Transport poverty meets the digital divide: accessibility and connectivity in rural communities

Velaga, Nagendra R.; Beecroft, Mark; Nelson, John D.; Corsar, David; Edwards, Peter

doi:10.1016/j.jtrangeo.2011.12.005

Cited by 267 publications

(156 citation statements)

References 45 publications

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“…The latest advances in transport telematics that utilise a range of advanced ICT, vehicle sensing, emission monitoring, digital technologies, and navigation and positioning systems may help in deploying such a national-level dynamic RUC system (Sussman, 2005;Deeter, 2009;Velaga et al, 2012a). Whilst the cost of the individual technologies required has now fallen substantially, critical factors for implementation are public and political acceptability as well as the transition costs of an entirely new system for charging road users (see for example, Schade andSchlag, 2003, or Kocak et al, 2005).…”

Section: Background and Research Objectivesmentioning

confidence: 99%

Achieving genuinely dynamic road user charging: issues with a GNSS-based approach

Velaga

Pangbourne

2014

Journal of Transport Geography

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Section: Background and Research Objectivesmentioning

confidence: 99%

Achieving genuinely dynamic road user charging: issues with a GNSS-based approach

Velaga

Pangbourne

2014

Journal of Transport Geography

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“…Accessibility is also a key factor in regional and rural development policy [3][4][5][6][7]. Transport accessibility is one of the decisive disparities between urban and rural communities [8,9] and its insufficiency or unavailability may lead to the social exclusion of a part of the population [10][11][12][13]. Insufficient transport and accessibility (T&A) options are claimed to have a depopulating effect in peripheral areas [14], which may result in a subsequent littorization.…”

Section: Introductionmentioning

confidence: 99%

Addressing the Passenger Transport and Accessibility Enablers for Sustainable Development

et al. 2018

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Sustainable Development (SD) is a fundamental objective in the European Union (EU) and transport is considered one of the key challenges necessary to achieve it. Although transport is mostly contested from the environmental dimension, an investigation of peer-reviewed literature along with EU policy documents suggests that the transport and accessibility (T&A) criteria of infrastructure, accessibility distance, and multimodality can positively contribute to SD. However, despite this synergetic relation between T&A and SD, a practical analysis of such enablers is unknown at the regional European level. Therefore, this study investigates the Mediterranean as a study area by analyzing 79 identified passenger ports as passenger transport land-sea interaction points. Based on open access data, port infrastructure and ship accessibility, hinterland accessibility, and multimodality are evaluated as the passenger T&A enablers for SD. Comparative geo-spatial analyses are also carried out among the passenger ports' levels of enablers by using the data normalization method. These data driven comprehensive analytical results can bring added value to SD policy and planning initiatives in the Mediterranean. This study may also contribute to the development of relevant passenger port performance indicators for boosting port or regional competition and attractiveness towards SD.

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“…Of course, modern cities have all the necessary services and facilities contained in a small geographic region, so driving is only one of a number of transport options for daily life (including public transport, cycling or walking). In contrast, for those living in rural locations, driving is often considered essential because the travel distances are great (essential services are distributed far apart) and the transport infrastructure is sparse (public transport have limited timetables) limiting alternative modes of transport (Gray, Farrington, Shaw, Martin, & Roberts, 2001;Velaga, Beecroft, Nelson, Corsar, & Edwards, 2012).…”

Section: Introductionmentioning

confidence: 99%

Looking to the future of visual assessment using driving simulation

Wilkie

Mole

2017

Scand J Optom Vis Sci

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Visual function is considered uniquely important for driving because it provides multiple critical sources of information that when combined ensures successful steering. There are, however, additional cognitive functions that are essential for the driver to be able to dynamically respond to the world and make predictions about the scene, as well as the behaviour of other road users. Given the complexity of driving through a busy urban environment it should be no surprise that simple tests of visual acuity seem to have weak explanatory power in terms of increased crash risk when driving. Despite this, fitness to drive still includes a formal assessment of visual acuity, with poor scores being used to revoke the driving licence. The "gold standard" measure of driving ability remains the on-road driving test but compared to visual tests they are fairly uncontrolled, susceptible to great variation depending on the road conditions, and are unable to reliably detect subtle visual deficits. To address some of the limitations of these existing tests we use examples from two simulator settings (steering control and hazard detection) that highlight the merits of using driving simulation in order to control the visual conditions and probe specific functional capabilities of drivers. When used in conjunction with visual tests these methods will not only determine whether the core functions of driving are intact but also be able to provide richer feedback to individuals about the nature of their deficits. There are many exciting possibilities using simulation techniques to establish predictive relationships between routine visual testing and driving performance, ultimately aiming for better, more reliable assessment of fitness to drive. SammendragSynsfunksjonen betraktes som enestående viktig for bilkjøring fordi den bidrar til flere kritiske informasjonskilder som sammen sikrer trygg kontroll av bilen. Men det finnes i tillegg andre kognitive funksjoner som er nødvendige for at en bilfører skal kunne reagere dynamisk og kunne forutse både hendelser i trafikkbildet og andre trafikanters handlinger. Tatt i betraktning kompleksiteten av å kjøre i trafikkerte, tettbygde strøk, er det ikke overraskende at en enkel test av synsstyrke sjelden kan forklare fullstendig risikoen for kollisjoner ved bilkjøring. Til tross for dette brukes fortsatt synsstyrke som et mål i den formelle undersøkelsen når man skal avgjøre om en person er egnet til å føre motorvogn, og dårlige resultater på synstesten fører til inndragelse av førerkortet. Kjøreevne måles fortsatt med praktisk prøve, men sammenlignet med tester av synsfunksjonen er disse prøvene vanskelige å kontrollere, sterkt varierende avhengig av veiforholdene, og ikke i stand til å avsløre små synsdefekter. For å studere noen av begrensningene ved disse eksisterende prøvene bruker vi eksempler fra to simulatorsettinger (styrekontroll og evne til å oppdage fare) som viser fordelene med å bruke kjøresimulator for å kontrollere synsforholdene og teste bestemte funkjonelle ferdighet...

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Transport poverty meets the digital divide: accessibility and connectivity in rural communities

Cited by 267 publications

References 45 publications

Achieving genuinely dynamic road user charging: issues with a GNSS-based approach

Achieving genuinely dynamic road user charging: issues with a GNSS-based approach

Addressing the Passenger Transport and Accessibility Enablers for Sustainable Development

Looking to the future of visual assessment using driving simulation

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