Skip to content

cpp implementation of robotics algorithms including localization, mapping, SLAM, path planning and control

License

Notifications You must be signed in to change notification settings

liyongjian2023/CppRobotics

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

CppRobotics

This is the cpp implementation of the PythonRobotics

Requirment

  • cmake
  • opencv 3.3
  • Eigen 3
  • CppAD / IPOPT (for MPC convex optimization) install tips
  • ROS (To make the repo lightweight :). Yet, we may still need it for 3D visualization.)

Build

 $ mkdir build
 $ cd build
 $ cmake ../
 $ make -j 8

Find all the executable files in build/bin.

Table of Contents

Localization

Extended Kalman Filter Localization

  • green line: the groundtruth trajectory
  • black line: dead reckoning
  • red points: observations (e.g. GPS)
  • blue line: estimated positions

ekf

Probabilistic Robotics

Particle Filter Localization

  • green line: the groundtruth trajectory
  • black line: dead reckoning
  • red points: landmarks
  • blue line: estimated positions

pf

Probabilistic Robotics

Path Planning

Dijkstra

  • blue point: the start point
  • red point: the goal point

dijkstra

A star

  • blue point: the start point
  • red point: the goal point

a_star

RRT

  • red circle: the start point
  • blue circle: the goal point
  • black circle: obstacles

rrt

Dynamic Window Approach

  • blue circle: the target point
  • red circle: the robot

dwa

The dynamic window approach to collision avoidance

Model Predictive Trajectory Generator

This part is based on the bicycle motion model.

  • blue circle: the target point
  • red circle: the initial point

mptg

Cubic Spline Planner

csp

State Lattice Planner

  • blue circle: the target point
  • red circle: the initial point

slp

State Space Sampling of Feasible Motions for High-Performance Mobile Robot Navigation in Complex Environments

Frenet Frame Trajectory

  • black line: the planned spline path
  • red circle: the obstacle
  • blue circle: the planned trajectory
  • green circle: the real-time position of robot

frenet

Optimal Trajectory Generation for Dynamic Street Scenarios in a Frenet Frame

Path Tracking Control

LQR Steering Control

  • black line: the planned spline path
  • red circle: the position under lqr control

lqr_steering

LQR Speed and Steering Control

  • black line: the planned spline path
  • red circle: the position under lqr control

lqr_full

MPC Speed and Steering Control

  • black line: the planned spline path
  • blue line: the passed path
  • yellow cross: the reference trajectory for MPC
    (To compile this part, you need to uncomment the related lines in CMakeLists.txt and install CppAD and IPOPT.)

mpc

About

cpp implementation of robotics algorithms including localization, mapping, SLAM, path planning and control

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • C++ 96.2%
  • CMake 1.8%
  • Shell 1.1%
  • Dockerfile 0.9%