978-88-5518-461-8_19.pdf

978-88-5518-461-8_19.pdf

The analysis of origin-destination traffic flows may be useful in many contexts of application (e.g., urban planning, tourism economics) and have been commonly studied through the gravity model, which states that flows are proportional to ''masses" of both origin and destination, and...

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Γλώσσα:English
Έκδοση: Firenze University Press 2022
Διαθέσιμο Online:https://books.fupress.com/doi/capitoli/978-88-5518-461-8_19
id oapen-20.500.12657-58229
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spelling oapen-20.500.12657-582292022-09-16T03:13:47Z Chapter Modelling the spatio-temporal dynamic of traffic flows with gravity models and mobile phone data Carpita, Maurizio Metulini, Rodolfo Mobile phone network Gravity model Origin-destination data Flooding risk bic Book Industry Communication::J Society & social sciences::JH Sociology & anthropology::JHB Sociology::JHBC Social research & statistics The analysis of origin-destination traffic flows may be useful in many contexts of application (e.g., urban planning, tourism economics) and have been commonly studied through the gravity model, which states that flows are proportional to ''masses" of both origin and destination, and inversely proportional to distance between them. Using data on the flow of mobile phone SIM among different aree di censimento, recorded hourly basis for several months and provided by FasterNet in the context of MoSoRe project, in this work we characterize and model the dynamic of such flows over the time in the strongly urbanized and flood-prone area of the Mandolossa (western outskirts of Brescia, northern Italy), with the aim of predicting the traffic flow during flood episodes. Whereas a traditional ”static” mass explanatory variable is represented by residential population (Pop), or by gross domestic product (GDP), here we propose to use a most accurate set of explanatory variables in order to better account for the dynamic over the time. First, we employ a time-varying mass variable represented by the number of city-users by area and by time period, which has been estimated from mobile phone data (provided by TIM) using functional data approach and already adopted to derive crowding maps for flood exposure. Secondly, we include in the model a proper set of factors such as areal and time dummies, and a novel set of indices related to (e.g.) the number and the type of streets, the number of offices, restaurants or cinemas, which may be retrieved from OpenStreetMap. The joint use of these two novel sets of explanatory variables should allow us to obtain a better linear fitting of the gravity model and a better traffic flow prediction for the flood risk evaluation. 2022-09-15T20:05:47Z 2022-09-15T20:05:47Z 2021 chapter ONIX_20220915_9788855184618_25 2704-5846 9788855184618 https://library.oapen.org/handle/20.500.12657/58229 eng Proceedings e report application/pdf Attribution 4.0 International 978-88-5518-461-8_19.pdf https://books.fupress.com/doi/capitoli/978-88-5518-461-8_19 Firenze University Press 10.36253/978-88-5518-461-8.19 10.36253/978-88-5518-461-8.19 bf65d21a-78e5-4ba2-983a-dbfa90962870 9788855184618 132 6 Florence open access
institution OAPEN
collection DSpace
language English
description The analysis of origin-destination traffic flows may be useful in many contexts of application (e.g., urban planning, tourism economics) and have been commonly studied through the gravity model, which states that flows are proportional to ''masses" of both origin and destination, and inversely proportional to distance between them. Using data on the flow of mobile phone SIM among different aree di censimento, recorded hourly basis for several months and provided by FasterNet in the context of MoSoRe project, in this work we characterize and model the dynamic of such flows over the time in the strongly urbanized and flood-prone area of the Mandolossa (western outskirts of Brescia, northern Italy), with the aim of predicting the traffic flow during flood episodes. Whereas a traditional ”static” mass explanatory variable is represented by residential population (Pop), or by gross domestic product (GDP), here we propose to use a most accurate set of explanatory variables in order to better account for the dynamic over the time. First, we employ a time-varying mass variable represented by the number of city-users by area and by time period, which has been estimated from mobile phone data (provided by TIM) using functional data approach and already adopted to derive crowding maps for flood exposure. Secondly, we include in the model a proper set of factors such as areal and time dummies, and a novel set of indices related to (e.g.) the number and the type of streets, the number of offices, restaurants or cinemas, which may be retrieved from OpenStreetMap. The joint use of these two novel sets of explanatory variables should allow us to obtain a better linear fitting of the gravity model and a better traffic flow prediction for the flood risk evaluation.
title 978-88-5518-461-8_19.pdf
spellingShingle 978-88-5518-461-8_19.pdf
title_short 978-88-5518-461-8_19.pdf
title_full 978-88-5518-461-8_19.pdf
title_fullStr 978-88-5518-461-8_19.pdf
title_full_unstemmed 978-88-5518-461-8_19.pdf
title_sort 978-88-5518-461-8_19.pdf
publisher Firenze University Press
publishDate 2022
url https://books.fupress.com/doi/capitoli/978-88-5518-461-8_19
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