Master thesis: Adaptive Cellular Networks for Autonomous Mobile Robots
Ericsson ABPublicerad: 2026-05-22
Ansök senast: Öppet tillsvidare
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About this opportunity:
Ericsson Research is the central research organization within Ericsson, comprising over 700 researchers across eight countries. Our mission is to provide system concepts, technologies, and intellectual property that secure Ericsson's long-term success and competitiveness. World-class innovation is achieved through collaboration within Ericsson and with external partners, customers, universities, and research institutes.
Are you ready to work on codesigning communication, control, and computation for autonomous mobile robots (AMRs) within a leading industrial research group? This master's thesis opportunity is offered by the Cyber-Physical Systems research area at Ericsson Research, in the Decision & Control team. The project tackles key challenges in building scalable solutions for offloading data from multi-sensor AMRs with particular focus on the codesign of communication, control, and computation for robotic applications. The project will take place between September and December. This is an applied research opportunity at the intersection of devices, cloud/edge computing, and networks where you can demonstrate your ideas, energy, and skills to shape future connected devices and machines.
What you will do:
- Research and design adaptive streaming network frameworks for multi-sensor AMRs for robot applications.
- Develop and implement frameworks on top of advanced 5G/6G features for robotic systems.
- Develop models and algorithms for real-time data streaming, managing, decision-making, and optimization in multi-sensor robotic systems.
- Integrate perception, planning, and control modules with mobile networks and edge/cloud compute resources.
- Design and run experiments and performance evaluations in mobile network environments to assess scalability, latency, reliability, and energy implications.
- Work with real hardware/robots and advanced 5G/6G features.
- Compare your solution against existing approaches to evaluate effectiveness and trade-offs.
The skills you bring:
- Currentely attending MSc studies in Computer Science, Systems Engineering, Mechatronic, Electronics, Robotics, Telecommunications, Control engineering or a related field.
- Strong programming skills in Python and/or C/C++.
- Knowledge and practical experience with ML/AI methods and their application in robotics and distributed systems.
- Experience with robot autonomy stack (perception, SLAM, planning, etc.).
- Hands-on experience with robotic systems, sensors (camera, LiDAR, etc.) or similar.
- Ability to formulate research problems and solve them independently as well as collaboratively.
- Strong analytical skills, quick learning ability, and the willingness to share knowledge with others.
- Excellent written and spoken English and good presentation skills.
- Experience with mobile networks and real-time networked applications is a plus.
Why join Ericsson?At Ericsson, you'll have an outstanding opportunity. The chance to use your skills and imagination to push the boundaries of what's possible. To build solutions never seen before to some of the world's toughest problems. You'll be challenged, but you won't be alone. You'll be joining a team of diverse innovators, all driven to go beyond the status quo to craft what comes next.
What happens once you apply?Click Here to find all you need to know about what our typical hiring process looks like.Encouraging a diverse and inclusive organization is core to our values at Ericsson, that's why we champion it in everything we do. We truly believe that by collaborating with people with different experiences we drive innovation, which is essential for our future growth. We encourage people from all backgrounds to apply and realize their full potential as part of our Ericsson team. Ericsson is proud to be an Equal Opportunity Employer. learn more.
Primary country and city:Sweden (SE) || Stockholm
Req ID:784949
About this opportunity:
Ericsson Research is the central research organization within Ericsson, comprising over 700 researchers across eight countries. Our mission is to provide system concepts, technologies, and intellectual property that secure Ericsson's long-term success and competitiveness. World-class innovation is achieved through collaboration within Ericsson and with external partners, customers, universities, and research institutes.
Are you ready to work on codesigning communication, control, and computation for autonomous mobile robots (AMRs) within a leading industrial research group? This master's thesis opportunity is offered by the Cyber-Physical Systems research area at Ericsson Research, in the Decision & Control team. The project tackles key challenges in building scalable solutions for offloading data from multi-sensor AMRs with particular focus on the codesign of communication, control, and computation for robotic applications. The project will take place between September and December. This is an applied research opportunity at the intersection of devices, cloud/edge computing, and networks where you can demonstrate your ideas, energy, and skills to shape future connected devices and machines.
What you will do:
- Research and design adaptive streaming network frameworks for multi-sensor AMRs for robot applications.
- Develop and implement frameworks on top of advanced 5G/6G features for robotic systems.
- Develop models and algorithms for real-time data streaming, managing, decision-making, and optimization in multi-sensor robotic systems.
- Integrate perception, planning, and control modules with mobile networks and edge/cloud compute resources.
- Design and run experiments and performance evaluations in mobile network environments to assess scalability, latency, reliability, and energy implications.
- Work with real hardware/robots and advanced 5G/6G features.
- Compare your solution against existing approaches to evaluate effectiveness and trade-offs.
The skills you bring:
- Currentely attending MSc studies in Computer Science, Systems Engineering, Mechatronic, Electronics, Robotics, Telecommunications, Control engineering or a related field.
- Strong programming skills in Python and/or C/C++.
- Knowledge and practical experience with ML/AI methods and their application in robotics and distributed systems.
- Experience with robot autonomy stack (perception, SLAM, planning, etc.).
- Hands-on experience with robotic systems, sensors (camera, LiDAR, etc.) or similar.
- Ability to formulate research problems and solve them independently as well as collaboratively.
- Strong analytical skills, quick learning ability, and the willingness to share knowledge with others.
- Excellent written and spoken English and good presentation skills.
- Experience with mobile networks and real-time networked applications is a plus.
Why join Ericsson?At Ericsson, you'll have an outstanding opportunity. The chance to use your skills and imagination to push the boundaries of what's possible. To build solutions never seen before to some of the world's toughest problems. You'll be challenged, but you won't be alone. You'll be joining a team of diverse innovators, all driven to go beyond the status quo to craft what comes next.
What happens once you apply?Click Here to find all you need to know about what our typical hiring process looks like.Encouraging a diverse and inclusive organization is core to our values at Ericsson, that's why we champion it in everything we do. We truly believe that by collaborating with people with different experiences we drive innovation, which is essential for our future growth. We encourage people from all backgrounds to apply and realize their full potential as part of our Ericsson team. Ericsson is proud to be an Equal Opportunity Employer. learn more.
Primary country and city:Sweden (SE) || Stockholm
Req ID:784949
