ICTQual Level 6 Diploma in Automotive Engineering 360 Credits – Three Years

Upon successful completion of the ICTQual Level 6 Diploma in Automotive Engineering 360 Credits – Three Years, learners will be able to:

Year 1: Foundation and Core Engineering Principles

Introduction to Automotive Engineering

• Understand the fundamentals of automotive engineering and vehicle systems.
• Identify major components and subsystems in modern vehicles.
• Explore career pathways in the global automotive industry.
• Gain familiarity with automotive terminology, standards, and regulations.
• Develop foundational problem-solving and analytical skills for vehicle engineering.

Mathematics for Automotive Engineering

• Apply advanced mathematics to model and solve automotive engineering problems.
• Use calculus, algebra, and statistics in vehicle design and analysis.
• Perform calculations for dynamics, energy efficiency, and system performance.
• Support decision-making with precise quantitative analysis.
• Develop skills for engineering simulations and computational modeling.

Physics for Automotive Engineering

• Apply core physics concepts to vehicle mechanics, motion, and energy systems.
• Understand principles of thermodynamics, fluid dynamics, and materials behavior.
• Analyze forces, stress, and energy efficiency in automotive applications.
• Support design and performance optimization using physics-based reasoning.
• Enhance practical skills in experimental analysis and data interpretation.

Mechanical Engineering Principles

• Comprehend mechanical systems relevant to vehicles and automotive components.
• Analyze mechanisms, power transmission, and machine elements.
• Apply mechanical principles to improve vehicle performance and reliability.
• Develop problem-solving skills for engineering design challenges.
• Integrate theory with practical vehicle engineering applications.

Automotive Systems and Technology

• Understand vehicle subsystems including engines, braking, and steering systems.
• Explore emerging automotive technologies and trends.
• Apply knowledge to analyze system performance and integration.
• Evaluate innovative solutions in modern automotive design.
• Build skills for practical diagnostics and engineering applications.

Electrical and Electronic Systems in Vehicles

• Comprehend electrical circuits and electronic systems in modern vehicles.
• Apply knowledge of sensors, controllers, and ECU integration.
• Troubleshoot electrical issues and optimize system performance.
• Explore automotive electronics for hybrid and electric vehicles.
• Enhance practical skills with hands-on lab exercises and simulations.

Engineering Materials for Automotive Design

• Understand properties and applications of metals, polymers, and composites.
• Analyze material selection for durability, weight, and performance.
• Apply materials knowledge to automotive design and manufacturing.
• Evaluate material behavior under mechanical and thermal stress.
• Incorporate sustainable materials into engineering solutions.

Vehicle Chassis and Suspension Systems

• Understand chassis design, suspension mechanics, and vehicle dynamics.
• Analyze the effect of suspension on ride comfort and handling.
• Design and optimize chassis systems for safety and performance.
• Apply theoretical knowledge to real-world vehicle structures.
• Develop troubleshooting and testing skills for suspension systems.

Introduction to Vehicle Diagnostics

• Gain practical skills in identifying vehicle faults and system failures.
• Use diagnostic tools and software for engine, transmission, and electronics.
• Develop structured problem-solving and troubleshooting techniques.
• Apply knowledge to improve vehicle reliability and safety.
• Integrate theory with hands-on diagnostic practice.

Manufacturing Processes for Automotive Engineering

• Understand manufacturing techniques used in automotive production.
• Analyze assembly line processes, automation, and quality control.
• Apply process optimization to improve efficiency and cost-effectiveness.
• Explore additive manufacturing and modern fabrication methods.
• Enhance practical understanding of production and manufacturing systems.

Automotive Environmental Issues

• Understand environmental impacts of vehicles, including emissions and waste.
• Explore sustainable practices in design, manufacturing, and operation.
• Analyze strategies for reducing carbon footprint and energy consumption.
• Evaluate government regulations and industry standards.
• Integrate environmental considerations into engineering decision-making.

Health, Safety, and Environmental Management

• Understand occupational health and safety requirements in automotive workshops.
• Implement risk assessment and safety procedures for vehicle engineering.
• Comply with environmental regulations and safety standards.
• Develop awareness of ethical and responsible engineering practices.
• Apply best practices to ensure a safe and sustainable workplace.

Year 2: Advanced Automotive Technologies and Systems

Advanced Engine Technologies

• Analyze internal combustion, hybrid, and electric powertrains.
• Optimize engine performance, efficiency, and emissions.
• Apply design principles to advanced engine systems.
• Understand fuel technologies and alternative energy sources.
• Develop practical skills in engine testing and diagnostics.

Vehicle Dynamics and Handling

• Study vehicle motion, stability, and control systems.
• Analyze handling characteristics and suspension effects.
• Apply theoretical models to real-world vehicle behavior.
• Improve vehicle safety and performance through dynamic analysis.
• Conduct practical tests to assess ride quality and handling.

Advanced Automotive Electronics

• Understand complex vehicle electronics, including ECUs and communication networks.
• Integrate sensors, controllers, and infotainment systems.
• Diagnose and troubleshoot electronic system failures.
• Apply knowledge to hybrid, electric, and autonomous vehicles.
• Develop skills in automotive software and embedded systems.

Transmission and Powertrain Systems

• Analyze gear systems, clutches, and drivetrains.
• Understand power transmission efficiency and optimization.
• Apply principles to design and troubleshoot powertrain components.
• Integrate hybrid and electric powertrain technologies.
• Evaluate performance and reliability in practical scenarios.

Vehicle HVAC Systems

• Understand heating, ventilation, and air conditioning systems.
• Apply design and control principles for comfort and efficiency.
• Troubleshoot HVAC faults and optimize performance.
• Integrate HVAC systems with overall vehicle engineering.
• Ensure compliance with environmental and safety standards.

Vehicle Safety Systems

• Study passive and active safety technologies.
• Analyze crashworthiness, braking, and stability control.
• Apply safety design principles in automotive engineering.
• Evaluate system performance through simulations and testing.
• Ensure compliance with global vehicle safety regulations.

Hybrid and Electric Vehicle Technologies

• Understand electric and hybrid vehicle architectures.
• Analyze battery systems, power electronics, and regenerative systems.
• Design, test, and optimize energy-efficient vehicle solutions.
• Integrate electric propulsion with conventional systems.
• Explore future trends in sustainable mobility.

Automotive Aerodynamics

• Understand airflow, drag, and lift effects on vehicles.
• Apply computational and experimental methods for aerodynamic optimization.
• Enhance fuel efficiency and performance through design modifications.
• Integrate aerodynamics with vehicle stability and handling.
• Develop practical skills in wind tunnel and simulation studies.

Automotive Materials Engineering

• Study advanced materials for high-performance vehicles.
• Analyze composites, lightweight alloys, and durability factors.
• Apply materials selection to reduce weight and improve safety.
• Optimize materials for manufacturing and sustainability.
• Evaluate failure modes and preventive strategies.

Vehicle Assembly and Production Techniques

• Understand assembly line processes and industrial workflows.
• Apply lean manufacturing and automation techniques.
• Optimize production efficiency and quality control.
• Integrate robotics and advanced machinery in automotive production.
• Conduct practical assessments of assembly operations.

Automotive Diagnostics and Troubleshooting

• Develop systematic problem-solving approaches.
• Use diagnostic tools for electronic, mechanical, and hydraulic systems.
• Perform root cause analysis for vehicle faults.
• Apply hands-on skills in workshop and field environments.
• Enhance efficiency in maintenance and repair processes.

Vehicle Testing and Performance Evaluation

• Conduct performance tests for engines, chassis, and safety systems.
• Analyze vehicle dynamics, emissions, and energy efficiency.
• Use advanced instrumentation and software for testing.
• Develop technical reporting and evaluation skills.
• Optimize vehicle performance based on test data.

Year 3: Industry Applications, Management, and Innovation

Advanced Vehicle Design and Prototyping

• Apply CAD and simulation tools for vehicle design.
• Develop prototypes and evaluate performance under real-world conditions.
• Integrate engineering principles for optimized designs.
• Apply innovation and creative problem-solving in projects.
• Prepare for R&D and industrial design careers.

Automotive Control Systems

• Understand electronic control systems in modern vehicles.
• Apply embedded systems to engine, braking, and stability control.
• Optimize system performance through software and hardware integration.
• Diagnose and troubleshoot control system faults.
• Enhance knowledge in autonomous and hybrid vehicle applications.

Automotive Quality Control and Assurance

• Implement quality assurance procedures in automotive production.
• Conduct inspections, audits, and compliance checks.
• Analyze failures and implement corrective actions.
• Ensure adherence to international standards and certifications.
• Develop skills in continuous improvement and process optimization.

Sustainability in Automotive Engineering

• Explore eco-friendly vehicle technologies and manufacturing methods.
• Analyze carbon footprint and energy efficiency improvements.
• Apply sustainable design principles in automotive engineering.
• Evaluate environmental regulations and compliance requirements.
• Promote green innovation and responsible engineering practices.

Automotive Project Management

• Plan, execute, and manage automotive engineering projects.
• Develop skills in budgeting, scheduling, and resource allocation.
• Apply risk management and quality control in projects.
• Enhance leadership and team collaboration abilities.
• Ensure project outcomes align with industry standards and objectives.

Automotive Research and Development

• Conduct experimental and theoretical research in automotive systems.
• Develop innovative solutions for vehicle design and performance.
• Apply statistical and analytical methods for R&D evaluation.
• Integrate emerging technologies into practical engineering projects.
• Present findings through professional reports and presentations.

Vehicle Electromagnetic Compatibility

• Understand EMI/EMC principles and regulations.
• Analyze electromagnetic interference in vehicle electronics.
• Apply design and mitigation strategies for compliance.
• Test and evaluate EMC performance in vehicles.
• Ensure reliability and safety of automotive electrical systems.

Automotive Business and Marketing

• Explore commercial and strategic aspects of the automotive industry.
• Analyze market trends, customer needs, and product positioning.
• Apply business strategies to automotive product development.
• Develop skills in project pitching, marketing, and sales.
• Understand global automotive market dynamics.

Autonomous Vehicles and Future Technologies

• Explore self-driving systems, sensors, and AI applications.
• Analyze navigation, perception, and control technologies.
• Apply engineering principles to future vehicle innovations.
• Evaluate ethical, safety, and regulatory considerations.
• Prepare for careers in autonomous vehicle development.

Vehicle Fleet Management and Operations

• Plan and manage commercial vehicle fleets.
• Optimize operations, maintenance, and logistics.
• Apply data analytics for performance and cost efficiency.
• Ensure compliance with safety and regulatory standards.
• Develop leadership skills for fleet operations management.

Automotive Regulatory Compliance and Standards

• Understand global vehicle regulations and safety standards.
• Ensure compliance in design, manufacturing, and testing.
• Evaluate environmental and ethical regulations.
• Apply industry best practices for certification and approval.
• Promote responsible engineering practices and risk management.

Capstone Project in Automotive Engineering

• Integrate knowledge from all modules into a comprehensive project.
• Conduct vehicle design, prototyping, or advanced research work.
• Demonstrate problem-solving, innovation, and technical expertise.
• Develop professional documentation and presentation skills.
• Showcase readiness for industry, research, or entrepreneurial roles.