Excavator Simulator VR
SANLAB's VR Excavator Simulator improves operator training in various industries. It provides a safe, risk-free virtual reality (VR) environment. This tool boosts skills and efficiency with a rich array of lessons and scenarios. It uses detailed analysis and reports, enhancing productivity and cutting costs. The simulator offers flexible training and realistic physical conditions, mimicking a real excavator. It tracks performance. Simulator prepares operators for real-world challenges without high costs and safety issues.
Main Features of Heavy Construction Excavator Simulator
Heavy Construction VR Excavator Simulator offers an immersive experience. It has realistic controls, detailed excavator models, and high-resolution 3D graphics. It also supports virtual reality. Training simulates real-world conditions. It uses dynamic construction environments, an advanced physics engine, and interactive modules. Customizable settings, performance tracking, and a multi-user mode enhance the simulation. They make it ideal for personalized and collaborative work.
Motion Platform Options of Excavator Simulator VR
• Stable Simulators: Best for learning control systems with no motion feedback.
• 3DOF (Pitch, Heave, Roll): Suitable for training with basic movement sensations.
• 6DOF (Pitch, Heave, Roll, Yaw, Surge, Sway): Perfect for comprehensive, realistic training with full motion simulation.
Realistic Modern 3D Graphics: Excavator simulator controls uses 3D graphics to create detailed, high-res visuals. It replicates real-world conditions for a rich experience for the operator. The visuals and 3D graphics enhance the training process within the excavator simulator.
Full-Size Cabin Option Inside the Simulator:
The simulator offers an option for a full-size cabin. It includes all physical controls or a touch screen. This personalizes training and makes learning more interactive.
Realistic Physical Calculations:
SANLAB's simulator accurately calculates and simulates engine RPM, torque, and hydraulic pressure. This lets the operator gain insights into engine performance and vehicle systems.
Excavator Simulator Controls with Vehicle Equipment:
The simulator replicates the pedals, levers, and buttons of real vehicles. It makes operators feel they are using a real excavator machine. This ensures the training is as realistic as possible. This reduces difficulties in using and controlling equipment in real life.
VR Support for a Realistic Experience:
Compatible with VR devices such as Oculus Rift and HTC Vive, our simulator offers the option to train in a virtual reality environment. VR-trained operators are better at real-world excavator control. They're more proficient and ready for fieldwork. The virtual reality support helps operators become more experienced in handling dangerous situations on-site.
Various Screen Configurations:
Our simulator supports various screen configurations. It lets operators customize their training with different screen layouts and resolutions. The excavator simulator's screen configurations can be adjusted to suit the operator's needs.
Real-Time Training Field Monitoring:
Various camera angles are available for trainers to monitor the training field. Trainers using the excavator simulator can view the field in real-time from multiple angles, allowing for a more accurate assessment of students’ performance.
Diverse Load and Floor Conditions: The simulator includes various load types and floor conditions, providing comprehensive training for a wide range of real-world scenarios.
Weather Conditions: Operators can train under different weather conditions, learning how to safely and efficiently operate a telehandler in any environment.
Versatile Attachments: The simulator has many attachments. They let operators practice with different tools and scenarios.
Terrain Deformation: Operators can navigate through various terrains, experiencing how the excavator responds to different ground conditions.
Configurable Screens: Different screen configurations are available to suit various training setups and preferences.
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Dynamic Camera Angles of Digger Simulator
Camera angles let operators view the machine and its surroundings from different perspectives. This ensures safe and efficient use. Our digger simulator's camera angles give users a complete training. The realistic camera angles of the excavator simulator VR are as follows:
• Operator Perspective Camera
• External Camera
• Load Camera
• Overhead View Camera
• Rear View Camera
• Trainer Cameras
Using six camera angles makes training more engaging and realistic. It benefits both operators and trainers. Operators can learn to control machines from different views. This setup helps them improve, especially with heavy machinery.
VR Excavator Simulator Lessons for Controllable Processes
Training will let operators develop skills in many areas. These include precise maneuvers, using low-bed trailers, overcoming obstacles, lifting loads, breaking materials, and transporting loads. This development ensures that they can carry out most activities in real life without difficulty. Our construction machinery simulators train users on various lessons and scenarios. Thanks to these lessons, operators working in the field will be able to perform the required tasks with ease due to their experience in most activities. Also, the virtual integration of the excavator simulator VR improves the lessons and training. Operator trainers can also watch these lessons. They can then see the students' strengths and weaknesses.
• Digging —This exercise boosts operational efficiency by enhancing the operator's loading capabilities.
• Bucket Path Following—This improves machine control, increasing the operator's manoeuvrability.
• Ghost Bucket—This scenario enhances spatial awareness, boosting the operator's positioning skills.
• Lowbed Loading—This develops balance and precision skills, helping operators better understand machine stability
• Balls on Cones—This scenario develops attention and precision skills.
• Quick Attachment—This exercise increases the operator's ability to make quick and effective equipment changes.
• Trenching—This scenario enhances the operator's precision and attention to underground structures.
• Breaker Poisitioning—This exercise improves the operator's spatial awareness and control skills.
• Hill Driving—This scenario develops the operator's balance, control, and ability to handle steep inclines.
With these lessons, operators will be able to experience scenarios that may occur in real life. Operators who can control excavator in the simulator will also do it easily in real life.
Motion Platform Response Strength Adjustment for Excavator Simulator VR
This interface allows you to adjust the real response strength of the motion platform in the VR excavator simulator.
Low: Provides a softer and lighter simulation experience with reduced response strength.
Mid: Offers a balanced experience with moderate response strength for realistic feedback.
High: Delivers the closest performance to real-world conditions with strong and effective feedback.
Additional Features
Power On/Off: Enable or disable the motion platform for use.
Reset: Restore the motion platform to its default settings.
Test Start: Begin a diagnostic test to ensure the motion platform functions correctly.
Test Stop: Halt the diagnostic test and return to normal operation.
These settings and features help tailor the simulator's feedback to match real operational conditions and ensure proper functionalit
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Excavator Simulator Training Scenarios Report System
Detailed Performance Reporting: The simulator includes a comprehensive reporting system that tracks operator performance and identifies areas for improvement. This feature is essential for continuous skill development and effective training outcomes.
Date of Scenario: The specific date when the scenario was conducted.
Scenario Creator: The individual or team who designed and executed the scenario.
Average Score: The average performance score achieved in the scenario.
Task Completion Metrics: Metrics used to assess the completion of tasks within the scenario, such as task accuracy and efficiency.
Time Usage: The total time spent on completing the scenario.
Error-Free Operation: Measures of error-free performance throughout the scenario.
Metrics Explanation: Detailed information on how the above metrics are calculated and assessed.
This report provides a comprehensive overview of scenario performance, highlighting key metrics and evaluation criteria.
Indicator Panel Overview
The panel provides current operational status, temperature readings, and joystick controls. It includes gas and brake pedals, various controls (like lighting and wipers), and critical controls (such as the start switch, main switch, and torque power adjustment).
Panel Status: Displays the panel's current operational status.
Temperature: Shows the system's temperature reading.
Joystick Controls: Manages the joystick for movement and adjustments.
Throttle and Brake Pedals: Controls the gas and brake functions.
Various Controls: Adjusts settings for rabbit mode, lighting, wipers, and more.
Critical Controls: Operates essential functions like the start switch, main switch, and torque power adjustment.
This panel provides essential information and control options for operating the excavator simulator.
Advantages of Using SANLAB's VR Excavator Simulator Training
The Excavator Training VR Simulator eliminates fuel costs, accident risks, and workplace safety concerns, while also reducing operating and maintenance expenses. It offers training without site constraints or weather limitations and produces negligible emissions, making it a cost-effective and eco-friendly solution
No Fuel Costs: The simulator eliminates fuel expenses associated with traditional training methods.
No Accident Risks for Employees: The virtual environment reduces accident risks. It ensures a safe learning experience for all operators.
No Workplace Safety Risks: Virtual excavator simulator training cuts job site safety risks.
Lower Operating Costs: Virtual Excavator training simulator cuts costs of traditional methods, including equipment and facility expenses.
Minimal Maintenance Costs: Excavator simulator VR cuts machine downtime and damage. This lowers maintenance costs.
No site constraints or weather limitations: Operators can train in a virtual environment, free of job site limits and bad weather.
Negligible Emissions: The simulator helps the environment. Power shovel simulator has no emissions from running real machines.
Quantification and Consideration
VR excavator simulator includes a reporting module that can generate outputs in HTML or PDF formats containing the following information at the end of the scenario. The reporting system eliminates record-keeping confusion and makes training more efficient.
- Name of the institution providing education
- Name of the person providing education
- Student name
- Date the course was given
- Total duration of the course
- Torch type and welding piece
- Data from the completed course
- Image of the completed lesson
- Reports of completed lessons