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Arch Iran Med. 2014;17(12): 0.
PMID: 25481321
Scopus ID: 84916210406
  Abstract View: 3086
  PDF Download: 2195

Original Article

A Framework for Exploration and Cleaning of Environmental Data – Tehran Air Quality Data Experience

Mansour Shamsipour, Farshad Farzadfar, Kimiya Gohari, Mahboubeh Parsaeian, Hassan Amini, Katayoun Rabiei, Mohammad Sadegh Hassanvand, Iman Navidi, Akbar Fotouhi, Kazem Naddafi, Nizal Sarrafzadegan, Anita Mansouri, Alireza Mesdaghinia, Bagher Larijani, Masud Yunesian*
*Corresponding Author: Email: yunesian@tums.ac.ir

Abstract

BACKGROUND: Management and cleaning of large environmental monitored data sets is a specific challenge. In this article, the authors present a novel framework for exploring and cleaning large datasets. As a case study, we applied the method on air quality data of Tehran, Iran from 1996 to 2013.

METHODS: The framework consists of data acquisition [here, data of particulate matter with aerodynamic diameter ≤10 µm (PM10)], development of databases, initial descriptive analyses, removing inconsistent data with plausibility range, and detection of missing pattern. Additionally, we developed a novel tool entitled spatiotemporal screening tool (SST), which considers both spatial and temporal nature of data in process of outlier detection. We also evaluated the effect of dust storm in outlier detection phase.
RESULTS: The raw mean concentration of PM10 before implementation of algorithms was 88.96 µg/m3 for 1996–2013 in Tehran. After implementing the algorithms, in total, 5.7% of data points were recognized as unacceptable outliers, from which 69% data points were detected by SST and 1% data points were detected via dust storm algorithm. In addition, 29% of unacceptable outlier values were not in the PR.
The mean concentration of PM10 after implementation of algorithms was 88.41 µg/m3. However, the standard deviation was significantly decreased from 90.86 µg/m3 to 61.64 µg/m3 after implementation of the algorithms. There was no distinguishable significant pattern according to hour, day, month, and year in missing data.
CONCLUSION: We developed a novel framework for cleaning of large environmental monitored data, which can identify hidden patterns. We also presented a complete picture of PM10 from 1996 to 2013 in Tehran. Finally, we propose implementation of our framework on large spatiotemporal databases, especially in developing countries.
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