ASIS CPP - Physical Security (Part 2)

Question 1

Video surveillance systems

When selecting a video surveillance

Answer 1

Uses a systems approach rather than a components approach

Question 2

Video surveillance systems

The following parameters determine the effectiveness of a video assessment subsystem

Answer 2

• Minimum time between sensor alarm & video display
• Complete video coverage of the sensor detection zone (called the assessment zone when sensors & video are integrated)
• Ability to classify a 1 ft. target at the far edge of the assessment zone
• Vertical field of view at the far edge of exterior detection zone = height of a standard fence & person climbing it

Question 3

Parameters Ctd…

Answer 3

• Continuous operation, 24/7
• Minimal sensitivity to environmental conditions, for all cameras
• Minimal obscuration of the assessment zone (such as trees, fences, furniture, etc)
• Camera FOV & recording system integration displays the alarm source to an operator

Question 4

Video Surveillance

3 reasons for cameras in security applications

Answer 4

• Obtain visual information about something that is happening (most important)
• Obtain visual information about something that has happened (most important)
• Deter undesirable activities

Question 5

Video Surveillance

Primary uses of video surveillance systems

Answer 5

Detection of Activities

Recording of Incidents

Assessment of Alarms/Incidents

Question 6

Video Surveillance

Main elements of video surveillance systems

Answer 6

Field of View (FOV)

Scene

Lens

Camera (including mounting hardware)

Transmission Medium

Monitor

Recording Equipment (analog/digital)

Control Equipment

Question 7

Video Surveillance

Three main components of an analog video surveillance system

Answer 7

Camera

Transmission Cable

Monitor

Question 8

Video Surveillance

3 main components of a digital video surveillance system

Answer 8

Camera

Digital electronic signal center

PC with software

Question 9

Video Surveillance

In designing a video surveillance application security managers should keep in mind

Answer 9

• Video surveillance is a visual tool of security & should be applied accordingly
• Video surveillance systems should always be designed with future growth or changes to the needs of the application in mind

Question 10

Designing Video Surveillance Ctd…

No matter what, the equipment of the system will become obsolete

Answer 10

• Obsolete does not necessarily mean ineffective or out of date for the application
• If a system is obsolete but performing well, its because the original application was correctly designed to meet performance needs

Question 11

Key points for designing VS systems

Answer 11

• Once simplified the most complex electronic system can be managed by almost anyone
• The application drives the choice of equipment not the other way around

Question 12

Video Surveillance

Simple Rules For Design

Answer 12

Keep system in perspective

Design generically

Design for best options first (budget after)

Don’t feel driven to build the system all at once

Question 13

Video Surveillance

Steps for design

Answer 13

• Define the system’s purpose
• Define each camera’s purpose
• Define the area to be viewed by each camera
• Choose a camera style
• Choose the proper lens
• Determine best transmission method
• Layout control area

Question 14

Video Surveillance

Resolution is determined by the following in order

Answer 14

1. Camera
2. The transmission method
3. The weakest link in the video system interface
4. The reproduction capability of the storage system

Question 15

Limiting Factors

Answer 15

• Analog video recorders average a playback of 225 horizontal lines (very low)

- DVR’s digitize analog signals, dropping 25% of the resolution

- Sloppy installation or cheap coaxial cable costs 10 - 15% resolution

• Digital compression also reduces the resolution

Question 16

Video Surveillance

All IP cameras measure resolution as a multiple of the Common Intermediate Format (CiF) about half the average 325 horizontal lines; not recommended as a usable standard for storage

Answer 16

• 1/4 CIF = 176 x 120 (3,520 pixels or .003 MPX)
• CIF = 352 x 240 (84,480 pixels or .08 MPX)
• 4 CIF = 704 x 480 (337,920 pixels or 0.3 MPX)
• 16 CIF = 1408 x 960 (1,351,680 pixels or 1.3 MPX)
• 32 CIF = 2816 x 1920 (5,405,720 pixels or 5.4 MPX)
• A 4 mp camera = resolution of 400 ASA film
• A 6mp camera = resolution of 100 ASA film
• most effective & current standard for digital video compression is the H.264 compression algorithm

Question 17

3 Considerations when determining video surveillance field & view (FOV)

Answer 17

Target (person, vehicles, etc…)

Activity (assault, slight of hand)

Purpose (identification vs. general monitoring)

Question 18

Video surveillance systems are designed to be only two things

Answer 18

Visual assessment (what’s happening now)

Visual documentation (What happened previously)

Question 19

3 Theoretical identification views of an analog VSS

Answer 19

1. Subject identification

2. Action identification

3. Scene identification

Question 20

VS - Fields of view (FOV)

Theoretical identification views of a digital VSS

Answer 20

General: Can’t distinguish clothing & color - pixelated zoom (5 pix/ft)

Monitor: General vehicle/human traffic flows - no serious detail on zoom (7 pix/ft)

Detect: Detect but not identify person-sized object - no significant detail on zoom (4 pix/ft)

Observe: Clothing/colors gain distinction - no good detail on zoom (18 pix/ft)

Recognize: High degree of accuracy identifying & separating known individuals - good detail on zoom (35 pix/ft)

Question 21

ID views of a digital VSS

Answer 21

Subject ID: Establish identity beyond a shadow of a doubt - the excellent detail on zoom (48 pix)

License Plat ID: ID of license plates - excellent detail on zoom (70 pix)

Facial Recog: Extreme details - excellent detail on zoom (88 pix)

Question 22

VS - FOV

Identification of an object in video means…

Answer 22

The ability to differentiate between people’s identity

Question 23

VS - FOV

Classification of an object in video means…

Answer 23

The ability to differentiate between humans animals etc…

Question 24

VS - FOV

Cameras should not be required to view more than one major and one more minor objective

Question 25

VS - FOV

Cameras should not auto-pan more than how many degrees left or right of the major focus

Answer 25

45 Degrees

Question 26

VS - Cameras

Major Types of Cameras

Answer 26

Analog

Digital / IP

Infrared

Thermal

Question 27

VS - Cameras

4 Main Types of Cameras

Answer 27

1. Standard analog CCD cameras
2. IP address
3. Infrared cameras
4. Thermal cameras

Question 28

VS - Cameras

3 basic styles of IP Cameras

Answer 28

1. Standard
2. Megapixel
3. Smart (edge analytics etc.)

Question 29

VS - Cameras

Infrared cameras require…?

Answer 29

IR Source

Question 30

VS - Cameras

Which cameras do not require an IR source?

Answer 30

Thermal Cameras

Question 31

VS - Cameras

Camera selection criteria, in order of importance

Answer 31

1. Sensitivity (light)
2. Resolution (image quality)
3. Features (WDR, IR, analytics, etc)

Question 32

VS - Cameras

Placement of cameras is dictated by

Answer 32

Angle of View

Pixels Per Foot

Question 33

VS - Cameras

3 Basic sensitivities of cameras

Answer 33

Full - Light

Lower - Light

Low - Light

Question 34

VS - Cam Lenses

The camera is selected before the lens

Answer 34

The lens is selected based on its ability to provide the desired identification information

Question 35

VS - Cameras

The lens is one of the few elements of a video system not converting to digital

Answer 35

Various functions of the lens can be automated (auto-iris, zoom/varifocal, focus)

Question 36

VS - Cameras

5 Main types of lenses

Answer 36

1. Wide angle (best for 0 to 15’ ranges)
2. Standard (best for 15 to 50’ range) equivalent to the view from the human eye)
3. Telephoto (best for > 50’ range)
4. Varifocal
5. Zoom

Question 37

VS - Camera lens

2 Differences between zoom & varifocal lenses

Answer 37

• The range of focal length is small in the varifocal
• Varifocal lenses do not have a tracking mechanism to align focal length with focus

Question 38

VS - Video storage / recording

When storing & using security video, it is important to decide whether the system’s purpose is to…

Answer 38

Verify information

Prove information

Aid a prosecution with the information

Question 39

VS - Surveillance / Recording

Types of Recorders

Answer 39

DVR: Analog inputs only, converted to digital in the box, stored on hard drive or external media

NVR: Analog or digital inputs, analog converted to digital, stored on hard drive or external media

Server / Cloud: Digital inputs stored on network storage devices

Question 40

Locking Systems - Locks

• Most widely used methods of controlling physical access
• Among the oldest of security devices
• Should not be relied upon as the only means of physical protection for important assets
• Should always be used with complimentary protection measures

Question 41

Locks

2 Classes of Locks

Answer 41

Mechanical

Electro-Mechanical

Question 42

Locks

2 Major components of most mechanical locks

Answer 42

• A coded mechanism (key, cylinder, wheel pack, etc…)
• The fastening device (bolt, latch, etc…)

Question 43

Locks

4 Component / Assembles of Locks

Answer 43

1. Bolt or latch
2. Keeper or strike
3. Tumbler array
4. Key

Question 44

Locks

Vulnerabilities of mechanical locks

Answer 44

Attack by force (spreading, forcing, twisting, etc…)

Surreptitious attack (picking, raking, bumping, etc…)

Impressioning & try keys

Question 45

Locks

- Warded (1st type, very weak security, skeleton keys, old houses, antiques)

- Lever (18th century, more security than warded locks, master keyable, safe deposit boxes)

- Pin tumbler (19th century, Linus Yale, most widely used, can be high security, residential/office locks, master-keyable

- Wafer tumbler (sometimes double-bitted boys, mostly furniture locks, lower security than pin tumblers, master-keyable

• Dial Combination (safes, mechanical or electronic

Question 46

Locking Systems

Without ? security will usually degrade to more privacy

Answer 46

Lock Planning

Question 47

Locking System Considerations

Answer 47

• Total number of locks
• Major categories of sectors of the system
• Security objectives
• Size & turnover of populations
• Related or supportive security subsystems
• Intelligence or information requirements
• Criticality of asset exposure

Question 48

Locks

Proper lock planning requires…?

Answer 48

Combination of the “totality” of the area (strengths of doors & walls, drop ceilings, etc..)

Question 49

Locks

Locking policy should do the following

Answer 49

• Require a systematic approach be taken to the use of locks for security purposes
• Assign specific responsibility for the development of the lock program
• Make all persons responsible for compliance with the program requirement

Question 50

Locks

Lock Change Methods

Answer 50

• Re-arrange or rotate the locks among doors
• Re-key the locks (most effective

Question 51

Locks

Master Keying

3 Major security difficulties

Answer 51

1. Effective master key accountability
2. Manipulations are easier
3. Additional maintenance

Question 52

Lighting

3 Primary functions of security lighting

Answer 52

1. Deter criminal activity
2. Life safety functions
3. Support of video surveillance

Question 53

Lighting

Typical Lighting Costs

Answer 53

Capitol (upfront costs) approx. 8%

Energy (approx. 88%

Maintenance (4%)

Question 54

Lighting

Major components of a lighting system

Answer 54

Lamp (bulb)

Luminaire Hardware

Electrical Power

Question 55

Lighting Terms

Quantity of light emitted by a lamp

Answer 55

Lumen

A typical 100-watt incandescent bulb outputs about 17000 lumens

Question 56

Lighting Terms

The concentration of light over a particular area

Answer 56

Illuminance

• Floodlight generating 1k lumens illuminates 50’ away
• Spotlight generating 1k lumens illuminates a small area 50 ft away
• Both lights output the same lumens
• Each light generates a different level of illuminance from the same distance

Question 57

Lighting Terms

The US measures of illuminance (lumens per sq. ft)

Answer 57

Foot Candles

Question 58

Lighting Terms

Metric measure of illuminance (lumens per sq. meter) 1 FC = 10.76 lux (approximately 10:1 ratio)

Question 59

Lighting Terms

Illuminance level of the scene

Answer 59

Scene Illuminance

Question 60

Lighting Terms

Illuminance of the camera lens

Answer 60

Faceplate Illuminance

Question 61

Lighting Terms

Lumens/watts (output divided by consumption)

Answer 61

Efficacy

Question 62

Lighting Terms

Initial, cold start time of the light fixture

Answer 62

Strike Time

Question 63

Lighting Terms

Re-Start time at a warm

Answer 63

Re-Strike Time

Question 64

Lighting Terms

The percentage of light reflected from a scene which depends on the incident light angle, and the texture & composition of the reflecting surface

Answer 64

Reflectance

Question 65

Lights - Color

Color rendition index (CRI)

Answer 65

• The scale of 0 to 100
• 70 to 80 CRI is good; above 80 is excellent 100 is daylight

Question 66

Light Coverage

The measurement of variation in lighting levels

Answer 66

Uniformity

• Working environments are 1: 0.7
• A pedestrian walkway is 4:1
• A roadway is 10:1
• Higher uniformity levels provide better depth perception & greater perception of security

Question 67

Light Uniformity & Coverage

What ration is preferred for a parking structure?

Answer 67

4:1 Uniformity Ratio

Question 68

Landscaping environments can be expensive to light due to the numerous area of potential concealment

Answer 68

Lighting should be focused from the ground up into trees & shrubs to deter concealment

Question 69

Lighting ratios in parking lots should not exceed…?

Answer 69

4:1

Question 70

Lighting

A bright white, horizontal strip along the interior walls of parking structures provides higher contrasts & facilitates object identification

Question 71

Lighting

Along with building facades where individual exterior objects cannot be adequately lit, providing a high contrast will give good identification of shape & movement - flood lights work well for this purpose

Question 72

Lighting

What should the height of light poles in parking areas be to reduce shadows & dark spots?

Answer 72

12 - 14 Feet

Question 73

Lighting

What kind of lighting is preferred outdoors because?

• Broader, more natural light distribution
• Requires fewer poles
• Is more aesthetically pleasing

Answer 73

High Mast Lighting

Question 74

Lighting implications to video surveillance

The successful deployment of even the simplest VSS requires an understanding of…

Answer 74

• Relative levels of the scene illumination produced by natural sources
• The amount of light reflected from typical scenes
• The resultant faceplate illumination levels required by the variety of image tube & solid-state imagers

Question 75

Light

Lighting considerations for video surveillance

Answer 75

• CRI
• Reflectance of materials
• Directionality of reflected light

Question 76

The two most important parameters of a lighting system for video surveillance are its…?

Answer 76

• Minimum intensity
• Evenness of illumination

Question 77

Light

Cameras are light-averaging devices - All lighting in the camera’s FOV must be…

Answer 77

Even, not just the target areas

Question 78

Lighting

The sensitivity of a CCTV camera can be defined as the minimum amount of illumination required to produce a specified output signal

The following factors are involved in producing a video signal

Answer 78

• Illuminance level of the scene
• Spectral distribution of the illumination source
• Object reflectance
• Total scene reflectance
• Camera lens aperture
• Camera lens transmittance
• Spectral response of the camera imager
• Video amplifier gain, bandwidth, & signal-to-noise ration
• Electronic processing circuity

Question 79

Lighting

Minimal output video signal is usually?

Answer 79

1 Volt peak-to-peak (VPP)

Question 80

Lighting

Camera sensitivity may sometimes be overstated based on these two, commonly used factors

Answer 80

• Higher scene reflectance than normally encountered
• Greater transmittance than is commonly available in standard auto-iris lenses with neutral density spot filters

Question 81

Lighting

A minimum of 1.5 fc is required for a camera system using on f / 1.8 or faster lens & a solid-state imager

Answer 81

• This assumes reflectivity of 25%
• This also assumes a light; dark ratio of no more than 4:1
• 4:1 ratio is allowed to creep to 6:1 as materials age

Question 82

Protective Lighting

Protective Lighting Types

Answer 82

1. Standby
2. Continuous
3. Moveable
4. Emergency
5. Glare projection
6. Controlled

Question 83

Lighting

General security lighting equipment

Answer 83

Streetlight

Searchlight

Floodlight

High Mast Lighting

Question 84

Lighting

The number of luminaires required to cover an area is a function of…

Answer 84

• The area to be covered
• Light levels required
• The height of the luminaires & their design
• Type of lighting used

Question 85

Lighting

Rule of thumb for outside lighting

Answer 85

You should be able to read a driver’s license or newspaper with some eyestrain

Question 86

Lighting

The general rule for lighting levels with regard to Identification of subjects

Answer 86

• Detection (someone is there) - 0.5 fc
• Recognition (recognizing the person) - 1.0 fc
• Identification (evidentory) - 2.0 fc

Question 87

Perimeter fence = 0.50 FC

Outer perimeter = 0.50 - 2.00 FC

Open area = 2.00 FC

Open parking lot = 0.20 - 0.90 fc

Covered parking lot = 5.00 fc

Pedestrian walkway = 0.20 fc

Pedestrian entrance = 5.00 fc

Vehicle entrance = 10.00 fc

Answer 87

Building facade = 0.50 - 2.00 fc

Gatehouse = 30.00 fc

Loading dock exterior = 0.20 - 5.00 fc

Loading bay = 15.00 fc

Office general = 30.00 - 50.00 fc

Office task = 50.00 - 30.00 fc

Interior public area = 10.00 - 20.00 fc

Retail store = 50.00 fc

Bank - lobby = 20.00 fc

Bank - teller = 50.00 fc

Bank - ATM = 15.00 fc

Question 88

Lighting

Typical Reflectance Levels

Answer 88

• Asphalt = 5%
• Concrete (old) = 40%
• Concrete (new) = 25%
• Red bricks = 25%
• Grass = 40%
• Snow = 95%

Question 89

Lighting

Lighting levels may cause a light trespass onto adjoining properties, including sidewalks & roadways

Question 90

Lighting

Light trespass must not cause glare or excessive contrast to drivers & pedestrians, both on and off the organization’s property

Question 91

Lighting

A dirty environment may result in a reduction of up to 20% per year in light output due to dirty lighting

Question 92

Lighting

Lighting output in an office or other clean environment declines by 3 - 4% each year due to dirt accumulation on lighting fixtures & bulbs

Question 93

Barrier Purposes

Answer 93

• Physically & psychologically deters the undetermined
• Delays the determined
• Channels authorized traffic
• Discourages unauthorized traffic that takes place by Accident Force Stealth
• Explicitly defines territorial boundaries
• May be used to preventing views of the facility
• May be used to preventing placement of listening devices

Question 94

Barrier Notes

Answer 94

• Should be supported by interior clear zone whose width depends on the threat
• Should be supplemented by sensors and/or other security measures
• Should not provide concealment opportunities
• Should not obstruct lighting, video surveillance, or intrusion detection
• Should not facilitate observation of the facility

Question 95

A dirty environment may result in a reduction of up to 20% per year in light output due to dirty lighting

Question 96

Recommended Light Cleaning Cycle

Answer 96

Every 3 Years

Question 97

Barrier Types

Answer 97

Natural

Structural

Question 98

If a barrier’s effectiveness is uncertain it should be considered a potential obstacle

Question 99

Selection & placement of barriers depend on the adversary’s objective

Question 100

Balanced Design

What provides equal delay - No weak links?

Answer 100

Layered Barriers

Question 101

Balanced Design

Barrier penetration begins how many feet in front of the barrier & ends how many feet beyond it

Answer 101

2 FT & 2 FT

Question 102

Barriers

Fences & Walls

Answer 102

• Are the most common perimeter barriers
• Define areas & give notice of a protected property line
• Demonstrate commitment to security & may stop a casual trespasser
• Channel traffic & reduce the required number of security personnel
• Provide intrusion detection and/or video surveillance zone
• Force intruders to demonstrate intent
• Must be maintained

Question 103

Barriers - Walls

Walls are generally more resistant to penetration than the doors, windows, vents, & other openings

Answer 103

• Most can be breached with the right tools
• Using explosives & cutting tools and adversary can make a “crawl hole” through 18” reinforced concrete in under 5 min.
• Increasing wall thickness usually adds only a moderate delay against explosives, even though the amount of explosive needed increases substantially with a wall thickness
• Ordinary reinforced concrete walls can be penetrated quickly because they are generally designed to support structural loads, not to thwart or delay penetration

Question 104

Walls ctd…

Answer 104

• Placing two or more reinforced concrete walls in series results in longer penetration delays than using one wall that is thick as the two walls combined
• Removing the rebar often takes longer than removing the concrete; delay can be increased by using additional rebar; increasing rebar size, or decreasing rebar spacing

Question 105

Walls ctd…

Answer 105

• Use earth cover or other overburden to delay access to the wall itself
• Hardening a normally constructed building against forcing penetration for a significant period is rarely practical or cost-effective

Question 106

Fences

Wire toppers on fences do not prevent intrusion but rolls of barbed tape on or near them can increase delay…

Question 107

Fences

One of the most cost-effective additions to a fence?

Answer 107

Attach a roll of barbed tape to the outriggers

Question 108

Fences

Where are barbed-tape rolls normally placed

Answer 108

Inside an outer-perimeter fence & outside on inner (double) fence

Question 109

Fences

Which direction should outriggers point in order to eliminate the hand grip used by intruders when climbing over the fence

Answer 109

Towards the inside

Question 110

Fences

Inner-fence-lines (double fence areas such as prisons) are spaced how far from the outer fence-line?

Answer 110

10 - 20 Ft

Question 111

Electrified Fencing

What is the design of most industrial electrified fences?

Answer 111

8 ft. tall with 20 wires fitted to the inside of the chain link perimeter fence

Question 112

Fences

Electrified fences pulses electrical energy 45 times per minute

Question 113

Fences

2 Types of Electrified Fences

Answer 113

1. All live wire “deterrent” fence (less common)
2. “Monitored” fence (more common)

Question 114

Fences

4 Basic Types of Expanded Metal

Answer 114

Standard / Regular

Grating

Flattened

Architectural or Decorative

Question 115

Barriers - Gates

Answer 115

• Establish points of entry & exit to an area defined by fences & walls
• Limit or prohibit the flow of pedestrian or vehicular traffic
• Establish a controlled traffic pattern
• Should provide equal levels of delay as perimeter

Question 116

Barriers - Doors

While walls may be hardened, doors tend to be a weak link in a structure because of their functional requirements & associated hardware

Question 117

Barriers - Doors

If the door assembly cannot be sufficiently enhanced it may not be cost-effective to upgrade the building structure

Question 118

Barriers - Doors

Most common exterior doors are 1.75” thick with 16 or 18 gauge steel surface sheets, usually, hollow or filled with composite material

Question 119

Barriers - Doors

How long does it take to defeat exposed hinges & remove the door from the frame

Answer 119

1 Minute

Question 120

How can a door vulnerability be mitigated?

Answer 120

By welding the hinge pin heads to the hinge knuckles, using the hidden “stud-in-hole” method, or affixing a z-strip to the rear face of the door

Question 121

Barriers - Doors

Door Classifications

Answer 121

• Standard industrial doors
• Personal doors
• Attack- and bullet - resistant doors
• Vehicle access doors
• Vault doors
• Blast-resistant doors
• Turnstile gates

Question 122

Barriers - Doors

Unnecessary external doors should be eliminated as well as unnecessary, external (exposed) door hardware

Question 123

Barriers - Doors

How can doors be reinforced?

Answer 123

Steel plates on their surfaces, heavy duty hinges, and filling frames with concrete

Question 124

Barriers - Doors

What increases the delay time for thermal cutting tools by 3x or 4x?

Answer 124

Installing wood cares in metal doors especially using redwood

Question 125

What only requires 1/2” to 3/4” of space to defeat the lock?

Answer 125

Prying or spreading the jamb from the door

How can it be mitigated? Welded 2” wide metal strips, concrete - filled frames and high security deadbolts

Question 126

Barriers - Windows

How can windows be hardened?

Answer 126

Additional or heavier fasteners in the frames, or by welding the frames

Question 127

Barriers - Windows

Transparent plastic glazing

Answer 127

• Some types are combustible & their use may be restricted by fire codes
• Acrylic plastic like Lucite & Plexiglass, if less than one inch thick, can be broken with hand tools in less than 10 seconds
• Polycarbonates resist impact about as well as bullet-resistant glass
• Lexan in 1/2” thickness resists hand-tool penetration for up to 2 minutes
• Thermal tool attacks require about one minute but cause combustion & the release of toxic gases

Question 128

Barriers - Windows

Glass/polycarbonate composite glazing contains a tough core of what?

Answer 128

Polycarbonate between 2 layers of glass

Question 129

Windows

Glass/polycarbonate composite glazing is developed for use in prisons

Question 130

Windows

The thickest panels of glass/polycarbonate lasted 10 minutes against miscellaneous steel tools

Question 131

Barriers - Windows

Used often in fire doors & fire windows?

Answer 131

Wire Glass

Question 132

Windows ctd…

Wire Glass is made up of…?

Answer 132

1/4” material fabricated with diamond, square, or hexagonal wire patterns

Question 133

How fast can wire glass be penetrated with hand tools?

Answer 133

20 Seconds

Question 134

Laminated Glass

Answer 134

• Made of two or more panes of annealed float sheet, or plate glass
• Bonded to a layer or layers of plastic

Question 135

Windows

Safety glass that is 1/4” thick can be penetrated in…?

Answer 135

30 Seconds

Question 136

Security glass that is 9/16” thick requires 15 minutes of work w/ hand tools to produce a crawl-through hole

Question 137

Barriers - Utility Portals

Openings other than doors & windows, through which maintenance & other functions might be performed

Answer 137

Utility Ports

Question 138

Barriers - Roofs

Can be enhanced in several ways (new & existing)

Answer 138

• Enhancing membranes w/ embedded screen
• Added several inches of rigid insulation
• Using concrete reinforced with deformed steel bars & expanded steel mesh
• Forming larger rebar into several rows or layers for reinforced concrete
• Increasing the number of fasteners & adding structural members to corrugated roofs
• Using mechanical fasteners or joints & a continuous weld & heavier gauge material on metal roof systems
• Using larger rebar to strengthen the flange area of precast concrete tee beams

Question 139

Barriers - Roofs

Contemporary roof types’ include the following

Answer 139

• Prestressed concrete tee beam
• Metal subdeck & reinforced concrete
• Metal roof deck with lightweight concrete
• Metal roof deck with insulation
• Metal Roof
• Reinforced concrete beam & slab
• Wood sheathing with membrane

Question 140

Barriers - Roofs

Which roof improvements provide the best value

Answer 140

• Penetration tests suggest that barriers placed below the roof may be more effective against penetration than those in the roof itself
• The optimal distance between the roof & the secondary barrier is 10” to 12”
• Earth coverings of both roofs & walls are effective delay barriers

Question 141

Vehicle Barriers

Types of barrier methodologies

Answer 141

• Vehicle arrestor (slows vehicle to a stop)
• Crash cushion (cushions the impact that stops a vehicle) (moderate distance)
• Inertia device (rigid, heavy moveable objects)
• Rigid device (fixed devices) { a very short distance - almost immediate }

Question 142

Vehicle Barriers

A moving vehicle possesses kinetic energy, which must be dissipated by the vehicular barrier

Question 143

Vehicle Barriers

Optimum vehicular barrier height?

Answer 143

Almost 30” but can vary depending on threat vehicles

Question 144

Vehicle Barriers

Since cable barriers are easy to defeat with hand-held tools, they should be used only in areas well patrolled or monitored with sensors or cameras

Question 145

Vehicle Barriers

DOD “K - ratings” for barriers / barricades

Answer 145

• K4 stops a 15,000 lb. vehicle at 30 mph
• K8 stops a 15,000 lb. vehicle at 40 mph

K12 stops a 15,000 lb. vehicle at 50 mph

Question 146

Vehicle Barriers

Vehicle barriers outside the detection & assessment zone are not recommended

Question 147

Vehicle Barriers

Private vehicles should be kept in secured areas as much as possible

Question 148

Barriers - Dispensible Barriers

Typically includes the following elements

Answer 148

• Process for deciding when to activate the barrier
• Command & control hardware
• Material deployed to delay access or incapacitate an aggressor
• Dispensing mechanism
• Security officers on-site

Question 149

Dispensible Barriers

Barriers isolate the aggressor….?

Answer 149

Visually

Acoustically

At Location

(or any combination of these)

Question 150

Dispensible Barriers

Passive dispensable barriers have no command and control component making them less expensive (but riskier)

Question 151

Dispensible Barriers

Systems last 10 to 25 years, and active systems require routine maintenance

Question 152

Safes & Vaults

Safes weighing less than 750 lbs are considered portable & UL standards require they be anchored in place

Question 153

Safes & Vaults

Burglary resistant safes do not generally protect against fire

Question 154

Safes & Vaults

Burglary / Fire Resistant Containers

Answer 154

Some containers can achieve UL rating for burglary & fire resistance

Question 155

Fire - Resistant Safes

UL Classifications

Answer 155

350-4 (formerly A)

350-2 (formerly B)

350-1 (formerly C)

Question 156

Fire Resistant Safes

Classification / Testing process also includes

Answer 156

A drop-test & harsher temperature test than filling devices

Question 157

Insulated filing devices UL Class

Answer 157

350 - 1 (formerly D)

350 - 2 (formerly E)

Question 158

Fire Resistant Safes

Classification / Testing process does not include a drop test

Question 159

Different types of safes designed for records protection

Answer 159

• Fire-resistant safes & record containers
• Insulated filing devices
• Containers to protect magnetic media

Question 160

• Electronic media containers are designed to protect contents to 125 or 150 degrees & 80% humidity for 1, 2, 3 & 4 periods (125-1, 150-1, 125-2, 150-2 etc)
• Different types of safes designed for records
  1. fire-resistant safes & record containers
  2. Insulated firing devices
  3. Containers to protect magnetic media

Question 161

Safes

• The minimum thickness of a 4-hour vault wall is 12” for brick & 8” for reinforced concrete
• The minimum thickness for a 6-hour vault wall is 12” for brick and 10” for reinforced concrete

Question 162

Fire Resistant Vaults

Construction Standards

Answer 162

• Reinforced concrete with steel rods at least 1/2” diameter, spaced 6” on center & running at right angles in both directions
• Rods are wired securely at intersections not over 12” apart in both directions & installed centrally in the wall or panel
• A brick protection used is filled solidly with the steel with concrete

Question 163

Burglary Resistant Vaults

Answer 163

• Avoid exterior wall location
• All 6 surfaces of a vault should give equal protection
• Unreinforced concrete should never be penetrated

(vaults are designed to resist penetration for a defined period)

• # 4 (1/2”) rebar & smaller diameters can be cut w/ hand tools