Intraday Variation Mapping of Population Age Structure via Urban-Functional-Region-Based Scaling

The spatial distribution of the population is uneven for various reasons, such as urban-rural differences and geographical conditions differences. As the basic element of the natural structure of the population, the age structure composition of populations also varies considerably across the world....

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Switzerland), 2021-02, Vol.13 (4), p.805
Main Authors: Zhao, Yuncong, Zhang, Yuan, Wang, Hongyan, Du, Xin, Li, Qiangzi, Zhu, Jiong
Format: Article
Language:English
Subjects:
Age
Age composition
age structure
Algorithms
Children
Commuting
dasymetric model
Datasets
Digital mapping
Identification methods
intraday variation map
Mapping
Mathematical analysis
Mobility
Older people
Population
Population distribution
Population number
Remote sensing
RF-RFE algorithm
Risk analysis
Risk assessment
Roads
Roads & highways
Root-mean-square errors
Sampling
Scaling factors
Spatial data
Spatial distribution
temporal scaling factor
Topography
Transportation networks
urban functional regions
Variation
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Summary:The spatial distribution of the population is uneven for various reasons, such as urban-rural differences and geographical conditions differences. As the basic element of the natural structure of the population, the age structure composition of populations also varies considerably across the world. Obtaining accurate and spatiotemporal population age structure maps is crucial for calculating population size at risk, analyzing populations mobility patterns, or calculating health and development indicators. During the past decades, many population maps in the form of administrative units and grids have been produced. However, these population maps are limited by the lack of information on the change of population distribution within a day and the age structure of the population. Urban functional regions (UFRs) are closely related to population mobility patterns, which can provide information about population variation intraday. Focusing on the area within the Beijing Fifth Ring Road, the political and economic center of Beijing, we showed how to use the temporal scaling factors obtained by analyzing the population survey sampling data and population dasymetric maps in different categories of UFRs to realize the intraday variation mapping of elderly individuals and children. The population dasymetric maps were generated on the basis of covariates related to population. In this article, 50 covariates were calculated from remote sensing data and geospatial data. However, not all covariates are associate with population distribution. In order to improve the accuracy of dasymetric maps and reduce the cost of mapping, it is necessary to select the optimal subset for the dasymetric model of elderly and children. The random forest recursive feature elimination (RF-RFE) algorithm was introduced to obtain the optimal subset of different age groups of people and generate the population dasymetric model in this article, as well as to screen out the optimal subset with 38 covariates and 26 covariates for the dasymetric models of the elderly and children, respectively. An accurate UFR identification method combining point of interest (POI) data and OpenStreetMap (OSM) road network data is also introduced in this article. The overall accuracy of the identification results of UFRs was 70.97%, which is quite accurate. The intraday variation maps of population age structure on weekdays and weekends were made within the Beijing Fifth Ring Road. Accuracy evaluation based on sam
ISSN:2072-4292
2072-4292
DOI:10.3390/rs13040805