Skip to content

An environment based on JSBSIM aimed at one-to-one close air combat.

Notifications You must be signed in to change notification settings

Theohhhu/CloseAirCombat_baseline

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Light Aircraft Game: A lightweight, scalable, gym-wrapped aircraft competitive environment with baseline reinforcement learning algorithms

We provide a competitive environment for red and blue aircrafts games, which includes single control setting, 1v1 setting and 2v2 setting. The flight dynamics based on JSBSIM, and missile dynamics based on our implementation of proportional guidance. We also provide ppo and mappo implementation for self-play or vs-baseline training.

fromework

Install

# create python env
conda create -n jsbsim python=3.8
# install dependency
pip install torch pymap3d jsbsim==1.1.6 geographiclib gym==0.20.0 wandb icecream setproctitle. 

- Download Shapely‑1.7.1‑cp38‑cp38‑win_amd64.whl from [here](https://www.lfd.uci.edu/~gohlke/pythonlibs/#shapely), and `pip install shaply` from local file.

- Initialize submodules(*JSBSim-Team/jsbsim*): `git submodule init; git submodule update`

Envs

We provide all task configs in envs/JSBSim/configs, each config corresponds to a task.

SingleControl

SingleControl env includes single agent heading task, whose goal is to train agent fly according to the given direction, altitude and velocity. The trained agent can be used to design baselines or become the low level policy of the following combat tasks. We can designed two baselines, as shown in the video:

singlecontrol

The red is manever_agent, flying in a triangular trajectory. The blue is pursue agent, constantly tracking the red agent. You can reproduce this by python envs/JSBSim/test/test_baseline_use_env.py.

SingleCombat

SingleCombat env is for two agents 1v1 competitive tasks, including NoWeapon tasks and Missile tasks. We provide self-play setting and vs-baseline setting for each task. Due to the fact that learning to fly and combat simultaneously is non-trival, we also provide a hierarchical framework, where the upper level control gives the direction, altitude and velocity, the low level control use the model trained in SingleControl.

  • NoWeapon tasks require the agent to be in an posture advantage, which means the agent need to fly towards the tail of its opponent and maintain a proper distance.
  • Missile tasks require the agent learn to shoot down oppoents and dodge missiles. Missile engines are based on proportional guidance, we provide a document for our impletation here. We can futher divide missile tasks into into two categories:
    • Dodge missile task. Missile launches are controled by rules, train agent learn to dodge missile.
    • Shoot missile task. Missile launches are also learning goals. But training from scratch to learn launching missiles is not trival, we need to introduce some prior knowledge for policy learning. We use property that conjugate prior of binomial distribution is beta distribution to address this issue, refer to here for more details. A demo for shoot missile task:

1v1_missile

MultiCombat

MultiCombat env is for four agents 2v2 competitive tasks. The setting is same as SingleCombat. A demo for non-weapon tasks:

2v2_posture

Quick Start

Training

cd scripts
bash train_*.sh

We have provide scripts for five tasks in scripts/.

  • train_heading.sh is for SingleControl environment heading task.
  • train_vsbaseline.sh is for SingleCombat vs-baseline tasks.
  • train_selfplay.sh is for SingleCombat self-play tasks.
  • train_selfplay_shoot.sh is for SingleCombat self-play shoot missile tasks.
  • train_share_selfplay.sh is for MultipleCombat self-play tasks.

It can be adapted to other tasks by modifying a few parameter settings.

  • --env-name includes options ['SingleControl', 'SingleCombat', 'MultipleCombat'].
  • --scenario corresponds to yaml file in envs/JBSim/configs one by one.
  • --algorithm includes options [ppo, mappo], ppo for SingleControl and SingleCombat, mappo for MultipleCombat

The description of parameter setting refers to config.py. Note that we set parameters --use-selfplay --selfplay-algorithm --n-choose-opponents --use-eval --n-eval-rollout-threads --eval-interval --eval-episodes in selfplay-setting training. --use-prior is only set true for shoot missile tasks. We use wandb to track the training process. If you set --use-wandb, please replace the --wandb-name with your name.

Evaluate and Render

cd renders
python render*.py

This will generate a *.acmi file. We can use TacView, a universal flight analysis tool, to open the file and watch the render videos.

Citing

If you find this repo useful, pleased use the following citation:

@misc{liu2022light,
  author = {QihanLiu, Yuhua Jiang, Xiaoteng Ma},
  title = {Light Aircraft Game: A lightweight, scalable, gym-wrapped aircraft competitive environment with baseline reinforcement learning algorithms},
  year = {2022},
  publisher = {GitHub},
  journal = {GitHub repository},
  howpublished = {\url{https://github.com/liuqh16/CloseAirCombat}},
}

About

An environment based on JSBSIM aimed at one-to-one close air combat.

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Python 98.5%
  • Shell 1.5%