KR20090067662A - System and method for real time checking the state of building hull based on rfid - Google Patents

Abstract

A system for monitoring the assembled state of a ship in real time based on the RFID and a method therefor are provided to manage the assembled state of hull blocks remotely in real time by using an RFID tag and a wired/wireless network. An information collecting unit(100) receives the product information of a hull block from an electronic tag. A management center(200) searches the assembly information which is mapped to the product information, and re-constructs the assembled state of hull blocks in 3D type according to the searched assembly information. The information collecting unit comprises an RFID reader(120) and a communication unit(130). The RFID reader extracts the product information of hull blocks from an RF signal received from an antenna. The communication unit transmits the extracted product information to the management center through a wired/wireless network.

Description

System and method for real time checking the state of building hull based on RFID

The present invention relates to a real-time hull assembly status check system and method based on RFID, in particular, to map the product information and assembly information of the hull block, 3D shape of the hull block according to the assembly information, RFID electronic tags and wired and wireless network The present invention relates to a method for checking RFID-based real-time preemptive construction state that can remotely manage the assembly state of the hull block in real time.

In general, an electronic tag, that is, RFID (Radio Frequency Identification), is a technology that embeds information of the entire process from production to sale into a microchip and tracks it by radio frequency. It is called a "smart tag" or "electronic label", Also called "wireless identification".

The RFID system includes an RFID electronic tag for storing data, a transmission antenna for transmitting an RF signal, and an RFID reader for reading data stored in the RFID electronic tag through the reception antenna.

In addition, the RFID system is used for goods management, logistics / delivery, production quality management, airport entry and exit management, product management, warehouse goods management, library library and the like depending on the purpose. In addition, the RFID system is attached to the unit part in the process of producing a finished product through the assembly of dissimilar parts in the manufacturing industry is used in the system that can be confirmed in the process whether the sub-parts missing.

On the other hand, the assembly process of the ship proceeds while assembling the steel members of various sizes. The first operations are steel pretreatment, steel cutting, and forming operations that begin at the processing plant. The steel plates are cut and folded or bent to match the shape of the hull. Then, in the small assembly process, the work of joining a few small members is carried out and these are transferred to the control assembly process and become part of the hull block.

Thus, the ship is made of hull block units weighing more than a few tens of tons and then mounted in a dock and assembled.

In Korea, the control of the hull block, which is the completion of the hull block, is carried out by small and medium block producers.

In order to produce a single hull block, hull block producers first make a plate to fit the size of the block, and most of the work is done by welding.

In order for the ship manufacturing process to proceed smoothly, the management process to ensure that the blocks produced by each block company are produced accurately according to the air is important.

However, in such a conventional hull production process, in order to check the assembly state of the hull block, the only way is to check whether the manager goes directly to the assembly site or by contacting the site manager, so the production process management, etc. There is a problem that can not be confirmed in real time the assembly state of the hull block.

The present invention has been proposed to solve the above problems, RFID-based real-time to remotely manage the assembly state of the hull block produced on the surface by mapping the product information and assembly information of the RFID hull block It is an object of the present invention to provide a hull assembly status checking system and method thereof.

The present invention for achieving the above object is an information collection unit for receiving the product information of the hull block from the electronic tag installed in each block constituting the hull; Receive the product information of the hull block from the information collecting unit, retrieves the assembly information mapped to the received product information, the management to reconstruct and confirm the assembly state of the hull block in the 3D shape according to the retrieved assembly information Center; characterized in that consisting of.

Preferably, the information collecting unit, the antenna is installed on the surface plate to which the hull is assembled and receives the RF signal from the electronic tag; An RFID reader for extracting product information of the hull block from the RF signal received from the antenna; And a communication unit configured to transmit the extracted product information to the management center through a wired or wireless network.

Preferably, the management center, the communication unit for receiving the product information of the hull block from the information collecting unit via a wired or wireless network; A mapping database storing assembly information mapped to product information of each hull block; An information retrieval unit for retrieving the assembly information mapped to the received product information from the mapping database, and an overall structure of the hull and a 3D shape of the hull block according to the retrieved assembly information, and a 3D shape of the hull A management server including a 3D shape configuration unit configured to reconstruct a 3D shape of the hull block to be displayed in the; And accessing the management server to check the assembly state of the hull according to the reconstructed 3D shape.

Preferably, the assembly information may include overall structure of the hull, 3D shape information of the hull block, and assembly position information of the hull block of the entire structure of the hull.

RFID based real-time hull assembly status checking method according to another aspect of the present invention includes a mapping step of mapping and storing the product information and the assembly information for each block constituting the hull; An installation step of preparing an electronic tag including the product information and installing the electronic tag in a corresponding block; An information collecting step of receiving product information of the hull block from an RFID electronic tag installed in the hull block; And retrieving assembly information of the hull block in a 3D shape according to the retrieved assembly information and retrieving the assembly information mapped to the collected product information.

Preferably in the information collecting step, receiving step of receiving an RF signal from the RFID electronic tag installed in the hull block; An information extraction step of extracting product information of the hull block from the received RF signal; And transmitting the extracted product information to an external management center through a wired or wireless network.

Preferably in the status check step, the search step of retrieving the assembly information mapped to the transmitted product information in the stored mapping information; A 3D construction step of constructing the entire structure of the hull and the 3D shape of the hull block according to the retrieved assembly information, and reconstructing the 3D shape of the hull block in the 3D shape of the hull; And confirming the assembling state of the hull according to the reconstructed 3D shape.

Preferably, in the status check step, the assembly information may include the overall structure of the hull and the 3D shape information for the hull block, and the assembly position information of the hull block for the overall structure of the hull.

RFID-based real-time hull assembly status check system and method according to the present invention 3D-shape the hull block based on the assembly information mapped to the product information of the hull block using the RFID and the electronic tag installed on the hull block assembly of the hull By real-time remote management of the status, efficient hull block production schedule management can be performed without the hassle of going to the site, thereby reducing the cost loss caused by the production schedule.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a RFID based real-time hull assembly status check system according to an embodiment of the present invention, Figure 2 is a view showing the hull assembly state of FIG.

The hull assembly status checking system 10 includes an information collecting unit 100 for receiving product information of the hull block 310 from an electronic tag 112 installed at each block 310 forming a hull, and an information collecting unit 100. Receives the product information of the hull block 310 from the retrieval assembly information mapped to it, and according to the retrieved assembly information consists of a management center 200 for reconstructing and confirming the assembly state of the hull block 310 in a 3D shape .

The information collecting unit 100 includes an antenna 110 that recognizes the electronic tag 112, an RFID reader 120 that extracts product information of the hull block 310, and the extracted product information to the management center 200. It includes a communication unit 130 for transmitting.

As shown in FIG. 2, the antenna 110 is installed at each square corner of the surface plate 320 to which the hull is assembled to receive the RF signal from the electronic tag 112.

The RFID reader 120 extracts product information of the hull block 310 included in the electronic tag 112 from the RF signal received from the antenna 110 of the surface plate 320.

The communication unit 130 transmits the product information of the hull block 310 extracted to the management center 200 through the wired or wireless network.

The management center 200 includes a communication unit 210 that receives product information of the hull block 310 from the information collection unit 100, a management server 220 including an information retrieval unit 222 and a 3D configuration unit 224. ), A mapping database 230 in which assembly information mapped to product information of each hull block 310 is stored, and a terminal 240 for checking an assembly state of the hull block 310.

The communication unit 210 receives product information of the hull block 310 transmitted from the information collecting unit 100 through a wired or wireless network.

The mapping database 230 stores a mapping table of the product information and the assembly information of the hull block 310. Here, the assembly information includes the overall structure of the hull and the 3D shape information for the hull block 310 and the assembly position information of the hull block 310 for the overall structure of the hull.

The information retrieval unit 222 retrieves the assembly information mapped to the product information of the hull block 310 received from the mapping table of the mapping database 230.

The 3D shape configuration unit 224 configures the entire structure of the hull and the 3D shape of the hull block 310 according to the retrieved assembly information, and reconstructs the 3D shape of the hull block 310 in the 3D shape of the hull.

That is, the 3D shape configuration unit 224 refers to the hull block 310 list for the original design drawing according to the 3D shape information extracted from the raw CAD data among the assembly information of the hull block 310 retrieved from the mapping database 230. 3D shape the corresponding hull block 310 so that the progress of the entire structure of the hull can be recognized.

The terminal 240 accesses the management server 220 and checks the assembly state of the hull according to the 3D shape reconstructed from the 3D shape configuration unit 224.

In the RFID-based real-time hull assembly status check system according to an embodiment of the present invention configured as described above, the electronic tag 112 including the product information of the hull block 310 is installed in the hull block 310, the surface plate 320 When the antenna 110 installed in the RFID tag 120 recognizes, the RFID reader 120 extracts the product information of the corresponding hull block 310 from the RF signal transmitted from the electronic tag 112, and the communication unit 130. Through the transmission to the management center 200.

The management server 220 of the management center 200 that receives the product information of the hull block 310 searches for the assembly information mapped to the received product information in the mapping database 230 and based on the retrieved assembly information, the corresponding hull. The assembled state of the block 310 is configured in a 3D shape.

The terminal 240 accesses the management server 220 and checks the assembly state of the hull block 310 in real time through the 3D shape configured in the management server 220 for production schedule management.

This configuration allows the manager to check in real time the production process of the remote site from the management center 200 via the terminal 240.

Hereinafter, an RFID-based real time hull assembly checking method according to an embodiment of the present invention will be described with reference to FIG. 3.

Figure 3 is a flow chart illustrating a method for checking a real-time hull assembly state based on RFID in accordance with an embodiment of the present invention.

First, the product information and the assembly information for each block 310 forming the hull is mapped and stored (step S301).

The assembly information stored in the mapping database 230 in the hull assembly status check system 10 is 3D shape information about the entire structure of the hull and the hull block 310, and the assembly of the hull block 310 for the overall structure of the hull. Contains location information.

Next, the electronic tag 112 including the product information is produced and installed in the hull block 310 (step S302).

As shown in FIG. 2, an electronic tag 112 including corresponding product information is installed at one side of the hull block 310.

Next, when the hull block 310 is assembled, an RF signal is received from the RFID electronic tag 112 installed in the hull block 310 (step S303).

The hull assembly status check system 10 receives the RF signal from the electronic tag 112 through the antenna 110 installed on the surface plate 320.

The product information of the hull block 310 is extracted from the RF signal received in step S303, and the extracted product information is transmitted to an external management center 200 through a wired or wireless network (step S304).

When the RFID reader 120 of the information collecting unit 100 extracts the product information of the hull block 310 from the RF signal in the hull assembly status checking system 10, the communication unit 130 may control the hull block 310 for remote management. ) Product information is transmitted to the management center 200 through a wired or wireless network.

The assembly information mapped to the product information of the hull block 310 transmitted from the mapping information stored in step S301 is retrieved (step S305).

In the hull assembly status check system 10, the information retrieval unit 222 of the management server 220 retrieves the assembly information mapped to the product information of the hull block 310 in the mapping table of the mapping database 230.

According to the assembly information retrieved in step S305 to form the overall structure of the hull and the 3D shape of the hull block 310, and reconstructed so that the 3D shape of the hull block 310 is displayed in the 3D shape of the hull (step S306).

In the hull assembly status check system 10, the 3D shape configuration unit 224 3D shape the entire structure of the hull and the hull block 310 based on the 3D shape information included in the assembly information, the assembled hull block 310 Reconstruct the 3D shape for to be displayed for the entire hull.

The assembled state of the hull is checked according to the reconstructed 3D shape (step S307).

An administrator remote from the hull assembly status check system 10 confirms the 3D-shaped hull assembly state provided from the management server 220 through the terminal 240.

In this way, the assembly of the hull block 310 can be checked in real time even in remote locations, so that efficient hull block production schedule management can be performed without the hassle of going to the site, and the cost loss due to the disruption of the production schedule can be reduced.

1 is a block diagram of a RFID based real-time hull assembly status check system according to an embodiment of the present invention.

Figure 2 is a view showing the hull assembly state of Figure 1;

Figure 3 is a flow chart illustrating a method for checking a real-time hull assembly state based on RFID in accordance with an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: hull assembly status check system 100: information collection unit

110 antenna 112 electronic tag

120: RFID reader 130: communication unit

200: management center 210: communication unit

220: management server 222: information retrieval unit

224: 3D configuration unit 230: mapping database

240: terminal

Claims (8)

An information collecting unit for receiving product information of the hull block from an electronic tag installed at each block forming the hull; Receive the product information of the hull block from the information collecting unit, retrieves the assembly information mapped to the received product information, the management to reconstruct and confirm the assembly state of the hull block in the 3D shape according to the retrieved assembly information Real-time hull assembly status check system based on RFID, characterized in that made; including. The method of claim 1, Information collecting department, An antenna installed on a surface plate to which the hull is assembled to receive an RF signal from the electronic tag; An RFID reader for extracting product information of the hull block from the RF signal received from the antenna; RFID-based real-time hull assembly status check system comprising a; communication unit for transmitting the extracted product information to the management center through a wired or wireless network. The method of claim 1, The management center, A communication unit for receiving product information of the hull block from the information collecting unit through a wired or wireless network; A mapping database storing assembly information mapped to product information of each hull block; An information retrieval unit for retrieving assembly information mapped to the received product information from the mapping database; A 3D shape configuration unit configured to configure the entire structure of the hull and the 3D shape of the hull block according to the retrieved assembly information, and to reconstruct the 3D shape of the hull block from the 3D shape of the hull. Wow; And a terminal for accessing the management server to check the assembly state of the hull according to the reconstructed 3D shape. The method of claim 1, The assembly information is RFID-based real-time hull assembly status check system, characterized in that including the overall structure of the hull and the 3D shape information for the hull block, and the assembly position information of the hull block for the overall structure of the hull . A mapping step of mapping and storing product information and assembly information for each block forming the hull; An installation step of preparing an electronic tag including the product information and installing the electronic tag in a corresponding block; An information collecting step of receiving product information of the hull block from an RFID electronic tag installed in the hull block; A status check step of retrieving the assembly information of the hull block in a 3D shape according to the retrieved assembly information by searching the assembly information mapped to the collected product information; How to check the assembly status. The method of claim 5, wherein The information collection step, Receiving an RF signal from the RFID electronic tag installed in the hull block; An information extraction step of extracting product information of the hull block from the received RF signal; And transmitting the extracted product information to an external management center through a wired or wireless network. The method of claim 6, The status check step, A retrieval step of retrieving assembly information mapped to the transmitted product information from the stored mapping information; A 3D construction step of constructing the entire structure of the hull and the 3D shape of the hull block according to the retrieved assembly information, and reconstructing the 3D shape of the hull block in the 3D shape of the hull; Confirmation step of confirming the assembly state of the hull according to the reconstructed 3D shape; RFID based real-time hull assembly status check method comprising a. The method of claim 5, wherein In the status check step, the assembly information includes the entire structure of the hull, 3D shape information of the hull block, and the assembly position information of the hull block for the entire structure of the hull. How to check the assembly status.

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