Lightweight Embedded Assisted Driving System
Reason this release was yanked:
Broken Version
Project description
LEADS: Lightweight Embedded Assisted Driving System
LEADS is a lightweight embedded assisted driving system. It is designed to simplify the development of the
instrumentation and control system for electric vehicles. It is written in well-organized Python and C/C++ with impressive
performance. It is not only plug-and-play (the VeC Project) but
also fully customizable. It provides multiple abstract layers that allow users to pull out the components and rearrange
them into a new project. You can either configure the existing executable module leads_vec
and leads_vec_rc
simply
through a JSON file or write your own codes based on the framework as easily as building a LEGO.
The hardware components chosen for this project are geared towards amateur developers. It uses neither a CAN bus nor any dedicated circuit board, but generic development kits such as Raspberry Pi and Arduino instead. However, as it is a high-level system running on a host computer, the software framework has the ability to adapt to any type of hardware component if you are willing to write some codes.
Before you start, please note that LEADS only supports rear drive and two drive-wheel configurations: single rear wheel (SRW) mode and dual rear wheel (DRW) mode.
:link: Docs
:link: Remote Analyst Online Dashboard
Key Features
- A basic instrumentation system
- A basic communication system
- A basic control system
- A data recording system with the following components
- A speed recording system
- A G force recording system
- A GPS recording system
- A battery voltage recording system
- A control system with the following components
- DTCS (Dynamic Traction Control System)
- ABS (Anti-lock Braking System)
- EBI (Emergency Braking Intervention)
- ATBS (Automatic Trail Braking System)
To High School Students
The codes are never designed for average high school students to understand. You may find it hard to read the codes if you do not satisfy the following requirements of skills and knowledge.
- Advanced Python knowledge (you should be familiar with everything and even programming philosophy in Python)
- Solid knowledge of Physics (you should understand how a car moves in reality)
- Basic embedded development experience (C/C++, Raspberry Pi, Arduino, serial communication, PWM)
- Rich experience in Web development (React, Next.js, FastAPI, TCP/IP, sockets)
- Basic machine learning knowledge (linear regression, polynomial regression)
Installation
Python
Note that LEADS requires Python >= 3.12.
pip install Pillow customtkinter keyboard pyserial gpiozero leads
numpy
will be automatically installed with leads
.
Pillow
, customtkinter
, keyboard
, pyserial
, and gpiozero
are optional.
If you only want the framework, run the following.
pip install leads
Verify
python -m leads_vec info
Arduino
You can install LEADS-Arduino from Arduino Library Manager. Note that it is named "LEADS", not "LEADS-Arduino", in the index.
LEADS Framework
See Read the Docs (TBC) for the documentation of how to customize and make use of the framework in your project.
Quick Start
Main
python -m leads_vec run
Optional Arguments
Run the following to get a list of all the supported arguments.
python -m leads_vec -h
Specify a Configuration File
python -m leads_vec -c path/to/the/config/file.json run
If not specified, all configurations will be default values.
To learn about the configuration file, read Configurations.
Generate a Configuration File
python -m leads_vec -r config run
This will generate a default "config.json" file under the current directory.
Register as a Systemd Service
python -m leads_vec -r systemd run
This will register a system service to start the program.
To enable auto-start at boot, run the following.
systemctl daemon-reload
systemctl enable leads_vec
Remote Analyst
python -m leads_vec_rc
Go to the online dashboard at https://leads-vec-rc.projectneura.org.
Optional Arguments
Run the following to get a list of all the supported arguments.
python -m leads_vec_rc -h
Server Port
python -m leads_vec_rc -p 80
If not specified, the port is 8000
by default.
Specify a Configuration File
python -m leads_vec_rc -c path/to/the/config/file.json
If not specified, all configurations will be default values.
To learn about the configuration file, read Configurations.
Environment Setup
This section helps you set up the exact environment we have for the VeC project. A more detailed guide of reproduction is available on https://leads.projectneura.org, but first of all, we run an Ubuntu 22.04 LTS on a Raspberry Pi 4 Model B 8GB. After the OS is set up, clone the repository or download the scripts from releases (only stable releases provide scripts).
You can simply run "setup.sh" and it will install everything for you. If anything goes wrong, you can also manually install everything.
If you install Python using the scripts, you will not find python ...
, python3 ...
, pip ...
, or pip3 ...
working
because you have to specify the Python version such that python3.12 ...
and python3.12 -m pip ...
.
Configurations
The configuration is a JSON file that has the following columns. You can have an empty configuration file like the following as all the columns are optional.
{}
Note that a purely empty file could cause an error.
Type | Usage | Used By | Default | |
---|---|---|---|---|
w_debug_level |
str |
"DEBUG" , "INFO" , "WARN" , "ERROR" |
Main, Remote | "DEBUG" |
srw_mode |
bool |
True : single rear wheel; False : dual rear wheel |
Main, Remote | True |
enable_data_persistence |
bool |
True : enable data persistence; False : disable data persistence |
Main, Remote | True |
width |
int |
Window width | Main | 720 |
height |
int |
Window height | Main | 480 |
fullscreen |
bool |
True : auto maximize; False : window mode |
Main | False |
no_title_bar |
bool |
True : no title bar; False : default title bar |
Main | False |
manual_mode |
bool |
True : hide control system; False : show control system |
Main | False |
refresh_rate |
int |
GUI frame per second | Main | 30 |
w_font_size_small |
int |
Small font size | Main | 8 |
w_font_size_medium |
int |
Medium font size | Main | 16 |
w_font_size_large |
int |
Large font size | Main | 32 |
w_font_size_x_large |
int |
Extra large font size | Main | 48 |
comm_addr |
str |
Communication server address | Remote | "127.0.0.1" |
comm_port |
int |
The port on which the communication system runs on | Main, Remote | 16900 |
data_dir |
str |
The directory for the data recording system | Remote | "./data" |
Submodules
- LEADS-Arduino
- leads-docs
- leads-vec-rc (Private)
Periodic Report
See reports.
Architecture
Main
Pin Configuration
Remote Controller
Collaborations
Community
Issues
Our team management completely relies on GitHub. Tasks are published and assigned as issues. You will be notified if you are assigned to certain tasks. However, you may also join other discussions for which you are not responsible.
There are a few labels that classify the issues.
bug
reports a bugcode review
discusses a code review or commentdocumentation
suggests a documentation enhancementduplicate
marks that a similar issue has been raisedenhancement
proposes a new feature or requesthelp wanted
means that extra attention is needed to this issueinvalid
marks that the issue is in a valid formatquestion
requests further informationreport
states that it is discussed in the meetingtodo
creates a new taskwontfix
marks that the issue is ignored
Label your issue with at least one of the labels above before you submit.
Projects
You can have a look at the whole schedule of each project in a timeline using the projects feature.
Code Contributions
See CONTRIBUTING.md.
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