Spatiotemporal Data Set for Out-of-Hospital Cardiac Arrests

Published Online:https://doi.org/10.1287/ijoc.2020.1022

References

  • Benjamin EJ, Virani SS, Callaway CW, Chamberlain AM, Chang AR, Cheng S, Chiuve SE, et al. (2018) Heart Disease and Stroke Statistics-2018 Update: A Report from the American Heart Association (Lippincott Williams & Wilkins, Hagerstown, MD), 357.Google Scholar
  • Boutilier JJ, Brooks SC, Janmohamed A, Byers A, Buick JE, Zhan C, Schoellig AP, Cheskes S, Morrison LJ, Chan TC (2017) Optimizing a drone network to deliver automated external defibrillators. Circulation 135(25):2454–2465.CrossrefGoogle Scholar
  • Chan TC, Demirtas D, Kwon RH (2016) Optimizing the deployment of public access defibrillators. Management Sci. 62(12):3617–3635.LinkGoogle Scholar
  • City of Virginia Beach (2019a) Open GIS portal. Accessed February 14, 2020, https://gis.data.vbgov.com/.Google Scholar
  • City of Virginia Beach (2019b) Open VB data portal. Accessed February 14, 2020, https://data.vbgov.com/.Google Scholar
  • Daskin MS, Dean LK (2004) Location of health care facilities. Brandeau ML, Sainfort F, Pierskalla W, eds. Operations Research and Health Care: A Handbook of Methods and Applications (Springer, Boston), 43–76.Google Scholar
  • De Maio VJ, Stiell IG, Wells GA, Spaite DW, Group OPALSS (2003) Optimal defibrillation response intervals for maximum out-of-hospital cardiac arrest survival rates. Ann. Emergency Medicine 42(2):242–250.CrossrefGoogle Scholar
  • Lara CL, Trespalacios F, Grossmann IE (2018) Global optimization algorithm for capacitated multi-facility continuous location-allocation problems. J. Global Optim. 71(4):871–889.CrossrefGoogle Scholar
  • McLay LA, Mayorga ME (2013) A dispatching model for server-to-customer systems that balances efficiency and equity. Manufacturing Service Oper. Management 15(2):205–220.LinkGoogle Scholar
  • Nalbandian G (2019) Why Poor Data Quality is Holding Back Healthcare (Analytics, Catonsville, MD).Google Scholar
  • Poikonen S, Golden B, Wasil EA (2019) A branch-and-bound approach to the traveling salesman problem with a drone. INFORMS J. Comput. 31(2):335–346.LinkGoogle Scholar
  • Pulver A, Wei R (2018) Optimizing the spatial location of medical drones. Appl. Geography 90:9–16.CrossrefGoogle Scholar
  • Simchi-Levi D (2013) OM forum–OM research: From problem-driven to data-driven research. Manufacturing Service Oper. Management 16(1):2–10.LinkGoogle Scholar
  • U.S. Census Bureau (2019) Data catalog. Accessed February 14, 2020, catalog.data.gov/organization/census-gov.Google Scholar
  • Van Barneveld T (2016) The minimum expected penalty relocation problem for the computation of compliance tables for ambulance vehicles. INFORMS J. Comput. 28(2):370–384.LinkGoogle Scholar
  • Virginia Geographic Information Network (2019) Virginia road centerline. Accessed February 14, 2020, http://data.virginia.gov/datasets/virginia-road-centerlines.Google Scholar
  • Wankmüller C, Truden C, Korzen C, Hungerländer P, Kolesnik E, Reiner G (2020) Optimal allocation of defibrillator drones in mountainous regions. OR Spectrum 42:785–814.CrossrefGoogle Scholar
  • Zhu J (1994) Conversion of earth-centered earth-fixed coordinates to geodetic coordinates. IEEE Trans. Aerospace Electronic Systems 30(3):957–961.CrossrefGoogle Scholar
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.