KR20230046584A - Warship Integrated Solution System Using Digital Platform - Google Patents

Abstract

The present invention relates to a warship integrated solution system using a digital platform including mixed reality equipment worn by a trainee, and supporting virtual reality in which the trainee can feel a situation in an actual onboard environment in the same way as boarding a real submarine, while being connected with the mixed reality equipment for communication. The warship integrated solution system implements virtual reality of a submarine and a ship in which CAD information and actual photos are combined for training crewmen of the submarine and the ship, grafts and uses shipbuilding as a productivity/operation capability improvement means, and implements virtual reality with a high level of utilization through linkage between virtual reality (VR) and design information.

Description

Warship Integrated Solution System Using Digital Platform}

The present invention relates to a ship integrated solution system using a digital platform, and more specifically, realizes virtual reality of submarines and surface ships combined with CAD information and real action to train crew members of submarines and surface ships, and builds performance ships. It is about a ship integrated solution system using a digital platform that is utilized as a means of improving productivity/operability and realizes highly usable virtual reality through linkage between VR (Virtual Reality) and design information.

Conventional virtual reality training systems include a simulation space, which reproduces important areas of the device to be simulated. For example, in an airplane, it is about the cockpit. Simulation applications are not difficult since the personnel to be trained do not have to regularly leave the area during normal operation.

However, in a submarine or surface ship, it is not necessary to regularly train at only one station, but as it is customary to be able to reach multiple places on a ship, it must be regularly practiced on a real submarine or surface ship.

Therefore, there was a problem that the submarine or surface ship could not be used for sortie during the training time because it had to be conducted in a face-to-face training method through an actual submarine or surface ship.

In addition, there was a problem that productivity was lowered due to a lack of understanding of submarines or surface ships of overseas consortium shipyards.

In addition, there are problems in that it is difficult to intuitively grasp necessary information in the drying process, production efficiency may be lowered due to the input of inexperienced personnel, and there is no means for preventing and managing repeated problems during drying.

It was devised to solve the above problems of the present invention, and through a ship integrated solution system that includes comprehensive contents that combine submarine or surface ship operation and navigation know-how with mixed reality (MR), it is possible to test drive / flight training. Its purpose is to provide an integrated ship solution system using a digital platform that can improve the quality of ships and improve the efficiency of design/production of special ships.

Another object of the present invention is to configure contents that reflect the life cycle of ships in the field of sales, construction, operation and maintenance / repair, and to increase understanding of complex procedures and information, including technology transfer contents that reflect the latest trends Its purpose is to provide an integrated solution system for traps using a digital platform.

Another object of the present invention is to combine augmented reality contents with general layout and P&ID including augmented reality contents through AR function using mixed reality equipment such as tablet PC to improve user accessibility in line with the 4th industrial revolution. It aims to provide an integrated trap solution system using a digital platform that can enhance understanding of the system.

Another object of the present invention is a digital platform that can identify more effective material location and surrounding environment through natural system process training by combining valve, equipment, system information, general layout, and P&ID in mixed reality (MR) It aims to provide an integrated trap solution system using

The ship integrated solution system using the digital platform according to the present invention is equipped by a trainer and is implemented in virtual reality in the same way as boarding a real submarine or surface ship. In a ship integrated solution system using a digital platform that includes equipment and is communicatively connected to the mixed reality equipment, a general information platform providing a 3D model of the ship's appearance, major specifications, and mission information; A construction method platform that provides information on the main system installation method and block mounting procedure for ship construction; A valve and equipment information confirmation platform that provides importance, quantity, and distribution information on valves and equipment mounted on the vessel; Operating procedure visualization platform that provides operation guide manuals for communication and weapon systems, electrical systems, and mechanical systems; A preventive maintenance platform that provides preventive maintenance task lists and MRC for each system of communication and weapon systems, electrical systems, and mechanical systems; Lesson learning platform that provides linked information by bundling lessons learned by zone and system, selecting zones and systems and providing lesson learning by equipment and zone, and the inside, outside and surrounding environment of the ship 3 It includes a virtual boarding platform that provides dimensional visual information; The platform provides information through linkage between VR, P&ID and general layout; The platforms are characterized by being composed of contents reflecting the life cycle of traps.

Preferably, the general information platform supports a 3D model of a ship's exterior and an AR function to enable sales data for a ship to be secured; It is characterized by being able to display armament and sensor option information, quantity and information of armament and sensors for each propulsion system.

More preferably, the construction method platform guides and displays the key event of ship construction, the block mounting sequence, and the main equipment installation procedure, and the displayed information can be displayed as augmented reality (AR) content. do.

Also preferably, the valve and equipment information confirmation platform is characterized in that when searching for a valve or equipment name or selecting it from the list, it is characterized in that it displays the inside / outside of the trap and the general arrangement diagram in connection with the piping diagram so that the location can be confirmed. .

Also preferably, the operation procedure visualization platform displays the operation procedures of communication and weapon systems, electrical systems, and mechanical systems in association with equipment manuals, controller screens, 3D models, and actual images (VR View).

Also preferably, the preventive maintenance platform checks information including preventive maintenance cycles, input manpower, equipment, and importance in a list classified by equipment / detailed item, and determines the installation location of the equipment in the ship and the location information of detailed items based on due diligence. characterized in that it is displayed in conjunction with the equipment manual.

Also preferably, the lesson learning platform selects the equipment and system desired by the user and displays the equipment and system in the corresponding area; It is characterized by displaying the main lesson learning (L / L) information of the selected equipment and system on a screen linked to the VR View.

Also preferably, the virtual boarding platform displays the inside/outside of the trap and the surrounding environment by level; It is characterized in that it is implemented so that location movement and selection are possible through screen gaze by supporting HMD (Head mounted Display).

The present invention is a ship integrated solution system that includes comprehensive contents that combine submarine or surface ship operation and operation know-how with mixed reality (MR), which can improve the quality of commissioning / navigation training and improve the efficiency of special ship design / production work. have an effect

According to the present invention, contents reflecting the life cycle of a ship in the field of sales, construction, operation, and maintenance/repair have the effect of increasing understanding of complex procedures and information, including technology transfer contents reflecting the latest trends. .

According to the present invention, in order to improve user accessibility in line with the 4th industrial revolution, it is a natural system by grafting augmented reality contents to general layout and P&ID including augmented reality contents through AR function using mixed reality equipment such as tablet PCs. Through process education, it has the effect of increasing the understanding of the main system more effectively.

According to the present invention, valves, equipment, system information, general layout, and P&ID are combined with mixed reality (MR) to provide more effective material location and surrounding environment through natural system process training.

1 is a block conceptual diagram of an integrated trap solution system using a digital platform according to the present invention.
2 is a block diagram showing the configuration of an integrated trap solution system using a digital platform according to the present invention.
3 is a diagram showing a general information platform of a ship integrated solution system using a digital platform according to an embodiment of the present invention.
4 is a diagram showing an augmented reality content execution screen using a tablet in the general information platform according to an embodiment of the present invention.
5 is a diagram showing a building method platform of a ship integrated solution system using a digital platform according to an embodiment of the present invention.
6 is a diagram showing an execution screen of augmented reality contents in block mounting order using a tablet in a building method platform according to an embodiment of the present invention.
7 is a diagram showing a platform for checking valve and equipment information of a ship integrated solution system using a digital platform according to an embodiment of the present invention.
8 is a diagram showing a platform for visualizing main system operating procedures of a ship integrated solution system using a digital platform according to an embodiment of the present invention.
9 is a diagram showing a preventive maintenance platform of a ship integrated solution system using a digital platform according to an embodiment of the present invention.
10 is a diagram showing a lesson learning platform for each equipment/zone of the ship integrated solution system using a digital platform according to an embodiment of the present invention.
11 is a diagram showing a virtual boarding platform of a ship integrated solution system using a digital platform according to an embodiment of the present invention.

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

The advantages and features of the present invention, and how to achieve them, will become clear with reference to the detailed description of the following embodiments in conjunction with the accompanying drawings.

However, the present invention will not be limited by the embodiments disclosed below, but will be implemented in various different forms, only these embodiments will complete the disclosure of the present invention, and will be common knowledge in the art to which the present invention belongs. It is provided to completely inform the person who has the scope of the invention, and the present invention is only defined by the scope of the claims.

In addition, in the description of the present invention, if it is determined that related known technologies may obscure the gist of the present invention, a detailed description thereof will be omitted.

1 is a block conceptual diagram of an integrated trap solution system using a digital platform according to the present invention, FIG. 2 is a block diagram showing the configuration of an integrated trap solution system using a digital platform according to the present invention, and FIG. 3 is a block diagram of the present invention. Figure 4 is a view showing a general information platform of a trap integrated solution system using a digital platform according to an embodiment of the present invention, Figure 4 is a view showing an execution screen of augmented reality content using a tablet in the general information platform according to an embodiment of the present invention, 5 is a diagram showing a building method platform of a ship integrated solution system using a digital platform according to an embodiment of the present invention, and FIG. 6 is a block mounting order augmentation using a tablet in the building method platform according to an embodiment of the present invention. Figure 7 is a view showing a real content execution screen, Figure 7 is a view showing the valve and equipment information checking platform of the integrated solution system for traps using a digital platform according to an embodiment of the present invention, Figure 8 is a view showing a platform according to an embodiment of the present invention A diagram showing a platform for visualizing the main system operation procedure of a ship integrated solution system using a digital platform, and FIG. 9 is a diagram showing a preventive maintenance platform of a ship integrated solution system using a digital platform according to an embodiment of the present invention. 10 is a diagram showing a lesson learning platform for each equipment/area of the integrated solution system for ships using a digital platform according to an embodiment of the present invention, and FIG. 11 is an integrated solution for ships using a digital platform according to an embodiment of the present invention. It is a diagram showing the virtual boarding platform of the system.

The ship integrated solution system 100 using the digital platform according to the present invention is applicable to ship construction / operation / sales activities suitable for the 4th industrial revolution era, and realizes a differentiated ship virtual reality that combines CAD information and due diligence. , It is used as a means of improving productivity/operability by grafting the experience of building a ship, and it is possible to realize highly usable virtual reality through linkage between VR (Virtual Reality) and design information.

Referring to FIGS. 1 to 11, as shown in FIG. 1, the integrated trap solution system 100 using a digital platform includes a plurality of mixed reality (MR) equipment 10-1 to 10-n) and communication can be connected.

The mixed reality equipment 10 refers to equipment that supports a trainee to feel a situation in a real boarding environment so as to be implemented in virtual reality and augmented reality as if boarding in a real submarine or surface ship.

In addition, the mixed reality equipment may include a head mounted display (HMD), a remote controller, and a user terminal, and the user terminal may include a smart phone or a tablet PC.

The trap integration solution system 100 using a digital platform includes a database server unit 100a that stores various platforms, a communication unit 100b connected to mixed reality equipment, and trap data of various platforms recorded at 360 degrees in mixed reality equipment. It may include a display unit 100c that displays images for each inside/outside zone, a Piping & Instrument Diagram (P&ID), and a general arrangement diagram in connection with each other.

Here, mixed reality (MR) means the convergence of virtual reality (VR) and augmented reality (AR) technology elements. can

The ship integrated solution system 100 using a digital platform reflects the life cycle of the ship, the first stage general information platform 110, the second stage building method platform 120, and the third stage The valve and equipment information check platform 130, the 4th step operating procedure visualization platform 140, the 5th step preventive maintenance platform 150, the 6th step equipment/zone lesson learning platform 160, and the A 7-step virtual boarding platform 170 may be included.

Referring to FIG. 2, the ship integrated solution system 100 using a digital platform includes a general information platform 110, a construction method platform 120, a valve and equipment information confirmation platform 130, and an operating procedure visualization platform. 140, a preventive maintenance platform 150, a lesson learning platform 160 for each equipment/area, and a virtual boarding platform 170.

In addition, it can be known through the augmented reality (AR) display units 110a and 120a that the general information platform 110 and the construction method platform 120 can support augmented reality with augmented reality (AR) supported content.

In the embodiment of the present invention, it is indicated as an example that augmented reality support is possible for the general information platform, which is the first step, and the construction method platform, which is the second step, but it will be provided to enable augmented reality support on the platforms of the third to seventh steps. can

The general information platform 110 of the integrated ship solution system 100 using a digital platform may support a ship 3D AR function to secure differentiated sales materials for ships.

As shown in FIG. 3 , the ship general information entry screen 111 may display a 3D model of the ship's exterior and main specifications and missions of the ship.

Also, IR, URN, RCS, Electro Magnetic, and multi-layered defense concepts can be displayed in the design information 112 for enhancing survivability of ships.

In addition, in the armament/sensor type option information 113, related information and quantity such as mounted equipment option information, n types of weapons, and n types of sensors can be displayed.

In addition, in the main loading system information 114, various types of information can be displayed for each combat system, armament/sensor type, and propulsion system.

Using a digital platform, it is possible to classify detailed contents of the introduction materials for ships, and it is possible to check the specifications of each option for the main system on the 3D mode.

As shown in FIG. 4 , through an augmented reality (AR) content execution screen 115 using a tablet (Tablet PC), it is possible to check 3D model information of a ship without space limitations by utilizing AR technology.

Therefore, in the past, data were limited to promotional videos, pamphlets, PPT/PDF, etc., but by applying 3D model-based virtual/augmented reality by using a digital platform, it is possible to negotiate with the ship owner based on the model without time and space constraints by implementing ship introduction materials. It has the advantage of being

As shown in FIG. 5, the ship construction method platform 120 of the ship integrated solution system 100 using a digital platform establishes a technology transfer platform related to the ship construction method, and the ship construction key event, the main system installation method (axis / Departure, gas pipe, main furnace), block mounting procedure (normal/delayed conditions) can be displayed.

On the construction method entry screen 121, a trap construction key event (Key Event), an erection sequence (Erection Sequence), and an installation procedure (Installation Procedure) may be displayed.

On the trap building key event screen 122, descriptions of the production process from S/C (Steel Cutting) to D/L (Delivery) and the contents of the promotional video can be displayed.

More specifically, S/C (Steel Cutting), A/P (Assembly/Pre-Outfitting), P (Painting), K/L (Keel Laying), B/E (Block Erection), L (Launching), N /C (Naming Ceremony), T (Trial), D/L (Delivery) stage production process can be explained.

In the block loading procedure screen 123, a block loading procedure may be displayed according to a situation according to a normal loading condition or a delay device occurrence condition.

In the main system installation method screen 124, installation methods such as gas pipe, shaft & rudder system, and power cable can be displayed.

Conventionally, the block mounting sequence is provided as a 2D drawing, and the installation procedure is also provided as a 2D drawing. , By linking 3D modeling and 2D drawings to express the order of block loading, it is implemented so that information can be acquired intuitively at the production site.

In addition, a 3D model was used to provide a means to enhance the understanding of the complex installation procedure of the main system.

As a result, as shown in FIG. 6, looking at the execution screen 125 of block mounting order augmented reality (AR) content using a tablet (Tablet PC), there is a lack of experience in building traps in the existing learning with drawings and documents. It has the effect of effectively responding to issues such as construction options using local contents (transfer of technology to domestic shipyards) when contracting personnel and overseas vessels.

The valve and equipment information confirmation platform (130) of the ship integrated solution system (100) using a digital platform can quickly check information on mounted valves and equipment, including importance, valve quantity, distribution, etc. among a total of 34 systems. It is possible to provide information on 9 systems (SW, CA, CW, FO, FS, FT, SP, FW, LO) in consideration of

As shown in FIG. 7, the valve and equipment information checking platform 130 can simultaneously provide information through linkage between VR, P&ID, and general layout.

Conventionally, valve lists, P&ID drawings, piping installation drawings, etc. were individually checked for the location of valves and equipment by viewing 2D drawings and 3D modeling, but the 360-degree video of the inside/outside of the ship (131) and the P&ID ( Piping & Instrument Diagram. 132) and General Arrangement Diagram (133) are linked to quickly and accurately identify equipment and valve locations constituting the system.

In the past, in order to locate valves and equipment based on the piping system diagram, it was necessary to check on-site one by one along the pipeline line, but by using a digital platform, you can search for valves or equipment names, or list When selected from , the location can be checked quickly by linking the vessel's internal/external inspection and general layout with the piping system diagram, providing information so that the crew and operating personnel can quickly adapt to the vessel without time and space constraints.

The operation procedure visualization platform 140 of the ship integrated solution system 100 using a digital platform links Mimic, equipment manual, and VR View for a total of 3 types of work and 16 systems.

As shown in FIG. 8, the operation procedure guide entry screen 141 in the operation procedure visualization platform 140 displays a communication & weapon system, an electrical system, and a machinery system. can be displayed

On the communication/arming system operation guide screen 142, 9 systems related to communication and armament can be implemented, and can be displayed through linkage between 15 Mimics, 82 manuals, and individual VRs.

In addition, on the electrical/control operation guide screen 143, it is possible to implement 4 systems related to electrical/control operation, and it can be displayed through linkage between 55 Mimics, 42 manuals, and individual VRs.

In addition, on the propulsion system operation guide screen 144, G/T, R/G, and D/E can be implemented, and can be displayed through linkage between 3 Mimics, 8 manuals, and individual VRs.

Equipment operation procedures previously acquired through manufacturer manuals and service engineers can be learned quickly and accurately through programs linked to equipment manuals, controller screens, 3D models, and VR Views. , it has the effect of enabling smooth education without the constraints of time and space.

The preventive maintenance platform 150 of the ship integrated solution system 100 using a digital platform builds a mounted main system preventive maintenance platform.

As shown in FIG. 9, the preventive maintenance platform 150 links preventive maintenance task lists for each of 18 major systems with MRC and VR views.

It includes 10 types of communication and weapons systems, 5 types of electrical systems, and 3 types of mechanical systems.

The maintenance entry screen 151 of the preventive maintenance platform 150 displays a screen from which a total of 18 major systems can be selected. You can select any one from the list of major systems to display for that system.

In addition, on the detailed equipment/mission list screen 152, 824 task lists for a total of 18 types of systems are linked and displayed.

On the MRC display screen 153 for each detailed equipment, 602 MRCs (Maintenance Requirement Cards) for a total of 18 systems can be linked and displayed.

In addition, on the VR View screen 154 of the target equipment, VR Views for each target equipment can be linked and displayed for the corresponding equipment.

Previously, the preventive maintenance procedure was based on the manual provided by the manufacturer, so it was difficult to check the location of detailed components and learn the procedure. It is configured to check the importance, etc. at once, and check the equipment installation location and detailed item location information in connection with the equipment manual based on due diligence.

By this, it is configured so that all information related to preventive maintenance by equipment/detailed item can be grasped at once, and the preventive maintenance history card (MRC) and equipment installation location can be collectively checked in a classified list so that operating personnel can quickly perform preventive maintenance Information can be displayed so that the information of necessary equipment/detail items can be checked.

As shown in FIG. 10, the lesson learning platform 160 by equipment/zone of the ship integrated solution system 100 using the digital platform is for major L/L items that were problematic in the construction process. Data after classification by production work type/zone can be linked with VR View (215 major L/L cases for 25 zones in a total of 5 work types).

In the lesson learning platform 160 for each equipment/zone, the lesson learning entry screen 161 can select a zone/system, and is provided so that a foreign language version can be selected for commercial use.

On the equipment/system selection screen 162 in the zone, it is possible to bundle the zones, systems, and L/L, and the equipment/system in the zone can be displayed by selecting the equipment/system the user wants.

In addition, when L/L is selected, VR View-related screens for each L/L can be provided through the VR View linked screen (163), and major L/L information is shared with various escort ships through the Lessons Learned screen (164). can be linked

Conventionally, the general management department collected and distributed Lessons Learned written by each department and distributed them within the company. However, by using a digital platform, classifying Lessons Learned by work type (piping/captain/mechanics/electricity/trial operation, etc.), area, and equipment, and then linking them with VR View to quickly access and solve problems that occurred during construction. Provides information to enhance comprehension.

As a result, the problems that occurred during the shipbuilding process are organized by equipment/area/work type and linked with VR View, so that production/design personnel can conveniently and quickly access them when building similar ships. can

As shown in FIG. 11, the virtual boarding platform 170 of the ship integrated solution system 100 using a digital platform builds a virtual boarding platform inside/outside the ship and divides it into a total of 8 steps for each level to virtual boarding ( VR Tour) entry screen 171 may be displayed.

On the virtual boarding execution screen 172, a total of 367 spots can be displayed in conjunction with the general layout drawing.

In addition, the virtual boarding entry screen 173 for HMD additionally supports a remote controller together with a head mounted display (HMD), so as shown in the HMD screen 174, the left / right eye screen in the HMD, Movement and selection can be performed by staring at the screen.

In addition, it may be implemented to enable location movement and selection by a remote controller (not shown).

With this, the VR Tour function is implemented with the result obtained through high-resolution 360-degree shooting of the inside/outside of the ship that has been built, so that you can experience the inside/outside of the ship without actually boarding the ship.

Therefore, the interior/exterior and the surrounding environment of the submarine or surface ship are provided as 3D visual information, and the P&ID information and the general arrangement map can be linked to represent the information.

In addition, data can be provided in conjunction with VR View after classifying major L/L items that were problematic during the construction process by production type/zone.

Therefore, it is possible to solve problems that may occur in multiple major equipment by comprehensively diagnosing and handling problems that occur in the ship integrated solution system using the digital platform.

For example, when a piece of equipment or part breaks down, it can indicate where the broken part is located, diagnose the cause of the failure, explain how to fix it, and indicate the working status until the failure is resolved.

In addition, it is characterized in that the screen displayed in the integrated trap solution system using the digital platform is divided into a plurality of pieces, and the data for the corresponding search information is synchronized and displayed simultaneously in a plurality of pieces.

That is, it is provided as 3D visual information as a VR View, and information can be provided simultaneously by linking P&ID information and general layout.

By this, it is possible to perform more effective education through a natural system process by implementing a differentiated virtual reality that combines CAD information and actual images and grafting general layout information and P&ID to VR.

Therefore, according to the present invention, through a ship integrated solution system using a digital platform that includes comprehensive contents that combine operation and operation know-how of submarines and surface ships with mixed reality (MR), quality improvement for commissioning / navigation training and special ship design/production work efficiency can be improved.

In addition, according to the present invention, natural system process training is provided by providing information according to the life cycle of a ship (sales-building-operation and maintenance/repair) and combining general layout and P&ID with virtual reality (VR) and augmented reality (AR). Through this, more effective material location and surrounding environment have an effect that can be identified.

So far, the ship integrated solution system using the digital platform of the present invention has been described, but it is obvious that various modifications are possible within the limits that do not depart from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the described embodiments and should not be conveyed, and should be defined by not only the claims to be described later, but also those equivalent to these claims.

That is, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive, and the scope of the present invention is indicated by the claims to be described later rather than the detailed description, and the meaning and scope of the claims and All changes or modified forms derived from the equivalent concept should be construed as being included in the scope of the present invention.

10: Mixed Reality Gear
100: Ship integrated solution system using digital platform
110: General information platform
115: Augmented reality (AR) content execution screen
120: Drying method platform
125: Augmented reality (AR) content execution screen
130: valve and equipment information verification platform
140: operating procedure visualization platform
150: preventive maintenance platform
160: Didactic learning platform by equipment/zone
170: virtual boarding platform

Claims (8)

A digital platform that is equipped by a trainee and includes mixed reality equipment that supports the feeling of the situation in the actual boarding environment so that it can be realized in virtual reality as if boarding a real submarine or surface ship, but is connected to the mixed reality equipment by communication In the trap integrated solution system using
A general information platform that provides a 3D model of the ship's exterior and key specifications and mission information;
A construction method platform that provides information on the main system installation method and block mounting procedure for ship construction;
A valve and equipment information confirmation platform that provides importance, quantity, and distribution information on valves and equipment mounted on the vessel;
Operating procedure visualization platform that provides operation guide manuals for communication and weapon systems, electrical systems, and mechanical systems;
A preventive maintenance platform that provides preventive maintenance task lists and MRC for each system of communication and weapon systems, electrical systems, and mechanical systems;
A lesson learning platform and
Includes a virtual boarding platform that provides 3D visual information on the inside, outside and surrounding environment of the ship;
The platform provides information through linkage between VR, P&ID and general layout;
Trap integrated solution system using a digital platform, characterized in that the platforms are composed of contents reflecting the life cycle of the trap.
The method of claim 1,
The general information platform,
Supports 3D model of ship exterior and AR function to secure sales data for ships;
A ship integrated solution system using a digital platform, characterized in that it can display armament and sensor option information and quantity and information of armaments and sensors for each propulsion system.
The method of claim 1,
The drying method platform,
Guides and displays the key event of trap construction, block mounting sequence and installation procedure;
A trap integrated solution system using a digital platform, characterized in that the displayed information can be displayed as augmented reality (AR) content.
The method of claim 1,
The valve and equipment information confirmation platform,
A ship integrated solution system using a digital platform, characterized in that when searching for a valve or equipment name or selecting it from the list, the inside/outside inspection of the ship and the general layout are displayed so that the location can be confirmed in connection with the piping diagram.
The method of claim 1,
The operating procedure visualization platform,
A ship integrated solution system using a digital platform, characterized by displaying the operating procedures of communication and weapon systems, electrical systems, and mechanical systems in conjunction with equipment manuals, controller screens, 3D models, and actual images (VR View).
The method of claim 1,
The preventive maintenance platform,
It is characterized by checking information including preventive maintenance cycle, input manpower, equipment and importance in the list classified by equipment/specific item, and displaying information on the location of equipment installation and detailed items in the ship in conjunction with the equipment manual based on due diligence. Trap integrated solution system using a digital platform that
The method of claim 1,
The didactic learning platform,
The user selects the desired equipment and system and displays the equipment and system in the area;
A ship integrated solution system using a digital platform, characterized by displaying the main lesson learning (L / L) information of the selected equipment and system on a screen linked to the VR View.
The method of claim 1,
The virtual boarding platform,
The inside/outside of the trap and the surrounding environment are classified and displayed by level;
A ship integrated solution system using a digital platform that supports HMD (Head mounted Display) and is implemented to enable location movement and selection through screen staring.

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