ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering

The ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering is a specialised two-year programme, structured with 240 credits, designed to equip learners with the advanced knowledge and practical skills required to excel in modern industrial and manufacturing environments. This course is carefully crafted to meet the demands of a rapidly evolving global industry, preparing learners to thrive in areas such as production systems, process optimisation, quality management, automation, and lean manufacturing.

For learners new to the field, this diploma offers a comprehensive foundation in the principles of industrial and manufacturing engineering, combining academic knowledge with practical applications to ensure readiness for diverse engineering roles. For experienced professionals, it provides an opportunity to enhance expertise, upgrade technical competencies, and open pathways to leadership positions within manufacturing and industrial operations.

The programme emphasises real-world industry relevance, with study units designed around engineering design, production planning, supply chain integration, sustainable manufacturing, and project management. Learners gain hands-on experience through simulations, applied projects, and industry-focused case studies, ensuring a strong balance between theory and practice.

Upon successful completion, learners will be equipped with skills highly valued by employers worldwide, including problem-solving, critical analysis, innovation, and decision-making in complex industrial systems. The diploma supports career opportunities across multiple sectors, including automotive, aerospace, energy, electronics, and consumer goods manufacturing, reflecting the global versatility of this qualification.

By completing this course, learners will achieve not only academic growth but also professional recognition, enabling them to contribute effectively to organisational efficiency, technological advancement, and sustainable industrial development.

Course overview

Level 5 International Diploma in Industrial and Manufacturing Engineering

Entry Requirements
Study Units
Learning Outcomes
Future Progression
Centre Requirements
Certification Route

To enrol in ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering, learner must meet the following entry requirements:

Age Requirement: Learners must be at least 19 years old at the time of registration.
Educational Background:A strong educational background is important for success in this diploma. Learners are expected to have completed secondary education or an equivalent qualification, ideally with prior study in mathematics, physics, or related technical subjects. This foundation supports the advanced problem-solving and analytical skills required in industrial and manufacturing contexts.
Professional Experience:While this programme is open to new learners, prior experience in engineering, production management, or manufacturing operations is considered valuable. Those with practical knowledge of industrial systems, quality assurance, or production processes will benefit from enhanced learning outcomes. For fresh learners without direct industry exposure, the programme provides structured guidance to build the necessary expertise from the ground up.
English Proficiency:As the programme involves technical study units and professional communication, learners must demonstrate proficiency in English or the primary language of instruction offered by the centre. Strong reading, writing, listening, and speaking skills are required to engage effectively with course materials, projects, and assessments.
Additional Requirement:Some centres may request supporting documents such as academic transcripts, proof of prior learning, or a statement of purpose outlining career goals. In certain cases, learners may also undergo an initial interview or assessment to evaluate readiness for the programme. These requirements ensure that learners are well-prepared to succeed in the two-year, 240-credit qualification.

This qualification, the ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering, consists of 24 mandatory units.

Year 1 – Foundation and Core Knowledge

Principles of Industrial and Manufacturing Engineering
Engineering Mathematics for Industrial Applications
Fundamentals of Mechanical and Electrical Systems
Materials Science and Manufacturing Processes
Introduction to Computer-Aided Design (CAD)
Engineering Drawing and Technical Communication
Applied Physics for Manufacturing Engineering
Principles of Quality Assurance and Control
Health, Safety, and Sustainability in Engineering
Fundamentals of Production Planning and Control
Professional and Academic Skills for Engineers
Introduction to Automation and Robotics in Manufacturing

Year 2 – Advanced Applications and Integration

Advanced Manufacturing Systems and Technologies
Industrial Automation and Process Control
Lean Manufacturing and Continuous Improvement
Computer-Aided Manufacturing (CAM) Applications
Supply Chain Management and Logistics in Manufacturing
Power Electronics and Drive Systems for Industry
Sensors, Actuators, and Industrial Instrumentation
Advanced Production Planning and Systems Integration
Artificial Intelligence and Smart Manufacturing
Project Management for Engineers and Industrial Leaders
Innovation, Research Methods, and Industrial Strategy
Final Year Industrial Engineering Project (Capstone)

Learning Outcomes for the ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering:

Year 1 – Foundation and Core Knowledge

Principles of Industrial and Manufacturing Engineering

Understand the scope and significance of industrial and manufacturing engineering in global contexts.
Analyse the roles of industrial engineers in optimising production and efficiency.
Evaluate the integration of engineering principles in industrial applications.
Recognise the professional responsibilities within industrial and manufacturing projects.

Engineering Mathematics for Industrial Applications

Apply core mathematical concepts including algebra, calculus, and statistics to engineering problems.
Analyse mathematical models used in industrial and manufacturing systems.
Develop logical reasoning and structured problem-solving approaches.
Use mathematical tools for data-driven decision-making in industrial contexts.

Fundamentals of Mechanical and Electrical Systems

Understand the basic operation of mechanical and electrical systems in industry.
Analyse the integration of energy, power, and motion in industrial applications.
Apply concepts of circuits, drives, and mechanical processes to real scenarios.
Evaluate the efficiency and safety of combined mechanical and electrical systems.

Materials Science and Manufacturing Processes

Understand material properties and their relevance in industrial applications.
Analyse the behaviour of materials during different manufacturing processes.
Apply material selection principles to improve quality and sustainability.
Evaluate the impact of materials on efficiency, durability, and cost.

Introduction to Computer-Aided Design (CAD)

Understand the use of CAD software in industrial design.
Develop accurate technical drawings and models for manufacturing purposes.
Apply CAD techniques to represent industrial components.
Evaluate the role of CAD in product innovation and design optimisation.

Engineering Drawing and Technical Communication

Understand engineering drawing standards and conventions.
Apply communication skills to convey technical designs effectively.
Prepare professional diagrams, schematics, and layouts.
Evaluate the role of technical communication in collaborative projects.

Applied Physics for Manufacturing Engineering

Understand physical principles relevant to manufacturing processes.
Apply concepts of force, motion, and energy in industrial scenarios.
Analyse the effects of physical laws on material behaviour and processes.
Evaluate how applied physics enhances industrial productivity.

Principles of Quality Assurance and Control

Understand the principles of quality assurance in manufacturing.
Apply tools and techniques for quality monitoring and improvement.
Analyse international standards and compliance requirements.
Evaluate the role of quality systems in customer satisfaction and productivity.

Health, Safety, and Sustainability in Engineering

Understand industrial health and safety regulations and practices.
Apply risk management strategies in industrial environments.
Promote sustainable practices in industrial and manufacturing processes.
Evaluate the role of safety and sustainability in long-term growth.

Fundamentals of Production Planning and Control

Understand the principles of production scheduling and planning.
Apply methods for managing workflow, resources, and outputs.
Analyse production systems for efficiency and performance.
Evaluate strategies to balance cost, time, and quality in production.

Professional and Academic Skills for Engineers

Develop academic and professional communication skills.
Apply critical thinking and research techniques to engineering contexts.
Demonstrate teamwork and leadership in industrial projects.
Reflect on skills development and professional growth.

Introduction to Automation and Robotics in Manufacturing

Understand the fundamentals of automation in industrial systems.
Analyse the applications of robotics in manufacturing processes.
Apply automation principles to improve efficiency and safety.
Evaluate the challenges and opportunities of robotics in industry.

Year 2 – Advanced Applications and Integration

Advanced Manufacturing Systems and Technologies

Understand the principles of advanced manufacturing systems.
Analyse technologies driving smart and digital manufacturing.
Apply knowledge of systems integration in complex industrial environments.
Evaluate trends and innovations shaping global manufacturing.

Industrial Automation and Process Control

Understand industrial control systems and their applications.
Apply automation tools to monitor and improve industrial processes.
Analyse efficiency gains from process control techniques.
Evaluate challenges in implementing large-scale automation.

Lean Manufacturing and Continuous Improvement

Understand lean manufacturing principles and their impact on efficiency.
Apply tools such as value stream mapping and Kaizen.
Analyse methods for reducing waste and improving processes.
Evaluate long-term benefits of continuous improvement strategies.

Computer-Aided Manufacturing (CAM) Applications

Understand the applications of CAM in modern production.
Apply CAM tools to design and optimise manufacturing tasks.
Analyse the role of CAM in automation and accuracy.
Evaluate the contribution of CAM to cost and time efficiency.

Supply Chain Management and Logistics in Manufacturing

Understand the fundamentals of supply chain operations.
Analyse the role of logistics in manufacturing efficiency.
Apply supply chain strategies for global and local contexts.
Evaluate the impact of supply chain integration on competitiveness.

Power Electronics and Drive Systems for Industry

Understand power electronic devices and their industrial uses.
Apply drive systems to control industrial machinery.
Analyse the efficiency of power electronics in automation.
Evaluate system performance in large-scale industrial operations.

Sensors, Actuators, and Industrial Instrumentation

Understand the role of sensors and actuators in automation.
Apply instrumentation to monitor and control processes.
Analyse the accuracy and reliability of measurement systems.
Evaluate the importance of instrumentation in quality assurance.

Advanced Production Planning and Systems Integration

Understand advanced planning methods for industrial systems.
Apply integration techniques across production environments.
Analyse workflows for resource and process optimisation.
Evaluate strategies for system-wide efficiency and reliability.

Artificial Intelligence and Smart Manufacturing

Understand AI applications in industrial engineering.
Apply AI tools to enhance manufacturing decision-making.
Analyse smart factory case studies and their outcomes.
Evaluate the role of AI in Industry 4.0 transformation.

Project Management for Engineers and Industrial Leaders

Understand project planning methods for industrial contexts.
Apply project management tools to engineering projects.
Analyse the role of leadership in project success.
Evaluate risk, cost, and resource management strategies.

Innovation, Research Methods, and Industrial Strategy

Understand research approaches in industrial engineering.
Apply innovation techniques to solve engineering challenges.
Analyse industry problems using research and data-driven methods.
Evaluate strategies for sustainable industrial growth.

Final Year Industrial Engineering Project (Capstone)

Integrate knowledge gained across study units into a practical project.
Apply technical, research, and problem-solving skills.
Demonstrate project delivery and professional reporting.
Show readiness for professional roles in industrial and manufacturing engineering.

Completing the ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering opens a wide range of opportunities for learners. This qualification equips individuals with advanced technical knowledge, problem-solving abilities, and practical skills that are highly valued across global industries. Whether learners are freshers building their first career path or professionals seeking to strengthen their expertise, the diploma provides clear routes into specialised employment, professional certification, and further professional training.

Career Opportunities in Industrial Engineering

Access roles such as production engineer, quality engineer, or manufacturing technician.
Pursue opportunities in sectors including automotive, aerospace, electronics, and heavy industries.
Work in roles focused on production planning, process improvement, and systems integration.
Apply skills to supervisory or technical leadership positions.
Contribute to industries where efficiency, innovation, and productivity are key priorities.
Gain recognition as a skilled professional in both national and international job markets.

Progression into Professional Certifications

Use the diploma as a foundation to pursue professional industry certifications.
Align skills with recognised standards in industrial engineering and manufacturing management.
Strengthen employability by obtaining credentials in quality assurance or lean methodologies.
Build pathways into advanced certifications in automation, robotics, or supply chain management.
Prepare for continuous professional development with structured certification tracks.
Meet industry requirements for competence validation in global markets.

Pathways in Industrial Automation and Robotics

Develop expertise to specialise in automation and robotics within manufacturing.
Enter industries where smart technologies and Industry 4.0 are rapidly advancing.
Apply knowledge of sensors, actuators, and instrumentation to automated systems.
Work on projects integrating robotics into large-scale production.
Contribute to designing and implementing intelligent manufacturing solutions.
Progress into roles focused on industrial innovation and digital transformation.

Opportunities in Quality Assurance and Process Improvement

Advance into specialist roles in quality control and assurance.
Apply lean manufacturing and continuous improvement principles to workplace settings.
Support companies in achieving international quality standards and certifications.
Contribute to reducing production errors, waste, and inefficiencies.
Progress into leadership roles focused on process optimisation and product excellence.
Build a strong reputation in industries where reliability and precision are critical.

Supply Chain and Logistics Progression

Take up roles related to supply chain management and industrial logistics.
Apply skills in planning, coordination, and delivery of goods and materials.
Contribute to efficiency in transportation and distribution systems.
Manage supply chain risks and sustainability strategies.
Progress into specialist roles in procurement and operational planning.
Support international industries where global supply chain integration is essential.

Research, Innovation, and Professional Growth

Apply research skills to explore innovative approaches in industrial engineering.
Contribute to developing sustainable and advanced manufacturing practices.
Take part in industrial projects addressing emerging challenges.
Support industries in adopting cleaner, smarter, and more efficient technologies.
Engage in lifelong learning and continuous skill development.
Build a foundation for future leadership and strategic roles in industry.

Approved centres delivering the ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering must maintain the highest academic and professional standards. These requirements ensure learners receive quality teaching, fair assessment, and strong support throughout their studies. Centres must demonstrate the ability to provide an industry-relevant, learner-focused experience with modern facilities and qualified teaching staff.

Accreditation and Approval Standards

Centres must be formally approved and recognised by ICTQual AB.
Compliance with regulatory and awarding standards must be maintained at all times.
Quality assurance procedures should be applied consistently.
Centres must undergo periodic reviews and audits to ensure delivery excellence.
Policies on equality, diversity, and inclusion must be actively upheld.
Learner data and assessment records should be securely maintained.

Qualified Teaching and Assessment Staff

Tutors must have strong academic qualifications in industrial or manufacturing engineering.
Teaching staff should demonstrate relevant professional or industrial experience.
Assessors must be trained and qualified in fair and transparent assessment practices.
Ongoing staff development programmes must be in place.
Staff should be able to provide both academic and career guidance to learners.
Professional memberships and affiliations are encouraged for teaching staff.

Facilities and Learning Resources

Centres must provide fully equipped classrooms with modern teaching aids.
Access to laboratories, CAD software, and simulation tools must be available.
Computer facilities should support design, analysis, and industrial applications.
Resource libraries should include books, journals, and digital learning materials.
Online learning platforms must be accessible for blended or remote study.
Health and safety standards must be prioritised in all technical facilities.

Learner Support and Guidance

Centres should offer academic counselling and mentoring to learners.
Language support must be available for learners needing additional help.
Clear policies for learner welfare and safeguarding should be established.
Career guidance services must be offered to support progression.
Centres should encourage learner participation in workshops, seminars, and projects.
Inclusive support should be provided for learners with special needs.

Assessment and Quality Assurance

Centres must implement fair and consistent internal assessment systems.
Assessment decisions should be subject to regular internal verification.
External quality assurance visits from ICTQual AB must be supported.
Feedback to learners should be timely, constructive, and developmental.
Plagiarism and malpractice policies must be strictly enforced.
Continuous improvement of assessment processes must be prioritised.

Administrative and Operational Requirements

Centres must maintain accurate learner registration and tracking records.
Regular reporting to ICTQual AB should be carried out as required.
Administrative staff must be trained in handling course documentation.
Centres should establish efficient communication channels with learners.
Operational procedures should support smooth programme delivery.
Centres must ensure transparent fee structures and learner policies.

Route for Candidates with No Experience

This pathway is designed for learners who are new to the field of industrial and manufacturing engineering and do not yet have professional experience in production systems, manufacturing operations, or engineering project management.

Admission: Learners enrol at an ICTQual AB approved centre to begin the two-year programme.
Training:The programme covers 24 units over two years, including principles of industrial and manufacturing engineering, engineering mathematics, mechanical and electrical systems, materials and processes, CAD and CAM applications, automation and robotics, quality assurance, lean manufacturing, supply chain management, health and safety, and project management. Practical workshops, case studies, and simulation projects provide hands-on experience in real-world industrial and manufacturing environments.
Assessment:Learners are assessed through assignments, design projects, technical reports, case studies, presentations, practical exercises, and an industrial capstone project. Continuous feedback supports professional development and ensures learners gain the technical, analytical, and managerial competencies required for careers in industrial and manufacturing engineering.
Certification: Successful learners receive the ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering, recognising readiness for operational, supervisory, and project-based roles within the manufacturing and engineering industries.

Route for Experienced and Competent Candidates

This pathway is intended for learners who already have substantial professional experience in industrial operations, manufacturing processes, production systems, or related engineering fields.

Eligibility:Learners must provide evidence of at least five years of verified professional experience in areas such as production management, process optimisation, quality control, automation, or engineering project delivery. Evidence may include employer references, performance records, technical reports, or a professional portfolio demonstrating competence aligned with programme outcomes.
Assessment of Competence: Experienced learners are not required to complete the full two-year programme. Centres assess competence through structured interviews, professional discussions, portfolio evaluations, and evidence-based assessments aligned with the diploma’s learning outcomes.
Evidence Submission: Learners submit portfolios containing design projects, process improvement initiatives, quality assurance records, production optimisation reports, or other examples of professional work. Centres may request additional verification to confirm authenticity and competence.
Knowledge and Understanding:Where minor gaps are identified, learners may complete bridging modules, workshops, or targeted study sessions to ensure all programme outcomes are fully achieved.
Certification:Learners who successfully demonstrate competence are awarded the ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering, recognising both practical expertise and alignment with international industry standards.

This dual pathway ensures that both new learners and experienced professionals can achieve a recognised qualification while developing advanced skills relevant to modern industrial and manufacturing engineering roles.

FAQs

The ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering is a globally recognised qualification designed to equip learners with essential knowledge, practical skills, and technical expertise in industrial operations and manufacturing processes. This two-year, 240-credit programme covers areas such as automation, production planning, quality control, supply chain management, and advanced manufacturing technologies. Learners gain both theoretical understanding and hands-on experience, preparing them for diverse roles across the global industrial and manufacturing sectors.

This course is suitable for learners who are either starting their journey in industrial and manufacturing engineering or professionals seeking to enhance their skills and career prospects. It is ideal for individuals aiming to work in manufacturing industries, production planning, automation, quality assurance, supply chain operations, or industrial project management. Whether learners are new to the field or already have industry experience, the programme provides the technical and managerial expertise required to meet the demands of modern industrial environments.

To enrol in the ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering, learners must meet specific entry requirements. The minimum age for admission is 19 years. Learners should have a solid educational background at a recognised secondary or equivalent level, ideally with a focus on science, mathematics, or engineering-related subjects. While prior professional experience is not mandatory for fresh learners, individuals with some industry exposure will find it beneficial. Proficiency in English is required to follow the programme effectively, and centres may request additional documentation, such as identification or academic transcripts, to confirm eligibility.

ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering Studies course is offered in various formats, including online, in-person, or a combination of both. Participants can choose the format that best fits their schedule and learning preferences. But final decision is made by ATC.

Yes, ICTQual AB Level 5 International Diploma in Industrial and Manufacturing Engineering of 24 mandatory assessments. These assessments are designed to evaluate participants’ comprehension of course material and their capacity to apply concepts in practical situations. It is mandatory to pass all assessments to achieve this qualification.