and displayed on the map of the corresponding location and its surroundings (S515). When a specific electricity meter is selected from the list or images of the electricity meters and the images corresponding to the searched instantaneous and inspection targets (S520), a route for the specific electricity meter may be displayed on a map (S525), and the worker's movement according to the route. It may be tracked (S530). That is, the location information of the worker can be transmitted to the electricity meter management server 170 in real time, and the administrator can control and control the worker in real time. In addition, when a worker arrives at a location with a specific electricity meter through the terminal 130 (S535), when the worker transmits a photogram of the specific electricity meter to the electricity meter management server 170, the electricity meter management server 170 is Recognizing and analyzing markers included in a specific meter, basic information including the meter's manufacturing number, metering data or ID, and equipment name, installation and construction information, contact information, instantaneous and inspection information, management and measures for failure or failure Various information such as information, history information, customer information, and power consumption information may be additionally transmitted to the terminal 130 as matching information matched to the live image.

The terminal 130 receives the matching information and displays it on the display unit 70 (S545).

Subsequently, the worker may perform the action for the instantaneous and the check for the specific electricity meter (S550), record and store the result of the operation in the terminal (S555), and also transmit the operation result to the electricity meter management server 170. May be stored or updated in the database 180.

In addition, according to the power meter management method using augmented reality according to the present invention displays a map of a specific area on the manager terminal, and receives the worker's location information existing in the area of the specific area through the GPS of the operator in real time The location of the worker can be displayed on the map.

In addition, the manager can select a specific worker among the displayed workers and receive a work instruction or a work report through voice or video call, message transmission, etc., so that the operator can easily control and control the work and manage the work situation accurately.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments of the present invention are not intended to limit the scope of the present invention but to limit the scope of the present invention. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: camera 20: GPS receiver
30: gyro sensor unit 40: control unit
50: location information generation unit 60: graphics processing unit
70: display unit 110: power meter
130: terminal 150: network
170: electricity meter management server 180: database, DB
190: Legacy System

Claims (10)

In the electricity meter management system having a terminal for capturing live-action images of surrounding terrain, facilities or electricity meters,
Power meter management that receives the live image captured by the terminal and location information of the terminal to generate power meter information existing in the area of the live image, and transmits matching information obtained by matching the power meter information to the live image to the terminal. Server;
The terminal is a meter management system using augmented reality, characterized in that for displaying the matching information transmitted from the meter management server.
The method of claim 1,
The electricity meter information includes the position information of the electricity meter existing in the area of the live-action image, basic information of the electricity meter, installation and construction information, person in charge information, instantaneous and inspection information, management and action information on failure or failure,
The basic information of the electricity meter includes a manufacturing number, meter reading data or ID, and a facility name.
The method of claim 1,
The terminal is a power meter management system using augmented reality, characterized in that the head mounted display (HMD), smart phones, netpads, netbooks, laptops, desktop PCs.
The method of claim 1,
The electricity meter includes a marker,
The electricity meter management server recognizes the marker of the electricity meter from the actual image of the electricity meter photographed and provided by the terminal, receives information on the electricity meter from a database including the marker information of the electricity meter, and then applies the electricity meter to the actual image. Power meter management system using augmented reality, characterized in that to match the information related to the transmission to the terminal.
The method of claim 1,
The location information of the terminal is measured by using GPS positioning information transmitted from the GPS satellites through the GPS receiver provided in the terminal, a power meter management system using augmented reality.
The method of claim 1,
The electricity meter management server is an energy meter management system using augmented reality, characterized in that the interworking with the legacy (legacy) system through the Enterprise Service Bus (ESB).
(a) receiving, by the terminal, a live image of a surrounding terrain, facility, or electricity meter photographed using a camera;
(b) the terminal transmitting the location information of the terminal measured at the time of photographing the live image and the live image to a power meter management server;
(c) receiving, by the terminal, matching information obtained by matching the electricity meter information to the actual image from the electricity meter management server; And
(d) the terminal displaying the matching information;
Power meter management method using augmented reality, comprising a.
(a) selecting one of the work items on the electricity meter by the operator on the terminal;
(b) receiving, by the terminal, location information of the terminal through a GPS provided in the terminal, and displaying a corresponding location and a map of the vicinity;
(c) the terminal searching for and displaying the electricity meter corresponding to the selected task on the map; And
(d) recording and storing the operation result of the selected operation on the electricity meter in the terminal;
Power meter management method using augmented reality, comprising a.
The method of claim 8,
The work item is a power meter management method using augmented reality, characterized in that the current status management, installation and construction management, instantaneous and inspection management, fault and failure management, history and report management, control situation and control management for the electricity meter.
The method of claim 8,
The step (c)
Displaying, by the terminal, a path to an electricity meter corresponding to the work item; And
Tracking, by the terminal, a worker's movement along the route;
Power meter management method using augmented reality, characterized in that it further comprises.

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