Postgraduate Certificate | Smart Operations and Maintenance in Industry 2024-2025

Industry is digitally transforming, and actionable intelligence is key to implementing the right technologies in a broader transformation strategy. 

This postgraduate programme is jointly organised by Ghent University and KU Leuven. It focuses on the most relevant and essential industry 4.0 (I4.0) technologies and concepts related to operations and maintenance, for an industrial production context. 

‘Operational excellence’ is an omnipresent objective in industry and is especially relevant for operationally intensive sectors, such as the manufacturing industry. They are subject to the I4.0 transformation, because operations, in particular, lend themselves to (flexible) automation.

Operations are inextricably linked to the maintenance phase. Maintenance is aimed at allowing operational processes to run as smoothly and undisturbed as possible by ensuring that all equipment and infrastructure required for production is always working 100% efficiently.

This programme teaches how both operational and maintenance processes can be optimised by making them ‘smart’, using new (I4.0) technologies, such as robotics, big data analytics, digital twins, cloud computing, etc. The programme covers technologies that facilitate an advanced digitalisation of product and process information (e.g., smart sensors), technologies that are used in production and maintenance (e.g., cobots),  and technologies that connect production equipment/assets and people (e.g., Industrial IoT platforms).

The postgraduate programme Smart O&M in Industry aims at three different kinds of engineers:
1. Recently graduated students
2. Professionals
3. International students

Immediate admission is granted to those holding a master’s degree in Engineering Science or Engineering Technology with majors in Mechanical Engineering, Electrical Engineering, Electromechanics, Machine and Production Automation, Electronics-ICT, Energy, and Business Systems Engineering and Operations Research.

If you do not hold one of the aforementioned master’s degrees, or if you hold a degree in an entirely different field of study, your application will still be considered if you can demonstrate the necessary academic requirements, equal to having a solid engineering background, through a CV and letter of motivation. The inter-university programme committee will assess your application.

DIGITAL TWIN (6 ECTS)

Through lectures and illustrative use cases, this course gives students an in-depth view of how to define a Digital Twin, its essential building blocks, and how to validate and use it to create added value in an industrial setting. High computing power at low costs, reliable and high bandwidth sensorisation and communication, and new computational modelling techniques have enabled us to simulate the physical world in a virtual one. It has led to the Digital Twin concept, a virtual replica that acts identically as a physical asset and remains synchronised with the asset during the lifecycle.

This opens up a plethora of possibilities, e.g. it can be used to optimise system parameters on the fly, to check the system’s condition live, or to virtually explore future design improvements. Through lectures and illustrative use cases, this course gives students an in-depth view of defining a Digital Twin, its essential building blocks, and how to validate and use it to create added value in an industrial setting.

MONITORING AND PROGNOSTICS (6 ECTS)
One of the key methods to improve industrial processes is an enhanced usage of current machinery.
By monitoring the physical signals emitted by machine elements, it is not only possible to distinguish between a healthy and faulty machine but also to predict when failure will occur.
Monitoring and prognostics optimise the need for replacement parts, reduce maintenance efforts, and increase machine reliability, which in turn makes factory maintenance and management easier, more efficient and more cost-effective.
Through theoretical lectures, real-life cases and practical applications, students learn which physical signals are the most relevant, how to detect, acquire and analyse them, and how to relate these signals to potential failure.

OPERATIONS MANAGEMENT STRATEGIES (6 ECTS)
This course introduces students to the complex world of management strategy formulation for one of the main domains of a manufacturing company, i.e. operations. 
The course describes the components and drivers for operations management in a contemporary business context. Challenges are identified and the role of new and emergent smart technologies is explored.
The course zooms in on production and maintenance, two important pillars in operations management. Students learn about the different types of strategies possible for both production and maintenance, its essential concepts and opportunities, historical evolutions as well as the outlook. The course also teaches how to follow up on performance, since it is imperative for all businesses to have quantitative tools to measure, monitor, check and predict the performance of their operations management.

SMART FACTORY DESIGN (6 ECTS)
New technological evolutions are drastically changing the way factories can and need to operate. The so-called “smart factories” have a highly digitalised shop floor that continuously collects and shares data through connected devices, machines, and production systems. These data can be used to (self-)optimise operations and to proactively address issues, improve manufacturing processes and respond to new demands by tapping the built-in reconfiguration potential.
Students learn how to design factories in a smart way, and how factories can be redesigned to become smart. A lot of digital tools are available to support factory design processes based on 3D digital models, which are virtual replicas of the (envisioned) real factory and can evolve towards digital twins in the operational phase to facilitate decision-making (e.g. what-if scenario analysis).

This postgraduate programme is jointly organised by Ghent University and KU Leuven.

Schedule
The programme runs from 24th September 2024 until 20th May 2025, excluding the final examination period. Sessions are taught in English and scheduled on Tuesdays from 15:00 until 19:15, and on Thursdays from 12:30 until 20:00 (first semester)/until 15:00 (second semester). Tutors will make optimal use of educational technology to guarantee an optimal combination of work and study, and to maximise engagement and interaction.

Location
Two locations, both close to the railway station and equipped with virtual classrooms. 
Blended learning possibilities further strengthen the multi-campus approach, and allow top experts from all over Flanders to sporadically contribute to teachings in a hybrid way.

KU Leuven - Bruges  - Spoorwegstraat 12 - 8200 Brugge
(1st semester)

Ghent University Campus Kortrijk -  Sint-Martens-Latemlaan 2B - 8500 Kortrijk  
(2nd semester)

Registration
There is an online registration system to enrol for this programme.
Please visit www.smart-OM.eu for more information.
Registration fee: € 4.150,00, which includes digital course materials, a KU Leuven and Ghent University student card and benefits.

The registration deadline is Monday 16 September 2024.

Postgraduate certificate
After successful completion of the programme, you receive the Postgraduate Certificate: Smart Operations and Maintenance in Industry, awarded by KU Leuven and Ghent University.
The programme contains 24 ECTS. 
Participants who successfully complete the courses in the postgraduate programme will be granted exemptions in pursuing the homonymous advanced master’s degree.

Any questions left? 

Book a meeting with the program coordinator: https://calendly.com/jorie-soltic/smart-o-m-in-industry 

Approved for 'Vlaams Opleidingsverlof' (Flemish educational leave) with number ODB-1002297

Faculties of Engineering Science and Engineering Technology of KU Leuven and the Faculty of Engineering and Architecture of Ghent University