Crawler reconnaissance

June 30, 2003

It can follow a search instruction plan, classify, and map underwater mines in turbulent ocean surf zones. It travels about 6 feet per second on land, and about 2 feet per second in the water. It avoids obstacles. These 90-lb, fully autonomous amphibious reconnaissance vehicles may look like no more than overgrown remotely operated toy tanks, but they have been used to search under the World Trade Center after 9/11, to search Afghan caves, to look at underwater wreckage off Normandy's beaches, and several are now currently deployed in Iraq.

Funded by Tom Swean at the Office of Naval Research, the Surf Zone Crawlers are being built for the Navy by Foster-Miller, Inc. in Waltham, MA in partnership with the Naval Coastal Systems Station as one possible answer to the perennial problem of bottom mine detection in very shallow waters and the surf zone. It is based on a platform by Foster-Miller called the Tactical Adaptable Robot, which operates on land. The underwater concept - now called the Surf Zone Crawler - is to release one or many crawlers to search predetermined regions of the sea bottom, and to determine whether an area is mined or not and what type of threat exists. Then, Reacquisition-Identification-Neutralization (RIN) missions can be performed using these bottom-crawling robots. "The key components of underwater robotic reconnaissance," says Swean, "are search and area coverage, sensing and discrimination of bottom objects, communications, and the autonomous control of single as well as multiple platforms. The goal is to use these robots to exhaustively scout and map potential approach lanes for amphibious naval operations. Control, navigation, communication, and sensor payload are the key issues."

"Each of these robots carries a suite of sensors to detect mines and obstacles and reject clutter," says Mitch Gavrilash at the Naval Sea Systems Command's Naval Coastal Systems Station in Panama City, FL. "When it detects what it determines is a threat object, it reports to a remote human operator and provides an image for identification." The maps and images are then stored electronically for future avoidance or neutralization missions.

The Surf Zone Crawler can be configured with various battery, sensor and payload options, such as sonars, cameras, metal detectors, tactile sensors (they know what they bump into once they bump into it), and in the near future, chemical-biological sensors. It operates for 4 -6 hours on lithium batteries, and can travel about 7 nautical miles in water during that time.

The longer range goal of this research is to develop teams of robots to work cooperatively together to hunt and neutralize mines. "Communication bandwidth is a real issue," says Swean, "as is the interoperability of several crawlers working together. It's one thing to communicate above water - that's fairly simple - but it's quite another to do it underwater. Acoustic modems are being developed, but they can only send a limited amount of information. This is our current challenge."

Office of Naval Research

Related Robots Articles from Brightsurf:

On the way to lifelike robots
In order for robots to be able to achieve more than simple automated machines in the future, they must not only have their own ''brain''.

Children think robots can help the elderly -- but not their own grandparents
A study that asked children to assess three different robots showed that they responded most positively to simple robots shaped like flower pots, and were most sceptical of Pepper the robot, which looks more human.

Nanomaterial gives robots chameleon skin
A new film made of gold nanoparticles changes color in response to any type of movement.

How many jobs do robots really replace?
MIT economist Daron Acemoglu's new research puts a number on the job costs of automation.

Robots popular with older adults
A new study by psychologists from the University of Jena (Germany) does not confirm that robot skepticism among elder people is often suspected in science.

Showing robots how to do your chores
By observing humans, robots learn to perform complex tasks, such as setting a table.

Designing better nursing care with robots
Robots are becoming an increasingly important part of human care, according to researchers based in Japan.

Darn you, R2! When can we blame robots?
A recent study finds that people are likely to blame robots for workplace accidents, but only if they believe the robots are autonomous.

Robots need a new philosophy to get a grip
Robots need to know the reason why they are doing a job if they are to effectively and safely work alongside people in the near future.

How can robots land like birds?
Birds can perch on a wide variety of surfaces, thick or thin, rough or slick.

Read More: Robots News and Robots Current Events is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to