Remotely operated underwater vehicle

A remotely operated underwater vehicle (ROUV) or remotely operated vehicle (ROV) is a free-swimming craft that can go under the water. These machines are operated by people on ships or in control rooms.

ROVs help scientists, workers, and the military see and work underwater without getting in the water themselves.

The ROV Hercules recovers an experiment from the New England Seamounts.

ROVs are used for many important jobs. They check pipes and equipment under the sea, help fix things, and do research. They can open and close valves, operate hydraulic systems, and replace parts. This makes them very useful in the oil and gas industry to keep equipment working well.

ROVs can go to very deep places in the ocean, deeper than most submersibles or human divers can reach. They carry special tools to do specific jobs, like connecting underwater pipes or fixing broken parts. This helps people study the ocean, find resources, and keep things safe far below the water’s surface.

Description

An ROV uses a torque wrench to adjust a valve in an underwater oil and gas field.

ROVs are special machines made to work deep underwater, where it is dark. Unlike cars or airplanes that use radio signals, ROVs need a strong cable to connect them to people on a ship or land. This cable sends power and lets people see and control what the ROV is doing.

These machines are good at moving around and can be used for many jobs, like helping to get oil from the ocean. They usually have cameras and lights, and sometimes extra tools like arms or sensors to learn more about the water.

Classification

Underwater remotely operated vehicles, or ROVs, are grouped by size, weight, and what they can do.

Some smaller ROVs, called Micro-class, weigh less than 3 kg and are used in tight spaces where divers cannot go. Mini-Class ROVs weigh around 15 kg and can be carried and used by one person on a small boat.

Other ROVs are used for more advanced tasks. Inspection Class ROVs gather data and images using cameras and sensors. Larger ROVs, like Heavy Workclass ROVs, can perform stronger tasks at deeper depths, up to 3500 meters. Some very strong ROVs, used for laying cables, can work even deeper, up to 6000 meters. These ROVs can either float freely from a ship or be stored in a special garage on a submarine. Main article: HP Main articles: sonar, polyethylene

History

In the 1970s and '80s, the Royal Navy used a special underwater machine called "Cutlet" to pick up practice torpedoes and mines.

The first underwater remote vehicle was made in 1953 by Dimitri Rebikoff. The U.S. Navy helped improve these machines in the 1960s so they could help with deep-sea rescues and find things lost in the ocean. Later, the oil and gas industry started using these machines, called ROVs, to help build and fix things far below the water where people could not dive. They became very important in the 1980s.

ROVs have also helped find many famous shipwrecks, like the RMS Titanic and the Bismarck. They help scientists explore the ocean.

Construction

Work-class ROVs have a big flotation pack on top of an aluminium chassis. This helps them stay afloat while working underwater. The aluminum frame can look different depending on who makes it. Syntactic foam is often used to help the ROV float. The ROV is built with lighter parts on top and heavier parts on the bottom. This keeps the ROV steady and strong while it works underwater. Thrusters are placed in special ways to help the ROV stay balanced and move well, even in rough water.

The electrical parts of the ROV are kept safe in special compartments. This protects them from water and pressure deep underwater. ROVs have thrusters, cameras, lights, a tether, a frame, and controls for basic work. Extra tools like manipulators and sonar can be added for special jobs. Many ROVs have two robotic arms with different tools for gripping. The cameras are protected to avoid damage from bumps. Most ROVs are built this way, but smaller ones can look very different depending on what they are meant to do. Larger ROVs are often used from ships and may have special parts to help them get back on the ship.

Configurations

Remotely operated underwater vehicles (ROVs) come in three main types. The first is the open or box frame ROV, which looks like a cage with all its parts inside. This type is good for moving around in gentle currents but isn’t good for being pulled behind a boat. Many strong work-class ROVs use this design.

The second type is the torpedo-shaped ROV, often used for gathering data or checking things under the water. This shape moves easily through the water but can be tricky to control, especially at slow speeds. These are sometimes called "Tow Fish" because they are often pulled behind boats.

Tether management

ROVs need a special rope called a tether to send power and information between the vehicle and the people on the surface. This tether must be the right size—not too big, or it will slow the vehicle down, and not too small, or it might break when lifting the vehicle.

The tether is usually stored on a special device called a tether management system, which helps keep the tether from getting tangled. In some cases, this system can also be used to lower or bring the vehicle back up.

Applications

ROVs are special underwater machines that people control from above the water. They help look at things deep in the ocean, like checking pipelines or looking at ships. Even though they are smaller, they can do many jobs and carry tools like cameras and lights.

BlueROV2 equipped with 4K camera

People use ROVs to help film movies and shows because they can go places that divers cannot reach. They are also fun for hobbyists who build their own small ROVs to explore shallow waters.

Main article: Remotely operated vehicle intervention during diving operations
Main articles: Submarine rescue, Lusitania, BBC Wildlife Special

Science

ROVs are used by scientists to explore and study the ocean. They help discover and observe deep-sea animals and other sea creatures in their natural homes, like the jellyfish Stellamedusa ventana and the eel-like halosaurs. In the US, important research happens at places such as the Monterey Bay Aquarium Research Institute (MBARI), the Woods Hole Oceanographic Institution (WHOI), and the University of Rhode Island / Institute for Exploration (URI/IFE). In Europe, the Alfred Wegener Institute uses ROVs to study sea ice in the Arctic and Antarctic.

Science ROVs often have bright lights and high-quality cameras to capture clear videos of the deep sea. They also carry special tools and sensors to collect samples and data. These ROVs help scientists study underwater environments, including ancient shipwrecks, like the Mardi Gras Shipwreck Project in the Gulf of Mexico and the CoMAS project in the Mediterranean Sea.


ROV name	Operator	Years in operation
ROPOS	Canadian Scientific Submergence Facility	1986–present
Jason	WHOI	1988–present
ROV Ventana	MBARI	1988–present
Kaikō	JAMSTEC	1993–2003
ROV Tiburon	MBARI	1996–2008
Victor 6000	IFREMER	1999–present
ISIS	National Oceanography Centre	2003–present
ROV Hercules	Nautilus Live Ocean Exploration Trust	2003–present
MARUM-QUEST	MARUM	2003–present
ROV Kiel	GEOMAR	2007–present
ABISMO	JAMSTEC	2007–present
Nereus	WHOI	2009–2014
ROV Doc Ricketts	MBARI	2009–present
V8 Offshore	University of Gothenburg	2011–present
Luʻukai	University of Hawaiʻi at Mānoa	2013–present
Deep Discoverer	Global Foundation for Ocean Exploration	2013–present
Ægir6000	UiB	2015–present
MARUM-SQUID	MARUM	2015–present
SuBastian	Schmidt Ocean Institute	2016–present
AURORA	REV Ocean	2021–present

Education and outreach

The SeaPerch Remotely Operated Underwater Vehicle (ROV) program helps students in elementary, middle, and high school build simple underwater robots. They use easy-to-find materials like polyvinyl chloride pipes. This program teaches students about ship and submarine design. It also introduces them to ideas in naval architecture, marine, and ocean engineering. The program is supported by the Office of Naval Research and managed by the Society of Naval Architects and Marine Engineers.

ROVs help students learn about jobs in ocean sciences. They also improve skills in science, technology, engineering, and math. The Marine Advanced Technology Education (MATE) Center holds a competition each year. Student teams from around the world design and build ROVs to solve real problems. The competition is funded by groups like the National Aeronautics and Space Administration (NASA), the National Oceanic and Atmospheric Administration (NOAA), and Oceaneering. MATE started with money from the National Science Foundation and is based at Monterey Peninsula College in Monterey, California.

Military use

ROVs have been used by many navies for years to find and clear mines from the water. In 2008, the U.S. Navy started using a new system called SRDRS. This system has a special underwater craft to help rescue people from disabled submarines. They also use a tool called AN/SLQ-48 to deal with underwater mines from a distance.

These tools can cut cables, drop small weights to break up mines, or grab and move mine cables. They are used only on special ships designed for finding and clearing mines. Smaller ROVs are now used by many navies and coast guards to check water areas, find hidden dangers, and keep ports safe.

Specific vehicles

Here are some special underwater machines people can control from far away:

Echo Ranger – a marine machine made by Boeing that can move underwater on its own
Eelume – a machine for checking and fixing things underwater
Global Explorer ROV – a deep-water machine used for science and mapping
Nereus (underwater vehicle) – a machine that can be controlled or move on its own
PantheROV – a machine built by students at the University of Wisconsin–Milwaukee
Scorpio ROV – a strong machine for working underwater
VideoRay UROVs – small machines for looking at things underwater