Year 4

INTELLIGENT TRANSPORT SYSTEMS (EG7031_1)

Year 4

INDUSTRIAL PLACEMENT (EG5023_1)

Teacher: CHARALAMPOS LAPPAS

ENGINEERING MANAGEMENT (EG7034_1)

This module aim to embed the role of the engineer as a manager in industry and the community. You will learn major techniques in investigating engineering technology with respect to its analysis on time, risk, utility, and decision making in the production process. The module will involve studying current management skills and the appropriate numerical techniques, and financial controls.

Teacher: KONSTANTINOS KAMPOURISTeacher: STAVROS KOURTIS

SMART INDUSTRIES AND DIGITAL MANUFACTURING (EG7039_1)

This module will introduce the principles of Industry 4.0 (fourth industrial revolution) including current trends in automation and data exchange in manufacturing. Additionally, to provide comprehensive training on advanced CAM/CAM processes with the aim to optimise production and enhance manufacturing yield. 

Teacher: STYLIANOS KATSANISTeacher: IOANNIS PSYCHOGIOS

ADVANCED FLUIDS (EG7040_1)

This module aims to provide you with the ability to select from appropriate experimental and simulation techniques to investigate advanced fluid mechanics / dynamics problems. In particular, utilise mathematical and CFD software methods to simulate fluid mechanics systems to solve complex practical engineering problems, as well as to optimise practical design problems. 

 

 

Teacher: CHARALAMPOS LAPPAS

APPLIED RESEARCH AND ENGINEERING PRACTICE (EG7038_1)

In this module, you will be guided into undertaking a major research project. You will undertake the individual research project on a topic in consultation with an appointed supervisor.  You are expected to use knowledge and skills gained throughout the taught modules in past years. You are further expected to develop research methodology skills and prepare for field practice.  

Teacher: GIORGOS CHLIVEROS

AUTOMATION AND ROBOTICS (EG7164_1)

This module aims to provide you with expert knowledge in industrial robots and their applications in automation. In general, an industrial robot is a system used in automated and intelligent manufacturing operations, such as: welding, painting, pick and place, palletizing, structural inspection, and many more. In particular, you will learn to simulate industrial robots, as well as to offline program movement in many spatial axes. Additionally you will learn and experiment with the basic concepts of robot perception.