News Article

SBIR/STTR SUCCESS
SYSTEMS & PROCESSES
ENGINEERING CORPORATION (SPEC)
After securing a Phase I award with DHS and proving the feasibility of the concept, SPEC
embarked on its Phase II project to develop a covert, unattended sensor for real-time
monitoring of the passage of people and vehicles in critical, remote border areas. This
Advanced Unattended Ground Sensor (AUGS) forms a robust network of sensors, using a
variable information bridge, to relay actionable information to the Customs and Border Patrol
(CBP). Advanced image processing techniques are used to discriminate targets of interest
from naturally occurring objects and events. AUGS employs SPEC’s advanced, miniature
Laser Radar (LADAR) technology in a single ended tripwire sensor and an imaging camera,
as well as adaptable, networked communications and anti-tamper mechanisms. The goal
was to put these units along the border by camouflaging them into tree trunks and across
coves on the Great Lakes. Once a sensor picks up a target, an RGB camera is triggered
and an infrared flash captures the image and transmits it in real-time via a Radio Frequency
(RF) communications unit. Supplementing the hardware is a GUI-based software application
for warning and report.
“We had been working on some 3D imaging LIDARs for NASA, and when this program
came along, that technology evolved and we started to add image fusion with the LADARs
to get that change detection,” says Brad Sallee, Vice President of Systems Technology at
SPEC. “We are essentially geolocating the object, imaging it and then grappling with it and
dissecting it before putting it back together again as the object that changed and its size.”
While DHS is currently evaluating the test hardware that came out of the Phase II, SPEC
has found new applications for the innovative sensors developed under the program. One
of these applications is in explosive detection, where they can capture a 3D image out
PHASE III SUCCESS
Over $4 million in private
investments and commercial
contracts
AGENCIES
DHS, NASA, DARPA
SNAPSHOT
Employs 40 people between
headquarters in Austin, TX and a
satellite office in Washington, D.C.
Exploring potential commercial
markets for its sensor technologies
that have already gained the attention
of DHS and NASA.
SYSTEMS & PROCESSES
ENGINEERING CORPORATION (SPEC)
7050 Burleson Road
Austin, Texas 78744
www.spec.com
512.479.7732
Spanning nearly 4,000 miles, the U.S.-Canadian border – referred to as the International Boundary
– is the longest international border in the world. With long stretches of mountainous terrain and
heavily forested areas, new technologies are heavily pursued to secure the perimeter and ensure
individuals only cross in designated border controls. When the Department of Homeland Security issued
a solicitation in 2008 to further secure the border with LADAR technology that could detect a moving
target, the Austin-based Systems & Processes Engineering Corp. quickly responded to the request.
Founded in 1986, SPEC has a long history of developing creative technologies and integrated product
solutions for both military and corporate customers.
of a LADAR and then look at the Raman Spectroscopy and detect and know what the chemical composition is of what they are
viewing. Since explosives are similar to perfumes, leaving a trail where they go, this technology can pick up a single molecule layer
of explosives. This is essential in detecting chemicals and residues to determine the location of IEDs, or in interrogating packages
for explosive residue.
Not surprisingly, this ability has piqued the interest of both NASA and the National Reconnaissance Office for use in the most highly
technological satellite imaging and robotics. Viewing chemical compositions from a distance could be highly beneficial to NASA during
its meteorite and Mars missions, to determine which areas they want to further inspect. This same kind of scouting can be applied to
forest management. By looking at the volumes of trees and counting the animals underneath, customers in the environmental sector
can keep close tabs on wildlife even under heavy foliage. SPEC is currently assisting an oil consortium in Canada, to ensure its impact
on the environment is minimal.
“Commercially, there is a lot of potential in the farming industry,” says Sallee. “By having this LADAR and RGB camera together, you
can view down through the crops and assess the vegetation levels and look at the health of the plants. A little UAV scans the entire
area – you just plug in the GPS coordinates of the field and press go. The UAV then flies the field and pumps out the data.”
SPEC recognizes the impact of the SBIR program and hopes that they will continue to provide solutions within the government sector.
“The best thing about the SBIR program was the opportunity we had to combine all of these technologies and the software that
resulted from the program,” says Sallee. “We were able to really evolve the technology and that has opened up a lot of doors for us.”
SPEC has long utilized the SBIR program across many agencies. From developing Terrain mapping LADARs for the Army, to individual
solider LADARs for DARPA, to the miniature ground mapping LADARs for NASA, the company has made a name for itself within the
SBIR community for delivering integrated product solutions. With just forty employees and the market for advanced imaging techniques
not nearly reaching its peak yet, SPEC will certainly be a company to watch during its transition phase.
Four Canadian Border Service officers patrol the vehicle line-up at the Sumas border crossing in
British Columbia. SPEC’s AUGS system ensures individuals only cross in designated border areas.