Master Thesis Machine Learning and Motion Coordination

Location: 

Göteborg, SE, 417 15

Position Type:  Student

 

Transport is at the core of modern society. Imagine using your expertise to shape sustainable transport and infrastructure solutions for the future? If you seek to make a difference on a global scale, working with next-gen technologies and the sharpest collaborative teams, then we could be a perfect match. 

Master Thesis Proposal - Machine Learning and Motion Coordination of Battery Electric Heavy Vehicles

For the effective motion control of heavy vehicles, a motion coordination functionality is fundamental since it ensures that vehicles can perform desired maneuvers safely and efficiently by distributing control efforts among multiple actuators. One of the challenges lies in determining how to allocate control efforts among these actuators to achieve the desired motion while considering constraints like actuator limits. In a battery electric vehicle (BEV), it could involve coordinating the actions of the steering system, wheel braking, and electric motors to maintain stability and control during a maneuver. Effective control allocation ensures that the vehicle can respond accurately to driver inputs while, for example, minimizing power losses. 

 

The control allocation problem could be formulated as an optimization problem. The objective is then to minimize a cost function that represents the difference between the desired and the optimized vehicle response, subject to constraints such as actuator limits and vehicle dynamics. Commonly mathematical models are used to represent the behavior of the vehicle and its actuators, which could be difficult to identify, since they can vary with operating conditions, such as load and speed.


Machine Learning (ML) techniques can be employed to identify and update the parameters of the mathematical model used in control allocation. These techniques can learn from data collected during vehicle operation to improve the accuracy of the model over time.

 

The objectives of the master's thesis are as follows:

 

1.    Investigate previous work done in the area of motion coordination.
2.    Investigate the effect of errors in model parameters of the control allocation problem.
3.    Develop a ML functionality to estimate model parameters.  
4.    Test the performance of the developed functionalities using simulations with different scenarios.

 

The thesis work will require machine learning, control theory, and vehicle dynamics skills. Interest in reinforcement learning is seen as a benefit. MATLAB will be used as the primary development environment. The work will be carried out at Volvo Group Trucks Technology. The thesis is recommended for one or two students with vehicle dynamics and/or control analysis profile with good mathematical skills. Thesis start: Jan 2025.


If you find this proposal interesting, send your application with CV and grades through the Volvo Group-Careers website.


Supervisors:


Esteban Gelso – Volvo GTT
Maliheh Sadeghi Kati – Volvo GTT 
Umur Erdinc – Volvo GTT


We value your data privacy and therefore do not accept applications via mail. 

 

Who we are and what we believe in 
Our focus on Inclusion, Diversity, and Equity allows each of us the opportunity to bring our full authentic self to work and thrive by providing a safe and supportive environment, free of harassment and discrimination. We are committed to removing the barriers to entry, which is why we ask that even if you feel you may not meet every qualification on the job description, please apply and let us decide.

 

Applying to this job offers you the opportunity to join Volvo Group. Every day, across the globe, our trucks, buses, engines, construction equipment, financial services, and solutions make modern life possible. We are almost 100,000 people empowered to shape the future landscape of efficient, safe and sustainable transport solutions. Fulfilling our mission creates countless career opportunities for talents with sharp minds and passion across the group’s leading brands and entities. 

 

Group Trucks Technology are seeking talents to help design sustainable transportation solutions for the future. As part of our team, you’ll help us by engineering exciting next-gen technologies and contribute to projects that determine new, sustainable solutions. Bring your love of developing systems, working collaboratively, and your advanced skills to a place where you can make an impact. Join our design shift that leaves society in good shape for the next generation.

Job Category:  Technology Engineering
Organization:  Group Trucks Technology
Travel Required:  No Travel Required
Requisition ID:  14964

Do we share the same aspirations?

Every day, Volvo Group products and services ensure that people have food on the table, children arrive safely at school and roads and buildings can be constructed. Looking ahead, we are committed to driving the transition to sustainable and safe transport, mobility and infrastructure solutions toward a net-zero society.

Joining Volvo Group, you will work with some of the world’s most iconic brands and be part of a global and leading industrial company that is harnessing automated driving, electromobility and connectivity.

Our people are passionate about what they do, they aim for high performance and thrive on teamwork and learning. Everyday life at Volvo is defined by a climate of support, care and mutual respect.

If you aspire to grow and make an impact, join us on our journey to create a better and more resilient society for the coming generations.