Public Sector Protection
- By John W. Verity
- Oct 06, 2008
Mark Denari, director of aviation security and public
safety at San Diego International Airport, quickly rattles
off a list of advantages when asked about using IP
with security systems.
“Moving to IP means more simplified systems with fewer controls
and fewer boxes to contend with,” Denari says. It’s easier to attach
devices to IP networks and get applications to share data, he adds,
but with their fine-grain addressing schemes, it’s also easier to limit
access to those devices and applications on a selective basis.“We see
IP systems as the way to go,” he says. “Clearly, digital technology
gives a greater degree of flexibility, alacrity and effectiveness.”
Denari’s enthusiasm is evident across the government sector.
From San Diego to Houston to Chicago, airports, school districts,
educational campuses and entire cities are embracing IP as a networking
and operational platform.
IP-Powered Shield
Easily one of the world’s most ambitious municipal video surveillance
systems is the city of Chicago’s Operation Virtual Shield.
And it’s putting IP to the test across a wide spectrum of technologies
and applications -- serving as a showcase for both suppliers
and the Department of Homeland Security.
The project’s first phase saw the installation of several hundred
PTZ cameras around what Jim Argiropoulus, acting executive
director of the city’s Office of Emergency Management and Communications,
calls “especially hot areas” of the city’s downtown
business district. Now, several hundred
more cameras are being added, along with
sophisticated analytics from IBM, and the
city is moving to exploit IP’s superior flexibility
in tying together many disparate
technologies located across the city’s 237
square miles.
One example: In addition to viewing
scenes and incidents via the city’s own
street-mounted cameras, Chicago safety
and law-enforcement officials also can selectively
harness private video surveillance
networks. The set-up mirrors the networked
video surveillance system in London
that proved successful last year in preventing
a car bomb detonation in the West
End and identifying the suspects.
Argiropoulus declines to state how
many video networks are available to his
command centers, but he cites the Sears
Tower, the Board of Trade and Blue Cross
Blue Shield of Illinois buildings as typical
examples. At the city’s request, each location’s
private video net can securely connect
via a virtual private network concentrator
to the city’s own surveillance system.
Software supplied by Genetec, St. Laurent,
Quebec, melds the city and private video
streams to create the illusion of a seamless
whole. Staffers at the city’s emergency
command and control center can readily
switch between views as needed and bring
up related information on the city’s 911
emergency map.
“IP enables us to create a single solid
video solution” from potentially many different
video sources, Argiropoulus explains.
“It enables us to gel video packets
with some highly sophisticated applications,
too.” He offers the example of plume
modeling -- a computer-based method for
predicting how, say, poisonous fumes released
by an overturned tank truck will disperse
over time. By combining the output
of such a program with imagery from a
PTZ camera on or near the scene, safety officials
can determine how best to get emergency
crews to the accident site and how to
evacuate. “We can sweep the appropriate
areas and get a more granular idea of
exits,” he says.
IP enables more than just melding different
data sources. In addition to operating
its own extensive fiber-optic network
and telephone company, the city of Chicago
has arranged to distribute safety-related
data feeds via satellite links. Using leased,
24/7 satellite capacity, the city can deliver
virtually any amount of real-time traffic to
a fleet of custom-designed mobile command
centers.These $2 million vehicles can
be driven to wherever the police and fire
department may need them.
“We can put PTZ cameras right there on
the scene,” Argiropoulus says.
Achieving that mobile broadband connectivity,
however, took some doing. The
challenge: how to overcome the 1-second latency
incurred as signals travel the 44,500-
mile roundtrip to outer space and back.That
delay’s enough to cause data packets to be
dropped and thereby interfere with voice,
video and other real-time traffic.
“We can’t afford to have our applications
hanging” because of latency, Argiropoulus
says.
The solution proved to be a satellite-link
emulator supplied by the Office of Naval
Research, with which Argiropoulus and his
team had previously developed close relations.
They used this test gear to “tweak the
IP stack,” he says. Now, the satellite links
look like local wireless connections or Cat-
6 cabling in terms of providing near-zero
latency. “We had to do what the military
would do, and we take a lot of pride” in
streamlining the satellite links, Argiropoulus
says.
In addition to the fiber-optic network,
Chicago is employing a wireless mesh network
to backhaul video streams from its
street-mounted cameras. More than 500
transceivers, supplied by Firetide, Los
Gatos, Calif., use licensed spectrum in the
4.9 GHz band to provide 85 megabits-persecond
of IP bandwidth. Meanwhile, the
city is experimenting with WiFi as a way to
send streaming video and other security-related
data to laptop computers and other
devices out in the field.
IP Goes To School
IP technology’s helping smaller cities to
achieve high-grade security, and it’s helping
specific agencies within those cities.
Schools in particular are adopting the technology
to beef up surveillance while coping
with limited capital budgets.
Take the Deer Park Independent School
District, serving 12,200 students in the
Houston metropolitan area. It has wired its
four junior high and three high schools
with IP-based video surveillance networks
from locally-based LenSec that replace
aging and somewhat awkward VHS tapebased
setups. By opting for an IP system,
says Don Dean, deputy superintendent, the
district is able to gain substantial operational
efficiencies and prepare for possible
addition of new devices and technologies.
Taking advantage of IP video’s ability to
display on standard PC screens, for instance,
the district provides comprehensive coverage
of its campuses without incurring the
costs of a full-time monitoring staff. Instead
of sending video to a central location, the
streams from as many as 100 cameras in a
single school are divvied up between a number
of full-time administrative personnel already
working in that facility. Dean explains
that most problems in public schools occur
just before school begins, during the time
between class periods, at lunch and immediately
after school. So, at each of those limit-
ed periods of time, paraprofessionals such as
secretaries and assistant principals stop their
regular work and, using a dedicated PC
monitor on their desks, watch activities at
school entrances and in hallways and common
areas.
“There’s no empirical data, but we believe
a lot of issues of student-on-student
disturbances have been reduced because
students are educated to the fact that we
have these cameras in place,” Dean says.
The IP surveillance -- running on the
same Ethernet cabling that conveys the district’s
traditional IT traffic -- also makes it
possible to send live video directly to police
and fire safety officials, Dean adds.
IP Takes Flight
Feeling more pressure than schools to improve
their security are airports, which are
reaching for IP-based solutions, too. The
core strategy of airport security is summed
up as detecting threats, delaying those
threats (with fences and screening procedures,
for instance) and responding with
law enforcement personnel. It’s mainly in
the detection of threats where technology
will play a growing role, replacing human
operators with various forms of automation
that can share information and act in a
coordinated way.
San Diego International Airport provides
a good example of how airports are counting
on IP to help in this regard. In mid-June,
the airport chose a consortium of three companies,
led by Munich, Germany-based
Siemens, to implement a $4 million upgrade
of its physical security systems, with IP providing
connectivity and fostering integration
of numerous types of sensors and devices.
Possibly $9 million more may be spent in
the future.
“We can’t rely on humans,” security
chief Denari says, to improve the detection
of threats and achieve what he calls “airport
domain awareness.” Instead, “we need
to maintain situational awareness by leveraging
technology and integrating data from
multiple sources.”
Consider how the airport plans to use
radar -- not to watch aircraft but to detect
people and ground vehicles approaching
the airport’s sprawling perimeter. Thanks
to IP networking, Denari says, it will be relatively
easy to pass radar-generated alerts
with those from other types of sensors, such
as thermal-imaging cameras, to a central
point for analysis. The key will be a socalled
fusion engine, a computer specially
programmed to rapidly collect and, using
preset rules, analyze and even act on many
streams of live data at once. San Diego has
chosen such a product from Proximex
Corp., Sunnyvale, Calif.
“If data from two different kinds of
sensors indicate evidence of a suspicious
vehicle penetrating our perimeter, the fusion
engine would send a single ‘target inbound’
alert to the operations center,”
Denari explains. Among the other technologies
that might feed into this mix are
shock sensors, buried fiber optics (able to
detect movements on the ground above)
and infrared video cameras. All, Denali
says, will be provided in products that are
IP-ready out of the box. “We’re really
working from the outside in, with every
piece of the network being IP-centric.”
Video surveillance will surely play a key
role in the airport’s future. Today, some 350
cameras are in use, but that number could
eventually top 1,000, Denali says. Perhaps
more important than numbers, though, will
be increased video “intelligence.” Until
now, he says, video has been largely a backward-
looking tool, able to record events for
later forensic analysis. But emerging analytic
methods that autonomously detect
anomalies aim to make video much more
useful for providing real-time information
about an immediate potential threat.
In certain cases, analytics will run within
cameras, in others that will be left to
servers located upstream on the IP network.
For instance, a camera able to detect
no activity in a baggage-screening room
might stop sending its images to a server
for storage. Where it’s necessary to automatically
recognize and look up license
plates on cars at a gate, the analysis might
be left to a server.
Proprietary Is Out
Smaller airports are adopting IP, too, if only
to reap the benefit of hardware savings. At
Orlando Sanford International in Sanford,
Fla., security and police chief Bryan Garrett
says he’s fed up with proprietary security
gear. Certain legacy manufacturers, he says,
have become notorious for bidding low to
win government contracts, only to charge
relatively high prices for add-on gear once
the customer is locked in. Or, by discontinuing
certain product, they might force customers
to pay for unwanted upgrades.
With IP, Garrett says, “I can choose from
50 [network] switch makers. IP saves us a
lot of money by taking the proprietary nature
out of vendors. There’s no reason
things have to be proprietary.” In one case,
he recalls, video camera supplier Verint
didn’t respond to some of the airport’s
technical needs, so Garrett turned to
Genetec. There was no need to change anything
at the network’s head-end, he says.
“All we had to do was reflash some
firmware.We were all done in two days.”
Orlando Sanford, expecting to serve
some 2 million domestic and international
passengers this year, has about 300 surveillance
cameras installed, many of them analog.
But from now on, all new cameras,
Garrett says, will be IP-ready, as will every
other physical security device that needs to
be networked. “We’re always looking for
better, cheaper ways of doing things, and
right now, that means IP.”