Partially Observable Grid Environment for Multiple Agents
Project description
Partially-Observable Grid Environment for Multiple Agents
Partially observable multi-agent pathfinding (PO-MAPF) is a challenging problem which fundamentally differs from regular MAPF, in which a central controller is assumed to construct a joint plan for all agents before they start execution. PO-MAPF is intrisically decentralized and decision making (e.g. planning) here is interleaved with the execution. At each time step an agent receives a (local) observation of the environment and decides which action to take. The ultimate goal for the agents is to reach their goals while avoiding collisions with each other and the static obstacles.
POGEMA stands for Partially-Observable Grid Environment for Multiple Agents. This is a grid-based environment that was specifically designed to be flexible, tunable and scalable. It can be tailored to a variety of PO-MAPF settings. Currently the (somewhat) standard setting is supported: agents can move between the cardinally-adjacent cells of the grid, each action (move or wait) takes one time step. No information sharing between the agents is happening.
POGEMA can generate random maps and start/goals locations for the agents. It also can take custom maps as the input.
Installation
Just install from PyPI:
pip install pogema
Using Example
from pogema import pogema_v0, Hard8x8
env = pogema_v0(grid_config=Hard8x8())
obs = env.reset()
done = [False, ...]
while not all(done):
# Use random policy to make actions
obs, reward, done, info = env.step([env.action_space.sample() for _ in range(len(obs))])
Environments
| Config | agents density | num agents | horizon |
|---|---|---|---|
| Easy8x8 | 2.2% | 1 | 64 |
| Normal8x8 | 4.5% | 2 | 64 |
| Hard8x8 | 8.9% | 4 | 64 |
| ExtraHard8x8 | 17.8% | 8 | 64 |
| Easy16x16 | 2.2% | 4 | 128 |
| Normal16x16 | 4.5% | 8 | 128 |
| Hard16x16 | 8.9% | 16 | 128 |
| ExtraHard16x16 | 17.8% | 32 | 128 |
| Easy32x32 | 2.2% | 16 | 256 |
| Normal32x32 | 4.5% | 32 | 256 |
| Hard32x32 | 8.9% | 64 | 256 |
| ExtraHard32x32 | 17.8% | 128 | 256 |
| Easy64x64 | 2.2% | 64 | 512 |
| Normal64x64 | 4.5% | 128 | 512 |
| Hard64x64 | 8.9% | 256 | 512 |
| ExtraHard64x64 | 17.8% | 512 | 512 |
Baselines
The baseline implementations are available as a separate repository.
Interfaces
Pogema provides integrations with a range of MARL frameworks: PettingZoo, PyMARL and SampleFactory.
PettingZoo
from pogema import pogema_v0, GridConfig
# Create Pogema environment with PettingZoo interface
env = pogema_v0(GridConfig(integration="PettingZoo"))
PyMARL
from pogema import pogema_v0, GridConfig
env = pogema_v0(GridConfig(integration="PyMARL"))
SampleFactory
from pogema import pogema_v0, GridConfig
env = pogema_v0(GridConfig(integration="SampleFactory"))
Classic Gym
Pogema is fully capable for single-agent pathfinding tasks.
import gym
import pogema
# This interface provides experience only for agent with id=0,
# other agents will take random actions.
env = gym.make("Pogema-v0")
Example of training stable-baselines3 DQN to solve single-agent pathfinding tasks:
Customization
Random maps
from pogema import pogema_v0, GridConfig
# Define random configuration
grid_config = GridConfig(num_agents=4, # number of agents
size=8, # size of the grid
density=0.4, # obstacle density
seed=1, # set to None for random
# obstacles, agents and targets
# positions at each reset
max_episode_steps=128, # horizon
obs_radius=3, # defines field of view
)
env = pogema_v0(grid_config=grid_config)
env.reset()
env.render()
Custom maps
from pogema import pogema_v0, GridConfig
grid = """
.....#.....
.....#.....
...........
.....#.....
.....#.....
#.####.....
.....###.##
.....#.....
.....#.....
...........
.....#.....
"""
# Define new configuration with 8 randomly placed agents
grid_config = GridConfig(map=grid, num_agents=8)
# Create custom Pogema environment
env = pogema_v0(grid_config=grid_config)
Citation
If you use this repository in your research or wish to cite it, please make a reference to our paper:
@misc{https://doi.org/10.48550/arxiv.2206.10944,
doi = {10.48550/ARXIV.2206.10944},
url = {https://arxiv.org/abs/2206.10944},
author = {Skrynnik, Alexey and Andreychuk, Anton and Yakovlev, Konstantin and Panov, Aleksandr I.},
keywords = {Machine Learning (cs.LG), Artificial Intelligence (cs.AI), Multiagent Systems (cs.MA), FOS: Computer and information sciences, FOS: Computer and information sciences},
title = {POGEMA: Partially Observable Grid Environment for Multiple Agents},
publisher = {arXiv},
year = {2022},
copyright = {arXiv.org perpetual, non-exclusive license}
}
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