IMXR® Job Training VR Content - Electric Propulsion Lane
Electric Propulsion Lane
Ship Familiarization VR KIT
In order to increase understanding of the safety and eco-friendliness of electric driveways, review their shapes, and support user familiarization, we have implemented a visual utilization familiarization system for Electric Propulsion Lane. It provides optimized VR-based electric propulsion lane familiarization content and supports realistic motion and environment visualization through electronic chart information and turning radius interpolation.
Recommended specifications and specs of content
Features
VR content to review design safety and shape
Support VR-based onboard location movement (wheel room, engine room, passenger room, etc.)
Support survey function for design review
Support various point-in-time changes
Visualize the natural environment day and night
Light arrangement inside the ship and description of the environment
Maintain quality of 2K or higher (FHD) and at least 60 FRAME
Check the placement of shapes used for mobile battery devices and roadways
Assistance in understanding the differences between diesel and electric propulsion lane
Support a device for realizing vibration and noise, which are characteristics of a diesel engine
Comparison for experiencing the difference between an engine of an electric propulsion vehicle and a diesel engine
Support the expression of changes in sound and vibration according to distance (spatial sound)
Offers sound and vibration control
Linking design stability and shape review VR contents with VR-based route experience contents
Support for familiarization with the operating environment of electric propulsion lane
Support the analysis of the operating environment of electric propulsion lanes (provide a roadway item terrain model)
Route editing function based on WGS84 coordinate system
Route confirmation function at the time of the vehicle lane according to the movement route
Dual visualization mode based on VR and 3D
Delineation of major ports and visualization of light buoys
Describe the linear section for each point between each route
Support double speed setting
Provide operating time in simulation
Contents
1. Create VR Contents
① Implementation of survey function for familiarization and shape verification process
[Start Survey]
[Survey in Progress]
[Survey Completed]
② Realization of environment representation by time zone to realize a realistic situation
[Morning]
[Afternoon]
[Nighttime]
③ Implementation of location movement function for free movement in virtual reality space
[Enter Movement Mode]
[Select Move Location]
[Move Completed]
2. Implementation of Electric Lane
① Implementation of a function to check the numerical value of the entire shape of the electric propulsion lane
② Implementation of the user's movement function to check the movement of various spaces
[Wheel Room]
[Engine Room]
[Passenger Room]
③ Check the layout of the mobile battery device and the layout of the shape used for the electric propulsion lane
[Battery Bus]
[Cargo Vehicle]
[Charging Holder]
④ Provide diesel driveway shape for comparison experience with diesel driveway
[Appearance 1]
[Appearance 2]
[Appearance 3]
3. Function to implement the route
① Implementation of a function to visualize the main ports and light buoys of the roadway
[Lighthouse]
[Light Mark]
[Light Mark]
② Realization of environment change function according to day and night (compliance with light buoy IALA-B regulations)
[Weekly Light Buoy]
[Night Light Buoy]
[Night Lighthouse]
③ Realization of a function to input the expected route data of the vessel by applying the WGS84-based coordinate system
[Input]
[Edit]
[Delete]
④ Realization of ship’s natural movement function and ship speed function based on expected route data
[Implementation of Route]
[Calculation of Turning Points]
[Double Speed]
4. Manufacture a vibrating feeling system
① Organize an environment where you can indirectly feel the noise and vibration of a diesel engine
[Haptic Vest]
[Ankle Vibration]
[Vibration Panel]
② Implementation of vibration and noise control support function
[Menu]
[Control the Vibration]
[Control the Noise]
③ Add a sense of reality through design geometry review and VR content that supports familiarization
[VR Content]
[Electric Propulsion Lane]
[Vibration Sensing Device]
④ Implementation of sound and vibration change function according to distance (Spatial Sound)
Electric Propulsion Lane
Ship Familiarization VR KIT
In order to increase understanding of the safety and eco-friendliness of electric driveways, review their shapes, and support user familiarization, we have implemented a visual utilization familiarization system for Electric Propulsion Lane. It provides optimized VR-based electric propulsion lane familiarization content and supports realistic motion and environment visualization through electronic chart information and turning radius interpolation.
VR content to review
design safety and shape
the differences between diesel
and electric propulsion lane
Support for familiarization with the operating environment of electric propulsion lane
[Start Survey]
[Survey in Progress]
[Survey Completed]
[Morning]
[Afternoon]
[Nighttime]
[Enter Movement Mode]
[Select Move Location]
[Move Completed]
[Wheel Room]
[Engine Room]
[Passenger Room]
[Battery Bus]
[Cargo Vehicle]
[Charging Holder]
[Appearance 1]
[Appearance 2]
[Appearance 3]
[Lighthouse]
[Light Mark]
[Light Mark]
[Weekly Light Buoy]
[Night Light Buoy]
[Night Lighthouse]
[Input]
[Edit]
[Delete]
[Implementation of Route]
[Calculation of Turning Points]
[Double Speed]
[Haptic Vest]
[Ankle Vibration]
[Vibration Panel]
[Menu]
[Control the Vibration]
[Control the Noise]
[VR Content]
[Electric Propulsion Lane]
[Vibration Sensing Device]
User l