Master Thesis: Development of AI-agent for Single-Cylinder Engine Testing
Göteborg, SWEDEN IT development
Job description
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.
Background
Heavy-duty road transport is undergoing a significant transition toward CO2 neutrality. One promising carbon-free energy carrier is hydrogen, and an internal combustion engine is a key technology for converting hydrogen’s chemical energy into mechanical work. Development of an AI-agent (“Test CoPilot”) could potentially accelerate the development cycle by streamlining the testing process, potentially leading to faster breakthroughs in efficient and clean propulsion technologies.
About us
At Volvo Powertrain Strategic Development, we shape technology strategies and inform business decisions for new powertrain solutions. We actively explore emerging powertrain technologies, regulatory shifts, and future societal needs to prepare a powertrain roadmap. Furthermore, we develop technology solutions that support the transition from concept to production, enabling the next generation of sustainable transport solutions.
Thesis background
The use of single-cylinder engine (SCE) tests, coupled with design, CFD, and 0D/1D simulations, enables an efficient evaluation of future engine concepts before investing resources into full-scale prototypes. To maximize this potential, it would be of value to investigate how the development of an AI-agent, Test CoPilot, could contribute to the intent. This AI-agent could theoretically enhance the iterative cycle of SCE testing, including test preparation, test execution, data evaluation, and reporting. The AI-driven assistant could bring significant value by improving the efficiency and precision of these activities as future transport solutions demand increased knowledge productivity in this domain.
Content
Initially, a literature study should be conducted to gain an understanding of the target domain, including hydrogen pre-mixed combustion, SCE testing, and previous development of AI-agents within the department. The next step is to consider what key adaptations should be made to the agent for domain-specific adjustments. Several potential sub-topics could be prioritized, and depending on progress, this can be adapted towards a final demonstration based on a dataset aligned with the time plan.
A proposed thesis plan (to be aligned with examinator and students):
· Analyze current SCE testing processes with focus on data evaluation and reporting as key activities to “close the test cycle” identifying AI improvement opportunities.
· Develop a conceptual framework for the AI-agent (Test CoPilot).
· Implement a prototype focusing on data evaluation and reporting.
· Conduct case studies to evaluate the AI-agent’s performance against traditional methods.
· Refine the AI-agent based on results and explore expansion to other testing phases.
· The final step would be to demonstrate the Test CoPilot and verify its effectiveness in enhancing the overall test cycle, with emphasis on data evaluation and reporting improvements. The thesis should conclude with an analysis of the AI-agent’s impact on SCE-testing efficiency and decision-making support.
Research Depth
Research into how an AI-agent can enhance the cyclic test iteration by optimizing part of or the complete test cycle phase. The research will explore how the AI can adapt to the specific challenges of hydrogen pre-mixed combustion in single-cylinder engine testing, streamline data processing, and provide actionable insights. The objective is to enable more efficient decision-making and deeper integration of data-driven methodologies into the engineering workflow, ultimately contributing to the advancement of future powertrain solutions.
Suitable Background
We are looking for candidates in the final year of their Master’s studies, preferably from faculties of Computer Science, Mechanical Engineering, or Applied Physics. We highly value diverse perspectives and encourage applications from all backgrounds. An interest in automotive engineering, internal combustion engines, and AI-driven data evaluation is highly valued. Experience or interest in AI applications, data processing, or simulation tools will also be beneficial.
Application
If you're a motivated student eager to make an impact, apply today!
The last application date is the 13th of November.
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: Advanced Analytics
Organization: Group Trucks Technology
Travel Required: No Travel Required
Requisition ID: 14897