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Fraunhofer-Gesellschaft

last mo.

Masterthesis - Model Predictive Path Following with System Identification and Wheel Slip Estimation(m/w/x)

Stuttgart

Full-timeInternshipOn-site

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Description

In this master's thesis role, you will focus on enhancing mobile robot navigation by developing a model predictive controller that accounts for surface slip effects. Your work will involve the analysis, integration, validation, and comparison of navigation systems in real-world scenarios.

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Requirements

•Field of study in robotics, cybernetics, computer science, mechanical engineering, mechatronics, or comparable
•Valid enrollment at a German university in robotics, cybernetics, computer science, mechanical engineering, mechatronics, or similar fields
•Knowledge of predictive or model-based control
•Experience with ROS
•Analytical thinking skills
•Enthusiasm for mobile robotics
•Fluency in English or German

Education

Currently in higher education

Tasks

•Analyze the existing navigation stack
•Extend system identification to include slip effects
•Derive a parameterized vehicle model from manual drives
•Consider different surfaces like sand, asphalt, grass, and gravel
•Develop and tune a model predictive controller (MPC)
•Integrate the MPC into an existing ROS2 environment
•Validate the system in simulation within ROS2
•Test on developed robots
•Compare performance with existing controllers regarding path error and stability
•Document and evaluate results scientifically

Languages

English – Business Fluent

German – Business Fluent

Benefits

Modern Equipment

•Cutting-edge technology

Diverse Work

•Practical work with robots

Purpose-Driven Work

•Responsibility and freedom

Other Benefits

•Collaboration with top students

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Fraunhofer-Gesellschaft

last mo.

Masterthesis - Model Predictive Path Following with System Identification and Wheel Slip Estimation(m/w/x)

Stuttgart

Full-timeInternshipOn-site

Nejo AI Summary

Apply now

New Job?Nejo!

The AI Job Search Engine

Description

Let AI find the perfect jobs for you!

Upload your CV and Nejo AI will find matching job offers for you.

Start AI Job Search

Requirements

•Field of study in robotics, cybernetics, computer science, mechanical engineering, mechatronics, or comparable
•Valid enrollment at a German university in robotics, cybernetics, computer science, mechanical engineering, mechatronics, or similar fields
•Knowledge of predictive or model-based control
•Experience with ROS
•Analytical thinking skills
•Enthusiasm for mobile robotics
•Fluency in English or German

Education

Currently in higher education

Tasks

•Analyze the existing navigation stack
•Extend system identification to include slip effects
•Derive a parameterized vehicle model from manual drives
•Consider different surfaces like sand, asphalt, grass, and gravel
•Develop and tune a model predictive controller (MPC)
•Integrate the MPC into an existing ROS2 environment
•Validate the system in simulation within ROS2
•Test on developed robots
•Compare performance with existing controllers regarding path error and stability
•Document and evaluate results scientifically

Languages

English – Business Fluent

German – Business Fluent

Benefits

Modern Equipment

•Cutting-edge technology

Diverse Work

•Practical work with robots

Purpose-Driven Work

•Responsibility and freedom

Other Benefits

•Collaboration with top students

About the Company

Fraunhofer-Gesellschaft

Industry

Research

Description

Das Unternehmen ist eine der führenden Organisationen für anwendungsorientierte Forschung mit 76 Instituten in Deutschland.

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Masterthesis - Model Predictive Path Following with System Identification and Wheel Slip Estimation(m/w/x)

Description

Requirements

Education

Tasks

Languages

Benefits

Modern Equipment

Diverse Work

Purpose-Driven Work

Other Benefits

Masterthesis - Reinforcement Learning approach for path following and base control(m/w/x)

Master Thesis - Multi-modal traversability estimation for Autonomous Outdoor Navigation(m/w/x)

Master Thesis - Multi-session global traversability Mapping for Autonomous Outdoor Navigation(m/w/x)

Master Thesis - Reinforcement Learning for wheeled, bipedal robots(m/w/x)

Master Thesis - Out-of-distribution detection + annotation for traversability estimation for robots(m/w/x)

Masterthesis - Model Predictive Path Following with System Identification and Wheel Slip Estimation(m/w/x)

Description

Requirements

Education

Tasks

Languages

Benefits

Modern Equipment

Diverse Work

Purpose-Driven Work

Other Benefits

About the Company

Masterthesis - Reinforcement Learning approach for path following and base control(m/w/x)

Master Thesis - Multi-modal traversability estimation for Autonomous Outdoor Navigation(m/w/x)

Master Thesis - Multi-session global traversability Mapping for Autonomous Outdoor Navigation(m/w/x)

Master Thesis - Reinforcement Learning for wheeled, bipedal robots(m/w/x)

Master Thesis - Out-of-distribution detection + annotation for traversability estimation for robots(m/w/x)