ilqgames
A new real-time solver for large-scale differential games.
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Iterative Linear-Quadratic Games - a new, real-time solver for N-player general differential games.
NOTE that this project is still under active development and is only intended to be used as an academic reference at this stage. However, my intent is that it should eventually become stable enough for use as a reliable substitute for a model-predictive control backend.
For a full description of the algorithm itself and examples of how it can be applied in collision-avoidance problems, please refer to the paper, which was presented at ICRA 2020.
If you find this repository useful, please do cite the paper:
If you are interested in the feedback linearized version of this algorithm, please also refer to that paper, which is also published at ICRA 2020:
The primary contributor is David Fridovich-Keil, a recent PhD grad from Claire Tomlin's group in the EECS department at UC Berkeley. David is currently a postdoc at Stanford with Mac Schwager, and will start as a professor at UT Austin in fall 2021. The best way to contact David is by email, david.fridovichkeil at stanford dot edu, or if you have specific questions about this repository, please post an issue.
Documentation is automatically generated by a continuous integration service with each push to the master
branch, and it may be found here. Additionally, a more high-level form of documentation is available in PDF form here.
An early version of the iterative linear-quadratic game algorithm was implemented in Python; it is now deprecated and stored in the python/
directory. Ongoing and future development will proceed primarily in C++, although a colleague has built a standalone version in Julia here
ilqgames has been tested both in OS X and Ubuntu. Depending on your version of Ubuntu, you may notice a linker error related to aclocal-XX
, which may be fixed by symlinking Ubuntu's native aclocal
to the desired executable aclocal-XX
. Otherwise, external dependencies are standard:
glog
(Google's logging tools)gflags
(Google's command line flag tools)opengl
, glut
(graphics tools)eigen3
(linear algebra library)This repository uses the cmake
build system and may be compiled following standard cmake protocols:
Executables will be stored in the bin/
directory, with the exception of build/run_tests
, which runs unit tests. To run unit tests from the build directory, simply execute:
To run a particular example from the bin/
directory, e.g., the three-player intersection:
With any executable, a full explanation of command line arguments can be found by running:
All specific examples, e.g. the three-player intersection, inherit from the base class Problem
. This base class provides a number of utilities, such as warm starting, and also wraps the solver. To inherit, simply write a constructor which instantiates the appropriate solver with costs, and also set the initial state, operating point, and strategies. To see an example, consult the ThreePlayerIntersectionExample class.
There is a companion ROS extension under development, which may be found here. It is currently still marked private, but rest assured that the usage of the ilqgames toolbox in ROS is straightforward! If you want to implement this yourself for a custom application it is not too hard.
The native ilqgames graphical user interface can be a very useful tool in debugging algorithm changes, new costs, etc. Currently, it supports so-called TopDownRenderableProblem
games, where the state encodes x-y position and (potentially) heading information. To extend the GUI to other types of games, simply write a custom renderer, e.g. mirroring the TopDownRenderer
class. All GUI functionality is based on the DearImGui library, a copy of which is maintained locally in the external/
directory.