Programme

Technology / Industrial and Production Engineering

Overview

Degree awarded:
  • M.E.M
  • M.Phil
  • M.Phil/Ph.D
  • M.Sc
  • Ph.D
Programmes:
  • Master of Science in Industrial and Production Engineering (Engineering Management)
  • Master of Science in Industrial and Production Engineering (Ergonomics/ Human Factors Engineering)
  • Master of Science in Industrial and Production Engineering (Systems Engineering)
  • Master of Science in Industrial and Production Engineering (Production and Manufacturing Engineering)
  • Master of Engineering Management in Logistics and Supply Chain Management
  • Master of Science in Industrial and Production Engineering (Ergonomics and Human Factors Engineering)
  • Master of Science in Industrial and Production Engineering (Operations Research)
  • Master in Engineering Management (Maintenance Management)
Field of interest:
  • Engineering Management
  • Ergonomics
  • Ergonomics and Human Factors Engineering
  • Ergonomics/Human Factors Engineering
  • Not Applicable
  • Operation Research
  • Operations Research
  • Production and Manufacturing Engineering
  • Systems Engineering
Entry requirements:

    General Regulations Governing Admission to Higher Degree Programmes

    • Candidates for admission to higher degree programmes shall normally be graduates of the University of Ibadan or other Universities/Institutions recognised by the Senate. Admission shall be made by the Postgraduate College on the recommendation of the appropriate Faculty Postgraduate Committee.
    • Candidates without any previous higher degrees in the relevant discipline may be admitted only to either the Degree of Master or the Professional Degree of Master.
    • Candidates with recognised “Research Higher” Degree in the relevant discipline may be admitted to the M.Phil or Ph.D. degree programmes as appropriate, on the recommendation of the appropriate Faculty Postgraduate Committee.
    • A candidate admitted to the degree of Master of University of Ibadan who obtained a weighted average mark of 55.0 – 59.9%, or a CGPA of between 4.0 and 4.9 may be offered provisional admission to the M.Phil./Ph.D programmes. Such candidates shall be assessed within three semesters of full time and four semesters of part time registration for the M.Phil/Ph.D to Ph.D conversion. This shall also apply to students who graduated from other universities

    SPECIAL WAIVER FOR MATURED APPLICANTS

    • All University of Ibadan graduates should be admitted to Postgraduate programme with the ordinary level criteria existing at the time their first admission. Candidate who did not fulfill the requirements as at the time of their admission are not eligible for consideration.
    • Special consideration may be given to candidates, who obtained their first degree not less than 20 years from the time of seeking admission to any postgraduate programmes. Such candidates must have been found to possess special skills or abilities and professionally or academically engaged during the period of 20 years.
How to apply:
Apply online

Industrial Production and Engineering is a field of study that focuses on the efficient production and management of goods and services in various industries. The course provides students with a comprehensive understanding of industrial processes, systems, and technologies, as well as the principles of management and optimization. Here is a summary of the course overview for Industrial Production and Engineering:

Industrial Engineering Fundamentals: 

  • This course provides an introduction to the fundamental concepts and principles of industrial engineering. Students learn about industrial systems, processes, and operations, as well as the tools and techniques used to improve efficiency and productivity. They study topics such as work measurement, production planning and control, and quality management.

Manufacturing Systems Engineering: 

  • This course focuses on the design and management of manufacturing systems. Students learn about different manufacturing processes, production technologies, and automation systems. They study topics such as production line design, process optimization, facility layout, and lean manufacturing principles.

Supply Chain Management: 

  • This course explores the management of the supply chain, including the procurement, production, and distribution of goods and services. Students learn about inventory management, logistics, demand forecasting, and supplier relationship management. They study strategies to optimize the supply chain and improve overall operational efficiency.

Operations Research: 

  • This course introduces students to operations research techniques for decision-making and optimization in industrial settings. Students learn about mathematical modeling, linear programming, simulation, and queuing theory. They apply these techniques to solve complex problems related to production planning, resource allocation, and process optimization.

Quality Management Systems: 

  • This course focuses on the principles and practices of quality management in industrial settings. Students learn about quality control methods, statistical process control, Six Sigma, and Total Quality Management (TQM). They study techniques to ensure product quality, improve processes, and meet customer satisfaction.

Industrial Safety and Risk Management: 

  • This course addresses the importance of safety in industrial environments. Students learn about risk assessment, hazard identification, safety regulations, and emergency response planning. They study techniques to prevent accidents, ensure workplace safety, and manage occupational health risks.

Project Management: 

  • This course covers the principles of project management in industrial settings. Students learn about project planning, scheduling, budgeting, and resource management. They study techniques to effectively manage projects, monitor progress, and meet project objectives.

Few/Some of the Course Content

TIE  734Terotechnology
TIE  731 Advanced Engineering Economics
TEM702Engineering Optimisation
TIE  702Research Methodology for Engineers
TIE  799Seminar
TIE 790Project 
TIE 751 Ergonomics
TIE 750Product Development
TIE 746 Advanced Manufacturing Process
TIE 742 Production-Inventory Systems Design
TIE 741Advanced Work Systems Design
TIE 738Engineering Organisation and Management
TIE 734Terotechnology
TIE 731 Advanced Engineering Economics
TIE 727Computer Applications and Software Development
TIE 726Energy Systems Modelling
TIE 723Applied Systems Analysis
TIE 722 System Simulation
TIE 715Machine/Activity Scheduling
TIE 712Applied Optimisation
TIE 711Statistical methods for Engineers 
TIE 702Research Methodology for Engineers

Entry Requirement

Facilities

Career Path

Graduates of Industrial Production and Engineering programs have diverse career opportunities in various industries. Some potential career paths include:

Industrial Engineer: 

  • Graduates can work as industrial engineers, responsible for improving production processes, optimizing resource utilization, and enhancing operational efficiency. They may work in manufacturing companies, logistics firms, or consulting agencies.

Operations Manager: 

  • Graduates can pursue careers as operations managers, overseeing production operations, supply chain management, and process improvement initiatives. They may work in manufacturing plants, distribution centers, or service organizations.

Quality Assurance Manager: Graduates can work as quality assurance managers, responsible for implementing and managing quality control processes and ensuring product and process compliance with industry standards. They may work in manufacturing, healthcare, or food processing industries.

Supply Chain Analyst: 

  • Graduates can work as supply chain analysts, analyzing supply chain data, optimizing inventory levels, and identifying opportunities for cost reduction and process improvement. They may work in logistics companies, retail organizations, or supply chain consulting firms.

Project Manager: 

  • Graduates can pursue careers as project managers, leading and managing industrial projects from conception to completion. They may work in construction, engineering, or manufacturing industries, handling projects related to facility expansion, process optimization, or technology implementation.

Process Improvement Consultant: 

  • Graduates can work as consultants, helping organizations identify inefficiencies, implement process improvements, and optimize operational performance. They may work for consulting firms or operate as independent consultants.

Research and Development Engineer: 

Graduates can work in research and development roles, focusing on innovation and the development of new products or processes. They may work in research institutions, technology companies, or manufacturing companies.


These career paths highlight the opportunities available to graduates of Industrial Production and Engineering programs, where they can contribute to improving efficiency, productivity, and quality in various industries.

Supervisor(s)

Fees

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