With 30 taught modules to select from, the programme is highly flexible and allows participants to design their Master's programme to match their chosen career specialisation. Students may opt for the General Masters programme, offering maximum flexibility of module choice, or take the option of specialising in one of the following Majors:
Major in the Internet of Things (IoT)
Imagine a world where everyday objects are connected to the internet, enabling seamless communication between people and things, and even between things themselves. With over 50 billion devices projected to be connected by 2025, the Internet of Things (IoT) will rapidly become an essential part of our lives.
During this course, you will delve into the exciting realm of IoT and explore its vast potential. We will explore the limitless possibilities of a hyper-connected world and shape the future of technology with innovation, intelligence, and impact. Our curriculum is designed to help you develop a strong foundation in the principles and technologies of IoT. Youll have the opportunity to explore various IoT applications, ranging from agricultural to healthcare, and gain hands-on experience with different hardware platforms.
With a focus on both theoretical and practical learning, our programme will provide you with the necessary tools to create innovative solutions in the IoT ecosystem.
Major in Image Processing & Analysis (IPA)
During this course, you will delve into the intricacies of image and video analysis, a core skill that is driving much of the recent AI advances in leading multinationals and innovative start-ups. This highly sought-after skill set is essential for professionals in various industries, including remote sensing, autonomous driving, medical image analysis, pose detection, security-based applications, and automated disease detection.
With the increasing use of image and video data in industry, the demand for professionals skilled in this area has never been higher.
Major in Nanotechnology & Photonics (NTP)
Throughout the last few years, photonics has emerged as a prominent interdisciplinary field that focuses on the transport and manipulation of light. Its rapid progress is attributable to advances in nanotechnology, materials science, optics, and physics, among other areas.
The study of nanotechnology has also become increasingly important, thanks to advancements in modern science. Nanotechnology deals with engineering at the nanoscale with a view to creating applications/ devices at the atomic, molecular, or supramolecular scale. Research in this field is gaining progressively more interest due to its growing importance in various scientific and industrial application areas, such as biomedical engineering, telecommunications, and aerospace.
By studying a master's in Nanotechnology and Photonics, you will become part of a field that is foundational for all sectors of the economy
Major in Data and Telecommunications Networks (DTN)
In today's rapidly evolving digital landscape, the demand for skilled professionals in the field of data and telecommunications systems has never been more pressing. This comprehensive masters degree equips graduates with the cutting-edge expertise required to drive the next generation of networking technologies, from wireless and mesh networks to peer-to-peer and sensor-based systems.
Graduates of this programme will gain a deep, cross-disciplinary understanding of network operations, empowering them to implement innovative protocols and design high-performing, future-ready infrastructures. As the world increasingly embraces Industry 4.0 and the convergence of computing, communication, and control, this specialised knowledge will be invaluable.
Employers across a wide range of industries are actively seeking engineers with the skill set this program provides. Graduates will be well-prepared to tackle the grand challenges facing wireless communications, from delivering ultra-high data rates to enabling seamless, ubiquitous connectivity.
Whether your passion lies in cutting-edge wireless technologies, the intricacies of network design, or the optimization of end-to-end network performance, this program promises to provide the knowledge and skills necessary to excel in this rapidly evolving field.
| Course Location | Glasnevin, Dublin |
| Location Postcode | Dublin 9 |
| Course Category | Electronic & Electric Engineering, Construction & Engineering |
| Course Type | Blended Learning - Mix of Classroom & Online |
| Course Qualification | Masters Degree |
| Awarding Body | Dublin City University |
| Course Start Date | 1st January 1970 |
| Course Duration | 1 year full-time, 2 years part-time |
| Career Path | The focused nature of the majors, combined with the continued growth of these important and very successful Irish industrial sectors, will ensure that you are in a pole position to gain employment in a wide range of industries in Ireland and overseas. Graduates of this course work in a wide range of industries, including: Information Technology Manufacturing and Industry 4.0 Healthcare Smart Cities and Urban Planning Agriculture Energy and Utilities Retail Automotive and Transportation Environmental Monitoring Smart Home and Consumer Electronics Finance and Insurance Telecommunications Education Entertainment and Media Space and Aerospace Consulting and Entrepreneurship Graduates of this course have gained employment as a: Network Engineer Network Administrator Network Architect Systems Engineer Wireless Network Engineer Telecommunications Engineer Network Software Developer IoT Developer/Engineer Project Manager Product Manager Security Specialist Data Scientist Consultant Business Analyst Researcher Our graduates have gone on to successful careers in leading companies including NASA, Apple, Samsung, Intel, Dell, Amazon, Meta, and Google. Others have progressed to PhD research and gained further advancement and recognition. |
The Masters in Arts Education Practice (MEd AEP) is an innovative new programme for teachers, artists and arts education advocates which takes a progressive approach to arts-based education and values a transdisciplinary approach while honouring the distinct nature of each practice.
During this two-year course, youll discover how to empower, motivate and engage children.
This two-year, full-time programme encourages a student-centred and creative approach to teaching and learning, and gives you the skills and knowledge needed for todays classrooms.
