ACRONYMS     


A
ADAAG Americans with Disabilities Act Accessibility Guidelines
AEDautomated external defibrillator
ANFOammonium nitrate and fuel oil
APSapartment protected space
ASFanti-shatter film
ASZM-TEDAcopper-silver-zinc-molybdenum-triethylenediamine
AT antiterrorism
ATF Bureau of Alcohol, Tobacco, and Firearms
B
BPL        bound with pitch-low
BW biological warfare
C
CBR chemical, biological, or radiological
CCTV closed circuit television
CDCCenters for Disease Control and Prevention
CFDComputational Fluid Dynamics
cfmcubic feet per minute
CMUconcrete masonry unit
CPRcardiopulmonary resuscitation
CPTED Crime Prevention Through Environmental Design
CWAchemical warfare agent
D
DHS Department of Homeland Security
DOC Department of Commerce
DoD Department of Defense
DOE Department of Education
DOJ Department of Justice
DOS Department of State
E
EP&RDirectorate of Emergency Preparedness and Response (DHS)
F
FBI Federal Bureau of Investigation
FEMA Federal Emergency Management Agency
FPSfloor protected space
FRFfragment retention film

G
GC/MSgas chromatograph/mass spectrometer
GIS Geographic Information System
GSA General Services Administration
H
HazMat hazardous materials
HEGAhigh-efficiency gas adsorber
HEPAhigh-efficiency particulate air
HSOHomeland Security Office
HVAC heating, ventilation, and air conditioning
I
IAQindoor air quality
IDidentification
IDFIsraeli Defense Fund
IMS ion mobility spectrometry
ISC Interagency Security Committee
ITinformation technology
iwginch water gauge
M
mphmiles per hour 
N
NACCT National Advisory Committee on Children and Terrorism
NAVFACNaval Facilities Command
NFPA National Fire Protection Association
NFPC National Fire Protection Code
NIOSHNational Institute for Occupational Safety and Health
O
OColeoresin capsicum
P
PIOPublic Information Officer
psipounds per square inch
pvbpolyvinyl butyral
S
SAWsurface acoustic wave 
SRWFshatter-resistant window film

T
TEDAtriethylenediamine
TICtoxic industrial chemical
TIM toxic industrial material
TNT trinitrotoluene
U
UFAS Uniform Federal Accessibility Standards
UFC Unified Facilities Criteria
U.K.United Kingdom
UPSuninterrupted power supply
U.S.United States
USACEU.S. Army Corps of Engineers
UVultraviolet
V
VADepartment of Veterans Affair




GENERAL GLOSSARY     




This appendix contains some terms that do not actually appear in this manual. They 
have been included to present a comprehensive list that pertains to this series of 
publications.
A
Access control. Any combination of barriers, gates, electronic security equipment, 
and/or guards that can deny entry to unauthorized personnel or vehicles.
Access control point. A station at an entrance to a building or a portion of a building 
where identification is checked and people and hand-carried items are searched.
Access controls. Procedures and controls that limit or detect access to minimum 
essential infrastructure resource elements (e.g., people, technology, applications, data, 
and/or facilities), thereby protecting these resources against loss of integrity, 
confidentiality, accountability, and/or availability.
Accountability. The explicit assignment of responsibilities for oversight of areas of 
control to executives, managers, staff, owners, providers, and users of minimum 
essential infrastructure resource elements.
Active vehicle barrier. An impediment placed at an access control point that may be 
manually or automatically deployed in response to detection of a threat.
Aerosol. Fine liquid or solid particles suspended in a gas (e.g., fog or smoke).
Aggressor. Any person seeking to compromise a function or structure.
Airborne contamination. Chemical or biological agents introduced into and fouling 
the source of supply of breathing or conditioning air.
Antiterrorism (AT). Defensive measures used to reduce the vulnerability of individuals, 
forces, and property to terrorist acts.
Area lighting. Lighting that illuminates a large exterior area.
Assessment. The evaluation and interpretation of measurements and other 
information to provide a basis for decision-making.
Asset. A resource of value requiring protection. An asset can be tangible (e.g., people, 
buildings, facilities, equipment, activities, operations, and information) or intangible 
(e.g., processes or a company�s information and reputation).
Asset protection. Security program designed to protect personnel, facilities, and 
equipment, in all locations and situations, accomplished through planned and 
integrated application of combating terrorism, physical security, operations security, 
and personal protective services, and supported by intelligence, counterintelligence, 
and other security programs.
Asset value. The degree of debilitating impact that would be caused by the incapacity 
or destruction of an asset.
Attack. A hostile action resulting in the destruction, injury, or death to the civilian 
population, or damage or destruction to public and private property.
B
Balanced magnetic switch. A door position switch utilizing a reed switch held in a 
balanced or center position by interacting magnetic fields when not in alarm 
condition.
Ballistics attack. An attack in which small arms (e.g., pistols, submachine guns, 
shotguns, and rifles) are fired from a distance and rely on the flight of the projectile to 
damage the target.
Barbed tape or concertina. A coiled tape or coil of wires with wire barbs or blades 
deployed as an obstacle to human trespass or entry into an area.
Barbed wire. A double strand of wire with four-point barbs equally spaced along the 
wire deployed as an obstacle to human trespass or entry into an area.
Barcode. A black bar printed on white paper or tape that can be easily read with an 
optical scanner.
Biological agents. Living organisms or the materials derived from them that cause 
disease in or harm to humans, animals, or plants or cause deterioration of material. 
Biological agents may be used as liquid droplets, aerosols, or dry powders.
Blast curtains. Heavy curtains made of blast-resistant materials that could protect the 
occupants of a room from flying debris.
Blast-resistant glazing. Window opening glazing that is resistant to blast effects because 
of the interrelated function of the frame and glazing material properties frequently 
dependent upon tempered glass, polycarbonate, or laminated glazing.
Blast vulnerability envelope. The geographical area in which an explosive device will 
cause damage to assets.
Bollard. A vehicle barrier consisting of a cylinder, usually made of steel and sometimes 
filled with concrete, placed on end in the ground and spaced about 3 feet apart to 
prevent vehicles from passing, but allowing entrance of pedestrians and bicycles.
Building hardening. Enhanced construction that reduces vulnerability to external blast 
and ballistic attacks.
Building separation. The distance between closest points on the exterior walls of 
adjacent buildings or structures.
C 
Cable barrier. Cable or wire rope anchored to and suspended off the ground or 
attached to chain-link fence to act as a barrier to moving vehicles.
Chemical agent. A chemical substance that is intended to kill, seriously injure, or 
incapacitate people through physiological effects. Generally separated by severity of 
effect (e.g., lethal, blister, and incapacitating).
Clear zone. An area that is clear of visual obstructions and landscape materials that 
could conceal a threat or perpetrator.
Closed circuit television (CCTV). An electronic system of cameras, control equipment, 
recorders, and related apparatus used for surveillance or alarm assessment.
Collateral damage. Injury or damage to assets that are not the primary target of an 
attack.
Combating terrorism. The full range of federal programs and activities applied against 
terrorism, domestically and abroad, regardless of the source or motive.
Community. A political entity that has the authority to adopt and enforce laws and 
ordinances for the area under its jurisdiction. In most cases, the community is an 
incorporated town, city, township, village, or unincorporated area of a county; 
however, each state defines its own political subdivisions and forms of government.
Components and cladding. Elements of the building envelope that do not qualify as 
part of the main wind-force resisting system.
Confidentiality. The protection of sensitive information against unauthorized 
disclosure and sensitive facilities from physical, technical, or electronic penetration or 
exploitation.
Consequence Management. Measures to protect public health and safety, restore 
essential government services, and provide emergency relief to governments, 
businesses, and individuals affected by the consequences of terrorism. State and local 
governments exercise the primary authority to respond to the consequences of 
terrorism.
Contamination. The undesirable deposition of a chemical, biological, or radiological 
material on the surface of structures, areas, objects, or people.
Control center. A centrally located room or facility staffed by personnel charged with 
the oversight of specific situations and/or equipment.
Controlled area. An area into which access is controlled or limited. It is that portion of 
a restricted area usually near or surrounding a limited or exclusion area. Correlates 
with exclusion zone.
Controlled lighting. Illumination of specific areas or sections.
Controlled perimeter. A physical boundary at which vehicle and personnel access is 
controlled at the perimeter of a site. Access control at a controlled perimeter should 
demonstrate the capability to search individuals and vehicles.
Conventional construction. Building construction that is not specifically designed to 
resist weapons, explosives, or chemical, biological, and radiological effects. 
Conventional construction is designed only to resist common loadings and 
environmental effects such as wind, seismic, and snow loads.
Coordinate. To advance systematically an exchange of information among principals 
who have or may have a need to know certain information in order to carry out their 
roles in a response.
Counterintelligence. Information gathered and activities conducted to protect against: 
espionage, other intelligence activities, sabotage, or assassinations conducted for or on 
behalf of foreign powers, organizations, or persons; or international terrorist activities, 
excluding personnel, physical, document, and communications security programs.
Counterterrorism (CT). Offensive measures taken to prevent, deter, and respond to 
terrorism.
Covert entry. Attempts to enter a facility by using false credentials or stealth.
Crash bar. A mechanical egress device located on the interior side of a door that 
unlocks the door when pressure is applied in the direction of egress.
Crime Prevention Through Environmental Design (CPTED). A crime prevention 
strategy based on evidence that the design and form of the built environment can 
influence human behavior. CPTED usually involves the use of three principles: natural 
surveillance (by placing physical features, activities, and people to maximize visibility); 
natural access control (through the judicial placement of entrances, exits, fencing, 
landscaping, and lighting); and territorial reinforcement (using buildings, fences, 
pavement, signs, and landscaping to express ownership).
Crisis Management (CM). The measures taken to identify, acquire, and plan the use of 
resources needed to anticipate, prevent, and/or resolve a threat or act of terrorism.
Critical assets. Those assets essential to the minimum operations of the organization, 
and to ensure the health and safety of the general public.
Critical infrastructure. Primary infrastructure systems (e.g., utilities, 
telecommunications, transportation, etc.) whose incapacity would have a debilitating 
impact on the school�s ability to function.
D
Damage assessment. The process used to appraise or determine the number of injuries 
and deaths, damage to public and private property, and the status of key facilities and 
services (e.g., schools, hospitals and other health care facilities, fire and police stations, 
communications networks, water and sanitation systems, utilities, and transportation 
networks) resulting from a manmade or natural disaster.
Data gathering panel. A local processing unit that retrieves, processes, stores, and/or 
acts on information in the field.
Debris-catching system. Blast wallpaper, fragmentation blankets, or any similar system 
applied to the inside of a building�s exterior walls. Debris-catching systems are often 
made of Kevlar or geotextile material and are designed to collect wall material debris 
in the event of an external explosion and to shield occupants from injuries.
Decontamination. The reduction or removal of a chemical, biological, or radiological 
material from the surface of a structure, area, object, or person.
Defense layer. Building design or exterior perimeter barriers intended to delay 
attempted forced entry.
Defensive measures. Protective measures that delay or prevent attack on an asset or 
that shield the asset from weapons, explosives, and CBR effects. Defensive measures 
include site work and building design.
Design Basis Threat (DBT). The threat (e.g., tactics and associated weapons, tools, or 
explosives) against which assets within a building must be protected and upon which 
the security engineering design of the school is based.
Design constraint. Anything that restricts the design options for a protective system or 
that creates additional problems for which the design must compensate.
Design opportunity. Anything that enhances protection, reduces requirements for 
protective measures, or solves a design problem.
Design team. A group of individuals from various engineering and architectural 
disciplines responsible for the protective system design.
Disaster. An occurrence of a natural catastrophe, technological accident, or human-
caused event that has resulted in severe property damage, deaths, and/or multiple 
injuries.
Domestic terrorism. The unlawful use, or threatened use, of force or violence by a 
group or individual based and operating entirely within the United States or Puerto 
Rico without foreign direction committed against persons or property to intimidate or 
coerce a government, the civilian population, or any segment thereof in furtherance 
of political or social objectives.
Dose rate (radiation). A general term indicating the quantity (total or accumulated) of 
ionizing radiation or energy absorbed by a person or animal, per unit of time.
Dosimeter. An instrument for measuring and registering total accumulated exposure 
to ionizing radiation.
Duress alarm devices. Also known as panic buttons, these devices are designated 
specifically to initiate a panic alarm. 
E
Effective stand-off distance. A stand-off distance at which the required level of 
protection can be shown to be achieved through analysis or can be achieved through 
building hardening or other mitigating construction or retrofit.
Electronic Entry Control Systems (EECS). Electronic devices that automatically verify 
authorization for a person to enter or exit a controlled area.
Electronic Security System (ESS). An integrated system that encompasses interior and 
exterior sensors, closed circuit television systems for assessment of alarm conditions, 
Electronic Entry Control Systems, data transmission media, and alarm reporting 
systems for monitoring, control, and display of various alarm and system information.
Emergency. Any natural or human-caused situation that results in or may result in 
substantial injury or harm to the population or substantial damage to or loss of 
property.
Emergency Environmental Health Services. Services required to correct or improve 
damaging environmental health effects on humans, including inspection for food 
contamination, inspection for water contamination, and vector control; providing for 
sewage and solid waste inspection and disposal; cleanup and disposal of hazardous 
materials; and sanitation inspection for emergency shelter facilities.
Emergency Medical Services (EMS). Services including personnel, facilities, and 
equipment required to ensure proper medical care for the sick and injured from the 
time of injury to the time of final disposition, including medical disposition within a 
hospital, temporary medical facility, or special care facility; release from the site; or 
declared dead. Further, Emergency Medical Services specifically include those 
services immediately required to ensure proper medical care and specialized 
treatment for patients in a hospital and coordination of related hospital services.
Emergency Operations Center (EOC). The protected site from which state and local 
civil government officials coordinate, monitor, and direct emergency response 
activities during an emergency.
Emergency Operations Plan (EOP). A document that describes how people and 
property will be protected in disaster and disaster threat situations; details who is 
responsible for carrying out specific actions; identifies the personnel, equipment, 
facilities, supplies, and other resources available for use in the disaster; and outlines 
how all actions will be coordinated.
Emergency Public Information (EPI). Information that is disseminated primarily in 
anticipation of an emergency or at the actual time of an emergency and, in addition 
to providing information, frequently directs actions, instructs, and transmits direct 
orders.
Entry control point. A continuously or intermittently manned station at which entry to 
sensitive or restricted areas is controlled.
Equipment closet. A room where field control equipment such as data gathering 
panels and power supplies are typically located.
Evacuation. Organized, phased, and supervised dispersal of people from dangerous or 
potentially dangerous areas.
Evacuation, mandatory or directed. This is a warning to persons within the designated 
area that an imminent threat to life and property exists and individuals MUST 
evacuate in accordance with the instructions of local officials.
Evacuation, spontaneous. Residents or citizens in the threatened areas observe an 
emergency event or receive unofficial word of an actual or perceived threat and, 
without receiving instructions to do so, elect to evacuate the area. Their movement, 
means, and direction of travel are unorganized and unsupervised.
Evacuation, voluntary. This is a warning to persons within a designated area that a 
threat to life and property exists or is likely to exist in the immediate future. 
Individuals issued this type of warning or order are NOT required to evacuate; 
however, it would be to their advantage to do so.
Evacuees. All persons removed or moving from areas threatened or struck by a 
disaster.
Exclusion area. A restricted area containing a security interest. Uncontrolled 
movement permits direct access to the item. See controlled area and limited area.
Exclusion zone. An area around an asset that has controlled entry with highly 
restrictive access. See controlled area.
F
Federal Coordinating Officer (FCO). The person appointed by the FEMA Director to 
coordinate federal assistance in a Presidentially declared emergency or major 
disaster.
Federal Response Plan (FRP). The FRP establishes a process and structure for the 
systematic, coordinated, and effective delivery of federal assistance to address the 
consequences of any major disaster or emergency.
Fence protection. An intrusion detection technology that detects a person crossing a 
fence by various methods such as climbing, crawling, cutting, etc.
Fence sensor. An exterior intrusion detection sensor that detects aggressors as they 
attempt to climb over, cut through, or otherwise disturb a fence.
Field of view. The visible area in a video picture.
First responder. Local police, fire, and emergency medical personnel who first arrive 
on the scene of an incident and take action to save lives, protect property, and meet 
basic human needs.
Forced entry. Entry to a denied area achieved through force to create an opening in 
fence, walls, doors, etc., or to overpower guards.
Fragment retention film (FRF). A thin, optically clear film applied to glass to minimize 
the spread of glass fragments when the glass is shattered.
Frangible construction. Building components that are designed to fail to vent blast 
pressures from an enclosure in a controlled manner and direction.
G
Glare security lighting. Illumination projected from a secure perimeter into the 
surrounding area, making it possible to see potential intruders at a considerable 
distance while making it difficult to observe activities within the secure perimeter.
Glazing. A material installed in a sash, ventilator, or panes (e.g., glass, plastic, etc., 
including material such as thin granite installed in a curtain wall).
Governor�s Authorized Representative (GAR). The person empowered by the 
Governor to execute, on behalf of the State, all necessary documents for disaster 
assistance.
H
Hazard. A source of potential danger or adverse condition.
Hazard mitigation. Any action taken to reduce or eliminate the long-term risk to 
human life and property from hazards. The term is sometimes used in a stricter sense 
to mean cost-effective measures to reduce the potential for damage to a facility or 
facilities from a disaster event.
Hazardous material (HazMat). Any substance or material that, when involved in an 
accident and released in sufficient quantities, poses a risk to people�s health, safety, 
and/or property. These substances and materials include explosives, radioactive 
materials, flammable liquids or solids, combustible liquids or solids, poisons, oxidizers, 
toxins, and corrosive materials.
High-hazard areas. Geographic locations that, for planning purposes, have been 
determined through historical experience and vulnerability analysis to be likely to 
experience the effects of a specific hazard (e.g., hurricane, earthquake, hazardous 
materials accident, etc.), resulting in vast property damage and loss of life.
High-risk target. Any material resource or facility that, because of mission sensitivity, 
ease of access, isolation, and symbolic value, may be an especially attractive or 
accessible terrorist target.
Human-caused hazard. Human-caused hazards are technological hazards and 
terrorism. They are distinct from natural hazards primarily in that they originate from 
human activity. Within the military services, the term threat is typically used for 
human-caused hazard. See definitions of technological hazards and terrorism for 
further information.
I
International terrorism. Violent acts or acts dangerous to human life that are a 
violation of the criminal laws of the United States or any state, or that would be a 
criminal violation if committed within the jurisdiction of the United States or any 
state. These acts appear to be intended to intimidate or coerce a civilian population, 
influence the policy of a government by intimidation or coercion, or affect the 
conduct of a government by assassination or kidnapping. International terrorist acts 
occur outside the United States, or transcend national boundaries in terms of the 
means by which they are accomplished, the persons they appear intended to coerce or 
intimidate, or the locale in which their perpetrators operate or seek asylum.
Intrusion Detection System (IDS). The combination of components, including sensors, 
control units, transmission lines, and monitor units, integrated to operate in a 
specified manner. 
J
Jersey barrier. A protective concrete barrier initially and still used as a highway divider 
that now also functions as an expedient method for traffic speed control at entrance 
gates and to keep vehicles away from buildings.
L
Laminated glass. A flat lite of uniform thickness consisting of two monolithic glass plies 
bonded together with an interlayer material as defined in Specification C1172. Many 
different interlayer materials are used in laminated glass.
Landscaping. The use of plantings (shrubs and trees), with or without landforms 
and/or large boulders, to act as a perimeter barrier against defined threats.
Layers of protection. A traditional approach in security engineering using concentric 
circles extending out from an area to be protected as demarcation points for different 
security strategies. 
Level of protection (LOP). The degree to which an asset is protected against injury or 
damage from an attack. 
Liaison. An agency official sent to another agency to facilitate interagency 
communications and coordination.
Limited area. A restricted area within close proximity of a security interest. 
Uncontrolled movement may permit access to the item. Escorts and other internal 
restrictions may prevent access to the item. See controlled area and exclusion area.
Line of sight (LOS). Direct observation between two points with the naked eye or 
hand-held optics.
Line-of-sight sensor. A pair of devices used as an intrusion detection sensor that 
monitor any movement through the field between the sensors.
Local government. Any county, city, village, town, district, or political subdivision of 
any state, and Indian tribe or authorized tribal organization, or Alaska Native village or 
organization, including any rural community or unincorporated town or village or any 
other public entity.
M
Mail-bomb delivery. Bombs or incendiary devices delivered to the target in letters or 
packages.
Minimum measures. Protective measures that can be applied to all buildings 
regardless of the identified threat. These measures offer defense or detection 
opportunities for minimal cost, facilitate future upgrades, and may deter acts of 
aggression.
Mitigation. Those actions taken to reduce the exposure to and impact of an attack or 
disaster.
Motion detector. An intrusion detection sensor that changes state based on movement 
in the sensor�s field of view.
Moving vehicle bomb. An explosive-laden car or truck driven into or near a building 
and detonated.
Mutual Aid Agreement. A pre-arranged agreement developed between two or more 
entities to render assistance to the parties of the agreement.
N
Natural hazard. Naturally-occurring events such as floods, earthquakes, tornadoes, 
tsunami, coastal storms, landslides, and wildfires that strike populated areas. A natural 
event is a hazard when it has the potential to harm people or property (FEMA 386- 2 
Understanding Your Risks). The risks of natural hazards may be increased or decreased 
as a result of human activity; however, they are not inherently human-induced.
Natural protective barriers. Natural protective barriers are mountains and deserts, 
cliffs and ditches, water obstacles, or other terrain features that are difficult to traverse.
Non-exclusive zone. An area around an asset that has controlled entry, but shared or 
less restrictive access than an exclusive zone.
Non-persistent agent. An agent that, upon release, loses its ability to cause casualties 
after 10 to 15 minutes. It has a high evaporation rate, is lighter than air, and will 
disperse rapidly. It is considered to be a short-term hazard; however, in small, 
unventilated areas, the agent will be more persistent.
Nuclear, biological, or chemical weapons. Also called Weapons of Mass Destruction 
(WMD). Weapons that are characterized by their capability to produce mass casualties.
P
Passive vehicle barrier. A vehicle barrier that is permanently deployed and does not 
require response to be effective.
Perimeter barrier. A fence, wall, vehicle barrier, landform, or line of vegetation 
applied along an exterior perimeter used to obscure vision, hinder personnel access, 
or hinder or prevent vehicle access.
Persistent agent. An agent that, upon release, retains its casualty producing effects for 
an extended period of time, usually anywhere from 30 minutes to several days. A 
persistent agent usually has a low evaporation rate and its vapor is heavier thanair; 
therefore, its vapor cloud tends to hug the ground. It is considered to be a long-term 
hazard. Although inhalation hazards are still a concern, extreme caution should be 
taken to avoid skin contact as well.
Physical security. The part of security concerned with measures/concepts designed to 
safeguard personnel; to prevent unauthorized access to equipment, installations, 
materiel, and documents; and to safeguard them against espionage, sabotage, damage, 
and theft.
Planter barrier. A passive vehicle barrier, usually constructed of concrete and filled 
with dirt (and flowers for aesthetics). Planters, along with bollards, are the usual street 
furniture used to keep vehicles away from existing buildings. Overall size and the 
depth of installation below grade determine the vehicle stopping capability of the 
individual planter.
Plume. Airborne material spreading from a particular source; the dispersal of 
particles, gases, vapors, and aerosols into the atmosphere.
Polycarbonate glazing. A plastic glazing material with enhanced resistance to ballistics 
or blast effects.
Preliminary Damage Assessment (PDA). A mechanism used to determine the impact 
and magnitude of damage and the resulting unmet needs of individuals, businesses, 
the public sector, and the community as a whole. Information collected is used by the 
state as a basis for the Governor�s request for a Presidential declaration, and by FEMA 
to document the recommendation made to the President in response to the 
Governor�s request. PDAs are made by at least one state and one federal 
representative. A local government representative familiar with the extent and 
location of damage in the community often participates; other state and federal 
agencies and voluntary relief organizations also may be asked to participate, as 
needed.
Preparedness. Establishing the plans, training, exercises, and resources necessary to 
enhance mitigation of and achieve readiness for response to, and recovery from all 
hazards, disasters, and emergencies, including WMD incidents.
Primary asset. An asset that is the ultimate target for compromise by an aggressor.
Primary gathering building. Inhabited buildings routinely occupied by 50 or more 
personnel. This designation applies to the entire portion of a building that meets the 
population density requirements for an inhabited building.
Probability of detection (POD). A measure of an intrusion detection sensor�s 
performance in detecting an intruder within its detection zone.
Probability of intercept. The probability that an act of aggression will be detected and 
that a response force will intercept the aggressor before the asset can be 
compromised.
Progressive collapse. A chain reaction failure of building members to an extent 
disproportionate to the original localized damage. Such damage may result in upper 
floors of a building collapsing onto lower floors.
Protective barriers. Define the physical limits of a site, activity, or area by restricting, 
channeling, or impeding access and forming a continuous obstacle around the object.
Protective measures. Elements of a protective system that protect an asset against a 
threat. Protective measures are divided into defensive and detection measures.
Protective system. An integration of all of the protective measures required to protect 
an asset against the range of threats applicable to the asset.
R
Radiation. High-energy particles or gamma rays that are emitted by an atom as the 
substance undergoes radioactive decay. Particles can be either charged alpha or beta 
particles or neutral neutron or gamma rays.
Radiation sickness. The symptoms characterizing the sickness known as radiation 
injury, resulting from excessive exposure of the whole body to ionizing radiation.
Radiological monitoring. The process of locating and measuring radiation by means of 
survey instruments that can detect and measure (as exposure rates) ionizing radiation.
Recovery. The long-term activities beyond the initial crisis period and emergency 
response phase of disaster operations that focus on returning all systems in the 
community to a normal status or to reconstitute these systems to a new condition that 
is less vulnerable.
Response. Executing the plan and resources identified to perform those duties and 
services to preserve and protect life and property as well as provide services to the 
surviving population.
Restricted area. Any area with access controls that is subject to these special 
restrictions or controls for security reasons. See controlled area, limited area, 
exclusion area, and exclusion zone.
Risk. The potential for loss of, or damage to, an asset. It is measured based upon the 
value of the asset in relation to the threats and vulnerabilities associated with it.
Rotating drum or rotating plate vehicle barrier. An active vehicle barrier used at 
vehicle entrances to controlled areas based on a drum or plate rotating into the path 
of the vehicle when signaled.
S
Sacrificial roof or wall. Roofs or walls that can be lost in a blast without damage to the 
primary asset.
Safe haven. Secure areas within the interior of the facility. A safe haven should be 
designed such that it requires more time to penetrate by aggressors than it takes for 
the response force to reach the protected area to rescue the occupants. It may be a 
haven from a physical attack or an air-isolated haven from CBR contamination.
Secondary asset. An asset that supports a primary asset and whose compromise would 
indirectly affect the operation of the primary asset.
Secondary hazard. A threat whose potential would be realized as the result of a 
triggering event that of itself would constitute an emergency (e.g., dam failure might 
be a secondary hazard associated with earthquakes).
Situational crime prevention. A crime prevention strategy based on reducing the 
opportunities for crime by increasing the effort required to commit a crime, 
increasing the risks associated with committing the crime, and reducing the target 
appeal or vulnerability (whether property or person). This opportunity reduction is 
achieved by management and use policies such as procedures and training, as well as 
physical approaches such as alteration of the built environment.
Specific threat. Known or postulated aggressor activity focused on targeting a 
particular asset.
Stand-off distance. A distance maintained between a building or portion thereof and 
the potential location for an explosive detonation or other threat.
Stand-off weapons. Weapons such as anti-tank weapons and mortars that are launched 
from a distance at a target.
State Coordinating Officer (SCO). The person appointed by the Governor to 
coordinate state, commonwealth, or territorial response and recovery activities with 
FRP-related activities of the Federal Government, in cooperation with the FCO.
State Liaison. A FEMA official assigned to a particular state, who handles initial 
coordination with the state in the early stages of an emergency.
Stationary vehicle bomb. An explosive-laden car or truck stopped or parked near a 
building.
Structural protective barriers. Manmade devices (e.g., fences, walls, floors, roofs, grills, 
bars, roadblocks, signs, or other construction) used to restrict, channel, or impede 
access.
Superstructure. The supporting elements of a building above the foundation.
Supplies-bomb delivery. Bombs or incendiary devices concealed and delivered to 
supply or material handling points such as loading docks.
T
Tactics. The specific methods of achieving the aggressor�s goals to injure personnel, 
destroy assets, or steal materiel or information.
Tangle-foot wire. Barbed wire or tape suspended on short metal or wooden pickets 
outside a perimeter fence to create an obstacle to approach.
Taut wire sensor. An intrusion detection sensor utilizing a column of uniformly spaced 
horizontal wires, securely anchored at each end and stretched taut. Each wire is 
attached to a sensor to indicate movement of the wire.
Technological hazards. Incidents that can arise from human activities such as 
manufacture, transportation, storage, and use of hazardous materials. For the sake of  
simplicity, it is assumed that technological emergencies are accidental and that their 
consequences are unintended.
Terrorism. The unlawful use of force and violence against persons or property to 
intimidate or coerce a government, the civilian population, or any segment thereof, in 
furtherance of political or social objectives.
Thermally tempered glass (TTG). Glass that is heat-treated to have a higher tensile 
strength and resistance to blast pressures, although with a greater susceptibility to 
airborne debris.
Threat. Any indication, circumstance, or event with the potential to cause loss of, or 
damage to an asset.
Threat analysis. A continual process of compiling and examining all available 
information concerning potential threats and human-caused hazards. A common 
method to evaluate terrorist groups is to review the factors of existence, capability, 
intentions, history, and targeting.
TNT equivalent weight. The weight of TNT (trinitrotoluene) that has an equivalent 
energetic output to that of a different weight of another explosive compound.
Tornado. A local atmospheric storm, generally of short duration, formed by winds 
rotating at very high speeds, usually in a counter-clockwise direction. The vortex, up to 
several hundred yards wide, is visible to the observer as a whirlpool-like column of 
winds rotating about a hollow cavity or funnel. Winds may reach 300 miles per hour or 
higher.
Toxic-free area. An area within a facility in which the air supply is free of toxic 
chemical or biological agents.
Toxicity. A measure of the harmful effects produced by a given amount of a toxin on a 
living organism.
Triple-standard concertina (TSC) wire. This type of fence uses three rolls of stacked 
concertina. One roll will be stacked on top of two other rolls that run parallel to each 
other while resting on the ground, forming a pyramid.
U
Unobstructed space. Space around an inhabited building without obstruction large 
enough to conceal explosive devices 150 mm (6 inches) or greater in height.
V
Video motion detection. Motion detection technology that looks for changes in the 
pixels of a video image.
Visual surveillance. The aggressor uses ocular and photographic devices (such as 
binoculars and cameras with telephoto lenses) to monitor facility or installation 
operations or to see assets.
Volumetric motion sensor. An interior intrusion detection sensor that is designed to 
sense aggressor motion within a protected space.
Vulnerability. Any weakness in an asset or mitigation measure than can be exploited 
by an aggressor (potential threat element), adversary, or competitor. It refers to the 
organization�s susceptibility to injury.
W
Warning. The alerting of emergency response personnel and the public to the threat 
of extraordinary danger and the related effects that specific hazards may cause.
Watch. Indication in a defined area that conditions are favorable for the specified type 
of severe weather (e.g., flash flood watch, severe thunderstorm watch, tornado watch, 
tropical storm watch).
Waterborne contamination. Chemical, biological, or radiological agent introduced 
into and fouling a water supply.
Weapons of Mass Destruction (WMD). Any device, material, or substance used in a 
manner, in a quantity or type, or under circumstances showing an intent to cause 
death or serious injury to persons, or significant damage to property. An explosive, 
incendiary, or poison gas, bomb, grenade, rocket having a propellant charge of more 
than 4 ounces, or a missile having an explosive incendiary charge of more than 0.25 
ounce, or mine or device similar to the above; poison gas; weapon involving a disease 
organism; or weapon that is designed to release radiation or radioactivity at a level 
dangerous to human life




C-


CHEMICAL, BIOLOLOGICAL, AND RADIOLOGICAL GLOSSAR


CHEMICAL WARFARE AGENT CHARACTERISIC


Note:
Tables reduced for PDF purposes only.  Tables appear as 11x17 horizontal foldout pages in the printed publication


SELECTED BIOLOGICAL AGENT CHARACTERISIC


This appendix contains some CBR terms that do not actually appear in this manual. 
They have been included to present a comprehensive list that pertains to this series of 
publications.
CHEMICAL TERMS
A
Acetylcholinesterase. An enzyme that hydrolyzes the neurotransmitter acetylcholine. 
The action of this enzyme is inhibited by nerve agents.
Aerosol. Fine liquid or solid particles suspended in a gas (e.g., fog or smoke).
Atropine. A compound used as an antidote for nerve agents.
C
Casualty (toxic) agents. Produce incapacitation, serious injury, or death, and can be 
used to incapacitate or kill victims. They are the blister, blood, choking, and nerve 
agents.
Blister agents. Substances that cause blistering of the skin. Exposure is through 
liquid or vapor contact with any exposed tissue (eyes, skin, lungs). Examples 
are distilled mustard (HD), nitrogen mustard (HN), lewisite (L), 
mustard/lewisite (HL), and phenodichloroarsine (PD).
Blood agents. Substances that injure a person by interfering with cell 
respiration (the exchange of oxygen and carbon dioxide between blood and 
tissues). Examples are arsine (SA), cyanogens chloride (CK), hydrogen 
chloride (HCl), and hydrogen cyanide (AC).
Choking/lung/pulmonary agents. Substances that cause physical injury to the 
lungs. Exposure is through inhalation. In extreme cases, membranes swell and




BIBLIOGRAPHY    




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Central Intelligence Agency
Chemical, Biological, Radiological Incident Handbook, October 
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Council on Tall Buildings and Urban Habitat
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Federal Aviation Administration
DOT/FAA/AR-00/52, Recommended Security Guidelines for Airport Planning, Design and 
Construction, Revised June 2001, Associate Administrator for Civil Aviation Security 
Office of Civil Aviation Security, Policy and Planning, Federal Aviation Administration, 
Washington, DC 20591 (not available on Internet)
FAA Order 1600.69A, FAA Facility Security Management Program, updated FAA Order 
1600.69B to be published shortly � The Federal Aviation Administration�s criteria for 
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Federal Emergency Management Agency
FEMA 152, Seismic Considerations: Apartment Buildings, Earthquake Hazards Reduction Series 
37, November 1988, Washington, DC (not available on Internet) Contact FEMA 
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Telephone:1-800-480-2520, Fax: 301-362-5335
FEMA 153, Seismic Considerations: Office Buildings, Earthquake Hazards Reduction Series 38, 
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Telephone: 1-800-480-2520, Fax: 301-362-5335
FEMA 277, The Oklahoma City Bombing: Improving Building Performance through Multi-
Hazard Mitigation, August 1, 1996, Washington, 
DChttp://www.fema.gov/mit/bpat/bpat009.htm
FEMA 372, Mitigation Resources for Success (CD-ROM), October 2001, Washington, 
DChttp://www.fema.gov/pdf/library/poster_fnl2.pdf
FEMA 386-2, Understanding Your Risks, Identifying Hazards and Estimating Losses, August 
2001http://www.fema.gov/fima/planning_toc3.shtm
FEMA 386-7, Integrating Human-Caused Hazards Into Mitigation Planning, September 
2002http://www.fema.gov/fima/antiterrorism/resources.shtm
FEMA 403, World Trade Center Building Performance Study: Data Collection, Preliminary 
Observations, and Recommendations, May 2002, Washington, 
DChttp://www.fema.gov/library/wtcstudy.shtm
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General Services Administration
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Design of Public Buildings, November 30, 
1999http://hydra.gsa.gov/pbs/pc/gd_files/SecurityOpenness.pdf
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Institute of Transportation Engineers
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Lawrence Berkeley National Lab
Protecting Buildings From a Biological or Chemical Attack: actions to take before or during a 
release. LBNL/PUB-51959, January 10, 
2003http://securebuildings.lbl.gov/images/bldgadvice.pdf
National Academy of Sciences
Combating Terrorism: Prioritizing Vulnerabilities and Developing Mitigation Strategies, Project 
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project � results to be 
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National Capital Planning Commission
Designing for Security in the Nation�s Capital, October 
2001http://www.ncpc.gov/planning_init/security/DesigningSec.pdf
The National Capital Planning Urban Design and Security Plan, October 
2002http://www.ncpc.gov/publications/udsp/Final%20UDSP.pdf
National Institute of Building Sciences
Whole Building Design Guide: Provide Security for Building Occupants and 
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National Research Council
Protecting Buildings and People from Terrorism: Technology Transfer for Blast-effects Mitigation, 
2001, National Academy Press, Washington, DC, ISBN 0-309-08286-
2http://books.nap.edu/books/0309082862/html/index.html
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9http://books.nap.edu/books/0309076463/html/index.html
Society of American Military Engineers
National Symposium of Comprehensive Force Protection, October 2001, Charleston, 
SC, Lindbergh & Associates. For a list of participants, 
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Technical Support Working Group (TSWG)
Terrorist Bomb Threat Stand-Off Card with Explanation of 
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The House National Security Committee
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DChttp://www.house.gov/hasc/Publications/104thCongress/Reports/saudi.pdf
U.S. Air Force
ESL-TR-87-57, Protective Construction Design Manual, November 1989; Contact Airbase 
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Telephone: (210)671-0058

U.S. Army
Field Manuals (FM)
FM 3-19.30, Physical Security, January 8, 2001, Washington, 
DChttp://www.adtdl.army.mil/cgi-bin/atdl.dll/fm/3-19.30/fm3-
19.30.pdforhttp://www.wood.army.mil/mpdoctrine/PDF_Files/FM_3-19.30.pdf
FM 5-114, Engineer Operations Short of War, July 13, 1992http://155.217.58.58/cgi-
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Technical Instruction 853-01 (Draft), Protecting Buildings and Their Occupants from 
Airborne Hazards, October 
2001http://buildingprotection.sbccom.army.mil/basic/airborne_hazards
U.S. Army Corps of Engineers
Engineer Technical Letters (ETL)
ETL 1110-3-494, Airblast Protection Retrofit for Unreinforced Concrete Masonry Walls, July 14, 
1999 [Restricted Access]http://www.usace.army.mil/inet/usace-docs/eng-tech-ltrs
ETL 1110-3-495, Estimating Damage to Structures from Terrorist Bombs Field Operations 
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docs/eng-tech-ltrs
ETL 1110-3-498, Design of Collective Protection Shelters to Resist Chemical, Biological, and 
Radiological (CBR) Agents, February 24, 1999http://www.usace.army.mil/inet/usace-
docs/eng-tech-ltrs
ETL 1110-3-501, Window Retrofit Using Fragment Retention Film with Catcher Bar System, July 
14, 1999 [Restricted Access]http://www.usace.army.mil/inet/usace-docs/eng-tech-ltrs

Protective Design � Mandatory Center of Expertise � Technical Reports
PDC-TR-91-6, Blast Analysis Manual, Part 1 � Level of Protection Assessment Guide, July 1991 
[For Official Use Only] Contact U.S. Army Corps of Engineers Protective Design Center, 
ATTN: CENWO-ED-ST, 215 N. 17th Street, Omaha, NE 68102-4978, Telephone: 
(402)221-4918
Technical Manuals (TM)
TM 5-853-1, Security Engineering Project Development, May 12, 1994, also Air Force Manual 
32-1071, Volume 1 [For Official Use Only]http://www.usace.army.mil/inet/usace-
docs/armytm
TM 5-853-2, Security Engineering Concept Design, May 12, 1994, also Air Force Manual 32-
1071, Volume 2 [For Official Use Only]http://www.usace.army.mil/inet/usace-
docs/armytm
TM 5-853-3, Security Engineering Final Design, May 12, 1994, also Air Force Manual 32-
1071, Volume 3 [For Official Use Only]http://www.usace.army.mil/inet/usace-
docs/armytm
TM 5-853-4, Security Engineering Electronic Security Systems, May 12, 
1994http://www.usace.army.mil/inet/usace-docs/armytm
TM 5-855-4, Heating, Ventilation, and Air Conditioning of Hardened Installations, 
November 28, 1986http://www.usace.army.mil/inet/usace-docs/armytm/tm5-855-
4/toc.htm
TM 5-1300, Structures to Resist Accidental Explosions, November 19, 1990, (also Navy 
NAVFAC (Naval Facilities) P-397, Air Force Regulation 88-2); Contact David Hyde, 
U.S. Army Engineer Research and Development Center, 3909 Halls Ferry Road, 
Vicksburg, MS 39180 or via e-mail to hyded@ex1.wes.army.mil
U.S. Department of Commerce
Administrative Orders (DAO)
DAO 206-5, Occasional Use of Public Areas in Public Buildings, December 9, 
1986http://www.osec.doc.gov/bmi/daos/206-5.htm
DAO 207-1, Security Programs, June 24, 1991, Amended September 6, 
1991http://www.osec.doc.gov/bmi/daos/207-1.htm
Critical Infrastructure Assurance Office
Vulnerability Assessment Framework 1.1, October 
1998http://www.ciao.gov/resource/vulassessframework.pdf
Practices For Securing Critical Information Assets, January 
2000http://www.ciao.gov/resource/Practices_For_Securing_Critical_Information_Ass
ets.pdf
U.S. Department of Defense
DoD Security Engineering Manual [Expected to have a major portion for public 
distribution once published as Unified Facilities Criteria and a smaller portion For 
Official Use Only similar to the UFC for AT Standards for Buildings listed below. This 
publication will replace Army Technical Manual 5-853 (Air Force Joint Manual 32-
1071), Volumes 1, 2, and 3 and Navy Military Handbook 1013/1A] DoD O-2000.12-H, 
Protection of DoD Personnel and Activities Against Acts of Terrorism and Political Turbulence: 
Mandatory Standards and Implementing Guidance, with Changes 1 and 2, February 1993, 
Change 1 � May 21, 1993, Change 2 � October 3, 1997 [For Official Use 
Only]http://www.dtic.mil/whs/directives/corres/pub1.html
Force Protection Equipment Demonstration IV, 6-8 May 2003http://www.fped4.org
Interim Antiterrorism/Force Protection Construction Standards, December 16, 1999 [For 
Official Use Only] Contact U.S. Army Engineer District, ATTN: CENWO-ED-ST, 215 
North 17th Street, Omaha, NE 68102-4978, Telephone: (402)221-4918.
Interim Antiterrorism/Force Protection Construction Standards � Progressive Collapse Guidance, 
April 4, 2000 (not available on Internet) Contact U.S. Army Corps of Engineers 
Protective Design Center, ATTN: CENWO-ED-ST, 215 N. 17th Street, Omaha, NE 
68102-4978, Telephone: (402)221-4918
Unified Facilities Criteria (UFC)
UFC 3-340-01, Design and Analysis of Hardened Structures to Conventional Weapons Effects, 
June 30, 2002 [For Official Use Only] [Formerly Army TM 5-855-
1]http://www.hnd.usace.army.mil/techinfo/ufc/UFC3-340-01 WEB.PDF
UFC 4-010-01, DoD Minimum Antiterrorism Standards for Buildings, July 31, 
2002http://www.wbdg.org/ccbref/ccbdoc.php?category=ufc&docid=106&ref=1
Unified Facilities Guide Specifications (UFGS)
UFGS-02821A, Fencing, February 2002http://www.ccb.org/ufgs/pdf/02821A.pdf
UFGS-02840A, Active Vehicle Barriers, February 
2002http://www.ccb.org/ufgs/pdf/02840A.pdf
UFGS-02841N, Traffic Barriers, August 2001http://www.ccb.org/ufgs/pdf/02841N.pdf
UFGS-08390A, Blast Resistant Doors, April 
2001http://www.ccb.org/ufgs/pdf/08390.pdf
UFGS-08581, Blast Resistant Tempered Glass Windows, August 
2001http://www.ccb.org/ufgs/pdf/08581.pdf
UFGS-08840A, Plastic Glazing, July 1995https://www.ccb.org/ufgs/pdf/08840A.pdf
UFGS-08850, Fragment Retention Film for Glass, July 
1992https://www.ccb.org/ufgs/pdf/08850.pdf
UFGS-11020, Security Vault Door, August 2002http://www.ccb.org/ufgs/pdf/11020.pdf
UFGS-11025, Forced Entry Resistant Components, August 
2001http://www.ccb.org/ufgs/pdf/11025.pdf
UFGS-11035, Bullet-Resistant Components, April 
2000http://www.ccb.org/ufgs/pdf/11035.pdf
UFGS-13095A, Electromagnetic (EM) Shielding, July 
2001http://www.ccb.org/ufgs/pdf/13095A.pdf
UFGS-13420A, Self-Acting Blast Valves, November 
1997http://www.ccb.org/ufgs/pdf/13420A.pdf
U.S. Department of Education
Practical Information on Crisis Planning: A Guide for Schools and Communities, May 
2003http://www.ed.gov/emergencyplan
U.S. Department of Energy
DOE/TIC 11268, A Manual for the Prediction of Blast and Fragment Loadings on Structures, 
February 1992, Albuquerque, NM, Southwest Research Institute [not available on 
Internet]
U.S. Department of Homeland Security
National Strategy for Homeland Security, July 
2002http://www.dhs.gov/interweb/assetlibrary/nat_strat_hls.pdf
The National Strategy for the Physical Protection of Critical Infrastructures and Key Assets, 
February 2003http://www.dhs.gov/interweb/assetlibrary/Physical_Strategy.pdf
National Strategy to Secure Cyberspace, February 
2003http://www.dhs.gov/interweb/assetlibrary/National_Cyberspace_Strategy.pdf
President�s Homeland Security Advisory Council - Statewide Template Initiative, March 
2003http://www.dhs.gov/interweb/assetlibrary/Statewide_Template_Initiative.pdf
State and Local Actions for Homeland Security, July 
2002http://www.whitehouse.gov/homeland/stateandlocal/State_and_Local_Actions_
for_Homeland_Security.pdf
U.S. Department of Housing and Urban Development
The Avoidance of Progressive Collapse, Regulatory approaches to the problem, PB-248 781, 
October 1975, Division of Energy, Building Technology and Standards, Office of 
Policy Development and Research, Washington, DC 20410 (not available on Internet) 
Creating Defensible Space, April 1996, Oscar Newman, Washington, 
DChttp://www.huduser.org
U.S. Department of Justice
Federal Bureau of Investigation (FBI)Terrorism in the United States, 1999, Washington, 
DC Counterterrorism Divisionhttp://www.fbi.gov/publications.htm
Office of Domestic Preparedness (ODP)Fiscal Year 1999 State Domestic Preparedness 
Equipment Program, Assessment and Strategy Development Tool Kit, NCJ181200, May 15, 
2000, [For Official Use Only]http://www.ojp.usdoj.gov/odp/docs/assessment.txt
National Institute of Justice (NIJ)The Appropriate and Effective Use of Security Technologies 
in U.S. Schools: A Guide for Schools and Law Enforcement Agencies, September 1999, with 
U.S. Department of Education, Safe and Drug-Free Schools Program; and U.S. 
Department of Energy, Sandia National 
Laboratorieshttp://www.ncjrs.org/school/home.html
NIJ Guide 100-00, Guide for the Selection of Chemical Agent and Toxic Industrial Material 
Detection Equipment for Emergency First Responders, June 
2000http://www.ncjrs.org/pdffiles1/nij/184449.pdf
NIJ Guide 101-00, An Introduction to Biological Agent Detection Equipment for Emergency First 
Responders, December 2001http://www.ncjrs.org/pdffiles1/nij/190747.pdf
NIJ Guide 102-00, Guide for the Selection of Personal Protective Equipment for Emergency First 
Responders, Volumes I-IV, November 
2002http://www.ncjrs.org/pdffiles1/nij/191518.pdf
NIJ Guide 602-00, Guide to the Technologies of Concealed Weapon and Contraband Imaging 
and Detection, February 2001http://www.ncjrs.org/pdffiles1/nij/184432.pdf
NIJ Standard 0108.01, Blast Resistant Protective Materials, September 1985 [Subscription 
Required]http://www.ccb.org
Crime Prevention Through Environmental Design and Community Policing, August 1996, Dan 
Fleissner and Fred Heinzelmann, Washington, 
DChttp://www.ncjrs.org/pdffiles/crimepre.pdf
Crime Prevention Through Environmental Design in Parking Facilities, April 1996, Mary S. 
Smith, Washington, DChttp://www.ncjrs.org/pdffiles/cptedpkg.pdf
"Designing Out" Gang Homicides and Street Assaults, November 1998, James Lasley, 
Washington, DC http://www.ncjrs.org/pdffiles/173398.pdf
The Expanding Role of Crime Prevention Through Environmental Design in Premises Liability, 
April 1996, Corey L. Gordon and William Brill, Washington, 
DChttp://www.ncjrs.org/pdffiles/cptedlia.pdf
Physical Environment and Crime, January 1996, Ralph B. Taylor and Adele V. Harrell, 
Washington, DChttp://www.ncjrs.org/pdffiles/physenv.pdf
Visibility and Vigilance: Metro�s Situational Approach to Preventing Subway Crime, November 
1997, Nancy G. La Vigne, Washington, DChttp://www.ncjrs.org/pdffiles/166372.pdf
U.S. Marshals ServiceVulnerability Assessment of Federal Facilities, June 28, 1995 
[Restricted Access]http://www.oca.gsa.gov
U.S. Department of State, Bureau of Diplomatic Security
Architectural Engineering Design Guidelines (5 Volumes), March 1998 [For Official Use 
Only] (not available on Internet)
Certification Standard SD-STD-01.01, Revision G (Amended), Forced Entry and Ballistic 
Resistance of Structural Systems, Amended April 30, 1993 [Subscription 
Required]http://www.ccb.org
Patterns of Global Terrorism, 2002, April 2002, Washington, DC 
http://www.state.gov/s/ct/rls/pgtrpt/2002/pdf/
Physical Security Standards Handbook, January 7, 1998 [For Official Use Only] (not available 
on Internet)
Structural Engineering Guidelines for New Embassy Office Buildings, August 1995 [For 
Official Use Only] (not available on Internet)
The Report of the Accountability Review Board on the Embassy Bombings in Nairobi and Dar es 
Salaam on August 7, 1998, January 1999, Washington, 
DChttp://www.state.gov/www/regions/africa/accountability_report.html
U.S. Department of the Treasury/Bureau of Alcohol, Tobacco, and Firearms
Vehicle Bomb Explosion Hazard And Evacuation Distance Tables, 1999, request in writing, 
address information available athttp://www.atf.treas.gov/pub/fire-
explo_pub/i54001.htm
U.S. Department of Veterans Affairs
Physical Security Assessment of Veterans Affairs Facilities, Recommendations of the 
National Institute of Building Sciences Task Group to the Department of Veterans 
Affairs, 6 September 
2002http://www.va.gov/facmgt/standard/etc/vaphysicalsecurityreport.pdf
U.S. Fire Administration (USFA of FEMA)
The Critical Infrastructure Protection Process Job Aid, May 1, 
2002http://www.usfa.fema.gov/dhtml/fire-service/cipc-jobaid.cfm
U.S. Navy
Design Manuals (DM) NAVFAC (Naval Facilities Command)NAVFAC DM 2.08, Blast 
Resistant Structures, December 
1986http://www.wbdg.org/ccbref/ccbdoc.php?category=nav&docid=46&ref=1
NAVFAC DM 13.02, Commercial Intrusion Detection Systems (IDS), September 
1986http://www.wbdg.org/ccbref/ccbdoc.php?category=nav&docid=47&ref=1
Interim Technical Guidance (ITG) 03-03, Entry Control Facilities, 20 February 
2003http://www.lantdiv.navfac.navy.mil/servlet page?pageid=8609,8611 &_dad= 
lantdiv&_schema=LANTDIV&11435_ACTIVE_1777132.p_ subid= 
60007&11435_ACTIVE_1777132.p_sub_siteid=51 &11435_ ACTIVE_1777132.p_edit=0
Military Handbooks (MIL-HDBK)
MIL-HDBK-1002/1, Structural Engineering General Requirements, November 30, 
1987http://www.wbdg.org/ccbref/ccbdoc.php?category=nav&docid=48&ref=1
MIL-HDBK-1004/4, Electrical Utilization Systems, October 13, 
1987http://www.wbdg.org/ccbref/ccbdoc.php?category=nav&docid=49&ref=1
MIL-HDBK-1012/3, Telecommunications Premises Distribution Planning, Design, and 
Estimating, May 31, 
1996http://www.wbdg.org/ccbref/ccbdoc.php?category=nav&docid=50&ref=1
MIL-HDBK-1013/1A, Design Guidelines for Physical Security of Fixed Land-Based Facilities, 
December 15, 1993. For copies, contact Defense Printing Service, Building 40, 700 
Robbins Avenue, Philadelphia, PA 19111-5094, Telephone: (215)697-2179, Fax: 
(215)697-1462 or available on the National Institute of Building Sciences� 
Construction Criteria Base
MIL-HDBK-1013/10, Design Guidelines for Security Fencing, Gates, Barriers, and Guard 
Facilities, May 14, 1993. For copies, contact Defense Printing Service, Building 40, 700 
Robbins Avenue, Philadelphia, PA 19111-5094, Telephone: (215)697-2179, Fax: (215) 
697-1462 or available on the National Institute of Building Sciences� Construction 
Criteria Base
MIL-HDBK-1013/12, Evaluation of Security Glazing for Ballistic, Bomb, and Forced Entry 
Tactics, March 10, 1997. For copies, contact Defense Printing Service, Building 40, 700 
Robbins Avenue, Philadelphia, PA 19111-5094, Telephone: (215)697-2179, Fax: (215) 
697-1462 or available on the National Institute of Building Sciences� Construction 
Criteria Base
MIL-HDBK-1013/14, Selection and Application of Vehicle Barriers, February 1, 1999. For 
copies, contact Defense Printing Service, Building 40, 700 Robbins Avenue, 
Philadelphia, PA 19111-5094, Telephone: (215)697-2179, Fax: (215)697-1462 or 
available on the National Institute of Building Sciences� Construction Criteria Base
TechData Sheets � Naval Facilities Engineering Service Center (NFESC)
TDS-2062-SHR, Estimating Damage to Structures from Terrorist Bombs, September 1998 [For 
Official Use Only] Requests for publication can be made to Naval Facilities Engineering 
Service Center, Security Engineering Division (ESC66), 1100 23rd Ave, Port Hueneme, 
CA 93043-4370, Telephone (805)982-1582 (Primary), (805)982-4817 (Alternate); Fax: 
(805)982-1253
TDS-2063-SHR, Blast Shielding Walls, September 1998 [For Official Use Only] Requests 
for publication can be made to Naval Facilities Engineering Service Center, Security 
Engineering Division (ESC66), 1100 23rd Ave., Port Hueneme, CA 93043-4370, 
Telephone: (805)982-1582 (Primary), (805)982-4817 (Alternate); Fax: (805)982-1253
TDS-2079-SHR, Planning and Design Considerations for Incorporating Blast Mitigation in 
Mailrooms, May 2000. For copies, contact Defense Printing Service, Building 40, 700 
Robbins Avenue, Philadelphia, PA 19111-5094, Telephone: (215)697-2179, Fax: (215) 
697-1462
TDS-2090-SHR, Design Parameters for a Controlled Entry Point. For copies, contact Defense 
Printing Service, Building 40, 700 Robbins Avenue, Philadelphia, PA 19111-
5094,Telephone: (215)697-2179, Fax: (215)697-1462
User Guides � Naval Facilities Engineering Service Center (NFESC)
UG-2030-SHR, Security Glazing Applications, May 1998, distributed June 25, 1998. [For 
Official Use Only] Requests for publication can be made to Naval Facilities Engineering 
Service Center, Security Engineering Division (ESC66), 1100 23rd Ave., Port 
Hueneme, CA 93043-4370, Telephone: (805)982-1582 (Primary), (805) 982-4817 
(Alternate); Fax: (805)982-1253
UG-2031-SHR, Protection Against Terrorist Vehicle Bombs, May 1998, distributed June 25, 
1998. [For Official Use Only] Requests for publication can be made to Naval Facilities 
Engineering Service Center, Security Engineering Division (ESC66), 1100 23rd Ave, 
Port Hueneme, CA 93043-4370, Telephone: (805)982-15.82 (Primary), (805) 982-4817 
(Alternate); Fax: (805)982-1253
Other Books, Magazines, Magazine Articles, and Newspaper Articles
Archibald, Rae W., et al., 2002, Security and Safety in Los Angeles High-Rise Buildings after 
9/11. RAND, Santa Monica, CA, ISBN: 0-8330-3184-
8http://www.rand.org/publications/DB/DB381
Atlas, Randall I., June 1998, Designing for Crime and Terrorism, Security and Technology 
Design, Security Technology and Design Magazine Reprint Services, Jim Benesh, 
Telephone: (800)547-7377 x324, Fax: (920)568-2244, e-mail: 
jim.benesh@cygnuspub.com
Bartlett, Sarah and Petrarca, John, The Schools of Ground Zero: Early Lessons Learned in 
Children�s Environmental Health, American Public Health Association, September 2002, 
ISBN: 0875530281 
Broder, James F., December 15, 1999, Risk Analysis and the Security Survey, 2nd Edition, 
Butterworth-Heinemann, Stoneham, MA, ISBN: 0750670894
Craighead, Geoff, December 2002, High-Rise Security and Fire Life Safety, 2nd Edition, 
Academic Press, ISBN: 0750674555
Crowe, Timothy D., 2000, Crime Prevention Through Environmental Design: Applications Of 
Architectural Design And Space Management Concepts (2nd Edition), Stoneham, MA, 
Butterworth-Heinemann, ISBN: 075067198X
Fehr, Stephen C., July 1996, Parking Under Siege in D.C.: U.S. Anti-Terrorism Plan 
Threatens 360 Spaces, TheWashington Post, July 13, 
1996http://www.washingtonpost.com/wp-adv/archives/advanced.htm
Fenelly, Lawrence J, June 1997, Effective Physical Security, 2nd Edition, Stoneham, MA, 
Butterworth-Heinemann, ISBN: 0-75-069873-X
Garcia, Mary Lynn, February 23, 2001, The Design and Evaluation of Physical Protection 
Systems, Stoneham, MA, Butterworth-Heinemann, ISBN: 0750673672
Gonchar, Joann, March 2002, Building for a Secure Future: Government Facilities 
under way incorporate already tough standards, Engineering News-Record, March 25, 
2002http://www.construction.com/NewsCenter/Headlines/ENR/20020325e.asp
Greene, R.W., October 2002, Confronting Catastrophe: A GIS Handbook, ESRI Press, ISBN: 
1589480406

Hart, Sara, March 2002, In the aftermath of September 11, the urban landscape 
appears vulnerable and random: Architects and consultants focus on risk assessment 
and security through design, Architectural Record, March 
2002http://archrecord.construction.com/CONTEDUC/ARTICLES/03_02_1.asp
Kowalski, Wladyslaw Jan, P.E., Ph.D., September 26, 2002, Immune Building Systems 
Technology, McGraw-Hill Professional, ISBN: 0-07-140246-2
Nadel, Barbara A, March 1998, Designing for Security, Architectural Record, March 
1998http://www.archrecord.com/CONTEDUC/ARTICLES/3_98_1.asp
Owen, David D. and R.S. Means Engineering Staff, Building Security: Strategies and Costs, 
Construction Publishers & Consultants, ISBN: 0-87629-698-3, 2003
Pearson, Robert, September 1997, Security through Environmental Design, Security and 
Technology Design, Security Technology and Design Magazine Reprint Services, Jim 
Benesh, Telephone: (800) 547-7377 x324; Fax: (920) 568-2244; e-
mail:jim.benesh@cygnuspub.com
Rochon, Donald M., June 1998, Architectural Design for Security, Security and Technology 
Design, Security Technology and Design Magazine Reprint Services, Jim Benesh, 
Telephone: (800)547-7377 x324; Fax: (920)568-2244; e-mail: 
jim.benesh@cygnuspub.com
Security Magazine [on-line magazine]http://www.securitymagazine.com
Security Solutions Online: Access Control and Security Systems[on-line magazine] 
http://securitysolutions.com/
Security Technology and Design [on-line and print magazine]http://www.st-and-
d.com
Sidell, Frederick R., et al, 1998, Jane�s Chem-Bio Handbook, Jane�s Information Group, 
Alexandria, VA, ISBN 0-7106 2568-
5http://www.janes.com/company/catalog/chem_bio_hand.shtml
Smith, Keith, November 2000, Environmental Hazards: Assessing Risk and Reducing 
Disaster, Routledge, New York, NY, ISBN 0415224632http://www.routledge-
ny.com/books.cfm?isbn=041522463




ASSOCIATIONS AND ORGANIZATIONS     




_	American Lifelines Alliance http://www.americanlifelinesalliance.org
_	Applied Technology Council http://www.atcouncil.org
_	Battelle Memorial Institute, National Security Program 
http://www.battelle.org/natsecurity/default.stm
_	Center for Strategic and International Studies (CSIS) http://www.csis.org
_	Centers for Disease Control and Prevention (CDC)/National Institute for 
Occupational Safety and Health (NIOSH) http://www.cdc.gov/niosh
_	Central Intelligence Agency (CIA) http://www.cia.gov
_	Council on Tall Buildings and Urban Habitat (CTBUH) http://www.ctbuh.org
_	Federal Aviation Administration (FAA) http://www.faa.gov
_	Healthy Buildings International, Inc.	http://www.healthybuildings.com
_	Institute of Transportation Engineers http://www.ite.org
_	Interagency Security Committee (ISC) led by the U.S.	General Services 
Administration [Restricted Access] http://www.oca.gsa.gov
_	International CPTED [Crime Prevention Through Environmental Design] 
Association (ICA) http://new.cpted.net/home.amt
_	Lawrence Berkeley National Laboratory (LBNL) http://securebuildings.lbl.gov
_	National Academy of Sciences 
http://www4.nationalacademies.org/nas/nashome.nsf
� Federal Facilities Council (FFC) Standing Committee on Physical Security and 
Hazard Mitigation http://www7.nationalacademies.org/ffc/Physical_Security_ 
Hazard_Mitigation.html
� National Research Council http://www.nationalacademies.org/nrc
_	National Defense Industrial Association (NDIA) http://www.ndia.org
_	Public Entity Risk Institute http://www.riskinstitute.org
_	Security Design Coalition http://www.designingforsecurity.org
_	Security Industry Association (SIA) http://www.siaonline.org/
_	Technical Support Working Group (Departments of Defense and State) 
http://www.tswg.gov
_	U.S.	Air Force Electronic System Center (ESC), Hanscom Air Force Base 
http://eschq.hanscom.af.mil/
_	U.S. Army Soldiers and Biological Chemical Command (SBCCOM): Basic 
Information on Building Protection http://buildingprotection.sbccom.army.mil
_	U.S. Department of Justice http://www.usdoj.gov
�  Federal Bureau of Investigation: Terrorism in the United States reports 
http://www.fbi.gov/publications/terror/terroris.htm
�  National Institute of Justice (NIJ) http://www.ojp.usdoj.gov/nij
�  Office of Domestic Preparedness (ODP) http://www.ojp.usdoj.gov/odp
�  U.S.	Marshals Service (USMS) http://www.usdoj.gov/marshals
The Infrastructure Security Partnership (TISP) 
http://www.tisp.org
Founding Organizations
_	American Council of Engineering Companies (ACEC) http://www.acec.org
_	American Society of Civil Engineers (ASCE) http://www.asce.org
�   Architectural Engineering Institute (AEI) of ASCE 
http://www.asce.org/instfound/aei.cfm
�   Civil Engineering Research Foundation (CERF) of ASCE http://www.cerf.org
�   Structural Engineering Institute (SEI) of ASCE http://www.seinstitute.org
_	Associated General Contractors of America http://www.agc.org
_	Construction Industry Institute http://construction-institute.org
_	Federal Emergency Management Agency (FEMA) http://www.fema.gov
�  Building Performance Assessment Team http://www.fema.gov/mit/bpat
�  Human Caused Hazards http://www.fema.gov/hazards
�  Mitigation Planning http://www.fema.gov/fima/planning.shtm
_	Federal Facilities Council � See National Academy of Sciences
_	National Institute of Standards and Technology (NIST), Building and Fire 
Research Laboratory http://www.bfrl.nist.gov
_	Naval Facilities Engineering Command http://www.navfac.navy.mil
�  Naval Facilities Engineering Service Center (NFESC), Security Engineering 
Center of Expertise ESC66 http://atfp.nfesc.navy.mil
_	Society of American Military Engineers (SAME) http://www.same.org
_	The American Institute of Architects (AIA), Security Resource Center 
http://www.aia.org/security
_	U.S.Army Corps of Engineers http://www.usace.army.mil
�  Blast Mitigation Action Group, U.S.	Army Corps of Engineers Center of 
Expertise for Protective Design http://bmag.nwo.usace.army.mil
�  U.S.	Army Corps of Engineers, Electronic Security Center 
http://www.hnd.usace.army.mil/esc
�  U.S.	Army Corps of Engineers, Protective Design Center 
http://pdc.nwo.usace.army.mil
Selected Member Organizations
_	Air-Conditioning and Refrigeration Institute, Inc.	http://www.ari.org
_	Air Conditioning Contractors of America http://www.acca.org
_	Airport Consultants Council http://www.acconline.org

_	Alliance for Fire & Smoke Containment & Control http://www.afscconline.org
_	American Association of State Highway and Transportation Officials (AASHTO) 
http://www.transportation.org
_	American Institute of Chemical Engineers, Center for Chemical Process Safety 
http://www.aiche.org/ccps
_	American Planning Association http://www.planning.org
_	American Portland Cement Alliance http://www.portcement.org/apca
_	American Public Works Association http://www.apwa.net
_	American Railway Engineering & Maintenance of Way Association 
http://www.arema.org
_	American Society for Industrial Security International (ASIS) 
http://www.asisonline.org
_	American Society of Heating, Refrigerating, and Air-Conditioning Engineers 
(ASHRAE) http://www.ashrae.org
_	American Society of Interior Designers http://www.asid.org
_	American Society of Landscape Architects (ASLA) http://www.asla.org
_	American Society of Mechanical Engineers (ASME) http://www.asme.org
_	American Underground Construction Association (AUA) http://www.auca.org or 
http://www.auaonline.org
_	American Water Resources Association (AWRA) http://www.awra.org
_	Associated Locksmiths of America http://www.aloa.org
_	Association of Metropolitan Water Agencies http://www.amwa.net
_	Association of State Dam Safety Officials http://www.damsafety.org
_	Building Futures Council http://www.thebfc.com
_	Building Owners and Managers Association International (BOMA), Emergency 
Resource Center http://www.boma.org/emergency
_	California Department of Health Services, Division of Drinking Water & 
Environmental Management http://www.dhs.cahwnet.gov/ps/ddwem
_	Construction Industry Roundtable http://www.cirt.org
_	Construction Innovation Forum http://www.cif.org
_	Construction Specifications Institute http://www.csinet.org
_	Construction Users Roundtable http://www.curt.org
_	Defense Threat Reduction Agency (DTRA) http://www.dtra.mil
_	Design-Build Institute of America http://www.dbia.org
_	Drexel (University) Intelligent Infrastructure & Transportation Safety Institute 
http://www.di3.drexel.edu
_	Federal Highway Administration http://www.fhwa.dot.gov
_	Florida Department of Transportation, Emergency Management Office 
http://www11.myflorida.com/safety/Emp/emp.htmorFlorida Department of 
Community Affairs, Division of Emergency Management 
http://www.floridadisaster.org/bpr/EMTOOLS/Severe/terrorism.htmor 
http://www.dca.state.fl.us/bpr/EMTOOLS/CIP/critical_infrastructure_protecti.ht
m
_	George Washington University, Institute for Crisis, Disaster, and Risk Management 
http://www.cee.seas.gwu.eduor http://www.seas.gwu.edu/~icdm
_	Homeland Protection Institute, Ltd.	http://www.hpi-tech.org
_	Inland Rivers Ports and Terminals http://www.irpt.net
_	Institute of Electrical and Electronics Engineers, Inc.	- USA 
http://www.ieeeusa.org or http://www.ieee.org/portal/index.jsp
_	International Association of Foundation Drilling http://www.adsc-iafd.com
_	International Code Council (ICC) http://www.intlcode.org Consolidates services, 
products, and operations of BOCA (Building Officials and Code Administrators), 
ICBO (International Conference of Building Officials) and SBCCI Southern 
Building Code Congress International) into one member service organization � 
the International Code Council (ICC) in January 2003.
_	International Facility Management Association (IFMA) http://www.ifma.org

_	Market Development Alliance of the FRP Composites Industry 
http://www.mdacomposites.org
_	Multidisciplinary Center for Earthquake Engineering Research 
http://mceer.buffalo.edu
_	National Aeronautics and Space Administration http://www.nasa.gov
_	National Capital Planning Commission (NCPC) http://www.ncpc.gov
�  Security and Urban Design http://www.ncpc.gov/planning_init/security.html
_	National Center for Manufacturing Sciences http://www.ncms.org
_	National Concrete Masonry Association http://www.ncma.org
_	National Conference of States on Building Codes and Standards 
http://www.ncsbcs.org
_	National Council of Structural Engineers Associations (NCSEA) 
http://www.ncsea.com or http://dwp.bigplanet.com/engineers/homepage
_	National Crime Prevention Institute http://www.louisville.edu/a-
s/ja/ncpi/courses.htm
_	National Fire Protection Association http://www.nfpa.org
_	National Institute of Building Sciences (NIBS) http://www.nibs.org and 
http://www.wbdg.org
_	National Park Service, Denver Service Center http://www.nps.gov/dsc
_	National Precast Concrete Association http://www.precast.org
_	National Wilderness Training Center, Inc.	http://www.wildernesstraining.net
_	New York City Office of Emergency Preparedness http://www.nyc.gov/html/oem
_	Ohio State University http://www.osu.edu/homelandsecurity
_	Pentagon Renovation Program http://renovation.pentagon.mil
_	Portland Cement Association (PCA) http://www.portcement.org
_	Primary Glass Manufacturers Council http://www.primaryglass.org
_	Protective Glazing Council http://www.protectiveglazing.org
_	Protective Technology Center at Penn State University http://www.ptc.psu.edu
_	SAVE International http://www.value-eng.org
_	Society of Fire Protection Engineers http://www.sfpe.org
_	Southern Building Code Congress, International http://www.sbcci.org
_	Sustainable Buildings Industry Council http://www.sbicouncil.org
_	Transit Standards Consortium http://www.tsconsortium.org
_	Transportation Research Board/Marine Board http://www.trb.org
_	Transportation Security Administration - Maritime and Land 
http://www.tsa.dot.gov
_	University of Missouri, Department of Civil & EnvironmentalEngineering, National 
Center for Explosion Resistant Design 
http://www.engineering.missouri.edu/explosion.htm
_	U.S.	Air Force Civil Engineer Support Agencyhttp://www.afcesa.af.mil
_	U.S.	Coast Guard http://www.uscg.mil
_	U.S.	Department of Energy http://www.energy.gov
�  Sandia National Laboratories (SNL) http://www.sandia.gov
�  Architectural Surety Program http://www.sandia.gov/archsur
�  Critical Infrastructure Protection Initiative 
http://www.sandia.gov/LabNews/LN02-11-00/steam_story.html
_	U.S.	Department of Health and Human Services http://www.hhs.gov
_	U.S.	Department of Veterans Affairs (VA) http://www.va.gov/facmgt
_	U.S.	Environmental Protection Agency (EPA), Chemical Emergency 
Preparedness and Prevention Office (CEPPO)�Counter-terrorism 
http://www.epa.gov/swercepp/cntr-ter.html
_	U.S.	General Services Administration (GSA) http://www.gsa.gov
�  Office of Federal Protective Service (FPS) of GSA 
http://www.gsa.gov/Portal/content/orgs_content.jsp?contentOID=117945&co
ntentType=1005&P=1&S=1
�  Office of Public Building Service (PBS) of GSA 
http://www.gsa.gov/Portal/content/orgs_content.jsp?contentOID=22883&con
tentType=1005&PPzz=1&S=1
�  Office of the Chief Architect of GSA 
http://www.gsa.gov/Portal/content/orgs_content.jsp?contentOID=22899&con
tentType=1005and http://www.oca.gsa.gov
_	U.S.	Green Building Council http://www.usgbc.org
_	U.S.	Marine Corps Headquarters http://www.usmc.mil
_	U.S.	Society on Dams http://www.ussdams.org
_	Virginia Polytechnic Institute and State University http://www.ce.vt.edu
_	Water and Wastewater Equipment Manufacturers Association 
http://www.wwema.org
The Partnership for Critical Infrastructure (PCIS) 
http://www.pcis.org
Note: Involved mainly with information systems and not building real property.
Government
_	Department of Commerce Critical Infrastructure Assurance Office (CIAO) 
http://www.ciao.gov
_	Department of Energy (DOE) http://www.energy.gov
_	Department of Homeland Security http://www.whitehouse.gov/deptofhomeland
_	National Infrastructure Protection Center (NIPC) http://www.nipc.gov

Private Sector
_	Anser Institute for Homeland Security (ANSER) http://www.homelandsecurity.org
_	CERT� Coordination Center (CERT/CC) http://www.cert.org
_	Electronic Warfare Associates (EWA) http://www.ewa.com
_	Information Technology Association of America (ITAA) http://www.itaa.org
_	National Cyber Security Alliance (Alliance) http://www.staysafeonline.info
_	North American Electric Reliability Council (NERC) http://www.nerc.com
_	SANS Institute (SANS - SysAdmin, Audit, Network, Security) http://www.sans.org
_	The Financial Services Roundtable Technology Group (BITS) 
http://www.bitsinfo.org
_	The Institute for Internal Auditors (IIA) http://www.theiia.org
_	The U.S.	Chamber of Commerce, Center for Corporate Citizenship (CCC) 
http://www.uschamber.com/ccc
Selected States and Local Organizations
_	Association of Metropolitan Water Agencies http://www.amwa.net
_	International Association of Emergency Managers (IAEM) http://www.iaem.com
_	National Association of State CIOs (NASCIO) http://www.nascio.org
_	National Emergency Managers Association (NEMA) http://www.nemaweb.org
_	National Governor�s Association (NGA) http://www.csg.org
_	The Council of State Governments (CSG) http://www.csg.org
_	The National League of Cities (NLC) http://www.nlc.or




BUILDING VULNERABILITY ASSESSMENT CHECKLIST    





The Building Vulnerability Assessment Checklist is based on the checklist 
developed by the Department of Veterans Affairs (VA) and compiles many best prac-
tices based on technologies and scientific research to consider during the design of a 
new school building or renovation of an existing building. It allows a consistent 
security evaluation of designs at various levels. The checklist can be used as a screening 
tool for preliminary design vulnerability assessment or be used by subject matter 
experts for a comprehensive vulnerability assessment of existing buildings. In addition 
to examining design issues that affect vulnerability, the checklist includes questions 
that determine if critical systems continue to function in order to enhance 
deterrence, detection, denial, and damage limitation, and to ensure that emergency 
systems function during a threat or hazard situation.
The checklist is organized into the 13 sections listed below. To conduct a vulnerability 
assessment of a school building or preliminary design, each section of the checklist 
should be assigned to an engineer, architect, or subject matter expert who is 
knowledgeable and qualified to perform an assessment of the assigned area. Each 
assessor should consider the questions and guidance provided to help identify 
vulnerabilities and document results in the observations column. If assessing an 
existing building, vulnerabilities can also be documented with photographs, if 
possible. The results of the 13 assessments should be integrated into a master 
vulnerability assessment and provide a basis for determining vulnerability ratings 
during the assessment process. 

1. Site
2. Architectural
3. Structural Systems
4. Building Envelope
5. Utility Systems
6. Mechanical Systems (heating, ventilation, and air conditioning (HVAC) and CBR)
7. Plumbing and Gas Systems
8. Electrical Systems
9. Fire Alarm Systems
10.  Communications and Information Technology (IT) Systems
11.  Equipment Operations and Maintenance
12.  Security Systems
13.  Security Master Pla


Building Vulnerablilty Assessment Checklist


Sectio
n
Vulnerability 
Question
Guidanc
e
Observation
s


1         Sit

1.


What major structures surround the facility (site or building(s))?
What critical infrastructure, government, military, or recreation facilities are in the local area 
that impact transportation, utilities, and collateral damage (attack at this facility impacting the 
other major structures or attack on the major structures impacting this facility)?
What are the adjacent land uses immediately outside the perimeter of this facility (site or 
building(s))?
Do future development plans change these land uses outside the facility (site or building (s)) 
perimeter? 
Although this question bridges threat and vulnerability, the threat is the manmade hazard that can 
occur (likelihood and impact) and the vulnerability is the proximity of the hazard to the building(s) 
being assessed. Thus, a chemical plant release may be a threat/hazard, but vulnerability changes if 
the plant is 1 mile upwind for the prevailing winds versus 10 miles away and downwind. Similarly, a 
terrorist attack upon an adjacent building may impact the building(s) being assessed. The Murrah 
Federal Building in Oklahoma City was not the only building to have severe damage caused by the 
explosion of the Ryder rental truck bomb


Critical infrastructure to consider includes:
Telecommunications infrastructure
Facilities for broadcast TV, cable TV; cellular networks; newspaper offices, production, and distribution; 
radio stations; satellite base stations; telephone trunking and switching stations, including critical cable 
routes and major rights-of-way
Electric power systems
Power plants, especially nuclear facilities; transmission and distribution system components; fuel 
distribution, delivery, and storage
Gas and oil facilities
Hazardous material facilities, oil/gas pipelines, and storage facilitie


Banking and finance institutions
Financial institutions (banks, credit unions) and the business district; note schedule business/financial 
district may follow; armored car services
Transportation networks
Airports: carriers, flight paths, and airport layout; location of air traffic control towers, runways, passenger 
terminals, and parking areas
Bus Stations
Pipelines: oil; gas
Trains/Subways: rails and lines, railheads/rail yards, interchanges, tunnels, and cargo/passenger terminals; 
note hazardous material transported
Traffic: interstate highways/roads/tunnels/bridges carrying large volumes; points of congestion; note time 
of day and day of week
Trucking: hazardous materials cargo loading/unloading facilities; truck terminals, weigh stations, and rest 
areas
Waterways: dams; levees; berths and ports for cruise ships, ferries, roll-on/roll-off cargo vessels, and 
container ships; international (foreign) flagged vessels (and cargo)
Water supply systems
Pipelines and process/treatment facilities, dams for water collection; wastewater treatment 
Government services
Federal/state/local government offices � post offices, law enforcement stations, fire/rescue, town/city hall, 
local mayor�s/governor�s residences, judicial offices and courts, military installations (include type-Active, 
Reserves, National Guard)
Emergency services
Backup facilities, communications centers, Emergency Operations Centers (EOCs), fire/Emergency Medical 
Service (EMS) facilities, Emergency Medical Center (EMCs), law enforcement facilities
The following are not critical infrastructure, but have potential collateral damage to 
consider: 
Agricultural facilities: chemical distribution, storage, and application sites; crop spraying services; 
farms and ranches; food processing, storage, and distribution facilities
Commercial/manufacturing/industrial facilities: apartment buildings; business/corporate 
centers; chemical plants (especially those with Section 302 Extremely Hazardous Substances); factories; fuel 
production, distribution, and storage facilities; hotels and convention centers; industrial plants; raw material 
production, distribution, and storage facilities; research facilities and laboratories; shipping, warehousing, 
transfer, and logistical centers
Events and attractions: festivals and celebrations; open-air markets; parades; rallies, demonstrations, 
and marches; religious services; scenic tours; theme parks
Health care system components: family planning clinics; health department offices; hospitals; 
radiological material and medical waste transportation, storage, and disposal; research facilities and 
laboratories, walk-in clinics
Political or symbolically significant sites: embassies, consulates, landmarks, monuments, 
political party and special interest groups offices, religious sites
Public/private institutions: academic institutions, cultural centers, libraries, museums, research 
facilities and laboratories, schools
Recreation facilities: auditoriums, casinos, concert halls and pavilions, parks, restaurants and clubs 
(frequented by potential target populations), sports arenas, stadiums, theaters, malls, and special interest 
group facilities; note congestion dates and times for shopping centers
References: FEMA 386-7, FEMA SLG 101, DOJ NCJ181200



1.2
Does the terrain place the building in a depression or low area?

Depressions or low areas can trap heavy vapors, inhibit natural decontamination by prevailing winds, and 
reduce the effectiveness of in-place sheltering.
Reference: USAF Installation Force Protection Guid



1.3

In dense, urban areas, does curb lane parking allow uncontrolled vehicles to park 
unacceptably close to a building in public rights-of-way


Where distance from the building to the nearest curb provides insufficient setback, restrict parking in the curb 
lane. For typical city streets, this may require negotiating to close the curb lane. Setback is common 
terminology for the distance between a building and its associated roadway or parking. It is analogous to stand-
off between a vehicle bomb and the building. The benefit per foot of increased stand-off between a potential 
vehicle bomb and a building is very high when close to a building and decreases rapidly as the distance 
increases. Note that the July 1, 1994, Americans with Disabilities Act Standards for Accessible Design states 
that required handicapped parking shall be located on the shortest accessible route of travel from adjacent 
parking to an accessible entrance.
Reference: GSA PBS-P100

1.4

Is a perimeter fence or other types of barrier controls in place?
The intent is to channel pedestrian traffic onto a site with multiple buildings through known access control 
points. For a single building, the intent is to have a single visitor entrance.
Reference: GSA PBS-P100 
1.5

What are the site access points to the site or building?

The goal is to have at least two access points � one for passenger vehicles and one for delivery trucks due to the 
different procedures needed for each. Having two access points also helps if one of the access points becomes 
unusable, then traffic can be routed through the other access point.
Reference: USAF Installation Force Protection Guide

1.6

Is vehicle traffic separated from pedestrian traffic on the site?
Pedestrian access should not be endangered by car traffic. Pedestrian access, especially from public 
transportation, should not cross vehicle traffic if possible.
References: GSA PBS-P100 and FEMA 386-7

1.7
Is there vehicle and pedestrian access control at the perimeter of the site



Vehicle and pedestrian access control and inspection should occur as far from facilities as possible (preferably 
at the site perimeter) with the ability to regulate the flow of people and vehicles one at a time.
Control on-site parking with identification checks, security personnel, and access control systems.
Reference: FEMA 386-7
1.8
Is there space for inspection at the curb line or outside the protected perimeter?
What is the minimum distance from the inspection location to the building



Design features for the vehicular inspection point include: vehicle arrest devices that prevent vehicles from 
leaving the vehicular inspection area and prevent tailgating.
If screening space cannot be provided, consider other design features such as: hardening and alternative location 
for vehicle search/inspection.
Reference: GSA PBS-P100   

1.9
Is there any potential access to the site or building through utility paths or water runoff




Eliminate potential site access through utility tunnels, corridors, manholes, stormwater runoff culverts, etc. 
Ensure covers to these access points are secured.
Reference: USAF Installation Force Protection Guide

1.10
What are the existing types of vehicle anti-ram devices for the site or building?
Are these devices at the property boundary or at the building



Passive barriers include bollards, walls, hardened fences (steel cable interlaced), trenches, ponds/basins, 
concrete planters, street furniture, plantings, trees, sculptures, and fountains. Active barriers include pop-up 
bollards, swing arm gates, and rotating plates and drums, etc.
Reference: GSA PBS-P100

1.11
What is the anti-ram buffer zone stand-off distance from the building to unscreened vehicles or 
parking



If the recommended distance for the postulated threat is not available, consider reducing the stand-off required 
through structural hardening or manufacturing additional stand-off through barriers and parking restrictions. 
Also, consider relocation of vulnerable functions within the building, or to a more hazard-resistant building. 
More stand-off should be used for unscreened vehicles than for screened vehicles that have been searched.
Reference: GSA PBS-P100
1.12
Are perimeter barriers capable of stopping vehicles?
Will the vehicle barriers at the perimeter and building maintain access for emergency 
responders, including large fire apparatus


Anti-ram protection may be provided by adequately designed: bollards, street furniture, sculpture, landscaping, 
walls, and fences. The anti-ram protection must be able to stop the threat vehicle size (weight) at the speed 
attainable by that vehicle at impact. If the anti-ram protection cannot absorb the desired kinetic energy, 
consider adding speed controls (serpentines or speed bumps) to limit the speed at impact. If the resultant speed 
is still too great, the anti-ram protection should be improved.
References: Military Handbook 1013/14 and GSA PBS P-100



1.13
Does site circulation prevent high-speed approaches by vehicles



The intent is to use site circulation to minimize vehicle speeds and eliminate direct approaches to structures.
Reference: GSA PBS-P100



1.14
Are there offsetting vehicle entrances from the direction of a vehicle�s approach to force a 
reduction of speed



Single or double 90-degree turns effectively reduce vehicle approach speed.
Reference: GSA PBS-P100
1.1


Is there a minimum setback distance between the building and parked vehicles

Adjacent public parking should be directed to more distant or better-protected areas, segregated from employee 
parking and away from the building. Some publications use the term setback in lieu of the term stand-off.
Reference: GSA PBS-P100

1.1


Does adjacent surface parking on site maintain a minimum stand-off distance





The specific stand-off distance needed is based upon the design basis threat bomb size and the building 
construction. For initial screening, consider using 25 meters (82 feet) as a minimum, with more distance needed 
for unreinforced masonry or wooden walls.
Reference: GSA PBS-P100

1.1


Do standalone, aboveground parking garages provide adequate visibility across as well as into 
and out of the parking garage


Pedestrian paths should be planned to concentrate activity to the extent possible.
Limiting vehicular entry/exits to a minimum number of locations is beneficial.
Stair tower and elevator lobby design should be as open as code permits. Stair and/or elevator waiting areas 
should be as open to the exterior and/or the parking areas as possible and well lighted. Impact-resistant, 
laminated glass for stair towers and elevators is a way to provide visual openness.
Potential hiding places below stairs should be closed off; nooks and crannies should be avoided, and dead-end 
parking areas should be eliminated.
Reference: GSA PBS-P100

1.1


Are garage or service area entrances for employee-permitted vehicles protected by suitable 
anti-ram devices?
Coordinate this protection with other anti-ram devices, such as on the perimeter or property 
boundary to avoid duplication of arresting capability


Control internal building parking, underground parking garages, and access to service areas and loading docks 
in this manner with proper access control, or eliminate the parking altogether.
The anti-ram device must be capable of arresting a vehicle of the designated threat size at the speed attainable at 
the location.
Reference: GSA PBS-P100

1.1


Do site landscaping and street furniture provide hiding places



Minimize concealment opportunities by keeping landscape plantings (hedges, shrubbery, and large plants with 
heavy ground cover) and street furniture (bus shelters, benches, trash receptacles, mailboxes, newspaper 
vending machines) away from the building to permit observation of intruders and prevent hiding of packages.
If mail or express boxes are used, the size of the openings should be restricted to prohibit the insertion of 
packages.
Reference: GSA PBS-P100
1.2


Is the site lighting adequate from a security perspective in roadway access and parking areas


Security protection can be successfully addressed through adequate lighting. The type and design of lighting, 
including illumination levels, is critical. Illuminating Engineering Society of North America (IESNA) 
guidelines can be used. The site lighting should be coordinated with the CCTV system.
Reference: GSA PBS-P100
1.2


Are line-of-sight perspectives from outside the secured boundary to the building and on the 
property along pedestrian and vehicle routes integrated with landscaping and green space


The goal is to prevent the observation of critical assets by persons outside the secure boundary of the site. For 
individual buildings in an urban environment, this could mean appropriate window treatments or no windows 
for portions of the building.
Once on the site, the concern is to ensure observation by a general workforce aware of any pedestrians or 
vehicles outside normal circulation routes or attempting to approach the building unobserved.
Reference: USAF Installation Force Protection Guide
1.22
Do signs provide control of vehicles and people



The signage should be simple and have the necessary level of clarity. However, signs that identify sensitive 
areas should generally not be provided.
Reference: GSA PBS-P100

1.23
Are all existing fire hydrants on the site accessible


Just as vehicle access points to the site must be able to transit emergency vehicles, so too must the emergency 
vehicles have access to the buildings and, in the case of fire trucks, the fire hydrants. Thus, security 
considerations must accommodate emergency response requirements.
Reference: GSA PBS-P100












2         Architectural


2.1

Does the site and architectural design incorporate strategies from a Crime Prevention 
Through Environmental Design (CPTED) perspective




The focus of CPTED is on creating defensible space by employing:
1. Natural access controls:
�  Design streets, sidewalks, and building entrances to clearly indicate public routes and direct people away from 
private/restricted areas
�  Discourage access to private areas with structural elements and limit access (no cut-through streets)
�  Loading zones should be separate from public parking
2. Natural surveillance:
�  Design that maximizes visibility of people, parking areas, and building entrances; doors and windows that 
look out on to streets and parking areas
�  Shrubbery under 2 feet in height for visibility
�  Lower branches of existing trees kept at least 10 feet off the ground
�  Pedestrian-friendly sidewalks and streets to control pedestrian and vehicle circulation
�  Adequate nighttime lighting, especially at exterior doorways
3. Territorial reinforcement:
�  Design that defines property lines
�  Design that distinguishes private/restricted spaces from public spaces using separation, landscape plantings; 
pavement designs (pathway and roadway placement); gateway treatments at lobbies, corridors, and door 
placement; walls, barriers, signage, lighting, and "CPTED" fences
�  "Traffic-calming" devices for vehicle speed control
4. Target hardening:
�  Prohibit entry or access: window locks, deadbolts for doors, interior door hinges
�  Access control (building and employee/visitor parking) and intrusion detection systems
5. Closed circuit television cameras:
�  Prevent crime and influence positive behavior, while enhancing the intended uses of space. In other words, 
design that eliminates or reduces criminal behavior and at the same time encourages people to "keep an eye 
out" for each other.
References: GSA PBS-P100 and FEMA 386-7

2.


Is it a mixed-tenant building


Separate high-risk tenants from low-risk tenants and from publicly accessible areas. Mixed uses may be 
accommodated through such means as separating entryways, controlling access, and hardening shared 
partitions, as well as through special security operational countermeasures.
Reference: GSA PBS-P100

2.


Are pedestrian paths planned to concentrate activity to aid in detectio


Site planning and landscape design can provide natural surveillance by concentrating pedestrian activity, 
limiting entrances/exits, and eliminating concealment opportunities. Also, prevent pedestrian access to 
parking areas other than via established entrances.
Reference: GSA PBS-P100
2.


Are there trash receptacles and mailboxes in close proximity to the building that can be used 
to hide explosive devices


The size of the trash receptacles and mailbox openings should be restricted to prohibit insertion of packages. 
Street furniture, such as newspaper vending machines, should be kept sufficient distance (10 meters or 33 feet) 
from the building, or brought inside to a secure area.
References: USAF Installation Force Protection Guide and DoD UCF 4-010-01

2.


Do entrances avoid significant queuing



If queuing will occur within the building footprint, the area should be enclosed in blast-resistant construction. If 
queuing is expected outside the building, a rain cover should be provided. For manpower and equipment 
requirements, collocate or combine staff and visitor entrances.
Reference: GSA PBS-P100

2.


Does security screening cover all public and private areas?
Are public and private activities separated?
Are public toilets, service spaces, or access to stairs or elevators located in any non-secure 
areas, including the queuing area before screening at the public entrance


Retail activities should be prohibited in non-secured areas. However, the Public Building Cooperative Use Act 
of 1976 encourages retail and mixed uses to create open and inviting buildings. Consider separating entryways, 
controlling access, hardening shared partitions, and special security operational countermeasures.
References: GSA PBS-P100 and FEMA 386-7


2.


Is access control provided through main entrance points for employees and visitors?
(lobby receptionist, sign-in, staff escorts, issue of visitor badges, checking forms of personal identification, 
electronic access control systems


Reference: Physical Security Assessment for the Department of Veterans Affairs Facilities


2.


Is access to private and public space or restricted area space clearly defined through the 
design of the space, signage, use of electronic security devices, etc.



Finishes and signage should be designed for visual simplicity.
Reference: Physical Security Assessment for the Department of Veterans Affairs Facilities
2.


Is access to elevators distinguished as to those that are designated only for employees and 
visitors



Reference: Physical Security Assessment for the Department of Veterans Affairs Facilities

2.1


Do public and employee entrances include space for possible future installation of access 
control and screening equipment


These include walk-through metal detectors and x-ray devices, identification check, electronic access card, 
search stations, and turnstiles.
Reference: GSA PBS-P100

2.1


Do foyers have reinforced concrete walls and offset interior and exterior doors from each 
other


Consider for exterior entrances to the building or to access critical areas within the building if explosive blast 
hazard must be mitigated.
Reference: U.S. Army TM 5-853 
2.1


Do doors and walls along the line of security screening meet requirements of UL752 "Standard 
for Safety: Bullet-Resisting Equipment"



If the postulated threat in designing entrance access control includes rifles, pistols, or shotguns, then the 
screening area should have bullet-resistance to protect security personnel and uninvolved bystanders. Glass, if 
present, should also be bullet-resistant.
Reference: GSA PBS-P100

2.1


Do circulation routes have unobstructed views of people approaching controlled access points



This applies to building entrances and to critical areas within the building.
References: USAF Installation Force Protection Guide and DoD UFC 4-010-01
2.1


Is roof access limited to authorized personnel by means of locking mechanisms



References: GSA PBS-P100 and CDC/NIOSH, Pub 2002-139
2.1


Are critical assets (people, activities, building systems and components) located close to any 
main entrance, vehicle circulation, parking, maintenance area, loading dock, or interior 
parking?
Are the critical building systems and components hardened


Critical building components include: Emergency generator including fuel systems, day tank, fire sprinkler, and 
water supply; Normal fuel storage; Main switchgear; Telephone distribution and main switchgear; Fire pumps; 
Building control centers; Uninterruptible Power Supply (UPS) systems controlling critical functions; Main 
refrigeration and ventilation systems if critical to building operation; Elevator machinery and controls; Shafts 
for stairs, elevators, and utilities; Critical distribution feeders for emergency power. Evacuation and rescue 
require emergency systems to remain operational during a disaster and they should be located away from 
potential attack locations. Primary and backup systems should be separated to reduce the risk of both being 
impacted by a single incident if collocated. Utility systems should be located at least 50 feet from loading 
docks, front entrances, and parking areas.
One way to harden critical building systems and components is to enclose them within hardened walls, floors, 
and ceilings. Do not place them near high-risk areas where they can receive collateral damage.
Reference: GSA PBS-P100

2.1


Are high-value or critical assets located as far into the interior of the building as possible and 
separated from the public areas of the building



Critical assets, such as people and activities, are more vulnerable to hazards when on an exterior building wall 
or adjacent to uncontrolled public areas inside the building.
Reference: GSA PBS-P100
2.1


Is high visitor activity away from critical assets



High-risk activities should also be separated from low-risk activities. Also, visitor activities should be 
separated from daily activities.
Reference: USAF Installation Force Protection Guide
2.1


Are critical assets located in spaces that are occupied 24 hours per day?
Are assets located in areas where they are visible to more than one person


Reference: USAF Installation Force Protection Guide


2.1


Are loading docks and receiving and shipping areas separated in any direction from utility 
rooms, utility mains, and service entrances, including electrical, telephone/data, fire 
detection/alarm systems, fire suppression water mains, cooling and heating mains, etc.



Loading docks should be designed to keep vehicles from driving into or parking under the building. If loading 
docks are in close proximity to critical equipment, consider hardening the equipment and service against 
explosive blast. Consider a 50-foot separation distance in all directions.
Reference: GSA PBS-P100
2.20
Are mailrooms located away from building main entrances, areas containing critical services, 
utilities, distribution systems, and important assets?
Is the mailroom located near the loading dock?

The mailroom should be located at the perimeter of the building with an outside wall or window designed for 
pressure relief.
By separating the mailroom and the loading dock, the collateral damage of an incident at one has less impact 
upon the other. However, this may be the preferred mailroom location.
Off-site screening stations or a separate delivery processing building on site may be cost-effective, particularly 
if several buildings may share one mailroom. A separate delivery processing building reduces risk and 
simplifies protection measures.
Reference: GSA PBS-P100


2.21
Does the mailroom have adequate space available for equipment to examine incoming 
packages and for an explosive disposal container





Screening of all deliveries to the building, including U.S. mail, commercial package delivery services, delivery 
of office supplies, etc.
Reference: GSA PBS-P100
2.2


Are areas of refuge identified, with special consideration given to egress


Areas of refuge can be safe havens, shelters, or protected spaces for use during specified hazards.
Reference: FEMA 386-7


2.23
Are stairwells required for emergency egress located as remotely as possible from high-risk 
areas where blast events might occur?
Are stairways maintained with positive pressure or are there other smoke control systems



Consider designing stairs so that they discharge into areas other than lobbies, parking, or loading docks.
Maintaining positive pressure from a clean source of air (may require special filtering) aids in egress by keeping 
smoke, heat, toxic fumes, etc,. out of the stairway. Pressurize exit stairways in accordance with the National 
Model Building Code.
References: GSA PBS-P100 and CDC/NIOSH, Pub 2002-139


2.2


Are enclosures for emergency egress hardened to limit the extent of debris that might 
otherwise impede safe passage and reduce the flow of evacuees?


Egress pathways should be hardened and discharge into safe areas.
Reference: FEMA 386-7
2.2


Do interior barriers differentiate level of security within a building


Reference: USAF Installation Force Protection Guide

2.2


Are emergency systems located away from high-risk areas



The intent is to keep the emergency systems out of harm�s way, such that one incident does not take out all 
capability � both the regular systems and their backups.
Reference: FEMA 386-7

2.2

Is interior glazing near high-risk areas minimized?
Is interior glazing in other areas shatter-resistant



Interior glazing should be minimized where a threat exists and should be avoided in enclosures of critical 
functions next to high-risk areas.
Reference: GSA PBS-P100

2.2


Are ceiling and lighting systems designed to remain in place during hazard events?

When an explosive blast shatters a window, the blast wave enters the interior space, putting structural and non-
structural building components under loads not considered in standard building codes. It has been shown that 
connection criteria for these systems in high seismic activity areas resulted in much less falling debris that 
could injure building occupants.
Mount all overhead utilities and other fixtures weighing 14 kilograms (31 pounds) or more to minimize the 
likelihood that they will fall and injure building occupants. Design all equipment mountings to resist forces of 
0.5 times the equipment weight in any direction and 1.5 times the equipment weight in the downward direction. 
This standard does not preclude the need to design equipment mountings for forces required by other criteria, 
such as seismic standards.
Reference: DoD UCF 4-101-0




3         Structural Systems


3.


What type of construction?
What type of concrete and reinforcing steel?
What type of steel?
What type of foundation?


The type of construction provides an indication of the robustness to abnormal loading and load reversals. A 
reinforced concrete moment-resisting frame provides greater ductility and redundancy than a flat-slab or flat-
plate construction. The ductility of steel frame with metal deck depends on the connection details and pre-
tensioned or post-tensioned construction provides little capacity for abnormal loading patterns and load 
reversals. The resistance of load-bearing wall structures varies to a great extent, depending on whether the walls 
are reinforced or un-reinforced. A rapid screening process developed by FEMA for assessing structural hazards 
identifies the following types of construction with a structural score ranging from 1.0 to 8.5. A higher score 
indicates a greater capacity to sustain load reversals.
Wood buildings of all types - 4.5 to 8.5
Steel moment-resisting frames - 3.5 to 4.5
Braced steel frames - 2.5 to 3.0
Light metal buildings - 5.5 to 6.5
Steel frames with cast-in-place concrete shear walls - 3.5 to 4.5
Steel frames with unreinforced masonry infill walls - 1.5 to 3.0
Concrete moment-resisting frames - 2.0 to 4.0
Concrete shear wall buildings - 3.0 to 4.0
Concrete frames with unreinforced masonry infill walls - 1.5 to 3.0
Tilt-up buildings - 2.0 to 3.5
Precast concrete frame buildings - 1.5 to 2.5
Reinforced masonry - 3.0 to 4.0
Unreinforced masonry - 1.0 to 2.5
References: FEMA 154 and Physical Security Assessment for the Department of Veterans Affairs Facilities
3.2
Do the reinforced concrete structures contain symmetric steel reinforcement (positive and 
negative faces) in all floor slabs, roof slabs, walls, beams, and girders that may be subjected to 
rebound, uplift, and suction pressures?
Do the lap splices fully develop the capacity of the reinforcement?
Are lap splices and other discontinuities staggered?
Do the connections possess ductile details?
Is special shear reinforcement, including ties and stirrups, available to allow large post-elastic 
behavior?

Reference: GSA PBS-P100

3.3
Are the steel frame connections moment connections?
Is the column spacing minimized so that reasonably sized members will resist the design loads 
and increase the redundancy of the system?
What are the floor-to-floor heights?

A practical upper level for column spacing is generally 30 feet. Unless there is an overriding architectural 
requirement, a practical limit for floor-to-floor heights is generally less than or equal to 16 feet.
Reference: GSA PBS-P100
3.4
Are critical elements vulnerable to failure?
The priority for upgrades should be based on the relative importance of structural or non-structural elements that 
are essential to mitigating the extent of collapse and minimizing injury and damage.
Primary Structural Elements provide the essential parts of the building�s resistance to catastrophic blast loads 
and progressive collapse. These include columns, girders, roof beams, and the main lateral resistance system.
Secondary Structural Elements consist of all other load-bearing members, such as floor beams, slabs, etc.
Primary Non-Structural Elements consist of elements (including their attachments) that are essential for life 
safety systems or elements that can cause substantial injury if failure occurs, including ceilings or heavy 
suspended mechanical units.
Secondary Non-Structural Elements consist of all elements not covered in primary non-structural elements, such 
as partitions, furniture, and light fixtures.
Reference: GSA PBS-P100

3.5
Will the structure suffer an unacceptable level of damage resulting from the postulated threat 
(blast loading or weapon impact)?  

The extent of damage to the structure and exterior wall systems from the bomb threat may be related to a 
protection level. The following is for new buildings: 
Level of Protection Below Antiterrorism Standards � Severe damage. Frame collapse/massive 
destruction. Little left standing. Doors and windows fail and result in lethal hazards. Majority of personnel 
suffer fatalities.
Very Low Level Protection � Heavy damage. Onset of structural collapse. Major deformation of primary 
and secondary structural members, but progressive collapse is unlikely. Collapse of non-structural elements. 
Glazing will break and is likely to be propelled into the building, resulting in serious glazing fragment injuries, 
but fragments will be reduced. Doors may be propelled into rooms, presenting serious hazards. Majority of 
personnel suffer serious injuries. There are likely to be a limited number (10 percent to 25 percent) of fatalities.
Low Level of Protection � Moderate damage, unrepairable. Major deformation of non-structural elements 
and secondary structural members and minor deformation of primary structural members, but progressive 
collapse is unlikely. Glazing will break, but fall within 1 meter of the wall or otherwise not present a 
significant fragment hazard. Doors may fail, but they will rebound out of their frames, presenting minimal 
hazards. Majority of personnel suffer significant injuries. There may be a few (<10 percent) fatalities.
Medium Level Protection � Minor damage, repairable. Minor deformations of non-structural elements and 
secondary structural members and no permanent deformation in primary structural members. Glazing will break, 
but will remain in the window frame. Doors will stay in frames, but will not be reusable. Some minor injuries, 
but fatalities are unlikely.
High Level Protection � Minimal damage, repairable. No permanent deformation of primary and 
secondary structural members or non-structural elements. Glazing will not break. Doors will be reusable. Only 
superficial injuries are likely.
Reference: DoD UFC 4-010-01

3.6
Is the structure vulnerable to progressive collapse?
Is the building capable of sustaining the removal of a column for one floor above grade at the 
building perimeter without progressive collapse?
In the event of an internal explosion in an uncontrolled public ground floor area, does the 
design prevent progressive collapse due to the loss of one primary column?
Do architectural or structural features provide a minimum 6-inch stand-off to the internal 
columns (primary vertical load carrying members)?
Are the columns in the unscreened internal spaces designed for an unbraced length equal to 
two floors, or three floors where there are two levels of parking?
Design to mitigate progressive collapse is an independent analysis to determine a system�s ability to resist 
structural collapse upon the loss of a major structural element or the system�s ability to resist the loss of a major 
structural element. Design to mitigate progressive collapse may be based on the methods outlined in ASCE 7-98 
(now 7-02). Designers may apply static and/or dynamic methods of analysis to meet this requirement and ultimate 
load capacities may be assumed in the analyses. Combine structural upgrades for retrofits to existing buildings, 
such as seismic and progressive collapse, into a single project due to the economic synergies and other cross 
benefits. Existing facilities may be retrofitted to withstand the design level threat or to accept the loss of a 
column for one floor above grade at the building perimeter without progressive collapse. Note that collapse of 
floors or roof must not be permitted.
Reference: GSA PBS-P100


3.7
Are there adequate redundant load paths in the structure?

Special consideration should be given to materials that have inherent ductility and that are better able to 
respond to load reversals, such as cast in place reinforced concrete, reinforced masonry, and steel construction.
Careful detailing is required for material such as pre-stressed concrete, pre-cast concrete, and masonry to 
adequately respond to the design loads. Primary vertical load carrying members should be protected where 
parking is inside a facility and the building superstructure is supported by the parking structure.
Reference: GSA PBS-P100

3.8
Are there transfer girders supported by columns within unscreened public spaces or at the 
exterior of the building?

Transfer girders allow discontinuities in columns between the roof and foundation. This design has inherent 
difficulty in transferring load to redundant paths upon loss of a column or the girder. Transfer beams and girders 
that, if lost, may cause progressive collapse are highly discouraged.
Reference: GSA PBS-P100

3.9
What is the grouting and reinforcement of masonry (brick and/or concrete masonry unit 
(CMU)) exterior walls?

Avoid unreinforced masonry exterior walls. Reinforcement can run the range of light to heavy, depending upon 
the stand-off distance available and postulated design threat.
Reference: GSA PBS-P100 recommends fully grouted and reinforced CMU construction where CMU is selected.
Reference: DoD Minimum Antiterrorism Standards for Buildings states "Unreinforced masonry walls are 
prohibited for the exterior walls of new buildings. A minimum of 0.05 percent vertical reinforcement with a 
maximum spacing of 1200 mm (48 in) will be provided. For existing buildings, implement mitigating measures 
to provide an equivalent level of protection." [This is light reinforcement and based upon the recommended 
stand-off distance for the situation.] 

3.10
Will the loading dock design limit damage to adjacent areas and vent explosive force to the 
exterior of the building?
Design the floor of the loading dock for blast resistance if the area below is occupied or contains critical utilities.
Reference: GSA PBS-P100

3.11
Are mailrooms, where packages are received and opened for inspection, and unscreened 
retail spaces designed to mitigate the effects of a blast on primary vertical or lateral bracing 
members


Where mailrooms and unscreened retail spaces are located in occupied areas or adjacent to critical utilities, 
walls, ceilings, and floors, they should be blast- and fragment- resistant.
Methods to facilitate the venting of explosive forces and gases from the interior spaces to the outside of the 
structure may include blow-out panels and window system designs that provide protection from blast pressure 
applied to the outside, but that readily fail and vent if exposed to blast pressure on the inside.
Reference: GSA PBS-P10




4         Building Envelope


4.1

What is the designed or estimated protection level of the exterior walls against the postulated 
explosive threat?


The performance of the fa�ade varies to a great extent on the materials. Different construction includes brick or 
stone with block backup, steel stud walls, precast panels, or curtain wall with glass, stone, or metal panel 
elements.
Shear walls that are essential to the lateral and vertical load bearing system and that also function as exterior 
walls should be considered primary structures and should resist the actual blast loads predicted from the threats 
specified. Where exterior walls are not designed for the full design loads, special consideration should be given 
to construction types that reduce the potential for injury.
Reference: GSA PBS-P100


4.2
Is there less than a 40 percent fenestration opening per structural bay?
Is the window system design on the exterior fa�ade balanced to m