Street-level Air Quality Inference Based on Geographically Context-aware Random Forest Using Opportunistic Mobile Sensor Network

Xuening Qin; Tien Do Huu; Jelle Hofman; Esther Rodrigo Bonet; Valerio Panzica La Manna; Nikos Deligiannis; Wilfried Philips

Street-level Air Quality Inference Based on Geographically Context-aware Random Forest Using Opportunistic Mobile Sensor Network

Xuening Qin, Tien Do Huu, Jelle Hofman, Esther Rodrigo Bonet, Valerio Panzica La Manna, Nikos Deligiannis, Wilfried Philips

Research output: Chapter in Book/Report/Conference proceeding › Conference paper › Research

Abstract

The spatial heterogeneity and temporal variability of air pollution in urban environments make air quality inference for fine-grained air pollution monitoring extremely challenging. Most of the existing work estimates the air quality using sparse measurements collected from a limited number of fixed monitoring stations. In this work, we propose a geographically context-aware random forest model for street-level air quality inference using high spatial resolution data collected by opportunistic mobile sensor network. Compared with traditional random forest model, the proposed method builds a local model for each location by considering the neighbors in both geographical and feature space. The model is evaluated on our real air quality dataset collected from mobile sensors in Antwerp, Belgium. The experimental results show that the proposed method outperforms a series of commonly used methods including Ordinary Kriging (OK), Inverse Distance Weighting (IDW) and Random forest (RF).

Original language	English
Title of host publication	International Conference on Innovation in Artificial Intelligence (ICIAI 2021).
Publisher	Association for Computing Machinery (ACM)
Pages	1-10
Number of pages	10
Publication status	Accepted/In press - 5 Mar 2021
Event	2021 International Conference on Innovation in Artificial Intelligence - Xiamen (online), China Duration: 5 Mar 2021 → 8 Mar 2021 http://www.iciai.org/html/2021.html

Conference

Conference	2021 International Conference on Innovation in Artificial Intelligence
Abbreviated title	ICIAI 2021
Country/Territory	China
Period	5/03/21 → 8/03/21
Internet address	http://www.iciai.org/html/2021.html

1 Finished
1 Active

VLAAI1: Flanders Artificial Intelligence Research program (FAIR) – second cycle
Nowe, A. & Vanderborght, B.
1/01/24 → 31/12/28
Project: Applied
SRP11: Strategic Research Programme: Processing of large scale multi-dimensional, multi-spectral, multi-sensorial and distributed data (M³D²)
Schelkens, P., Deligiannis, N., Jansen, B., Kuijk, M., Munteanu, A., Sahli, H., Steenhaut, K., Stiens, J., Schelkens, P., Cornelis, J. P., Kuijk, M., Munteanu, A., Sahli, H., Stiens, J. & Vounckx, R.
1/11/12 → 31/12/23
Project: Fundamental

Cite this

Qin, X., Do Huu, T., Hofman, J., Rodrigo Bonet, E., Panzica La Manna, V., Deligiannis, N., & Philips, W. (Accepted/In press). Street-level Air Quality Inference Based on Geographically Context-aware Random Forest Using Opportunistic Mobile Sensor Network. In International Conference on Innovation in Artificial Intelligence (ICIAI 2021). (pp. 1-10). Association for Computing Machinery (ACM).

Qin, Xuening ; Do Huu, Tien ; Hofman, Jelle ; Rodrigo Bonet, Esther ; Panzica La Manna, Valerio ; Deligiannis, Nikos ; Philips, Wilfried. / Street-level Air Quality Inference Based on Geographically Context-aware Random Forest Using Opportunistic Mobile Sensor Network. International Conference on Innovation in Artificial Intelligence (ICIAI 2021).. Association for Computing Machinery (ACM), 2021. pp. 1-10

@inproceedings{135b66ae4248482a9c69a49d34d4c4af,

title = "Street-level Air Quality Inference Based on Geographically Context-aware Random Forest Using Opportunistic Mobile Sensor Network",

abstract = "The spatial heterogeneity and temporal variability of air pollution in urban environments make air quality inference for fine-grained air pollution monitoring extremely challenging. Most of the existing work estimates the air quality using sparse measurements collected from a limited number of fixed monitoring stations. In this work, we propose a geographically context-aware random forest model for street-level air quality inference using high spatial resolution data collected by opportunistic mobile sensor network. Compared with traditional random forest model, the proposed method builds a local model for each location by considering the neighbors in both geographical and feature space. The model is evaluated on our real air quality dataset collected from mobile sensors in Antwerp, Belgium. The experimental results show that the proposed method outperforms a series of commonly used methods including Ordinary Kriging (OK), Inverse Distance Weighting (IDW) and Random forest (RF).",

keywords = "air quality inference, Internet of Things, smart city, machine learning",

author = "Xuening Qin and {Do Huu}, Tien and Jelle Hofman and {Rodrigo Bonet}, Esther and {Panzica La Manna}, Valerio and Nikos Deligiannis and Wilfried Philips",

year = "2021",

month = mar,

day = "5",

language = "English",

pages = "1--10",

booktitle = "International Conference on Innovation in Artificial Intelligence (ICIAI 2021).",

publisher = "Association for Computing Machinery (ACM)",

address = "United States",

note = "null ; Conference date: 05-03-2021 Through 08-03-2021",

url = "http://www.iciai.org/html/2021.html",

}

Qin, X, Do Huu, T, Hofman, J, Rodrigo Bonet, E, Panzica La Manna, V, Deligiannis, N & Philips, W 2021, Street-level Air Quality Inference Based on Geographically Context-aware Random Forest Using Opportunistic Mobile Sensor Network. in International Conference on Innovation in Artificial Intelligence (ICIAI 2021).. Association for Computing Machinery (ACM), pp. 1-10, 2021 International Conference on Innovation in Artificial Intelligence, China, 5/03/21.

Street-level Air Quality Inference Based on Geographically Context-aware Random Forest Using Opportunistic Mobile Sensor Network. / Qin, Xuening; Do Huu, Tien; Hofman, Jelle; Rodrigo Bonet, Esther; Panzica La Manna, Valerio; Deligiannis, Nikos; Philips, Wilfried.

International Conference on Innovation in Artificial Intelligence (ICIAI 2021).. Association for Computing Machinery (ACM), 2021. p. 1-10.

Research output: Chapter in Book/Report/Conference proceeding › Conference paper › Research

TY - GEN

T1 - Street-level Air Quality Inference Based on Geographically Context-aware Random Forest Using Opportunistic Mobile Sensor Network

AU - Qin, Xuening

AU - Do Huu, Tien

AU - Hofman, Jelle

AU - Rodrigo Bonet, Esther

AU - Panzica La Manna, Valerio

AU - Deligiannis, Nikos

AU - Philips, Wilfried

PY - 2021/3/5

Y1 - 2021/3/5

N2 - The spatial heterogeneity and temporal variability of air pollution in urban environments make air quality inference for fine-grained air pollution monitoring extremely challenging. Most of the existing work estimates the air quality using sparse measurements collected from a limited number of fixed monitoring stations. In this work, we propose a geographically context-aware random forest model for street-level air quality inference using high spatial resolution data collected by opportunistic mobile sensor network. Compared with traditional random forest model, the proposed method builds a local model for each location by considering the neighbors in both geographical and feature space. The model is evaluated on our real air quality dataset collected from mobile sensors in Antwerp, Belgium. The experimental results show that the proposed method outperforms a series of commonly used methods including Ordinary Kriging (OK), Inverse Distance Weighting (IDW) and Random forest (RF).

AB - The spatial heterogeneity and temporal variability of air pollution in urban environments make air quality inference for fine-grained air pollution monitoring extremely challenging. Most of the existing work estimates the air quality using sparse measurements collected from a limited number of fixed monitoring stations. In this work, we propose a geographically context-aware random forest model for street-level air quality inference using high spatial resolution data collected by opportunistic mobile sensor network. Compared with traditional random forest model, the proposed method builds a local model for each location by considering the neighbors in both geographical and feature space. The model is evaluated on our real air quality dataset collected from mobile sensors in Antwerp, Belgium. The experimental results show that the proposed method outperforms a series of commonly used methods including Ordinary Kriging (OK), Inverse Distance Weighting (IDW) and Random forest (RF).

KW - air quality inference

KW - Internet of Things

KW - smart city

KW - machine learning

M3 - Conference paper

SP - 1

EP - 10

BT - International Conference on Innovation in Artificial Intelligence (ICIAI 2021).

PB - Association for Computing Machinery (ACM)

Y2 - 5 March 2021 through 8 March 2021

ER -

Street-level Air Quality Inference Based on Geographically Context-aware Random Forest Using Opportunistic Mobile Sensor Network

Abstract

Conference

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Projects

VLAAI1: Flanders Artificial Intelligence Research program (FAIR) – second cycle

SRP11: Strategic Research Programme: Processing of large scale multi-dimensional, multi-spectral, multi-sensorial and distributed data (M³D²)

Cite this