Skip Ribbon Commands
Skip to main content
Sign In

 


 

 

Guidance Document for Using Dynamic Force-on- Force Tools, INL/EXT-21-64214.217463Guidance Document for Using Dynamic Force-on- Force Tools, INL/EXT-21-64214, R. Christian, S. Prescott, C. Chwasz, V. Yadav, S. St. Germain, September 2021.Guidance Document for Using Dynamic Force-on- Force Tools, INL/EXT-21-64214, R. Christian, S. Prescott, C. Chwasz, V. Yadav, S. St. Germain, September 2021.9/8/2021 9:36:04 PMINL/EXT-21-64214 Revision 0 Light Water Reactor Sustainability Program Guidance Document for Using Dynamic Force-on-Force Tools September 2021 U.S. Department of Energy Office of 140https://lwrs.inl.gov/Physical Security/Forms/AllItems.aspxpdfFalsepdf2021-09-16T06:00:00Z
Integration of Physical Security Simulation Software Applications in a Dynamic Risk Framework, INL/EXT-21-64333.213327Integration of Physical Security Simulation Software Applications in a Dynamic Risk Framework, INL/EXT-21-64333, R. Christian, S. Prescott, V. Yadav, S. St. Germain, C. Chwasz, August 2021.Integration of Physical Security Simulation Software Applications in a Dynamic Risk Framework, INL/EXT-21-64333, R. Christian, S. Prescott, V. Yadav, S. St. Germain, C. Chwasz, August 2021.9/8/2021 5:20:28 PMINL/EXT-21-64333 Revision 0 Light Water Reactor Sustainability Program Integration of Physical Security Simulation Software Applications in a Dynamic Risk Framework August 2021 169https://lwrs.inl.gov/Physical Security/Forms/AllItems.aspxpdfFalsepdf2021-08-16T06:00:00Z
Risk-Informed Adversary Timeline Tool, SAND2021-9430.217589Risk-Informed Adversary Timeline Tool; SAND2021-9430, T. Noel, A. Thompson, D. Brooks, D. Osborn, August 2021.Risk-Informed Adversary Timeline Tool; SAND2021-9430, T. Noel, A. Thompson, D. Brooks, D. Osborn, August 2021.9/2/2021 10:11:31 PMOff ici al Use Onl y: Exempt ion 7 . L aw Enfor cement Pr int ed Augus t 2021 Fi rst name, middl e ini tial, and las t nam e of aut hor(s This information was prepared as an account 79https://lwrs.inl.gov/Physical Security/Forms/AllItems.aspxpdfFalsepdf2021-08-16T06:00:00Z
Economic Analysis of Physical Security at Nuclear Power Plants, INL/EXT-20-59737.201924Economic Analysis of Physical Security at Nuclear Power Plants, INL-EXT-20-59737, P. Burli, V. Yadav, September 2020.Economic Analysis of Physical Security at Nuclear Power Plants, INL-EXT-20-59737, P. Burli, V. Yadav, September 2020.9/30/2020 5:16:03 AMINL/EXT-20-59737 Revision 0 Light Water Reactor Sustainability Program Economic Analysis of Physical Security at Nuclear Power Plants September 2020 U.S. Department of Energy 457https://lwrs.inl.gov/Physical Security/Forms/AllItems.aspxpdfFalsepdf2020-09-20T06:00:00Z
Methodology and Application of Physical Security Effectiveness Based on Dynamic Force-on-Force Modeling, INL-EXT-20-59891.201923Methodology and Application of Physical Security Effectiveness Based on Dynamic Force-on-Force Modeling, INL-EXT-20-59891, R. Christian, S. Prescott, V. Yadav, S. St. Germain, J. Weathersby, September 2020.Methodology and Application of Physical Security Effectiveness Based on Dynamic Force-on-Force Modeling, INL-EXT-20-59891, R. Christian, S. Prescott, V. Yadav, S. St. Germain, J. Weathersby, September 2020.9/30/2020 9:58:38 PMINL/EXT-20-59891 Light Water Reactor Sustainability Program Methodology and Application of Physical Security Effectiveness Based on Dynamic Force-on-Force Modeling September 2020 506https://lwrs.inl.gov/Physical Security/Forms/AllItems.aspxpdfFalsepdf2020-09-04T06:00:00Z
Integration of FLEX Equipment and Operator Actions in Plant Force-On-Force Models with Dynamic Risk Assessment, INL/EXT-20-59510.201925Integration of FLEX Equipment and Operator Actions in Plant Force-On-Force Models with Dynamic Risk Assessment, INL/EXT-20-59510, R. Christian, S. Prescott, V. Yadav, S. St. Germain, J. Weathersby, August 2020.Integration of FLEX Equipment and Operator Actions in Plant Force-On-Force Models with Dynamic Risk Assessment, INL/EXT-20-59510, R. Christian, S. Prescott, V. Yadav, S. St. Germain, J. Weathersby, August 2020.8/27/2020 1:15:47 AMU.S. Department of Energy Office of Nuclear Energy This information was prepared as an account of work sponsored by an agency of the U.S. Government Labor costs continue to rise in 304https://lwrs.inl.gov/Physical Security/Forms/AllItems.aspxpdfFalsepdf2020-08-04T06:00:00Z
Light Water Reactor Sustainability Program: September 2019 Physical Security Stakeholder Working Group Meeting, SAND2020-0764.67843Light Water Reactor Sustainability Program: September 2019 Physical Security Stakeholder Working Group Meeting, SAND2020-0764, D. Osborn, J. Lord, H. Werner, January 2020.Light Water Reactor Sustainability Program: September 2019 Physical Security Stakeholder Working Group Meeting, SAND2020-0764, D. Osborn, J. Lord, H. Werner, January 2020.2/4/2020 11:30:23 PMSANDIA REPORT SAND2020-0764 Printed January 2020 Light Water Reactor Sustainability Program: September 2019 Physical Security Stakeholder Working Group Meeting Douglas Osborn 310https://lwrs.inl.gov/Physical Security/Forms/AllItems.aspxpdfFalsepdf2020-03-03T07:00:00Z
Modeling for Existing Nuclear Power Plant Security Regime16482Modeling for Existing Nuclear Power Plant Security RegimeModeling for Existing Nuclear Power Plant Security Regime10/9/2019 10:05:03 AMU.S. Department of Energy Office of Nuclear Energy This information was prepared as an account of work sponsored by an agency of the U.S. Government The ultimate goal of this work 170https://lwrs.inl.gov/Reports Documents/Forms/AllItems.aspxpdfFalsepdf2019-10-09T06:00:00Z