Weather effects on human mobility: a study using multi-channel sequence analysis

Brum-Bastos, Vanessa; Long, Jed A.; Demšar, Urška

doi:10.1016/j.compenvurbsys.2018.05.004

Cited by 40 publications

(26 citation statements)

References 47 publications

(31 reference statements)

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“…The GPS data is anonymously produced by many different devices such as vehicle tracking systems, mobile phones etc., therefore, using the GPS data for mobility inference is more practical and non‐trivial. Few studies like [19, 25, 37, 38] use only the GPS data for inference task, but at the same time only using the GPS data is not enough, because there are some hidden patterns that cannot be identified from GPS attributes as human mobility is highly correlated with the climate conditions [31, 39] and the weather data can be easily integrated with the GPS data. Therefore, we use weather attributes in addition to the GPS data, because using the weather data does not incur any cost and is easily available for all locations.…”

Section: Related Workmentioning

confidence: 99%

“…Therefore, we need additional weather features to uniquely identify the patterns among different transportation modes. Mobility patterns of the users are heavily dependent on weather conditions [31]. Based on this fact, we make use of the weather data which is easily available for all the locations and helps to overcome the limitations of GPS only attributes.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Convolutional LSTM based transportation mode learning from raw GPS trajectories

Nawaz

Huang

Wang

et al. 2020

IET Intelligent Transport Systems

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Section: Related Workmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Convolutional LSTM based transportation mode learning from raw GPS trajectories

Nawaz

Huang

Wang

et al. 2020

IET Intelligent Transport Systems

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“…In human mobility studies, geographic context has traditionally received less attention than behavioral states or social, and/or demographic factors, although this is changing with newly available data (see, e.g. Horanont et al 2013, Siła-Nowicka et al 2016, Brum-Bastos et al 2018. Despite this increasing interest in understanding the geographic context of movement, there has been surprisingly little cross-over between animal movement ecology and human mobility science.…”

Section: Analyzing Movement In Geographic Contextmentioning

confidence: 99%

Towards an integrated science of movement: converging research on animal movement ecology and human mobility science

Miller

Dodge

Miller

et al. 2019

International Journal of Geographical Information Science

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There is long-standing scientific interest in understanding purposeful movement by animals and humans. Traditionally, collecting data on individual moving entities was difficult and time-consuming, limiting scientific progress. The growth of location-aware and other geospatial technologies for capturing, managing and analyzing moving objects data are shattering these limitations, leading to revolutions in animal movement ecology and human mobility science. Despite parallel transitions towards massive individual-level data collected automatically via sensors, there is little scientific cross-fertilization across the animal and human divide. There are potential synergies from converging these separate domains towards an integrated science of movement. This paper discusses the data-driven revolutions in the animal movement ecology and human mobility science, their contrasting worldviews and, as examples of complementarity, transdisciplinary questions that span both fields. We also identify research challenges that should be met to develop an integrated science of movement trajectories.

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“…They have been particularly useful in resource‐poor environments, although the vast number of mobile phone users provides an opportunity for tracking movement patterns of people throughout both the developed and developing world (Chen et al, ; Searle et al., ; Vazquez‐Prokopec et al., ; Wesolowski et al., ). Despite the popularity of mobile phone data in human mobility and transportation research (Alessandretti, Sapiezynski, Lehmann, & Baronchelli, ; Brum‐Bastos, Long, & Demšar, ; Chen et al., ; Feng & Timmermans, ; Gong, Chen, Bialostozky, & Lawson, ; Schneider, Belik, Couronné, Smoreda, & González, ; Sila‐Nowicka et al, ; Van Dijk, ; Williams, Thomas, Dunbar, Eagle, & Dobra, ), studies on the accuracy or the coverage of location data are relatively sparse. Here it is worth noting that the present paper focuses on “active mobile phone data” in which the location of the mobile phone is determined in response to queries specifically designed to collect location data at fixed time intervals or distance thresholds (Ahas, Aasa, Roose, Mark, & Silm, ; Sagl, Delmelle, & Delmelle, ).…”

Section: Introductionmentioning

confidence: 99%

Quality of hybrid location data drawn from GPS‐enabled mobile phones: Does it matter?

Yoo

Roberts

Eum

et al. 2020

Transactions in GIS

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Despite their increasing popularity in human mobility studies, few studies have investigated the geo‐spatial quality of GPS‐enabled mobile phone data in which phone location is determined by special queries designed to collect location data with predetermined sampling intervals (hereafter “active mobile phone data”). We focus on two key issues in active mobile phone data—systematic gaps in tracking records and positioning uncertainty—and investigate their effects on human mobility pattern analyses. To address gaps in records, we develop an imputation strategy that utilizes local environment information, such as parcel boundaries, and recording time intervals. We evaluate the performance of the proposed imputation strategy by comparing raw versus imputed data with participants’ online survey responses. The results indicate that imputed data are superior to raw data in identifying individuals’ frequently visited places on a weekly basis. To assess the location accuracy of active mobile phone data, we investigate the spatial and temporal patterns of the positional uncertainty of each record and examine via Monte Carlo simulation how inaccurate location information might affect human mobility pattern indicators. Results suggest that the level of uncertainty varies as a function of time of day and the type of land use at which the position was determined, both of which are closely related to the location technology used to determine the location. Our study highlights the importance of understanding and addressing limitations of mobile phone derived positioning data prior to their use in human mobility studies.

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Weather effects on human mobility: a study using multi-channel sequence analysis

Cited by 40 publications

References 47 publications

Convolutional LSTM based transportation mode learning from raw GPS trajectories

Convolutional LSTM based transportation mode learning from raw GPS trajectories

Towards an integrated science of movement: converging research on animal movement ecology and human mobility science

Quality of hybrid location data drawn from GPS‐enabled mobile phones: Does it matter?

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