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‘No place to hide’ for illegal fishing fleets as surveillance satellites prepare for lift-off

  • A low-cost satellite revolution is paving the way for real-time monitoring of fishing vessels using synthetic-aperture radar (SAR).
  • SAR allows researchers to monitor ‘dark vessels’ that aren’t transmitting Automatic Identification Signals (AIS) location data.
  • Disabling or manipulating AIS transmitters is a tactic commonly used by vessels engaged in illegal fishing activity.

The prospect of monitoring every vessel at sea in real time has moved a step closer to reality as a new generation of surveillance satellites takes to the skies.

The satellites are being launched by a small number of private companies with the potential to transform the monitoring of marine fisheries. One of those companies is Capella Space, which will launch a constellation of 36 surveillance satellites into orbit starting in December, following successful trials with a pilot satellite.

A 2018 map of areas likely damaged from ash and lava flow from Fuego volcano in Guatemala derived from synthetic aperture radar (SAR) images from the Copernicus Sentinel-1 satellites, operated by the European Space Agency (ESA). Each pixel is 30 meters (99 feet) across. Radar images penetrate smoke, clouds and darkness to provide information on the structure of what is below. They can thus assess ground surface damage from volcanic activity (here, red color indicates more damage), as well as the presence of a large fishing vessel on the sea. Image courtesy of NASA/JPL-Caltech/ESA/Copernicus/Google.

Capella’s “minibar-sized satellites” are equipped with synthetic-aperture radar (SAR) sensors, which ping signals down to Earth and use the information bouncing back to generate radar images. Though radar pictures lack the detail of optical images and cannot currently be used to identify specific vessels, they can detect the presence of any ship in the ocean, day or night, whatever the weather.

SAR’s greatest asset is that it can detect the presence of vessels that aren’t transmitting Automatic Identification Signals (AIS), so-called “dark ships”. Vessels weighing 300 gross tons or more are required to carry AIS transmitters, which broadcast a vessel’s name, country of origin, speed, and location. Crews engaging in illegal fishing activity often disable them or manipulate the data to give false coordinates.

“It’s hard to quantify how widespread this practice is, but I think it’s pretty widespread,” said Peter Horn, who leads the Pew Charitable Trusts’ Ending Illegal Fishing Project.

Paul Woods, cofounder and Chief Technology Officer at Global Fishing Watch, agrees. “There are a lot of vessels running around, particularly fishing vessels doing bad things, that don’t want to be tracked,” he said.

Stacks of fish found in the hold of the Taiwanese-flagged fishing vessel Yu Feng from alleged illegal fishing activity off the coast of Sierra Leone.  Members of various security agencies of Sierra Leone and U.S. Coast Guard sailors found the illegal catch after conducting a joint boarding operation. Sierra Leone is patrolling the waters further from their shore to protect their economic zone. Image courtesy of United States Coast Guard.

SAR is part of a suite of surveillance tools used by law enforcement agencies and environmental watchdogs, such as Skytruth, to check for the presence of “dark ships”. The technology is also widely used to identify oil spills and to observe changes in sea ice at the poles and forest cover in the Amazon.

Now, a new breed of satellites, which are 20 times lighter than their outdated predecessors and therefore easier and cheaper to launch, promises to greatly expand the capabilities of SAR surveillance.

Current drawbacks of SAR

SAR data are currently gathered by a handful of satellites, which are operated mainly by government agencies, such as NASA and the European Space Agency (ESA), which gives its SAR data away for free. Airbus also has a SAR satellite system.

The problem with these satellites is that they provide an incomplete picture of the world’s oceans because there aren’t enough of them. What’s more, because they are large—about the size of a trash dumpster—and power-hungry, they typically operate where it is light to allow for solar charging.

“They only image a small portion of Earth every day,” said Woods. “So, we don’t have really good coverage of the oceans with SAR.”

Huge school of fish off the Mexican coast. Image by Matthew T. Rader via Pexels.

Although environmental watchdogs and enforcement agencies can task SAR satellites to take images of particular places where they suspect illegal fishing is taking place, such requests are expensive and time-consuming. Orders have to be placed many hours in advance, either over the phone or via fax, and there is always the possibility that requests will be deprioritized if the military wants to task the satellite at the same time.

“It costs thousands of dollars to order an image, and we have to order it up to 72 hours in advance, because we have to wait for the satellite to get into position,” said Woods, highlighting SAR’s current shortcomings.

This latency is the reason SAR data is mainly used for long-term strategic planning, such as deciding where to send patrols, rather than in live situations. “The guy who is doing illegal fishing will do it for six hours and then disappear,” said John Allan, Business Development Consultant for Capella Space. “If you’ve got to wait 24 hours to get an image, that’s useless.”

The holy grail of real-time SAR

Capella claims its satellites will provide a much faster turnaround and that its customers will be able to order on-demand images online through an API. Inmarsat, a satellite telecommunications company, will then transmit the order to Capella’s nearest satellite in a matter of seconds.

“It will do to satellite tasking what Amazon did to retail,” Allan said. “We’re going to make it so easy for people to task the satellites.”

Capella’s network is due to be fully operational by 2022, though each satellite will start taking SAR images as soon as it is launched. When all 36 satellites are up, Allan said, the constellation will be able to provide a new image of a target every hour at the equator and even more frequently the closer you get to the poles. This is a significant step towards real-time SAR.

Portuguese Navy Lt. Cmdr. Antonio Mourinha and Gabonese sailors inspect a holding bay for fish aboard an illegal fishing vessel during a fisheries engagement, part of a multinational partnership to enhance maritime security in Africa. Image by U.S. Navy Mass Communication Specialist 2nd Class David Holmes, courtesy of United States Navy.

“The exciting thing about low-cost satellites is that you can contemplate putting enough of them up there to have continuous SAR coverage every minute of the day, every square kilometer,” said Woods, who foresees a time when there is “no place left to hide” for illegal fishing vessels. “I don’t think we’re going to be there with Capella (by its own admission it doesn’t have enough satellites for this), but it’s a step in the right direction.”

Capella is one of a handful of organisations that intends to launch SAR satellites. Europe-based ICEYE is another, having announced plans to build an 18-satellite constellation by 2020.

Capella and ICEYE promise to capture high-resolution images, which could ultimately assist with vessel identification. Capella materials claim its pictures will cover an area up to 1,000 kilometers (621 miles) by 7 kilometers (4.4 miles) at 4-meter (13-foot) resolution, down to 5 km (3.1 mi) by 5 km at 50-centimeter (20-inch) resolution.

“With higher-resolution images, we can profile the vessel, get a feel for it and put a high probability name on it,” said Allan. “It’s very different to current SAR.”

Bjorn Bergman, Ocean Analyst at SkyTruth, a non-profit environmental watchdog, said the challenge lies in incorporating the SAR data into existing surveillance systems. This would theoretically allow real-time comparisons with data from AIS, VMS (Vessel Monitoring Systems) and other detection technology, such as NASA’s Visible Infrared Imaging Radiometer Suite (VIIRS), which detects brightly-lit fishing vessels at night.

“We need to think about how this data can be integrated automatically with other tracking systems,” he said. “That’s going to be really exciting. It will be the first layer that will detect all vessels regardless of whether they are using lights at night or transmitting AIS.”

Global Fishing Watch claims such a system would help it achieve its ambition of monitoring all commercial fishing in the world every day.

“We think it will help bring monitoring of industrial and commercial activity on the ocean into the same realm as it is on land, with all the activity visible to everybody all of the time,” said Woods. “That’s definitely possible, and we will get there.”

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