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Learning Objectives

At the end of this simulation, you will be able to:

Understand the principles of human factors engineering and its application in aerospace design.
Design ergonomic cockpits, control panels, and seating arrangements to improve comfort and safety for pilots and crew.
Develop strategies to reduce pilot workload, enhance user interface design, and optimize emergency procedures.
Evaluate human-machine interaction for effective control and feedback systems in aerospace vehicles.
Ensure compliance with safety regulations and industry standards for cockpit ergonomics and crew safety.
Receive feedback on design improvements to enhance the overall effectiveness and safety of aerospace systems.

How do virtual labs work?

Enhance students' involvement in science by immersing them in interactive learning scenarios. Create simulations for experiments, provide hands-on training in laboratory techniques, and convey theoretical concepts through captivating visual experiences to improve their overall long-term learning outcomes.

Access web-based simulations that are compatible with laptops, Chromebooks, tablets, and iPads, eliminating the need for software installation.
Incorporate a teacher dashboard for automated grading and monitoring of student progress.
Utilize embedded quizzes to assist students in mastering scientific content.
Comprehensive repository of educational materials, including learning resources, lab reports, videos, theory pages, graphics, and more.

Human Factors and Ergonomics in Aerospace Design

Relevant Course Packages All Course Packages →

Mechanical System Design and Optimization

Enable students to design and optimize complex mechanical systems through XR simulations. The simulation offers virtual scenarios where students can create and refine mechanical systems like engines, HVAC systems, turbines, and gearboxes. They will use interactive tools to adjust system parameters, reduce weight, improve efficiency, and lower production costs. Real-time feedback will guide students on design constraints, feasibility, and cost-effectiveness, helping them develop the skills to optimize mechanical systems for peak performance.

Grounding and Bonding Simulation

Learn proper grounding and bonding techniques to prevent electrical shock and ensure system safety. Through virtual simulations, students will install grounding rods, wires, and bonding systems for electrical panels, appliances, and equipment. Interactive scenarios will allow testing of grounding systems with virtual testers and multimeters, providing real-time feedback on grounding integrity, system safety, and adherence to NEC standards.

Medical Device Design and Prototyping

Immerse students in the principles of medical device design, prototyping, and testing with a cutting-edge XR-powered simulation. Through virtual scenarios, learners can design devices such as prosthetics, implants, diagnostic tools, and wearables, create interactive 3D models, and simulate their functionality, durability, and compliance with regulatory standards.

Trim Work and Finish Carpentry

The Trim Work and Finish Carpentry Simulation trains students in advanced woodworking techniques such as installing trim, baseboards, crown molding, and other intricate details commonly used in carpentry finishing. Virtual scenarios allow students to practice cutting, fitting, and installing trim and moldings around windows, doors, and walls. The simulation includes tutorials on how to miter corners, join pieces, and securely attach trim using nails or adhesives.

Renewable Energy Systems (Solar & Wind)

Learn how to install and maintain renewable energy systems, including solar photovoltaic (PV) systems and wind turbines. Through virtual simulations, students will install solar panels, inverters, and battery systems in both residential and commercial settings. They will also practice wiring wind turbines and integrating them with grid systems or off-grid installations. Real-time feedback will be provided on energy generation efficiency, grid tie-in, and troubleshooting renewable energy systems.

Roof Construction and Truss Assembly

The Roof Construction and Truss Assembly Simulation provides training on roof construction, focusing on the installation of rafters, trusses, and roofing materials. Virtual scenarios guide students through assembling trusses and rafters for various roof designs, including gable, hip, and flat roofs. Interactive exercises allow students to practice installing roof sheathing, underlayment, and roofing materials such as shingles or tiles. Real-time feedback is given on roof slope, weatherproofing techniques, and ensuring the structural integrity of the roof.

LMS Integration

imaginX seamlessly integrates with leading LMS (Learning Management Systems), enabling educators to track student performance and allowing students to maintain their work records. It is compatible with popular platforms such as Canvas, Blackboard, Moodle, Google Classroom, Schoology, Sakai, Brightspace/D2L, and can also be used independently of an LMS.