Detecting the Boundaries of Urban Areas in India: A Dataset for Pixel-Based Image Classification in Google Earth Engine

Ran Goldblatt,Gordon Hanson,Wei You,Amit Khandelwal

doi:10.3390/rs8080634

Ran Goldblatt, Gordon Hanson + Show 2 more

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https://doi.org/10.3390/rs8080634

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Abstract

Urbanization often occurs in an unplanned and uneven manner, resulting in profound changes in patterns of land cover and land use. Understanding these changes is fundamental for devising environmentally responsible approaches to economic development in the rapidly urbanizing countries of the emerging world. One indicator of urbanization is built-up land cover that can be detected and quantified at scale using satellite imagery and cloud-based computational platforms. This process requires reliable and comprehensive ground-truth data for supervised classification and for validation of classification products. We present a new dataset for India, consisting of 21,030 polygons from across the country that were manually classified as “built-up” or “not built-up,” which we use for supervised image classification and detection of urban areas. As a large and geographically diverse country that has been undergoing an urban transition, India represents an ideal context to develop and test approaches for the detection of features related to urbanization. We perform the analysis in Google Earth Engine (GEE) using three types of classifiers, based on imagery from Landsat 7 and Landsat 8 as inputs. The methodology produces high-quality maps of built-up areas across space and time. Although the dataset can facilitate supervised image classification in any platform, we highlight its potential use in GEE for temporal large-scale analysis of the urbanization process. Our methodology can easily be applied to other countries and regions.

Highlights

Over the past century, many countries, especially in the developing world, have experienced rapid urbanization [1,2]
We focus on rural areas adjacent to urban areas because our BU/not built-up (NBU) classification targets the boundaries of cities and is designed to characterize the process of urban sprawl
The BU/NBU distinction is expressed by significantly different (p < 0.001, for both tests) Normalized Difference Vegetation Index (NDVI) and NDBI values

Summary

Introduction

Many countries, especially in the developing world, have experienced rapid urbanization [1,2]. Urbanization entails an increase in the land area incorporated in cities, which over the 15 years is projected to grow by 1.2 million km2 [4]. The process of urbanization profoundly influences economic [5] and social development [1], and has direct consequences for biodiversity, resource conservation, and environmental degradation [4,6,7]. Previous literature measures the extent of urban areas using household-survey-based socio-economic data, nighttime lights, and mobile-phone records. With the increasing availability of satellite imagery at ever-improving spatial and temporal resolutions, urban research is shifting towards the use of digital, multispectral images and towards the development of remote-sensing image

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