Skip to content Go to main navigation Go to language selector

Master Thesis, 30 HP: Cross coupling in a 2-axis control system for stabilized platforms

Location
Järfälla, Sweden
Contact
Maria Paues
Nina Söderström
Closing date
29 November 2020 Apply for this job!

We are looking for a student that will help us push the boundaries of our cutting edge stabilized platforms.

Your role

Background

Our business unit C2S provides customers with world-class situational awareness, decision support, force coordination and precision engagement. Together these deliver a winning solution for mission control. For over 50 years C2S has developed and supplied tailor-made systems combining our own, our partners’ and in-service equipment to meet each customer’s specific needs.

Stabilized platforms are one of our key competences and we are continuously improving our knowledge and systems.

Description of the master thesis

Military sights, like fire control sights for naval applications, or sights for tanks and armoured vehicles are normally space stabilized trough feedback with the aid of rate gyros or similar sensors.

A typical sight system has two orthogonal axis called Azimuth (or training) and Elevation. In many cases these two axis are considered independent and thus treated as two SISO (Single Input Single Output) Systems. This simplification, although the systems in reality are dependent of each other, is often justified because the gain in simplicity (implicitly cost to develop) outweighs the loss in precision and performance for the total servo system.

This master thesis aims for an investigation of a two-axis control system where the student has to finalize three parts:

  • Develop a method for identification of the cross coupling dynamics in the two axis control system
  • Based on the identified cross coupling, design at least one suggestion for a controller for the two-axis system.
  • Implement and test the difference in performance between the MIMO-designed control system and the original control system based on two SISO control loops (in cooperation with personnel from Saab).

The work will be carried out by making measurements on real systems, and the using MATLAB/Simulink for system identification and control design. The work will also imply final implementation on a real sight on a hard real-time operating system.

Your profile

This Master Thesis is suitable for 1 student from the E, F, Y, T (or similar) with specialization in control theory. Recommended courses are Contol theory, basic and advanced/multivariate course.

What you will be a part of

Your workplace will be located in Järfälla, Sweden at business unit C2S, Combat Systems and C4I Solutions unit who develop command & control systems for air, naval and land domains.

Business Area Surveillance provides efficient solutions for safety and security, for surveillance and decision support, and for threat detection and protection. The portfolio covers airborne, ground-based and naval radar, electronic warfare, combat systems and C4I solutions, and Cyber Security. You will collaborate with experienced engineers and professionals in an environment that fosters career development and personal growth.

Last application day

2020-11-30

Contact information

Nina Söderström, Manager

073-437 40 46

Daniel Hellberg, Master Thesis Supervisor

073-437 43 34

If you aspire to help create and innovate whilst developing yourself in a challenging team setting, Saab may well have the perfect conditions for you to grow. We pride ourselves on a nurturing environment, where everyone is different yet we share the same goal – to help protect people.