Are you a student eager to apply your theoretical knowledge and fresh perspectives to real-world challenges? At Saab, we believe that innovation thrives on new ideas, and your master thesis project could be the spark that ignites our next technological breakthrough.
Your role
We recognize the immense value that students bring to our company. Your academic rigor, combined with your enthusiasm for cutting-edge technology, allows you to approach problems with a unique and insightful lens. At Saab, you'll have the opportunity to collaborate with experienced engineers and specialists, gaining invaluable practical experience while making a tangible contribution to our growth and development.
Background
In electronic warfare (EW), situational awareness is crucial for real-time threat detection and response. The advent of machine learning has driven major shifts in modern electronic warfare operations. These have been largely made possible by recent advancements in hardware, software, and advanced signal processing methods. Machine learning is also set to transform the field of applied computational mathematics, which opens for the use of large-scale physics-based simulation models as crucial tools when evaluating tactical electronic warfare scenarios.
Description of the master thesis
In this project, you will develop high-performance computing (HPC) simulation tools for electromagnetic wave scattering in the context of radar wave imaging, of critical importance to situational awareness and threat detection. Wave imaging amounts to solving an inverse problem, where, given some output observations (e.g., sensor data), one tries to uncover the latent (hidden) signals (e.g., image) that produced that data. The corresponding forward model is a simulation method or mathematical representation (e.g., partial differential equation) that, given a set of inputs, produces or predicts observations. Inverse problems are typically ill-posed, i.e., their solutions are highly unstable with respect to small changes in the observed data. Addressing ill-posedness is key for the development of robust inverse reconstruction methods that form the backbone in many applications, such as radar wave imaging. The main challenge is to develop reconstruction methods that have significantly better performance while being computationally feasible bearing in mind the time-critical nature of radar application.
In this work, the main focus is to develop various HPC frameworks to facilitate large scale forward simulations. Throughout the project, you will use modern tools drawing from high-performance computing, numerical analysis, and machine learning. You will aid in a larger effort aimed at developing novel methods for large-scale data-driven inverse problems based on scientific machine learning (SciML).
We are seeking highly motivated students with a strong foundation in any of the following areas: computer science, machine learning, applied mathematics, statistics, physics or any related field. You should have strong programming skills and be familiar with common machine learning frameworks, such as PyTorch. Familiarity with GPU programming is advantageous. You are able to communicate efficiently both orally and in writing. In addition, you are able to work independently and as part of a dynamic team.
At Future Technologies EW and Systems, we are developing next-generation intelligent sensor systems for electronic warfare. We are a group of staff engineers, specialists, and researchers specializing in multiple areas, such as signal processing, operations analysis, applied mathematics, and machine learning.
For more information, please visit https://www.saab.com/.
Your profile
This Master Thesis is suitable for 1-2 students with interest in scientific computing, applied physics/mathematics, and machine learning. You are at the end of your Master’s program and about to start your Master Thesis work for 30 HP.
We provide the support and guidance you need to translate your theoretical knowledge into practical solutions. Join us and become a driving force behind Saab's technological advancements!
This position requires that you pass a security vetting based on the current regulations around/of security protection. For positions requiring security clearance additional obligations on citizenship may apply.
What you will be a part of
Explore a wealth of possibilities. Take on challenges, create smart inventions, and grow beyond. This is a place for curious minds, brave pioneers, and everyone in between. Together, we achieve the extraordinary, each bringing our unique perspectives. Your part matters.
Saab is a leading defence and security company with an enduring mission, to help nations keep their people and society safe. Empowered by its 25,500 talented people, Saab constantly pushes the boundaries of technology to create a safer and more sustainable world.
Saab designs, manufactures and maintains advanced systems in aeronautics, weapons, command and control, sensors and underwater systems. Saab is headquartered in Sweden. It has major operations all over the world and is part of the domestic defence capability of several nations. Read more about us here
Last application day
30-11-2025
Contact information
Neda Tooloutalaie, Head of Future Technologies
073-4 460 055
neda.tooloutalaie@saabgroup.com
Alexander Lindmaa, Master Thesis Supervisor
073-4 183 736