1995
DOI: 10.13182/nt95-a15852
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A Route-Specific System for Risk Assessment of Radioactive Materials Transportation Accidents

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Cited by 10 publications
(3 citation statements)
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“…Li and Eglese (1996) used a GIS to devise an heuristic algorithm to optimize winter salting routes with respect to minimizing the distance travelled and treated by gritters within the temporal framework of the time roads need to be treated. Similar ideas are utilized by Moore et al (1995) and Patel and Horowitz (1994) who use GIS to develop optimal and specific routing for radioactive and hazardous materials. This is achieved by combining spatial information of meteorology, demography and dispersion (i.e., wind-speed, toxicity and size of spill) with vector road data.…”
Section: Transportmentioning
confidence: 99%
“…Li and Eglese (1996) used a GIS to devise an heuristic algorithm to optimize winter salting routes with respect to minimizing the distance travelled and treated by gritters within the temporal framework of the time roads need to be treated. Similar ideas are utilized by Moore et al (1995) and Patel and Horowitz (1994) who use GIS to develop optimal and specific routing for radioactive and hazardous materials. This is achieved by combining spatial information of meteorology, demography and dispersion (i.e., wind-speed, toxicity and size of spill) with vector road data.…”
Section: Transportmentioning
confidence: 99%
“…For this reason, the transport of dangerous goods is a permanent source of threats, not only to human life and health but also to other biotic components of the environment [1,2]. Researchers' attention in the field of specifics and risks of transport of dangerous goods (DG) in terms of basic physical properties and state of the commodity is most frequently divided into three main areas-transport of hazardous liquids [3][4][5], transport of hazardous gases (HG) [6,7] and transport of radioactive material [8,9]. Research in each of these areas is highly specific.…”
Section: Introductionmentioning
confidence: 99%
“…Numerous researchers have studied risk-related hazardous materials routing from a theoretical perspective, including Batta and Chiu (1988), Miller-Hooks and Mahmassani (1998), Erkut and Ingolfsson (2000), and Leonelli et al (2000). From an applied perspective, highway rerouting has also been studied extensively (Harwood et al, 1993;Glickman and Sontag, 1995;Cassini, 1998), whereas rail rerouting has received less atten-tion and been studied primarily as an applied research problem (Glickman, 1983;McNeil, 1991;Moore et al, 1995) or as a policy issue (Glickman, 1990;U.S. Department of Energy, 1998).…”
Section: Introductionmentioning
confidence: 99%