A robot called Benjamin survived gale force storm 26-foot waves, defied turbulent mid-ocean currents, crossed the thrashing Alenuihaha Channel and stayed on course, Thursday becoming the second vehicle of its kind to travel more than 3,200 nautical miles — without human assistance.
A robot called Benjamin survived gale force storm 26-foot waves, defied turbulent mid-ocean currents, crossed the thrashing Alenuihaha Channel and stayed on course, Thursday becoming the second vehicle of its kind to travel more than 3,200 nautical miles — without human assistance.
Liquid Robotics Inc. recovered its Wave Glider about five miles offshore from its facility at Kawaihae Harbor. The company, based in Hawaii, California and Texas, was the first to develop this “mechanically simple, yet elegant” surfboard-looking robot propelled by the power of ocean waves, said Keith Kreider, Liquid Robotics’ vice president of marine operations.
Attached solar panels fuel its computers and sensors, allowing the Wave Glider to collect continuously and transmit real-time data for extended periods. It is helping hundreds of scientists observe the ocean in ways never before possible, Kreider said.
The first to earn the title for the longest distance traveled by an an unmanned vehicle at sea was Fontaine Maru, another Wave Glider that beat the previous Guinness Book of World Record on March 9. It did so with a missing front fin, modest barnacle coverage and very minimal cosmetic damage, Kreider said.
Benjamin and Fontaine Maru were among four Wave Gliders that Liquid Robotics launched Nov. 17, 2011, about a mile apart from each other in San Francisco Bay. The Wave Gliders are named after a famous oceanographer or discoverer: Benjamin Franklin, Matthew Fontaine Maury, Jacques Piccard and Pius “Mau” Pialug. The other two Wave Gliders are expected to arrive early next week in Kawaihae, Kreider said.
“Every time one of the Wave Gliders passes another or gets closer to the Big Island, we get super pumped,” he said. “This has been an incredibly exciting venture.”
So far, there have been no collisions or recorded visits from wildlife. An operator in California can send a signal over the Internet to instantaneously alter the robot’s course, Kreider said.
Thursday’s milestone was the first stop along an epic 33,000-nautical mile journey, called the Pacific Crossing, or PacX, Challenge. After a checkup, the Wave Gliders will head next month to their final destinations: Australia and Japan.
During this portion of the record-breaking, scientific expedition, the first team of Wave Gliders, Piccard Maru and Fountain Maru, will cross the Mariana Trench and battle the Kuroshio Current to Japan. The second team, Benjamin and Papa Mau, will cross the equator heading Australia. Liquid Robotics anticipates the arrivals will occur in late 2012 or early 2013.
“We are proud our PacX Wave Gliders have reached their first destination and broken the world record,” said Edward Lu, Liquid Robotics Chief of Innovative Applications. “I have no doubt new ocean discoveries, insights, and applications will emerge from the PacX data set. PacX represents a new model for providing widespread and easy access to environmental monitoring of the worldʼs oceans, one in which Liquid Robotics operates fleets of mobile, autonomous ocean robots across previously inaccessible areas of the ocean.”
Eric Brager, Liquid Robotics test and evaluation manager, never doubted the Wave Gliders could navigate the sea for months. Prior to this challenge, he said a Wave Glider circumnavigated Hawaii Island. Two robots completed a 2,750-mile trip from Hawaii to San Diego in 79 days. One traveled from Baja California to Alaska and back in severe weather, which included 21-foot seas and 50 knot winds.
The first Wave Glider was sold in 2009. The entire fleet has cumulatively been at sea for more than 11 years and covered more than 100,000 miles.
The 250-pound Wave Gliders move up to 2 knots, powered by a submerged glider with wing-shaped panels, sort of resembling Venetian blinds, that’s connected to the 7-foot surface vessel by a 22-foot cable. The wings, or fins, tilt up when the craft is lifted by a wave, rising through the water and pulling it forward. On a down wave, the wings sink and tilt downward, pulling the craft forward. If a wave is large, the glider is pulled under water and moves through it, the way a surfer dives under a wave to avoid its full force, Kreider said.
The Wave Gliders will take sensor readings every 10 to 15 minutes on data such as salinity, water temperature, weather, fluorescence, and dissolved oxygen. The sensors will also collect information about wave features and currents, which are not well understood. The robots can do missions like measuring the size of an oil slick, tracking fish populations, gathering climate change data, eavesdropping on whales and alerting ships to avoid or seek it. The Iridium satellite network streams the robot data. The data can be accessed on Google Earth’s Ocean Showcase, or in a more complete form to clients, Kreider said.
The Wave Gliders also represent a revolution in robotics that is advancing ocean exploration by bringing down the costs of doing scientific observations, allowing the sampling of ocean regions rarely or never visited by research vessels, being able to precisely hold station if needed and providing persistent ocean presence, Kreider said.
For more information, visit liquidr.com.