AIS serves as a monitoring tool for marine vessels within traffic services (VTS). Ships are equipped with transceivers that regularly send information to satellite- and land-based receiver systems. The details transmitted include the vessel’s unique ID, position, heading, speed, and some other information about the navigation. Initially designed for safety and collision avoidance, AIS information is now widely used for purposes beyond its original intention.

Maritime archaeology has turned to sonar, underwater surveys, and historical records for the locating and exploration of shipwrecks. The methods can be slow, require tons of manpower, and sometimes produce few results. Enter AIS data, which is revolutionary for the field for several reasons.

AIS data holds a lot of data about ship movements, routes, and behaviors. Researchers can retrace the tracks of historical vessels — in some cases, ships that may have sunk or disappeared mysteriously — by looking at the movements recorded in old AIS data. Such tracking can help to pinpoint possible places where vessels might be, and thus make searches more effective and efficient.

Many modern shipwrecks have AIS data up to the moment of sinking. Through this information, archaeologists can see the events leading up to the ship’s demise. Experts are thus able to offer a narrative of the last moments of the ship through its trajectory, speed, and last-known position—information that other means may not fully provide. Immediate access to detailed information of this sort is vital to timely investigations.

When combined with historical records of frequent sailing, AIS data is very potent in identifying shipping routes. Such areas of high traffic would be the sites where older ships might have sunk due to collisions with other vessels, storms, or navigational mistakes. By concentrating on these zones, one increases the likelihood of finding relevant archaeological sites and optimizes research endeavors.

 

Case Studies

In 2019, the SS Iron Crown, an iron ore-freed ship that had sunk during World War II, was again near the Australian coast. AIS data was key to narrowing down the search area. By studying historical accounts and superimposing on the modern AIS data, researchers could make educated guesses about the freighter’s last journey, thus, more efficiently leading to the wreck site.

For over 150 years the ships of the Franklin Expedition, HMS Terror, and HMS Erebus, were lost. Their rediscovery came about largely through the synergy of historical data and modern AIS technology. The historical data of the voyages was with AIS information from icebreakers and exploration ships of the present day, which indicated the likely search areas in the remotely located Arctic regions.

Since AIS tracks active vessels, it can enhance the safety of maritime archaeology dives. Ensuring an awareness of the locations and movements of nearby ships during dives creates safe conditions for the dives. The real-time tracking done by this system will minimize risks of accidents, particularly in busy shipping lanes or adverse weather conditions.

 

Challenges and Limitations

Not every ship has AIS, especially older or smaller vessels that may not be required to do so by international regulations. Data gaps arise, particularly with historical shipwrecks that occurred before AIS became common.

There could be variability in the quality and accuracy of AIS data. Some situations such as signal interference, equipment malfunction, or deliberate tampering may produce errors. It’s necessary to validate data with other sources to ensure reliability.

The large quantity of AIS data can be overwhelming. Its effective utilization requires very sophisticated data processing and analysis tools, along with experts who can interpret the information. Not every maritime archaeologist has the technical skills or resources to deal with large AIS datasets efficiently.

 

Maritime ArchaeologyIntegrating AIS with Other Technologies

When you apply AIS data with Geographic Information Systems (GIS), you maps enriched with, showing potential archaeological sites. This merging of data allows researchers to picture inferences easily, yielding more precise imagery of underwater landscapes and helping with the dives that will take place to explore them.

Using data and remote sensing technologies like sonar and LIDAR in tandem can create a cross-verification mechanism for hypotheses related to shipwreck locations. If the AIS data indicates a possible site, remote sensing will perform more in-depth scanning of the area, optimizing resources and thereby producing faster outcomes.

Advanced algorithms are capable of analyzing immense amounts of data obtained from Ais—such as detecting patterns and anomalies that may reveal the presence of sunken ships. Modern techniques in maritime archaeology apply machine learning, using historical ship-movement data to train algorithms that predict new wreck sites.

 

Future Prospects

The new capabilities of satellite AIS allow real-time data tracking so that modern shipwreck sites can be identified. Timely access of this sort would enable immediate action for search and rescue as well as archaeological endeavors, consequently preserving more artifacts and historical information.

With community science at the heart of the matter, platforms are designed wherein individuals contribute AIS data or report findings related to shipwrecks. The pooled nature of this resource can significantly expand the breadth and depth of available data, leading to discoveries.

Incorporating additional historical ships into the databanks of AIS would provide a richer resource for maritime archaeologists. Working alongside historical, maritime museums, and navy archives could ultimately add some overlooked data, making it richer and what is done more research-wise.

 

Ethical Considerations

Many shipwrecks are also gravesites, so any disturbance of these places needs to be performed with more than just the usual amount of ethical care. AIS data can help demarcate such sites, making sure they’re treated with the respect and solemnity they deserve during exploration.

It is vital to maneuver through the complicated legal terrain of maritime archaeology. AIS data clarity about a vessel’s source, ownership, and conditions at the time of sinking could offer compelling proof for legal claims as well as international maritime regulations.

Though AIS data is public information, sensitive data about modern vessel movements must be treated with care. This will allow the technology to work without violating the privacy rights or operations of ongoing marine operations.

Other posts

  • AIS for Maritime Pilots
  • AIS Data for Recreational Sailors
  • Crowdsourcing AIS Data
  • The Impact of 5G on AIS Systems
  • AIS Data Analysis Tools and Techniques
  • Building a DIY AIS Receiver
  • AIS and the Internet of Things (IoT)
  • Navigating Dense Shipping Lanes with AIS
  • Other Applications of AIS