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5 Years On Campus Bachelors Program
University of AberdeenThe MEng (Hons) Engineering in Electronic and Software Engineering at the University of Aberdeen blends core electrical and electronic engineering with software, computing, and robotics. It’s designed for creative thinkers who want to design and build the intelligent systems that power everything from smart chips to autonomous devices—all while grounded in a collaborative, world-class engineering community
Curriculum structure
Year 1
You’ll build a strong foundation with Circuit Analysis and Design, Principles of Electronics, Computer Systems and Architecture, Engineering Mathematics 1, Fundamentals of Engineering Materials, Fundamental Engineering Mechanics, plus Programming 1 and CAD and Communication in Engineering Practice—gaining insight into circuitry, programming logic, mechanics, materials, CAD, and technical communication skills.
Year 2
In your second year, you’ll dive into Engineering Mathematics 2, Algorithms and Data Structures, Modelling and Problem Solving for Computing, Design and Computing in Engineering Practice, Databases and Data Management, Software Programming, and Electronic Systems—learning to combine coding (Java, MATLAB), algorithmic thinking, electronics, and database systems in real engineering contexts.
Year 3
You’ll level up with Principles of Software Engineering, collaborative software development, C / C++ Programming, Signals, Systems & Signal Processing, Engineering Analysis and Methods 1a, Software Engineering and Professional Practice, Digital Systems, Communications Engineering 1, Electrical and Electronics Engineering Design, and Engineer in Society—fostering skills in embedded systems, signal processing, team-based agile development, professional responsibility, and system design.
Year 4
In your final year you’ll tackle Sensing and Instrumentation, Computer and Software Engineering, Operating Systems, Security, and a Group Design Project (with optional Individual or Industrial Projects). You'll emerge ready to handle complex engineering challenges involving instrumentation, OS architecture, cybersecurity, and collaborative project delivery.
Year 5:
Your final year culminates in advanced topics aligned to software enginnering—Fundametals of Software Project Management, Advanced Control Engineering, Natural Language Generation, Software Agents and Multi Agents Systems, alongside The Engineer in Society and MEng Group Design. You’ll graduate ready to tackle renewable energy systems holistically and lead complex, societal-impactful engineering projects.
Focus areas:
Electronic systems; software engineering; embedded systems; databases and algorithms; signal processing; communications; operating systems; cybersecurity; instrumentation.
Learning outcomes:
You’ll graduate able to design, program, analyse and implement integrated hardware–software systems, lead agile software projects, secure systems against threats, work with instrumentation, and manage technical communication and teamwork in real-world engineering contexts.
Professional alignment (accreditation):
This BEng programme is accredited by the Engineering Council and counts as a route toward Chartered Engineer (CEng) status with the Institution of Engineering and Technology (IET) (Educational requirements met for Incorporated Engineer (IEng) and partially for CEng).
Reputation (employability rankings):
The University of Aberdeen ranks 8th in the UK for Electrical and Electronic Engineering, according to the Complete University Guide 2020. Engineering (General) at Aberdeen ranks 12th in the UK and 1st in Scotland according to The Guardian 2021, reflecting strong performance in foundation engineering education.
From your very first year, you'll build real engineering skills through hands-on lab work, embedded systems, group design challenges, and interdisciplinary projects—all backed by high-end facilities and strong industry ties.
Experiential learning unfolds like this:
Hands-on labs & design modules from Day 1:
Year 1 includes lab-based work in Principles of Electronics and Electronic Systems, with embedded microcontrollers and logic circuit design—supported by simulation and hardware prototyping.
CAD, programming & manufacturing:
In Year 2, you learn MATLAB, SolidWorks CAD, and even machine-tool use through the Design and Computing in Engineering Practice module—building your engineering manufacturing and coding confidence.
Advanced system and signal projects:
Later years include modules like Control Systems, Signals, Systems & Signal Processing, C/C++ Programming, and Electrical & Electronics Engineering Design—each with embedded programming, sensor interfacing, and practical test rigs.
Group and individual capstone projects:
In Year 4, half your time goes toward an Individual Project (which you can do abroad or with industry), and there’s also a Group Design Project tied to real-world briefs, including project management and technical design.
Top-tier research labs & teaching facilities:
You’ll access facilities like satellite-communications testbeds (SALT), optics and laser labs (HOLOCAM, eHOLOCAM), Internet network testbeds, power systems labs with high-power DC rigs, and an AI/robotics/mechatronics suite with humanoid and swarm robots.
Industry integration and field exposure:
Guest lectures, field trips (e.g., SSE at Tealing sub-station), and the EEE student society’s Robotics League competition enrich your real-world understanding.
Professional accreditation and employability:
The programme is IET-accredited—a recognized step toward Chartered Engineer status—and the career prospects are strong with alumni working in roles like ROV Project Manager, Telecoms Software Engineer, Subsea Controls Engineer, and more.
Graduates of the University of Aberdeen's MEng Engineering in Electronic and Software Engineering are highly employable, moving into senior roles such as embedded systems architect, IoT solutions lead, robotics software engineer, hardware-software integration manager, and technical project leader. Many alumni also pursue PhD research or work in cutting-edge sectors including autonomous systems, smart technologies, semiconductor design, and next-generation computing.
Here's how Aberdeen specifically supports your future:
Career Services & Experiential Learning:
The five-year integrated MEng programme (following the Scottish university system) includes industry placements with global technology leaders like Leonardo, BP, and Wood Group. Students undertake advanced projects in Aberdeen's £20m engineering facilities, including the Embedded Systems Laboratory and Software Engineering Innovation Hub. The curriculum features a substantial group design project developing integrated hardware-software solutions, supported by the university's dedicated Tech Careers Service which connects students with employers through exclusive recruitment events.
Industry Partnerships & Research:
The programme benefits from Aberdeen's strategic collaborations with the National Subsea Centre, Aberdeen Smart Energy Systems, and industry partners like Texas Instruments and Amazon working on IoT and embedded systems. Students access cutting-edge facilities including electronics cleanrooms, robotics development platforms, and edge computing testbeds. The curriculum integrates world-leading research in areas like system-on-chip design, real-time embedded software, industrial IoT, and AI acceleration hardware.
Graduate Outcomes:
Students develop expert-level competencies in embedded systems architecture, low-level programming, hardware-software co-design, and engineering project leadership - skills in critical demand across multiple technology sectors. Recent graduates have secured positions with semiconductor companies, autonomous systems developers, and energy technology firms.
Further Academic Progression:
After completing the MEng, graduates can progress to PhD research in computer engineering or move directly into senior technical roles - supported by Aberdeen's strong industry network in energy technology and the programme's focus on practical system integration challenge
UCAS Application • Official High School Transcripts • Personal Statement • Educational Resume • Letter of Recommendation by School TeacherEnglish test results: IELTS 6.0 (no band below 5.5), 78 with: Listening - 17; Reading - 18; Speaking - 20; Writing - 21A Levels: ABB (AB required in Mathematics, plus at least one from Physics, Design & Technology, Engineering or Chemistry).International Baccalaureate (IB): 34 points including Mathematics and Physics at HL (6 or above)GCSE: Grade 4/C in GCSE English languageAt Standard XII a minimum percentage of 75% overall, including 75% or more in Mathematics and Physics. Advanced entry to Year 2: at least 85% overall in Year XII as well as at least 85% in maths and physicsUSA curriculum: High School Diploma with a minimum overall average of 3.0, plus both of the following; SAT 1250+ OR ACT composite score of 26+ One of the following standardised subject tests: 1 AP Subject Test with a grade of 3+ from either Math, Biology, Chemistry, or Physics. If taken pre-2020, we will accept 1 SAT Subject Test with a score of 600+ (in a relevant subject) instead of 1 AP. OR One of the following: 3 AP examinations (in relevant subjects): 3+ If taken pre-2020 & 3 SAT subject tests (in relevant subjects): 600+You may be able to enter this programme through Foundation Year pathways if you don’t have the qualifications to enter directlyEmbedded Systems EngineerSoftware Engineer (Hardware Integration)IoT Solutions ArchitectRobotics Software DeveloperControl Systems EngineerTelecommunications EngineerCybersecurity Specialist (Hardware/Network)Semiconductor Design EngineerAI Hardware DeveloperQuantum Computing Systems Engineer
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