Crash Testing and Safety Systems Design
Crash Testing and Safety Systems Design focuses on vehicle crash testing and safety systems design, utilizing XR simulations to analyze crashworthiness and develop occupant protection strategies.
Showing 145 - 160 of 322 results
Hybrid and Alternative Fuel Technologies
Hybrid and Alternative Fuel Technologies provides an in-depth exploration of hybrid vehicle systems and alternative fuel technologies, including hydrogen, compressed natural gas (CNG), and biofuels. Through XR-based simulations, students will study the operation and integration of hybrid powertrains, energy storage sys
Vehicle Diagnostics and Maintenance
Vehicle Diagnostics and Maintenance focuses on vehicle diagnostics, troubleshooting, and routine maintenance procedures. Students will use virtual diagnostic tools to identify issues in various vehicle systems, including the engine, transmission, electrical systems, and brakes. They will also learn how to use OBD-II sc
Transmission Systems and Gearbox Design
This module focuses on automotive transmission systems, including manual, automatic, and CVTs. It provides students with a hands-on approach to understanding the design and functionality of various transmission components such as gears, clutches, and differentials. Through virtual simulations, students will learn about
Automotive Aerodynamics and Wind Tunnel Testing
Gain insights into vehicle aerodynamics using XR-based wind tunnel simulations to optimize performance and fuel efficiency.
Chassis Design and Structural Analysis
Explore the principles of chassis design and structural analysis, leveraging XR simulations to study load distribution, material selection, and crashworthiness.
Manufacturing Processes and Assembly Techniques
Gain insights into automotive manufacturing methods, including assembly, welding, and quality control, with a focus on automation and lean principles through XR-based simulations.
Electric Vehicle (EV) Technology and Battery Management
Dive into the world of electric vehicle (EV) systems and gain practical expertise in designing and managing critical components, including batteries, motors, and charging systems.
Automotive Electronics and Control Systems
Delve into the realm of advanced automotive electronics, focusing on the integration of sensors, actuators, and electronic control units (ECUs). This XR-enabled module combines immersive environments with interactive tools to provide hands-on experience in designing and optimizing vehicle electronic systems.
Vehicle Dynamics and Performance Analysis
Delve into the science of vehicle dynamics with this immersive XR simulation. Students can explore vehicle stability, handling, and ride comfort in various scenarios, analyzing how factors like acceleration, braking, and cornering affect overall vehicle performance. Using virtual simulations, students can test differen
Engine Design and Powertrain Systems
Explore the intricate world of engine design and powertrain systems in a fully immersive XR environment. This simulation allows students to engage with virtual 3D models of both gasoline and diesel engines. Students can disassemble, study, and reassemble components like pistons, cylinders, crankshafts, and fuel injecto
Human Factors and Ergonomics in Aerospace Design
Explore human factors engineering in aerospace design with XR simulations, focusing on improving cockpit layouts, pilot comfort, and crew safety. Students can design ergonomic cockpits, control panels, and crew seating arrangements while addressing the challenges of pilot workload reduction and enhancing the user inter
Fatigue and Failure Analysis of Aerospace Components
Dive into the analysis of fatigue and failure in aerospace components with XR-powered simulations. In virtual scenarios, students analyze crack propagation, stress concentrations, and fatigue loading on critical parts of aircraft and spacecraft. Interactive lessons allow for predicting failure points, analyzing materia
Rocket Propulsion and Launch Systems
Explore the principles of rocket propulsion and the dynamics of launch systems through XR-powered simulations. Students engage in virtual rocket labs where they design and analyze rocket engines, simulate propellant flow, and study thrust and trajectory. Interactive scenarios allow students to gain a deeper understandi
Structural Dynamics and Vibration Analysis
Delve into the analysis and mitigation of vibrations in aerospace structures to enhance safety and performance. This XR-enabled simulation provides students with virtual scenarios where they can study vibration patterns in aircraft and spacecraft structures using modal analysis techniques. Interactive lessons on dampin
Robotics and Unmanned Aerial Vehicles (UAVs)
Explore the world of designing, building, and controlling Unmanned Aerial Vehicles (UAVs) and aerospace robotics for autonomous flight. In this simulation, students will gain hands-on experience by programming UAVs for specific missions, including navigation, obstacle avoidance, and data collection. Using XR-enabled en