Agent based simulation for architectural spaces
Project description
Agent-based model simulation for air quality and pandemic risk assessment in architectural spaces.
User Guide
archABM is a fast and open source agent-based modelling framework that simulates complex human-building-interaction patterns and estimates indoor air quality across an entire building, while taking into account potential airborne virus concentrations.
Disclaimer: archABM is an evolving research tool designed to familiarize the interested user with factors influencing the potential indoor airborne transmission of viruses (such as SARS-CoV-2) and the generation of carbon-dioxide (CO2) indoors. Calculations of virus and CO2 levels within ArchABM are based on recently published aerosol models [1,2], which however have not been validated in the context of agent-based modeling (ABM) yet. We note that uncertainty in and intrinsic variability of model parameters as well as underlying assumptions concerning model parameters may lead to errors regarding the simulated results. Use of archABM is the sole responsibility of the user. It is being made available without guarantee or warranty of any kind. The authors do not accept any liability from its use.
[1] Peng, Zhe, and Jose L. Jimenez. "Exhaled CO2 as a COVID-19 infection risk proxy for different indoor environments and activities." Environmental Science & Technology Letters 8.5 (2021): 392-397.
[2] Lelieveld, Jos, et al. "Model calculations of aerosol transmission and infection risk of COVID-19 in indoor environments." International journal of environmental research and public health 17.21 (2020): 8114.
Installation
As the compiled archABM package is hosted on the Python Package
Index (PyPI) you can easily install it with pip
. To install
archABM, run this command in your terminal of choice:
$ pip install archABM
or, alternatively:
$ python -m pip install archABM
If you want to get archABM's latest version, you can refer to the repository hosted at github:
python -m pip install https://github.com/Vicomtech/ArchABM/archive/main.zip
Getting Started
Use the following template to run a simulation with archABM:
# Import modules
import json
import pandas as pd
from archABM.engine import Engine
# Read configuration example
from archABM.config import config
# Alternatively, get configuration from "config.json" example
# Create ArchABM simulation engine
simulation = Engine(config)
# Run simulation
results = simulation.run()
# Create dataframes based on the results
df_people = pd.DataFrame(results["results"]["people"])
df_places = pd.DataFrame(results["results"]["places"])
This example uses the default configuration file built-in the library.
Alternatively, you can download and modify the config.json file found at the data
directory of archABM repository.
Developers can also use the command-line interface with the main.py file from the source code repository.
$ python main.py config.json
Check the --help
option to get more information about the optional parameters:
$ python main.py --help
Usage: main.py [OPTIONS] CONFIG_FILE
ArchABM simulation helper
Arguments:
CONFIG_FILE The name of the configuration file [required]
Options:
-i, --interactive Interactive CLI mode [default: False]
-l, --save-log Save events logs [default: False]
-c, --save-config Save configuration file [default: True]
-t, --save-csv Export results to csv format [default: True]
-j, --save-json Export results to json format [default: False]
-o, --return-output Return results dictionary [default: False]
--install-completion Install completion for the current shell.
--show-completion Show completion for the current shell, to copy it or
customize the installation.
--help Show this message and exit.
To run an example with the CLI, download the config.json file found at the data
directory of archABM repository.
Inputs
In order to run a simulation, information about the event
types,
people
, places
, and the aerosol model
must be provided to the
ArchABM framework.
Events
Attribute | Description | Type |
---|---|---|
name | Event name | string |
schedule | When an event is permitted to happen, in minutes | list of tuples |
duration | Event duration lower and upper bounds, in minutes | integer ,integer |
number of repetitions | Number of repetitions lower and upper bounds | integer ,integer |
mask efficiency | Mask efficiency during an event [0-1] | float |
collective | Event is invoked by one person but involves many | boolean |
allow | Whether such event is allowed in the simulation | boolean |
Places
Attribute | Description | Type |
---|---|---|
name | Place name | string |
activity | Activity or event occurring at that place | string |
department | Department name | string |
building | Building name | string |
area | Room floor area in square meters | float |
height | Room height in meters. | float |
capacity | Room people capacity. | integer |
height | Room height in meters. | float |
ventilation | Passive ventilation in hours-1 | float |
recirculated_flow_rate | Active ventilation in cubic meters per hour | float |
allow | Whether such place is allowed in the simulation | boolean |
People
Attribute | Description | Type |
---|---|---|
department | Department name | string |
building | Building name | string |
num_people | Number of people | integer |
Aerosol Model
Attribute | Description | Type |
---|---|---|
pressure | Ambient pressure in atm | float |
temperature | Ambient temperature in Celsius degrees | float |
CO2_background | Background CO2 concentration in ppm | float |
decay_rate | Decay rate of virus in hours-1 | float |
deposition_rate | Deposition to surfaces in hours-1 | float |
hepa_flow_rate | Hepa filter flow rate in cubic meters per hour | float |
filter_efficiency | Air conditioning filter efficiency | float |
ducts_removal | Air ducts removal loss | float |
other_removal | Extraordinary air removal | float |
fraction_immune | Fraction of people immune to the virus | float |
breathing_rate | Mean breathing flow rate in cubic meters per hour | float |
CO2_emission_person | CO2 emission rate at 273K and 1atm | float |
quanta_exhalation | Quanta exhalation rate in quanta per hour | float |
quanta_enhancement | Quanta enhancement due to variants | float |
people_with_masks | Fraction of people using mask | float |
Options
Attribute | Description | Type |
---|---|---|
movement_buildings | Allow people enter to other buildings | boolean |
movement_department | Allow people enter to other departments | boolean |
number_runs | Number of simulations runs to execute | integer |
save_log | Save events logs | boolean |
save_config | Save configuration file | boolean |
save_csv | Export the results to csv format | boolean |
save_json | Export the results to json format | boolean |
return_output | Return a dictionary with the results | boolean |
directory | Directory name to save results | string |
ratio_infected | Ratio of infected to total number of people | float |
model | Aerosol model to be used in the simulation | string |
Example config.json
config.json
{
"events": [{
"activity": "home",
"schedule": [
[0, 480],
[1020, 1440]
],
"repeat_min": 0,
"repeat_max": null,
"duration_min": 300,
"duration_max": 360,
"mask_efficiency": null,
"collective": false,
"shared": false,
"allow": true
},
{
"activity": "work",
"schedule": [
[480, 1020]
],
"repeat_min": 0,
"repeat_max": null,
"duration_min": 30,
"duration_max": 60,
"mask_efficiency": 0.0,
"collective": false,
"shared": true,
"allow": true
},
{
"activity": "meeting",
"schedule": [
[540, 960]
],
"repeat_min": 0,
"repeat_max": 5,
"duration_min": 20,
"duration_max": 90,
"mask_efficiency": 0.0,
"collective": true,
"shared": true,
"allow": true
},
{
"activity": "lunch",
"schedule": [
[780, 900]
],
"repeat_min": 1,
"repeat_max": 1,
"duration_min": 20,
"duration_max": 45,
"mask_efficiency": 0.0,
"collective": true,
"shared": true,
"allow": true
},
{
"activity": "coffee",
"schedule": [
[600, 660],
[900, 960]
],
"repeat_min": 0,
"repeat_max": 2,
"duration_min": 5,
"duration_max": 15,
"mask_efficiency": 0.0,
"collective": true,
"shared": true,
"allow": true
},
{
"activity": "restroom",
"schedule": [
[480, 1020]
],
"repeat_min": 0,
"repeat_max": 4,
"duration_min": 3,
"duration_max": 6,
"mask_efficiency": 0.0,
"collective": false,
"shared": true,
"allow": true
}
],
"places": [{
"name": "home",
"activity": "home",
"building": null,
"department": null,
"area": null,
"height": null,
"capacity": null,
"ventilation": null,
"recirculated_flow_rate": null,
"allow": true
},
{
"name": "open_office",
"activity": "work",
"building": "building1",
"department": ["department1", "department2", "department3", "department4"],
"area": 330.0,
"height": 2.7,
"capacity": 60,
"ventilation": 1.5,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "it_office",
"activity": "work",
"building": "building1",
"department": ["department4"],
"area": 52.0,
"height": 2.7,
"capacity": 10,
"ventilation": 1.5,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "chief_office_A",
"activity": "work",
"building": "building1",
"department": ["department5", "department6", "department7"],
"area": 21.0,
"height": 2.7,
"capacity": 5,
"ventilation": 1.5,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "chief_office_B",
"activity": "work",
"building": "building1",
"department": ["department5", "department6", "department7"],
"area": 21.0,
"height": 2.7,
"capacity": 5,
"ventilation": 1.5,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "chief_office_C",
"activity": "work",
"building": "building1",
"department": ["department5", "department6", "department7"],
"area": 24.0,
"height": 2.7,
"capacity": 5,
"ventilation": 1.5,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "meeting_A",
"activity": "meeting",
"building": "building1",
"department": ["department1", "department2", "department3", "department5", "department6", "department7"],
"area": 16.0,
"height": 2.7,
"capacity": 6,
"ventilation": 1.0,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "meeting_B",
"activity": "meeting",
"building": "building1",
"department": ["department1", "department2", "department3", "department5", "department6", "department7"],
"area": 16.0,
"height": 2.7,
"capacity": 6,
"ventilation": 1.0,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "meeting_C",
"activity": "meeting",
"building": "building1",
"department": ["department1", "department2", "department3", "department5", "department6", "department7"],
"area": 11.0,
"height": 2.7,
"capacity": 4,
"ventilation": 1.0,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "meeting_D",
"activity": "meeting",
"building": "building1",
"department": null,
"area": 66.0,
"height": 2.7,
"capacity": 24,
"ventilation": 1.5,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "coffee_A",
"activity": "coffee",
"building": "building1",
"department": null,
"area": 25.0,
"height": 2.7,
"capacity": 10,
"ventilation": 1.5,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "coffee_B",
"activity": "coffee",
"building": "building1",
"department": null,
"area": 55.0,
"height": 2.7,
"capacity": 20,
"ventilation": 1.5,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "restroom_A",
"activity": "restroom",
"building": "building1",
"department": null,
"area": 20.0,
"height": 2.7,
"capacity": 4,
"ventilation": 1.0,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "restroom_B",
"activity": "restroom",
"building": "building1",
"department": ["department1", "department2", "department3", "department4", "department5", "department6"],
"area": 20.0,
"height": 2.7,
"capacity": 4,
"ventilation": 1.0,
"recirculated_flow_rate": 0,
"allow": true
},
{
"name": "lunch",
"activity": "lunch",
"building": "building1",
"department": null,
"area": 150.0,
"height": 2.7,
"capacity": 60,
"ventilation": 1.5,
"recirculated_flow_rate": 0,
"allow": true
}
],
"people": [{
"department": "department1",
"building": "building1",
"num_people": 16
},
{
"department": "department2",
"building": "building1",
"num_people": 16
},
{
"department": "department3",
"building": "building1",
"num_people": 16
},
{
"department": "department4",
"building": "building1",
"num_people": 7
},
{
"department": "department5",
"building": "building1",
"num_people": 2
},
{
"department": "department6",
"building": "building1",
"num_people": 2
},
{
"department": "department7",
"building": "building1",
"num_people": 1
}
],
"options": {
"movement_buildings": true,
"movement_department": false,
"number_runs": 1,
"save_log": true,
"save_config": true,
"save_csv": false,
"save_json": false,
"return_output": false,
"directory": null,
"ratio_infected": 0.05,
"model": "Colorado",
"model_parameters": {
"Colorado": {
"pressure": 0.95,
"temperature": 20,
"CO2_background": 415,
"decay_rate": 0.62,
"deposition_rate": 0.3,
"hepa_flow_rate": 0.0,
"recirculated_flow_rate": 300,
"filter_efficiency": 0.20,
"ducts_removal": 0.10,
"other_removal": 0.00,
"fraction_immune": 0,
"breathing_rate": 0.52,
"CO2_emission_person": 0.005,
"quanta_exhalation": 25,
"quanta_enhancement": 1,
"people_with_masks": 1.00
}
}
}
}
Outputs
Simulation outputs are stored by default in the results
directory. The
subfolder with the results of an specific simulation have the date and
time of the moment when it was launched as a name in
%Y-%m-%d_%H-%M-%S-%f
format.
By default, three files are saved after a simulation:
config.json
stores a copy of the input configuration.people.csv
stores every person's state along time.places.csv
stores every places's state along time.
archABM offers the possibility of exporting the results in JSON
and CSV format. To export in JSON format, use the --save-json
parameter when running archABM. By default, the --save-csv
parameter
is set to true.
Alternatively, archABM can also be configured to yield more detailed
information. The app.log
file saves the log of the actions and events
occurred during the simulation. To export this file, use the
--save-log
parameter when running archABM.
Citing archABM
If you use ArchABM in your work or project, please cite the following article, published in the Building and Environment journal. (https://doi.org/10.1016/j.buildenv.2021.108495):
Bibtex entry:
@article{MARTINEZ2021108495,
title = {ArchABM: An agent-based simulator of human interaction with the built environment. CO2 and viral load analysis for indoor air quality},
journal = {Building and Environment},
pages = {108495},
year = {2021},
issn = {0360-1323},
doi = {https://doi.org/10.1016/j.buildenv.2021.108495},
url = {https://www.sciencedirect.com/science/article/pii/S036013232100891X},
author = {Iñigo Martinez and Jan L. Bruse and Ane M. Florez-Tapia and Elisabeth Viles and Igor G. Olaizola},
keywords = {Agent-based modeling, Indoor air quality, Building ventilation, Aerosol model, Building design, Simulation}
}
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