DARPA is seeking a new generation of light-based sensing systems
On December 4, the Defense Advanced Research Projects Agency (DARPA) posted a notice about the new Modular Optical Aperture Building Blocks (MOABB) program. The agency will hold a Proposers Day conference on December 17 in Ballston, VA.
The primary goal of the newly-announced (MOABB) program is to develop the advanced technologies it will take to build ultracompact light detection and ranging (LIDAR) systems, which use light to image objects and their motions in the same way that RADAR systems use radio waves. A LIDAR system beams light out and then precisely monitors the timing of reflections to map and track objects within its detection range. Unlike a camera that captures a two-dimensional rendition of three-dimensional scenes, a LIDAR system essentially captures full-fledged three-dimensional reality. The basic technology already is out there—LIDAR allowed many robots at the DARPA Robotics Challenge to “see” and it enables autonomous vehicles to sense obstacles in their surroundings, for example—but those systems are too big, heavy and expensive for widespread use.
The range of applications for compact LIDAR systems that can provide real-time data on even subtly changing positions and velocities of nearby objects is enormous. One of the most coveted applications that could emerge from the envisioned program, which could extend for five years with up to $58 million in funding, is foliage-penetrating imagers for spotting hidden threats—a breakthrough that could revolutionize situational awareness in contested areas. “You would be able to fly a MOABB-enabled helicopter or drone low over a lush forest canopy and be able to effectively peel back the leaves and see a sniper or a tank underneath,” program maager Joshua Conway said. ”It could instantaneously give you the range and velocity of everything up to a football field’s distance away with the resolution of a camera. And with accompanying visualization tools, he added, “you would feel like you are on the ground with nothing blocking your vision.”
Other potential applications include collision avoidance systems for small unmanned aerial vehicles (UAVs) maneuvering in tight indoor spaces, precision motor control for robotic limbs and fingers, high-capacity light-based communications and data-transfer systems, and sophisticated gaming or training modules in which LIDARs would open up new worlds of immersive experience just as GPS and motion-sensing accelerometers have done in today’s systems. “Every machine that interacts with the 3D world—whether it is a manufacturing robot, UAV, car, or smartphone—could have a chip- or wafer-scale LIDAR on it,” Conway said.
To get a sense of the technology challenge MOABB poses, picture stripping a telescope of its lenses, mirrors and the interior space in which images come into focus. Jettison the mechanical parts, too, including the dials, gears and motors for focusing and steering the instrument. Now reconstitute all of the light-gathering and imaging roles these parts play in conventional telescopes in an array of 10,000 light-emitting and light–detecting semiconductor dots distributed on a disk about the size of a DVD. The result: performance equivalent to or better than today’s LIDARS that rely on bulky, telescope-like detectors.
The first phase of the program calls for researchers to develop the fundamental devices that will underlie the new LIDAR concept: speck-sized light-emitting and light-detecting cells capable of being readily integrated into larger arrays using typical semiconductor manufacturing processes. Phase 2 and Phase 3 of the project call for the integration of these cells into a 1 cm2 array and a 10 cm2 array comprising upwards of 100 and 10,000 unit cells, respectively.
With an integration of digital, electronic, optical and radiofrequency elements on a variety of combined semiconductor materials, the final 10-cm aperture LIDAR surface has the potential to be the most complex electronic-photonic circuit ever constructed, according to an anticipated Broad Agency Announcement of the MOAAB project, to be published later this month on FedBizOpps.
Details about the upcoming Proposers Day can be found here.
Source: DARPA