Sky Raiders

High-traffic airport installs security system to help catch thieves on land and in air

Today’s airports are at the frontline of homeland security. Checking for shoe bombs, banned liquids and suspected terrorists are part of the daily routine for airport security personnel. In fact, airport vulnerability has become such an issue that the Department of Homeland Security assigns the airline industry its own threat level designation. For example, airports can be assigned to threat level orange, meaning “High Risk of Terrorist Attacks” while the rest of the nation is at yellow, or “Elevated Risk.”

As important as they are, terrorist threats are not the only concern of an airport’s security mandate. Airports are highly complex facilities that sprawl over very large areas. They have millions of visitors who come and go freely every year. They never close, and highly valuable assets are found everywhere. Potential security events can happen almost anywhere and at any time.

The security concern that led a major Florida general aviation airport to upgrade its surveillance system was theft. For some time, thieves were gaining unauthorized access to planes parked on airport grounds and stripping them of expensive equipment such as radio communications, navigation systems and GPS systems.

Looking Up
At first, security officers thought that the culprits accessed the airfield by car. In response, they focused on improving their surveillance system at vehicle access points. However, when the thefts recurred, they realized that the thieves were intruding by another means. For this, they had to look to the sky.

Airport security authorities soon realized that thieves were landing on the airfield, stripping target planes and then taking off again with the stolen equipment. The airport in question (which cannot be disclosed for reasons of confidentiality) did not have an efficient way of tracking every aircraft using the airport.

Additionally, it was not feasible to implement systems or procedures to do so, especially when the thefts typically occurred at night, when airport use was lowest. Airport operations staff instead decided to adopt a surveillance solution to address the problem of theft from parked aircraft. The strategy was to set up a system that would provide the video evidence necessary to convict thieves. To achieve this, security officials turned to systems integrator SiteSecure, a PSA member firm in Sanford, Fla.

Although it seemed simple, SiteSecure found a technically complex project on their hands. The project called for surveillance video that would record the movements of all aircraft using the taxiways for take-offs and landings. This meant that the video footage would need to have sufficient resolution to capture identifying details, such as the aircraft model and alphanumeric registration identifications on the planes.

Hard Evidence
Among the main challenges to overcome in achieving these security objectives were distance, darkness and power. The airfield locations requiring surveillance were approximately a quarter mile from both the beacon tower (the highest point on the airfield that could be used for wireless communication) and administration building, where the video would be recorded and viewed.

“Airport officials and consultants originally designed the system to position cameras near existing power sources, which required telephoto lenses to see the taxiways. But capturing high-resolution images from a quarter mile away becomes expensive and technically challenging at that distance, especially at night,” said Andy Bowman, PE, of SiteSecure. “The best-quality images come from a closer range, and because our client wanted identification- level surveillance, that’s where we went.”

By definition, identification-level video produces images that enable positive identification of an object, typically a person or a vehicle. Identification-level video is irrefutable and is considered concrete evidence in a court of law.

Identification-level video, or CCTV surveillance, is achieved by using a highresolution camera in combination with a carefully selected lens. The focal length is crucial when designing for identificationlevel video; too wide a lens will result in the loss of identifying detail while too narrow a lens may risk missing critical events. Capturing identification-level video requires the right balance between detail and coverage area.

Although capturing identification-level video is challenging enough during the day, doing so at night can turn into a technical minefield without the right tools. To ensure consistent, reliable identificationlevel video during dark hours, SiteSecure selected Extreme CCTV’s EX30 infrared imagers with onboard active-infrared illumination. IR lighting is an important factor in providing nighttime illumination, as ambient flood lighting interferes with airfield lighting and signalization.

Furthermore, the all-weather EX30 is equipped with an IR-corrected 5- to 50- millimeter varifocal lens, allowing maximum versatility in focal range and crisp focus both day and night.

Active-infrared is technology that uses “invisible” light of slightly longer wavelengths than visible light. IR-sensitive cameras use this invisible light to form high-resolution video images that resemble normal black and white images taken during the day. Because they do not rely on heat differentials the way thermal cameras do, they are capable of producing high-resolution images with identifying details, including alphanumeric lettering and facial features.

“Although many of today’s day/night cameras can get some video signal from dark areas, they are not reliable enough for positive identification,” Bowman said. “To get the high-performance video our client wanted while avoiding interference with aircraft navigation, we had to use active-infrared.”

Having selected the right technology, Bowman then had to address power and video transmission—two challenges that required the best of SiteSecure’s design engineers.

“There are no readily available power sources or pathways for video cabling near the taxiways,” Bowman said. “And it was not economically feasible to trench power and fiber-optic cabling to all of the camera sites.”

Given this set of challenges, Bowman’s team designed an innovative integrated package that would solve both problems.

Power and Video, Unplugged
SiteSecure combined a wireless video encoder system manufactured by Verint and a solar-driven power supply manufactured by Solis Energy that operates independently of hard-wired power. Together, the system uses solar power alone, incorporating a deep-cycle battery array that provides uninterrupted power to the cameras and transmission equipment, even through three days of cloudy weather. Solis Energy, located in Florida, specializes in custom solar solutions for the IP technology industry. The company’s product line includes an outdoor UPS that can be connected to a variety of AC power sources to provide a continuous power supply for devices like cameras, wireless access points and other low-voltage solutions. Several UPS modules also were used in places where a 120-volt circuit was available nearby.

The solar and UPS systems would need to power not only the EX30 infrared imagers, which were selected for the low 12-volt DC power consumption, but also the wireless video transmission equipment. The Verint S1100w transmitters, which are devices that combine MPEG-4 encoder technology with a digital wireless transmitter that can use the 2.4 or 5 GHz spectrum for wireless transmission, may be deployed in a point-to-point or pointto- multipoint configuration, which reduces the total amount of equipment on the project. The airfield cameras transmit live video to the airport’s beacon tower, where

it is received and re-transmitted to the airport’s operations center.

All of the airfield cameras, regardless of their location, are received at the operations building by a single Verint S3100 wireless receiver, which in turn is connected to a dedicated TCP/IP security network. The network serves as the backbone for a Genetec Omnicast network video management system, which records and manages video from the airfield cameras. This software platform is an openarchitecture system that is loaded on an HP ML series server with 2 Terabytes of internal storage.

Using this system, the airport operations staff can access both live and recorded images from any computer across the entire network, drastically increasing their ability to respond to security issues.

“The old system was inflexible. Operations staff would need to be at specific computers in order to view and respond to security events,” Bowman said. “Under the new system, operations staff can now access the security system from almost any computer on the network, greatly reducing their response times and allowing them to quickly deploy the appropriate corrective measures.”

Improved Response
Results from the system have been positive. Using an LXR CCD sensor that delivers high spectral response to infrared illumination, the EX30 infrared imagers are able to capture crisp, high-resolution images of the plane registration numbers day and night. Active-infrared at night has become critically important. Without active-infrared, images either lack the sufficient amount of light necessary to see the numbers or the camera switches to frame integration mode, causing the numbers to blur.

Airplane registration numbers, which vary in size, contrast and location on the aircraft, act like license plates for planes. An image showing an airplane’s registration number positively identifies it and can serve as irrefutable evidence. Also, an aircraft’s registration number allows airport security to gain a wealth of information about the plane’s registered owner.

“Since our integrated system was installed, the airport has significantly improved their response to security and malicious activities,” Bowman said.

Within the first month of service, video evidence was archived to a CD and transmitted to the local police department for investigation of a recent theft. The system illustrates how a seemingly complex security project can be easily addressed with the right products and the right integration.

“The airport originally allocated too much money to the project,” Bowman said. “We were able to complete the job and deliver the results for a lower project budget. It’s just a matter of using the right technology and making it all work together.”

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