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Autonomous Drone Assist Firefighters In Tight Naval Vessel Quarters

Feb. 9, 2015
Researchers at Carnegie Mellon Universitys Robotics Institute have demonstrated the ability of a drone to help fight fires inside naval vessels.

There has been a lot of news recently about drones creating security concerns. But researchers at Carnegie Mellon University’s Robotics Institute shows drones can be a lifesaver as well. In a demonstration aboard a former U.S. Navy ship, a small quadrotor  developed by Robotics Institute  researchers and spin-off company Sensible Machines flew autonomously through dark, smoke-filled compartments to map fires and locate victims.

The demonstration, part of an Office of Naval Research (ONR) project called Damage Control Technologies for the 21st Century (DC-21), showed that a small drone can operate in the confined spaces inside a ship to rapidly gather situational information to guide firefighting and rescue efforts.

"With the micro-flyer, we wanted to show that it could autonomously navigate through the narrow hallways and doors — even in dense fire smoke — and locate fires," said Thomas McKenna, ONR's DC-21 program manager. "It succeeded at all those tasks."

Figure: primary sensor used by the drone to build its map of fire areas is a RGB-D camera, or depth camera, similar to that of a Kinect game controller.It has numerous applications beyond shipboard fires, such as inspection of hazardous chemical tanks and power plant cooling towers.

As part of the DC-21 concept, information gathered by the micro-flyer would be relayed to a large humanoid robot, the Shipboard Autonomous Firefighting Robot (SAFFiR), that would work with human firefighters to suppress fires and evacuate casualties.

"Flying autonomously through narrow doorways in darkness and smoke poses a number of technical challenges for these small drones," said Sebastian Scherer, systems scientist at CMU's Robotics Institute. "But this capability, known as 'fast lightweight autonomy,' will have numerous applications beyond shipboard fires, such as investigation of building fires and inspection of hazardous chemical tanks and power plant cooling towers."

The challenges begin with the size of the drones. To fit through the 26-inch-wide hatches of the ex-USS Shadwell, a ship in Mobile, Alabama, used to test firefighting techniques, Sensible Machines built a quadrotor just 23-inches wide and 12-inches high — a bit smaller than those typically used by hobbyists.

The drone was able to negotiate the tight spaces. But its smaller rotors reduced its efficiency, limiting its flight time to about five minutes. Sensible Machines is now building a drone that's just 16 inches wide but replaces the four rotors with a single ducted fan with two larger, counter-rotating propellers. Scherer said the larger rotors work more efficiently and are anticipated to boost flight time to 30 minutes.

The primary sensor used by the drone to build its map of fire areas is a RGB-D camera, or depth camera, similar to that of a Kinect game controller. "It actually works better in the dark," Scherer noted, because there's less ambient light to interfere with the infrared light the camera projects. Other researchers have tried using depth cameras to do mapping, he said, but have had limited success because they still rely primarily on visual features, with depth information used supplementally.

"We flipped it around, using mainly the depth camera to build our maps," Scherer said. In addition to the RGB-D camera, the drone uses a forward-looking infrared (FLIR) camera to detect fires and people and a downward-facing optical flow camera to monitor the motion of the drone itself.

The work for ONR was supported by a Small Business Innovation Research grant to Sensible Machines, for which the Robotics Institute is a subcontractor. 

About the Author

Sam Davis Blog | Editor-In-Chief - Power Electronics

Sam Davis was the editor-in-chief of Power Electronics Technology magazine and website that is now part of Electronic Design. He has 18 years experience in electronic engineering design and management, six years in public relations and 25 years as a trade press editor. He holds a BSEE from Case-Western Reserve University, and did graduate work at the same school and UCLA. Sam was the editor for PCIM, the predecessor to Power Electronics Technology, from 1984 to 2004. His engineering experience includes circuit and system design for Litton Systems, Bunker-Ramo, Rocketdyne, and Clevite Corporation.. Design tasks included analog circuits, display systems, power supplies, underwater ordnance systems, and test systems. He also served as a program manager for a Litton Systems Navy program.

Sam is the author of Computer Data Displays, a book published by Prentice-Hall in the U.S. and Japan in 1969. He is also a recipient of the Jesse Neal Award for trade press editorial excellence, and has one patent for naval ship construction that simplifies electronic system integration.

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