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Master's Degree Programme in Biomedical Imaging, Master of Science (2 years)

Master'sA–F Score: 80
Robotics & Advanced ManufacturingPrimaryHealthcare & MedicinePrimaryBiotechnology & Life Sciences
Build My ShortlistOfficial page

Intakes & How to Apply

Each intake has its own application route. We show official links so you can verify and apply confidently.

Autumn 2026on_campusfull_time
Autumn 2026Faculty of Medicineon_campusfull_time

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Your Eligibility

Check if your qualifications meet this program's admission requirements.

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Skills you'll develop

12 skills mapped from curriculum analysis

These skills are derived from curriculum analysis and industry alignment. Primary skills are core to the program; others are developed through coursework and projects.

Core skills

Machine Learningintermediate
Deep Learningintermediate
Computer Visionadvanced
Data Visualizationintermediate
Medical Imagingadvanced

Additional skills

Technical Skills

Python★★Data Engineering★Bioinformatics★★Health Informatics★

Data & Analytics

Healthcare Data Analytics★★Statistical Analysis★★

Domain Knowledge

Genomics★

Total skills

12

Core skills

5

High demand

10

What you'll become (field context)

This is based on the Robotics & Advanced Manufacturing Future Field and its subfields (not program‑specific promises). Use the official program page for curriculum details.

Why this field matters

Robotics, automation, advanced manufacturing, and space technology

Career outcomes snapshot

Robotics & Advanced Manufacturing

A quick, visual overview of common outcomes in this field (roles + paths + subfields). It’s field-level context — not a promise for this specific program.

Roles

6

Paths

6

Subfields

2

Top roles

Robotics EngineerAutomation EngineerControls EngineerSpace Systems EngineerSatellite EngineerAerospace Engineer

Typical paths

  • MSc Robotics
  • MSc Mechatronics
  • MSc Control Systems
  • MSc Space Engineering

Subfields

Robotics & AutomationSpace Technology

Looking for a Master's in Robotics & Advanced Manufacturing? Compare intakes above and verify curriculum details on the official programme page.

Future-Readiness Score

A–F framework evaluation • Each score is backed by evidence

A-F Score Overview

6-dimension future-readiness evaluation

80/100
ExcellentEstimated
A88
B85
C72
D85
E70
F78
A
Frontier Connection
Excellent88
B
Tech Fluency
Excellent85
C
Human Skills
Strong72
D
Hands-On Learning
Excellent85
E
Innovation Culture
Strong70
F
Global Outlook
Strong78
Learn how we evaluate programs
A

Future relevance

Is this program connected to fast-growing careers?

88/100
✓ Program Evidence

“Career opportunities The programme aims to train future imaging and image analysis experts for increasing demands of both imaging-related basic, pre-clinical and medical research as well as imaging core facility personnel.”

View source
B

Tech & data strength

Will you build strong technical skills (data, software, AI tools)?

85/100
✓ Program Evidence

“During the selectable studies students will broaden their skills with advanced courses in novel and cutting-edge techniques in microscopy, photonics, image and data analysis, cell biology and in vivo imaging.”

View source
C

People skills

Does it build communication, teamwork, and leadership?

72/100
✓ Program Evidence

“Experimental research work is made under the guidance of a supervisor in a reserach team and the length of the practical part is approximately 5-6 months.”

View source
D

Practical learning

Do you learn by doing (projects, labs, real-world work)?

85/100
✓ Program Evidence

“In the master’s thesis students can focus on a project related to imaging within the broad research area in the imaging community (such as light microscopy imaging, in vivo & clinical imaging, nanotechnology and material sciences or microscopy techniques and instrument design).”

View source
E

Innovation & entrepreneurship

Does it support innovation, startups, or building new things?

70/100
✓ Program Evidence

“Our aim is to train students across faculty borders: ecological lawyers and humanists with entrepreneurial skills.”

View source
F

Global & ethical impact

Does it cover sustainability, ethics, and global perspective?

78/100
Framework Score

Based on this program's field (Robotics & Advanced Manufacturing), curriculum structure, and institution profile. How we score →

How we calculate these scores

Our A–F framework evaluates programs across 6 dimensions of future-readiness. Scores combine: field alignment (how the program's field connects to growing industries), curriculum signals (keywords, course structure, learning outcomes), and institution profile (research focus, industry partnerships). This program has 5 verified citations from official sources.

Learn more about our methodology

Need help deciding?

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Promise: no sales pressure — just clarity.

Why This Field Matters

Industry insights verified by Mojo

Big-picture context for Robotics & Advanced Manufacturing. These sources show why the field is growing — not specific program details.

Automation and robotics remain transformative drivers

World Economic Forum • 2025-01-01

✓ Verified

Technology-related roles are the fastest-growing jobs in percentage terms, including Big Data Specialists, Fintech Engineers, AI and Machine Learning Specialists and Software and Application Developers

Read source

Program Evidence

Citations from official sources

frontier

Career opportunities The programme aims to train future imaging and image analysis experts for increasing demands of both imaging-related basic, pre-clinical and medical research as well as imaging core facility personnel.

View source
tech_data

During the selectable studies students will broaden their skills with advanced courses in novel and cutting-edge techniques in microscopy, photonics, image and data analysis, cell biology and in vivo imaging.

View source
human_skills

Experimental research work is made under the guidance of a supervisor in a reserach team and the length of the practical part is approximately 5-6 months.

View source
hands_on

In the master’s thesis students can focus on a project related to imaging within the broad research area in the imaging community (such as light microscopy imaging, in vivo & clinical imaging, nanotechnology and material sciences or microscopy techniques and instrument design).

View source
innovation

Our aim is to train students across faculty borders: ecological lawyers and humanists with entrepreneurial skills.

View source