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Autonomous Underwater Vehicle Maps Ancient Greek Shipwreck
By Robotics Trends Staff - Filed Feb 06, 2006
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After lying hidden for centuries off the coast of Greece, a sunken 4th century B.C. merchant ship and its cargo have been surveyed by an international team using a robotic underwater vehicle. The team accomplished in two days what it would take divers years to do. The project, the first in a new collaboration between U.S. and Greek researchers, demonstrates the potential of new technology and imaging capabilities to rapidly advance marine archaeology.

Greek scientists and archaeologists discovered the ancient shipwreck in 2004 during a sonar survey. The wooden Greek merchant ship sank off Chios and Oinoussia islands in the eastern Aegean Sea in 60 meters (about 200 feet) of water, too deep for conventional SCUBA diving. The cargo of 400 ceramic jars, called amphoras, filled with wine and olive oil, are the most visible remains of the shipwreck.

The ship remained unnoticed for centuries and might never have revealed its clues to ancient Greek culture until a research team from the Woods Hole Oceanographic Institution (WHOI), Massachusetts Institute of Technology (MIT), the Greek Ministry of Culture, and the Hellenic Centre for Marine Research (HCMR) joined forces. Using a novel autonomous underwater vehicle (AUV) named SeaBED developed and operated by WHOI, the team made a high-precision photometric survey of the site using techniques developed by WHOI and MIT researchers over the past eight years.

Hanumant Singh and team at the WHOI Deep Submergence Laboratory (DSL) designed and built SeaBED. DSL has been a leader in developing and building submersible robotic vehicles for a variety of underwater environments, including the towed ARGO vehicle that found the wrecks of Titanic and Bismarck and the JASON II remotely operated vehicle that explores the seafloor today.

The Chios wreck demonstrates how advanced technology can dramatically change the field of underwater archeology, completing in two days what would have taken SCUBA divers using conventional methods years to accomplish.

For a single three-hour dive, SeaBED was programmed to “fly” over the shipwreck site in precisely spaced tracks. Multibeam sonar completely mapped the wreck while a digital camera collected thousands of high-resolution images. The vehicle took 7,650 images on four dives to reveal the ship’s ceramic cargo and marine life, including bright yellow sponges and colorful fish. The vehicle did not touch the wreck, leaving it in an undisturbed state, important for future studies.

Robotic technology is the only way to reach deep shipwrecks like the one at Chios, but the systems can also be applied to shallower sites.

Most human diving time on archaeological sites is consumed with basic mapping tasks. Typically it takes hundreds of diving hours to make a site plan using tape measures and clipboards. Robotic vehicles can map and create a photomosaic of a site with quantifiable accuracy in as little as a few hours.

The new robotic techniques can produce results very quickly. As soon as SeaBED brought the first images from the Chios wreck to the surface, project archaeologists began interpreting the data. The images are being assembled into mosaics that will depict minute features of the shipwreck with unmatched clarity and detail.

“By using this technology, diving archeologists will be freed from routine measuring and sketching tasks, and instead can concentrate on the things people do better than robots: excavation and data interpretation,” contends Singh, an engineering and imaging scientist. “With repeated performances, we’ll be able to survey shipwrecks faster and with greater accuracy than ever before.”

Much of the historic value in cargo ships, such as the Chios wreck, is the information they provide about trade networks among the ancient Greeks and their partners. The wreck is “like a buried UPS truck,” explains David Mindell, a professor of engineering history and systems at MIT. “It provides a wealth of information that helps us figure out networks based on the contents of the truck.”

The island of Chios was famous throughout the classical Greek world for its wine. Athens was its largest customer, but Chios sold its products in markets as far flung as the Crimea and Cyprus. WHOI deepwater archaeologist Brendan Foley said the wreck’s cargo is the largest assemblage of Chian amphoras found to date, and provides valuable data about the volume of ancient trade. Despite the Peloponnesian War and subsequent break-up of the Athenian empire, Chios was still engaged in trade in the 4th century B.C.

“Our technologies allows us to learn about the past in ways that we couldn’t achieve otherwise,” Foley said. “We’re not looking for footnotes any more. We’re looking to write new chapters, and are convinced that in 10 to 15 years using these methods, we will have changed history.”

The new research program is scheduled to last ten years or more and is focused on uncovering sites dating to the dawn of civilization in the Mediterranean, the Bronze Age (2500 to 1200 B.C.), and Minoan and Mycenaean cultures and their trading partners.

“We’re looking forward to continuing the project next summer,” Dimitris Sakellariou of HCMR said. “We will be exploring many more sites using new chemical sensors to collect environmental data about the shipwrecks, something that has not been done before. It is a very exciting collaboration. ”

In addition to Foley, Singh, and Mindell, the American team for the Chios expedition included Brian Bingham of Franklin W. Olin College of Engineering; Richard Camilli, Ryan Eustice, and Chris Roman from WHOI; and David C. Switzer of Plymouth State University. HCMR geologist Dimitris Sakellariou led the Greek science and technical team, while Katerina Delaporta, Director of the Ministry of Culture’s Ephorate of Underwater Antiquities, headed the Greek archaeology team.

Contact
Shelley Dawicki
Woods Hole Oceanographic Institution
P: (508) 289-2270 or 3340
E: or

Denise Brehm
MIT News Office
P: 617-253-2704
E:

Robotics Trends would like to thank the Woods Hole Oceanographic Institution for use of this article.


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