Department of Engineering
for Innovation
Department of Engineering
for Innovation
Control Systems, Optimization and Robotics
Bachelor's and Master's thesis
Master's thesis
- Development of a low-complexity 3PDP (3 Points Dubins Paths) algorithm and its exploitation in the Dubins Traveling Salesman Problem.
- Implementation of a low-complexity 3PDP (3 Points Dubins Paths) on an Unmanned Aerial Vehicle.
- Development of a Navigation algorithm for marine vehicles based on dynamic model and visual odometry information exploiting a “stochastic cloning” framework. (ROBUST scenario)
- Outlier Robust State Estimation Through Smoothing on a Sliding Window based on a Least Trimmed Squares (LTS) cost.
- Real time implementation (in ROS framework) of a Finite State Machine to manage missions for a team of cooperative underwater vehicles.
- Experimental validation of a null-space based approach to range-only underwater steering and positioning in presence of currents