ELECTRIC VEHICLE TRAINING SIMULATOR

The electric vehicle training simulator provides individuals with comprehensive training in a virtual environment to learn all components of electric vehicles and perform maintenance in case of malfunctions.

Learning Technologies
EVMPro+ Electric Vehicle Training Simulator

The electric vehicle training simulator is designed to enable individuals to learn about all components of electric vehicles and perform maintenance in case of failures in a virtual environment. The simulation environment, which includes rich scenario content allows for realistic execution of tasks such as motor assembly, vehicle assembly, battery creation, vehicle locking and unlocking. It offers instructors the ability to configure vehicles while providing students the opportunity to work with different types of vehicles, motors and batteries.

The simulator educates on the structure, components, operation and maintenance principles of electric vehicles at both theoretical and practical levels. The software also teaches occupational health and safety processes specific to electric vehicles, ensuring a safe working environment at high voltages. By utilizing virtual reality (VR) and augmented reality (AR) technologies, the simulator makes electric vehicle maintenance training more engaging and interactive. VR and AR allow users to closely examine the components and operations inside electric vehicles.

The electric vehicle training simulator can measure students' performance and provide feedback, making the learning process more effective. Additionally, electric vehicle training simulators are more cost-effective and reduce risks compared to training with real vehicles. The electric vehicle training simulator offers innovative training materials based on the latest research and applications in electric vehicle technologies and maintenance procedures. This ensures that students and technicians have up-to-date knowledge and skills in the industry.

Simulator Highlights

The software is designed to be fully controllable with VR headsets and controllers.

It can simulate maintenance procedures thanks to current technology and a highly reliable motion tracking system.

It provides a working environment in 4 different application areas: Theoretical training, theoretical test, practical training, and practical test.

EVMPro+ includes various scenarios for recognizing assembly equipment, selecting appropriate tools for assembly and performing assembly tasks with the selected tools.

It offers opportunities to specialize in specific areas of electric vehicle technologies, such as battery technologies or electric motors.

It provides training on the electronic systems of electric vehicles, as well as calibration and adjustment of sensors.

Users can track their progress through repeatable exercises and receive real-time feedback.

Theoretical and practical test applications allow users to test their knowledge.

The simulator provides practical experience and knowledge in working safely with high-voltage systems.

It features a user-friendly interface.

With reporting capabilities, it allows tracking of user progress.

It offers assembly and disassembly scenarios for 2 different types of charging stations: AC and DC.

Electric vehicle training simulator are more cost-effective and reduce risks compared to training with real vehicles.

It records and reports the scenario duration, total score, success status, success rate and safety violations during the user's training.

It helps users learn many details of electric vehicle and charging station technology through rich scenario content.

Software Features

The software is designed to be completely controllable with VR headsets and controllers. After launching the software, students can select and start the training they wish to see from the menus.

The software runs at a minimum of 60 fps.

512 / 1024 and 2K (2048 pixel) texture atlases are used in the software.

In the software, main objects cover at least one atlas, while less important and non-interactive objects share the same atlas to help optimize FPS in rendering.

TGA texture format is used in the software. TGA is a lossless compressed texture format that occupies less space.

The software transfers details from high-poly 3D models to low-poly models using normal map textures.

Optimization is achieved with low-poly models while preserving high-poly details using normal maps.

High-poly models have a high polygon structure and detailed 3D objects, which are challenging for real-time usage optimization. Low-poly models have a low polygon structure, detailed 3D objects suitable for real-time usage and optimize performance. Normal maps capture surface details caused by light in a two-dimensional format.

Users can choose from different models of electric vehicles and learn their specifications and maintenance requirements.

It includes the simulation of battery and electrical system maintenance, which are unique features of electric vehicles. Users can check the charge status and receive alerts when battery maintenance is required.

The simulation helps users identify and repair possible faults in the vehicle.

The electric vehicle training simulator has updatable software as electric vehicle technology continues to evolve. It provides users with current information on new vehicle models, updated maintenance procedures and technical specifications.

During the simulation, errors made by users are monitored in real-time and necessary guidance can be provided.

It offers the capability to save user-based data in a database for later use. Including training sessions, results and analyses.

The software interface can be used in Turkish, English and other languages according to preference.

Equipment Requirements

• 1 simulation computer
• 1 monitor/TV
• 1 virtual reality glasses
• 1 stand

Virtual Reality Support

Virtual Reality (VR) support enhances the training process by providing operators with a realistic experience. By integrating VR technology into the simulator, operators can experience real-world scenarios and situations through simulations. VR support enables operators to gain flexibility and the opportunity to identify errors immediately.

Different Engine Types

In the electric vehicle training simulator, different types of motors can be operated. These motor types include asynchronous motors, hybrid motors, HUB motors, PM motors and synchronous motors. The electric vehicle training simulator allows users to familiarize themselves with various types of motors used in electric vehicles and practice maintenance and repair tasks. Users can learn the operating principles, maintenance requirements and repair methods of different motor types, preparing them for real-world applications.

Electrical Power Control Units

In the electric vehicle training simulator, various electrical power control units are used. These units are necessary during simulations to manage, control and maintain the systems of electric vehicles. Various units such as inverters, converters, integrated charging devices and AC/DC converters enable users to effectively simulate the electrical systems of electric vehicles.

Real Time Graphics and Visuals

Thanks to detailed graphics and realistic visuals, operators encounter various scenarios during the simulation and can experience real-world conditions. Real-time graphics and visuals allow operators to simulate different weather conditions, times of day and seasons. The simulation helps operators learn how to work in various conditions and understand how to adapt to them.

Sensors and Data Collection Devices

The simulator includes advanced sensors and data acquisition devices that enable real-time data collection and analysis during simulations. Users can monitor and analyze various parameters such as vehicle system performance, temperature, pressure, speed and others. This allows them to diagnose potential issues in vehicle systems more quickly. Advanced sensors accurately measure data from different components of the vehicle and provide this information to the users for access and analysis.

Occupational Health and Safety Cabinet

In the electric vehicle training simulator a safety cabinet is used. This cabinet contains the equipment necessary for ensuring the safety of users and for intervening in emergency situations. It includes personal protective equipment, emergency equipment, insulated tool sets and temporary protection equipment.

Quantification and Consideration

The electric vehicle training 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.