MSc Wireless Communications

1 Years On Campus Masters Program

Liverpool John Moores University

Program Overview

This MSc in Wireless Communications equips you with advanced technical and managerial knowledge in wireless networks, sensor systems, signal processing and data analytics—preparing you for the digital‑connectivity challenges of today and tomorrow. It’s ideal for graduates from telecommunications, electrical/electronic engineering, physical sciences or related fields who want to specialise in wireless technologies and move into high‑growth sectors such as IoT, 5G/6G networks, sensor networks or data‑driven communications.

Curriculum structure

Year 1 (Full‑time, 12 months)
In the first year, you will build a strong foundation in key wireless communications technologies through core modules such as Digital Communications Systems, Advanced Signal Processing, Wireless Networks, Sensors, Networks and Data and Radio & Optical Signal Propagation. These modules allow you to explore topics like modulation, coding, network architectures, protocols for sensor networks, signal propagation models and data analytics in wireless systems.
Alongside this technical content you’ll also study Research Skills, Modelling and Simulation and Professional and Leadership Skills, which prepare you for independent research, simulation of systems and team‑based/leadership roles. You will then complete your MSc Dissertation (60 credits) on a topic of your choice, where you apply your learning to a real‑world or research‑oriented problem.

Extended (20‑month / 2‑year) Route
If you choose the extended route, you’ll spend the additional time doing a Group Design Project or industrial placement in the second year, which gives you industry experience, team‑project working, professional skills and real‑world application of technical knowledge before completing the dissertation.

Focus areas

Wireless network architecture and protocols; signal processing for communication systems; sensor network systems and data analytics; radio and optical signal propagation modelling; professional engineering skills and leadership in wireless communications contexts.

Learning outcomes

On completion, you’ll be able to design, model and evaluate wireless communication systems and networks, apply advanced signal processing techniques to communication problems, analyse sensor data and wireless network performance, and critically address the technical, economic and managerial challenges in wireless systems deployment. You’ll also develop leadership, project‑management and research skills that will let you operate confidently in technical or managerial roles in the communications industry.

Professional alignment (accreditation)

The programme is accredited by the Institution of Engineering and Technology (IET) as meeting the requirements for Further Learning for registration as a Chartered Engineer (provided you already hold an accredited BEng/BSc).

Reputation (employability rankings)

LJMU reports that 94% of its postgraduates are in work or further study within 15 months of graduation for this programme. The department benefits from strong industry connections and is rooted in research from LJMU’s Electrical and Electronic Engineering Research Centre, making graduates well‑placed for roles in wireless network design, sensor systems, communications engineering and related fields.

Experiential Learning (Research, Projects, Internships etc.)

The MSc Wireless Communications at Liverpool John Moores University focuses on practical, hands-on experience from the very beginning. You’ll study within the School of Engineering at the Byrom Street complex, using advanced laboratories, simulation software, and dedicated spaces for wireless and signal-processing work. The course emphasizes applied learning through projects, team collaborations, and industry-oriented exercises, ensuring you gain real-world skills alongside theoretical knowledge.

Here’s how this experiential learning unfolds:

Specialist software and simulation tools: You’ll use MATLAB, Simulink, and other wireless/network simulation software to model and test communication systems.
Group design projects and optional industrial placement: For extended-study students, there’s a group design project or a sandwich-year placement, providing practical exposure to professional engineering environments.
Hands-on module components: Modules such as Wireless Networks and Advanced Signal Processing include practical exercises to reinforce theoretical learning.
Teaching methods focused on real-world application: The programme incorporates lectures, tutorials, seminars, inverted-classroom activities, and group discussions to develop problem-solving and applied skills.
Professional and leadership skills development: A dedicated module ensures you gain interpersonal, teamwork, and management skills alongside your technical expertise.
Access to modern facilities and learning resources: You’ll benefit from high-quality lecture theatres, specialist rooms, workshops, and a nearby library for research and study support.

This approach ensures that by the end of the MSc, you not only understand the theory of wireless communications but also have the practical skills and experience to design, simulate, and analyze wireless systems confidently, making you ready for careers in communications, IoT, 5G/6G networks, and related industries.

Progression & Future Opportunities

If you’re passionate about shaping the future of connectivity and wireless technology, the MSc Wireless Communications at Liverpool John Moores University (LJMU) is an excellent choice. Graduates often move into roles such as Wireless Network Design Engineer, Wireless Communications Engineer, Senior Engineer in Sensors & Data Analytics, or Telecommunications Systems Architect — positions in high demand as 5G, 6G, IoT, and smart networks expand globally. So: here’s how LJMU prepares you and what you can expect on graduation.

Progression & Future Opportunities

This MSc equips you for advanced technical and leadership roles in wireless communications, networking, IoT, signal processing, and data-driven communication systems.
Typical job roles include:
- Wireless Network Design Engineer
- Wireless Communications Engineer
- Senior Engineer – Wireless Systems & Sensors
- Telecommunications Systems Architect

How LJMU supports your career:

Career & employability services: The Student Futures team provides postgraduate students with tailored support — including CV and portfolio guidance, interview coaching, employer networking, and assistance securing placements or graduate roles in the telecommunications and technology sectors.
Employment outcomes: Approximately 97% of postgraduates from LJMU are in work or further study within 15 months of graduation, reflecting strong industry recognition of the university’s engineering programs.
Industry and research engagement: The programme is closely linked to LJMU’s research in wireless systems, sensors, and communications, giving students opportunities to work on applied projects and gain hands-on experience with cutting-edge technologies.
Accreditation and professional recognition: The MSc is designed to meet the requirements for further learning toward Chartered Engineer (CEng) status, providing long-term professional value.
Graduate outcomes: Modules such as Advanced Signal Processing, Digital Communication Systems, Wireless Networks, Sensor Networks & Data, and Radio & Optical Signal Propagation, along with a dissertation or major design project, equip you with in-demand technical skills and project leadership capabilities.

Further Academic Progression:

After completing this MSc, you could pursue a PhD in Wireless Communications, IoT Systems, or Signal Processing, positioning you for research or academic roles. You could also continue toward professional chartership (CEng) or senior technical and consultancy positions within global telecommunications, IoT, and networking companies.