ICTQual AB Level 6 International Diploma in Industrial and Manufacturing Engineering

Upon successful completion of the ICTQual AB Level 6 International Diploma in Industrial and Manufacturing Engineering, learners will be able to:

Year 1 – Foundation in Industrial and Manufacturing Engineering

Principles of Industrial and Manufacturing Engineering

• Understand fundamental principles and concepts of industrial and manufacturing engineering.
• Develop skills to analyse production systems and workflow processes.
• Apply engineering principles to optimise manufacturing efficiency.
• Identify challenges in industrial operations and propose solutions.
• Build a foundation for advanced studies in manufacturing technologies.

Engineering Mathematics

• Apply mathematical methods to solve engineering and manufacturing problems.
• Analyse data for production, quality, and operational decision-making.
• Develop competency in algebra, calculus, and statistics for engineering applications.
• Use mathematical modelling for process optimisation and system analysis.
• Enhance problem-solving and analytical thinking skills in engineering contexts.

Fundamentals of Mechanical and Electrical Engineering

• Understand the basics of mechanical and electrical systems used in industry.
• Apply core principles to analyse machinery and automation systems.
• Develop foundational knowledge for design and maintenance of equipment.
• Integrate electrical and mechanical concepts in practical manufacturing scenarios.
• Prepare for advanced engineering modules in automation and control systems.

Materials Science and Engineering

• Analyse the properties and applications of engineering materials.
• Select appropriate materials for manufacturing processes and products.
• Understand material testing, behaviour, and lifecycle considerations.
• Develop skills for material optimisation in production efficiency.
• Incorporate sustainability considerations in material selection.

Engineering Drawing and CAD

• Develop technical drawing and computer-aided design (CAD) skills.
• Create accurate engineering schematics for manufacturing and design purposes.
• Interpret and analyse technical drawings for production planning.
• Apply CAD tools to simulate and visualise components and assemblies.
• Enhance spatial awareness and design precision in engineering projects.

Introduction to Manufacturing Processes

• Understand common manufacturing processes and techniques.
• Analyse the advantages and limitations of various production methods.
• Apply process selection for efficient production planning.
• Gain insights into mass production, batch, and custom manufacturing systems.
• Develop practical awareness of industrial manufacturing workflows.

Basics of Automation and Control Systems

• Understand principles of automation in industrial settings.
• Analyse control systems for machinery and production lines.
• Develop skills to integrate automated solutions in manufacturing processes.
• Recognise the role of sensors, actuators, and PLCs in industrial operations.
• Build foundational knowledge for advanced automation modules.

Production Planning and Operations Management

• Develop strategies for efficient production planning and scheduling.
• Apply operational management techniques to optimise resource utilisation.
• Understand inventory control, workflow coordination, and process efficiency.
• Analyse production data for informed decision-making.
• Build skills to manage operations in industrial and manufacturing environments.

Quality Fundamentals and Inspection Techniques

• Understand core principles of quality assurance and control.
• Develop skills in inspection, testing, and compliance with standards.
• Analyse manufacturing processes for quality improvement.
• Apply techniques for defect detection and process optimisation.
• Build foundational knowledge for advanced quality management studies.

Health, Safety, and Environmental Practices in Engineering

• Understand workplace health and safety regulations in industrial environments.
• Apply risk assessment and mitigation strategies in manufacturing processes.
• Develop awareness of environmental sustainability in engineering operations.
• Promote safe working practices in production and assembly lines.
• Integrate HSE principles into daily engineering tasks and projects.

Communication and Technical Report Writing

• Develop professional written and verbal communication skills.
• Prepare technical reports, documentation, and project presentations.
• Communicate complex engineering concepts clearly and effectively.
• Collaborate and present ideas within interdisciplinary teams.
• Enhance professional competency in industrial engineering communication.

Introduction to Project Management in Engineering

• Understand fundamental principles of project management in engineering.
• Plan, execute, and monitor engineering projects effectively.
• Develop skills in resource allocation, scheduling, and risk management.
• Analyse project performance using modern management techniques.
• Prepare for advanced project management challenges in manufacturing.

Year 2 – Intermediate Studies in Industrial and Manufacturing Engineering

Manufacturing Systems and Technology

• Understand modern manufacturing systems, technologies, and production methodologies.
• Analyse the efficiency and effectiveness of different manufacturing systems.
• Apply knowledge to optimise production processes and workflow.
• Integrate automation and digital tools into manufacturing operations.
• Evaluate emerging technologies for industrial applications.

Advanced Production Planning and Scheduling

• Develop advanced techniques for production planning and scheduling.
• Analyse production bottlenecks and optimise resource allocation.
• Implement scheduling tools and software for efficient operations.
• Monitor and control production timelines to meet targets.
• Enhance decision-making skills in complex manufacturing environments.

Lean Manufacturing and Continuous Improvement

• Understand principles of lean manufacturing and waste reduction.
• Apply continuous improvement strategies to production systems.
• Evaluate processes for efficiency, quality, and cost-effectiveness.
• Implement Kaizen, 5S, and other lean methodologies.
• Promote a culture of operational excellence in manufacturing.

Industrial Automation and PLC Programming

• Gain practical skills in programming and operating industrial PLCs.
• Understand automation systems and their applications in production.
• Integrate PLC-controlled systems into manufacturing workflows.
• Analyse and troubleshoot automated processes for efficiency.
• Prepare for advanced automation and Industry 4.0 applications.

Supply Chain and Logistics Management

• Understand supply chain operations, logistics, and distribution networks.
• Apply strategies for inventory control, procurement, and material handling.
• Optimise supply chain performance and reduce operational costs.
• Analyse global logistics systems for industrial applications.
• Develop skills for efficient management of manufacturing supply chains.

Mechanical Design and Manufacturing Processes

• Analyse mechanical components and design requirements for manufacturing.
• Apply engineering principles to mechanical systems and production methods.
• Understand material selection, tolerances, and quality in manufacturing.
• Develop skills in mechanical process optimisation and efficiency.
• Integrate design and manufacturing principles for production success.

Industrial Maintenance and Reliability Engineering

• Understand principles of industrial maintenance and reliability.
• Develop preventive and predictive maintenance strategies.
• Analyse machinery and equipment performance to reduce downtime.
• Apply reliability engineering techniques to enhance production efficiency.
• Implement maintenance plans to support sustainable manufacturing.

Computer-Aided Manufacturing (CAM)

• Develop skills in computer-aided manufacturing software and applications.
• Create efficient machining, fabrication, and assembly simulations.
• Integrate CAM with design and production processes.
• Analyse and optimise manufacturing workflows using digital tools.
• Enhance precision, speed, and productivity in industrial operations.

Data Acquisition and Process Monitoring

• Understand techniques for collecting and analysing manufacturing data.
• Monitor processes for performance, quality, and safety.
• Implement process control strategies to optimise production.
• Use real-time data for informed operational decisions.
• Enhance productivity through efficient process monitoring.

Sustainable Manufacturing and Green Engineering

• Apply sustainability principles in manufacturing operations.
• Analyse environmental impact of production systems.
• Implement energy-efficient, waste-reducing, and eco-friendly processes.
• Promote green engineering practices in industrial operations.
• Develop strategies for corporate social responsibility in manufacturing.

Applied Research Methods in Engineering

• Understand research methodologies and techniques for engineering projects.
• Analyse and interpret data for industrial applications.
• Conduct investigations to solve practical manufacturing problems.
• Develop evidence-based recommendations for process improvements.
• Prepare reports and presentations for research and industry use.

Human Factors and Ergonomics in Manufacturing

• Understand principles of ergonomics and human factors in production.
• Analyse workplace design for safety, comfort, and efficiency.
• Implement ergonomic solutions to reduce injuries and enhance productivity.
• Evaluate human-machine interactions in industrial systems.
• Promote workforce well-being and operational efficiency.

Year 3 – Advanced Studies in Industrial and Manufacturing Engineering

Smart Manufacturing and Industry 4.0

• Understand concepts of Industry 4.0, smart factories, and digital manufacturing.
• Apply IoT, cyber-physical systems, and automation in production processes.
• Analyse data-driven manufacturing and predictive maintenance systems.
• Integrate smart technologies to enhance efficiency and competitiveness.
• Prepare for leadership roles in advanced industrial environments.

Advanced Manufacturing Technologies (Additive, CNC, etc.)

• Gain expertise in additive manufacturing, CNC machining, and precision engineering.
• Analyse suitability of advanced technologies for industrial applications.
• Apply modern fabrication methods to product development and production.
• Optimise manufacturing processes for quality and efficiency.
• Integrate innovative technologies into industrial workflows.

Robotics and Autonomous Systems in Manufacturing

• Understand principles of robotics and autonomous systems.
• Apply robotics to automate production processes and material handling.
• Analyse robot integration and performance in manufacturing operations.
• Develop skills to programme, maintain, and optimise robotic systems.
• Implement autonomous solutions to improve productivity and reduce errors.

Advanced Quality Management and Six Sigma

• Apply Six Sigma and advanced quality management techniques.
• Analyse processes for defect reduction and performance improvement.
• Implement continuous improvement strategies to meet quality standards.
• Evaluate statistical process control and quality assurance systems.
• Develop expertise in managing organisational quality initiatives.

Cyber-Physical Systems and IoT in Manufacturing

• Understand cyber-physical systems and IoT applications in industry.
• Integrate real-time monitoring and control of manufacturing processes.
• Analyse data from interconnected devices for operational decisions.
• Implement intelligent systems to optimise production and supply chains.
• Prepare for Industry 4.0 and digital transformation in manufacturing.

Supply Chain Optimisation and Global Operations

• Analyse global supply chain networks and operations.
• Develop strategies for efficient procurement, logistics, and distribution.
• Optimise production and inventory for global competitiveness.
• Implement lean and agile supply chain practices.
• Evaluate supply chain performance using modern analytical tools.

Advanced Process Engineering and Simulation

• Model and simulate complex industrial processes for optimisation.
• Analyse production systems for efficiency, reliability, and quality.
• Implement process improvements using simulation data.
• Apply engineering principles to advanced manufacturing challenges.
• Develop practical skills in process design, testing, and evaluation.

Innovation and Product Development in Engineering

• Understand principles of product design and development.
• Analyse market and technological trends for innovative solutions.
• Apply creative problem-solving to design new products and processes.
• Integrate engineering, business, and manufacturing knowledge in product development.
• Prepare products for industrial implementation and commercialisation.

Professional Ethics and Sustainability in Manufacturing

• Apply ethical principles in industrial and manufacturing decisions.
• Promote sustainable practices and environmental responsibility.
• Analyse social and economic impacts of manufacturing operations.
• Implement corporate social responsibility initiatives.
• Develop leadership skills with ethical and sustainable awareness.

Technology Entrepreneurship and Business Development

• Understand entrepreneurship principles in manufacturing technology.
• Analyse business opportunities and market needs for industrial innovations.
• Develop business plans for technology-driven ventures.
• Apply financial and managerial knowledge to new industrial enterprises.
• Integrate technical expertise with business strategy for growth.

Infrastructure and Facility Planning for Manufacturing Systems

• Plan industrial facilities for optimal workflow and efficiency.
• Analyse plant layout, equipment placement, and production requirements.
• Implement safety, environmental, and operational standards in facility design.
• Optimise manufacturing infrastructure for cost, time, and resource efficiency.
• Prepare for large-scale industrial planning and operations management.

Final Year Major Project (Capstone Project)

• Conduct independent research or applied industrial project.
• Integrate knowledge from all prior units into a comprehensive solution.
• Analyse, design, and implement a real-world industrial or manufacturing problem.
• Demonstrate professional reporting, presentation, and project management skills.
• Achieve practical competence and readiness for global industrial careers.