Sherry Reichow, PhD.:
Dr. Reichow is an experienced analyst with more than thirteen years’ experience
working with the Department of Homeland Security (DHS). Her areas of expertise
include assessment of Chemical, Biological, Radiological, Nuclear and high-yield
Explosive (CBRNE) threat, vulnerability and risk, doctrine development, analysis of
capability gaps, and program planning and analysis. Previous activities include
working with the Federal Emergency Management Agency (FEMA), the DHS Office of
Health Affairs, and the DHS Science and Technology Directorate's (S&T) Support to
the Homeland Security Enterprise and First Responders Group (FRG) among others.
Dr. Reichow has spent the last thirteen years conducting reviews of FEMA doctrine
and processes; assisting with collection and refinement of requirements for future
research and development (R&D); developing future acquisition plans; developing
architectures focused on placement and expansion of sensor networks; building
planning, response, recovery and restoration frameworks; and generating threat
scenarios for use in DHS studies and exercises
Dr. Reichow is an experienced analyst with more than thirteen years’ experience
working with the Department of Homeland Security (DHS). Her areas of expertise
include assessment of Chemical, Biological, Radiological, Nuclear and high-yield
Explosive (CBRNE) threat, vulnerability and risk, doctrine development, analysis of
capability gaps, and program planning and analysis. Previous activities include
working with the Federal Emergency Management Agency (FEMA), the DHS Office of
Health Affairs, and the DHS Science and Technology Directorate's (S&T) Support to
the Homeland Security Enterprise and First Responders Group (FRG) among others.
Dr. Reichow has spent the last thirteen years conducting reviews of FEMA doctrine
and processes; assisting with collection and refinement of requirements for future
research and development (R&D); developing future acquisition plans; developing
architectures focused on placement and expansion of sensor networks; building
planning, response, recovery and restoration frameworks; and generating threat
scenarios for use in DHS studies and exercises