Designing and Implementing a Model Vehicle Platoon with Longitudinal Control

Abstract: Decreasing fuel consumption and increasing road capacity are both desired in regards to heavy duty vehicles. One proposed way of doing this is by having vehicles travelling at close distances to reduce the air drag, and thereby reducing their fuel consumption. This thesis address the platooning problem on model-scale vehicles as they are a desirable demonstration platform since they can be driven indoors. This thesis considers the implementation and evaluation of the longitudinal control of a model-scale vehicle platoon where Model Predictive Control is utilised. The concept of platooning on real full-size vehicles is briefly discussed and some of its benefits are described. The thesis then discusses and evaluates what sensors are necessary to equip the model vehicles with and how to implement them, in addition to a discussion and evaluation of inter-vehicular communication in an indoor environment is provided. Then, based on the available sensors, a heuristic feedback controller and a model-based controller is designed as distance controllers, as well as a feedback controller used for speed control, and then connected in a cascading structure. The two controllers are then evaluated in simulations based on different scenarios and finally results from a working implementation on the model-scale vehicles are presented. The end results from this thesis are a demonstration platform of two model-scale electrical vehicles as well as two different distance control algorithms both based on using the cruise control developed in the vehicles.