Multi-Purpose-MPC/README.md

44 lines
2.2 KiB
Markdown

# Multi-Purpose MPC
1. [Introduction](#introduction)
2. [Implementation Details](#implementation-details)
1. [Map](#map)
2. [Reference Path](#reference-path)
3. [Spatial Bicycle Model](#spatial-bicycle-model)
4. [Model Predictive Controller (MPC)](#model-predictive-controller)
3. [How-To](#how-to)
4. [Limitations and Outlook](#limitations-and-outlook)
## Introduction
In this repository you find an implementation of a multi-purpose Model Predictive Controller. The controller was implemented as a contribution to the [Automatic Control Project Course (EL2425)](https://www.kth.se/student/kurser/kurs/EL2425) at KTH Royal Institute of Technology, Stockholm.
The developed algorithm was tested on a 1:10 RC car provided by [KTH Smart Mobility Lab](https://www.kth.se/dcs/research/control-of-transport/smart-mobility-lab/smart-mobility-lab-1.441539). The test scenarios comprised the following three tasks:
1. Reference Path Tracking
2. Time-Optimal Driving
3. Obstacle Avoidance
The controller is implemented in a way that enables its application to all three tasks by merely tuning the weight matrices of the underlying optimization problem. The illustration below shows the obstacle avoidance task in simulation.
The rest of this readme is structured as follows. In [Section 2](##Components) we will present an overview of the entire system and discuss all fundamental components of the implementation in detail. In [Section 3](##How-To) we will provide guidelines for using the implementation in simulation and practice. [Section 4](##Limitations) will be dedicated to analyzing limitations of the current version of the controller and outline potential extensions of the implementation.
## Implementation Details
The multi-purpose control framework presented in this repository consists of four main components. These components are intended to make the implementation as modular as possible, facilitating extensions to certain components without having to alter the overall structure of the framework. An illustration of the components and their interaction is displayed below.
<p align="center">
<img src="MPC_Framework.png">
</p>
### Map
### Reference Path
### Spatial Bicycle Model
### Model Predictive Controller
## How-To
## Limitations and Outlook