Predictive Control for Autonomous Articulated Vehicles
Abstract
Autonomous driving is a highly topical research area, where signi cant positive
impacts on safety and environment can be made, especially in the trucking industry.
The vehicles in this industry often consist of a tractor unit combined with a trailer.
This project focuses on navigating a model semi-trailer truck through an urbanlike
environment. A number of challenges arise from these settings, such as path
planning and control through sharp turns and crossings, combined with obstacle
avoidance. This needs to be done with high precision, considering that the whole
articulated vehicle needs to stay within the bounds of the road. Since the vehicle
will need to take critical decisions quickly, the performance and reliability of the
control system is also important.
Working towards a real world solution, this project o ers a complete prototype
implementation in a scaled testbed environment for articulated vehicles. To achieve
this, we have mathematically modeled the vehicle, created a path planning algorithm
that takes the trailer into account when calculating a suitable path, and developed
a controller that makes the vehicle follow this path. These components have been
integrated on a single-board computer (Raspberry Pi 3) embedded on the vehicle.
The evaluation of the system shows satisfying results, where the prototype is able to
do on-the-
y path planning while staying within the allowed areas of the test track.
The system is also extensible and modi able, and can be extended in future student
projects.
Degree
Student essay
Collections
View/ Open
Date
2017-08-10Author
Andrén, Nils
Gil Martin, Alicia
Hoogendijk, Kevin
Niklasson, Lars
Sandblom, Fanny
Slottner Seholm, Filip
Keywords
Automation, Automated Control, Path planning, Articulated vehicles,Autonomous vehicles, PID Controller
Language
eng