Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - May 8, 2026

Available Issues

April 10, 2013 - May 8, 2026

A Path-Based Approach for Hazmat Transport Network Design

Published Online:1 Jan 2008https://doi.org/10.1287/mnsc.1070.0763

References

  • Abkowitz M., Lepofsky M., Cheng P. Selecting criteria for designating hazardous materials highway routes. Transportation Res. Record (1992) 1333:30–35Google Scholar
  • Batta R., Chiu S. S. Optimal obnoxious paths on a network: Transportation of hazardous materials. Oper. Res. (1988) 36(1):84–92LinkGoogle Scholar
  • Erkut E., Alp O. Designing a road network for dangerous goods shipments. Comput. Oper. Res. (2007) 34(5):1389–1405CrossrefGoogle Scholar
  • Erkut E., Gzara F. Solving the hazmat transport network design problem. Comput. Oper. Res. (2008) 35(7):2234–2247CrossrefGoogle Scholar
  • Erkut E., Verter V., Drezner Z. Hazardous materials logistics. Facility Location: A Survey of Applications and Methods (1995) (Springer Verlag, New York) 467–506Chap. 20CrossrefGoogle Scholar
  • Erkut E., Verter V. A framework for hazardous materials transport risk assessment. Risk Anal. (1995) 15(5):589–601CrossrefGoogle Scholar
  • Erkut E., Verter V. Modeling of transport risk for hazardous materials. Oper. Res. (1998) 46(5):625–642LinkGoogle Scholar
  • Erkut E., Tjandra S., Verter V., Barnhart C., Laporte G. Hazardous materials transportation. Transportation, Handbooks in Operations Research and Management Science (2007) 14(Elsevier, Amsterdam) 539–621Chap. 9Google Scholar
  • Gerrard R. A., Church R. L. Closest assignment constraints and location models: Properties and structure. Location Sci. (1996) 4:251–270CrossrefGoogle Scholar
  • Hadjiconstantinou E., Christofides N. An efficient implementation of an algorithm for finding K shortest simple paths. Networks (1999) 29:88–101CrossrefGoogle Scholar
  • Iakovou E., Douligeris C., Li H., Ip C., Yudhbir L. A maritime global route planning model for hazardous materials transportation. Transportation Sci. (1999) 33(1):34–48LinkGoogle Scholar
  • Kara B., Verter V. Designing a road network for hazardous materials transportation. Transportation Sci. (2004) 38:188–196LinkGoogle Scholar
  • Katoh N., Ibaraki T., Mine H. An efficient algorithm for K shortest simple paths. Networks (1982) 12:411–427CrossrefGoogle Scholar
  • List G. F., Mirchandani P. B. An integrated network/planar multiobjective model for routing and siting for hazardous materilas and wastes. Transportation Sci. (1991) 25(2):146–156LinkGoogle Scholar
  • List G. F., Mirchandani P. B., Turnquist M. A., Zografos K. G. Modeling and analysis of hazardous materials transportation: Risk analysis, routing/scheduling and facility location. Transportation Sci. (1991) 25(2):100–114LinkGoogle Scholar
  • Miaou S. P., Chin S. M. Computing K-shortest path for nuclear spent fuel highway transportation. Eur. J. Oper. Res. (1991) 53:64–80CrossrefGoogle Scholar
  • Read J. A. (2006) . Personal communication. Director General, Transport Canada Dangerous Goods Directorate, Ottawa, CanadaGoogle Scholar
  • Revelle C., Cohon J., Shobrys D. Simultaneous siting and routing in the disposal of hazardous wastes. Transportation Sci. (1991) 25(2):138–145LinkGoogle Scholar
  • Saccomanno F. F., Chan A. Economic evaluation of routing strategies for hazardous road shipments. Transportation Res. Record (1985) 1020:12–18Google Scholar
  • Transport CanadaNorth American Emergency Response Guidebook (1996) (Canutec, Ottawa, Ontario) Google Scholar
  • U.S. Department of Transportation Office of hazardous materials safety. Hazardous Materials Information System (2005) . http://hazmat.dot.gov/pubs/hms/hmsship.htmGoogle Scholar
  • Verter V., Kara B. A GIS-based framework for hazardous materials transport risk assessment. Risk Anal. (2001) 21:1109–1120CrossrefGoogle Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree