Vityaz-D Autonomous Underwater Vehicle

*Vityaz-D* Autonomous Underwater Vehicle
	Underwater vehicle during the "Armiya 2021" exhibition
History
Russian Navy Russia
Name	Vityaz-D ANPA/AUV
Builder	Rubin Central Design Bureau for Marine Engineering
Sponsored by	Fond Perspektivnyh Issledovaniy (FPI)
Completed	2019
In service	2020
Homeport	Vladivostok
Identification	Vityaz-D
Status	Active
Notes	Mother Ship: Rescue Tug Fotiy Krylov
General characteristics
Type	AUV or UUV
Tonnage	5.7 tons
Length	5.7 m (19 ft)
Beam	1.4 m (4.6 ft)
Installed power	Batteries
Propulsion	Four electric propulsors and ten small electric maneuvering thrusters
Speed	1 meter/second
Endurance	24 hours
Test depth	12,000 m (39,000 ft)
Complement	0
Sensors and ; processing systems	Side-scan sonar; echo sounders; search sonar; video cameras
Notes	System consists of an unmanned autonomous deep submersible (ANPA SGP Vityaz-D); a deep sea bottom station (GDS SN) and a shipboard communications and control suite on the mother ship.

Last updated September 23, 2024

The Vityaz-D is the first full-ocean depth, fully autonomous deep submergence vehicle.

This Russian Autonomous Underwater Vehicle (AUV) was designed and developed by the Rubin Central Design Bureau for Marine Engineering in St. Petersburg, Russia under contract to the Advanced Research Foundation (Russian acronym: FPI, Fond Perspektivnyh Issledovaniy). The development of Vityaz-D began in September 2017. The keel-laying ceremony of the AUV was held at Rubin's assembly plant for experimental production in November 2018.

It was tested in May 2020 with autonomous dives to 2400 meters in the Sea of Japan, to 5200 meters in the Philippine Sea, and culminating with a 10,028 meter dive into the Mariana Trench (note that the greatest depth of the Mariana Trench is 10,925 meters – about 900 meters deeper than this Vityaz-D dive on 8 May 2020).

Russia revealed the Vityaz-D program at the Army-2020 International Military and Technical Forum held in Kubinka, outside Moscow in July 2020.^[1] The Vityaz-D autonomous underwater vehicle was named in honor of the R/V Vityaz , which for nearly 20 years was the flagship of the Soviet scientific research fleet.

Mariana Trench

The Vityaz-D reached a depth of 10,028 meters on 8 May 2020, spending over three hours studying the Mariana Trench. Its mother ship was the rescue tug Fotiy Krylov.^[2]

During Pacific dives, the Vityaz-D tested a unique system of long-range audio-visual communication.^[3] At the bottom of the Mariana Trench, the Vityaz-D laid a flag at the bottom to commemorate the 75th anniversary of Victory Day.

Communications with the Vityaz-D was by means of a unique "sound-guided communication, which has no foreign analogues" – apparently automatically directing communication bursts along a selected acoustic-ray path – a technology not found in public Western sources. Communications with the AUV were continuous and successful during the 10,028 meter depth mission. The underwater acoustic communication link between the mother ship and the Vityaz-D involved both sonic and ultrasonic channels. This new system (name undisclosed) allows transmission of both text and low-quality images, as well as updating command and control instructions.^[3]

Impact

Georgy Vinogradov, a senior researcher at the Shirshov Institute of Oceanology of the Russian Academy of Sciences and a participant in diving the MIR deep-submergence vehicles, stated: "I believe that the use of this technology will open up many new opportunities for scientific research. Underwater vehicles are now an obvious trend in ocean exploration. Each of the ways of penetrating into the depth – with the help of manned, remotely operated and unmanned vehicles – has its own strengths and weaknesses. On one of these paths, a big step has just been taken forward."^[4]

The editors of GlobalSecurity.org perhaps noted the significance of this development most succinctly: "Once UAVs came to be regarded as reusable aircraft rather than expendable [aerial] munitions, there was a quantum leap in the size of the vehicles and the purposes to which they were put. Now such a revolutionary phase transition is underway underwater. In both cases, the foundation was the inexorable unfolding of the gift that keeps on giving, the miracle of Moore's law. Computers onboard the vehicles could take on greater responsibility for more complex tasks ... At first, underwater vehicles required onboard human presence, but over time this guidance could be provided remotely via a cable tether. Now the tether has been severed, as the computers onboard the vehicle can execute complex tasks in response to simple directions."^[5]

Future

"The Russian Navy plans to replace its fleet of unmanned deep-sea submersibles with the Vityaz-D drone for its military operations."^[6]

Related Research Articles

<span class="mw-page-title-main">Challenger Deep</span> Deepest known point of Earths seabed

The Challenger Deep is the deepest known point of the seabed of Earth, located in the western Pacific Ocean at the southern end of the Mariana Trench, in the ocean territory of the Federated States of Micronesia.

<span class="mw-page-title-main">Mariana Trench</span> Deepest oceanic trench on Earth

The Mariana Trench is an oceanic trench located in the western Pacific Ocean, about 200 kilometres (124 mi) east of the Mariana Islands; it is the deepest oceanic trench on Earth. It is crescent-shaped and measures about 2,550 km (1,580 mi) in length and 69 km (43 mi) in width. The maximum known depth is 10,984 ± 25 metres at the southern end of a small slot-shaped valley in its floor known as the Challenger Deep. The deepest point of the trench is more than 2 km (1.2 mi) farther from sea level than the peak of Mount Everest.

A remotely operated underwater vehicle (ROUV) or remotely operated vehicle (ROV) is a free-swimming submersible craft used to perform underwater observation, inspection and physical tasks such as valve operations, hydraulic functions and other general tasks within the subsea oil and gas industry, military, scientific and other applications. ROVs can also carry tooling packages for undertaking specific tasks such as pull-in and connection of flexible flowlines and umbilicals, and component replacement. They are often used to visit wrecks at great depths beyond the capacities of submersibles for research purposes, such as the Titanic, amongst others.

A submersible is an underwater vehicle which needs to be transported and supported by a larger watercraft or platform. This distinguishes submersibles from submarines, which are self-supporting and capable of prolonged independent operation at sea.

Kaikō was a remotely operated underwater vehicle (ROV) built by the Japan Agency for Marine-Earth Science and Technology (JAMSTEC) for exploration of the deep sea. Kaikō was the second of only five vessels ever to reach the bottom of the Challenger Deep, as of 2019. Between 1995 and 2003, this 10.6 ton unmanned submersible conducted more than 250 dives, collecting 350 biological species, some of which could prove to be useful in medical and industrial applications. On 29 May 2003, Kaikō was lost at sea off the coast of Shikoku Island during Typhoon Chan-Hom, when a secondary cable connecting it to its launcher at the ocean surface broke.

An autonomous underwater vehicle (AUV) is a robot that travels underwater without requiring continuous input from an operator. AUVs constitute part of a larger group of undersea systems known as unmanned underwater vehicles, a classification that includes non-autonomous remotely operated underwater vehicles (ROVs) – controlled and powered from the surface by an operator/pilot via an umbilical or using remote control. In military applications an AUV is more often referred to as an unmanned undersea vehicle (UUV). Underwater gliders are a subclass of AUVs.

The hadal zone, also known as the hadopelagic zone, is the deepest region of the ocean, lying within oceanic trenches. The hadal zone ranges from around 6 to 11 km below sea level, and exists in long, narrow, topographic V-shaped depressions.

Unmanned underwater vehicles (UUV), also known as uncrewed underwater vehicles and underwater drones, are submersible vehicles that can operate underwater without a human occupant. These vehicles may be divided into two categories: remotely operated underwater vehicles (ROUVs) and autonomous underwater vehicles (AUVs). ROUVs are remotely controlled by a human operator. AUVs are automated and operate independently of direct human input.

Nereus was a hybrid uncrewed autonomous underwater vehicle built by the Woods Hole Oceanographic Institution (WHOI). Constructed as a research vehicle to operate at depths of up to 11,000 metres (36,000 ft), it was designed to explore Challenger Deep, the deepest surveyed point in the global ocean. Nereus, named for Greek sea titan Nereus through a nationwide contest of high school and college students, began its deep sea voyage to Challenger Deep in May 2009 and reached the bottom on May 31, 2009.

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Explorer autonomous underwater vehicle (AUV) is a Chinese AUV developed in the People's Republic of China (PRC), first entering service in November 1994. It should not be confused with another two Anglo-American AUVs that share the same name: the American Autonomous Benthic Explorer AUV (ABE) built by Woods Hole Oceanographic Institution, and the British Columbia-based International Submarine Engineering built Canadian Explorer AUV, which is based on its earlier ARCS AUV. Many Chinese AUVs later developed, such as Wukong, WZODA, CR series, Exploration series, Micro Dragon series, Sea Whale series, Submerged Dragon series AUVs, are all based on experienced gained from Explorer AUV.

ABISMO is a remotely operated underwater vehicle (ROV) built by the Japan Agency for Marine-Earth Science and Technology (JAMSTEC) for exploration of the deep sea. It is the only remaining ROV rated to 11,000-meters, ABISMO is intended to be the permanent replacement for Kaikō, a ROV that was lost at sea in 2003.

AUV - 150 is an unmanned underwater vehicle (UUV) being developed by Central Mechanical Engineering Research Institute (CMERI) scientists in Durgapur in the Indian state of West Bengal. The project is sponsored by the Ministry of Earth Sciences and has technical assistance from IIT-Kharagpur.

Jiaolong is a Chinese crewed deep-sea research submersible that can dive to a depth of over 7,000 metres (23,000 ft), developed from the Sea Pole-class bathyscaphe. It has the second-greatest depth range of any crewed research vehicle of the Chinese Navy; the only crewed expeditions to have gone deeper were the dives of the Trieste bathyscaphe in 1960, Archimède in 1962, Deepsea Challenger in 2012, and DSV Limiting Factor in 2019.

The Rainbowfish class bathyscaphe is a Chinese deep submergence vehicle under development in 2015 and originally scheduled to enter service in 2019, but has since been postponed after 2020.

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Hadal ARV is a type of very little known unmanned underwater vehicle (UUV) built in the People's Republic of China (PRC). ARV stands for Autonomous Remotely-controlled Vehicle, an idea pioneered in China by Shenyang Institute of Automation (SIA) of Chinese Academy of Sciences (CAS), and SIA is also the developer of Hadal ARV and its predecessor Arctic ARV, as well as Hadal 1 ARV, the successor of Hadal ARV. Hadal and its predecessor Arctic series ARVs are the Chinese counterparts of Nereus hybrid unmanned underwater vehicle, because just like Nereus hybrid UUV, these ARVs can operate both as an AUV or a ROUV.

Underwater exploration is the exploration of any underwater environment, either by direct observation by the explorer, or by remote observation and measurement under the direction of the investigators. Systematic, targeted exploration is the most effective method to increase understanding of the ocean and other underwater regions, so they can be effectively managed, conserved, regulated, and their resources discovered, accessed, and used. Less than 10% of the ocean has been mapped in any detail, less has been visually observed, and the total diversity of life and distribution of populations is similarly obscure.

References

↑ "Vityaz-D Deep-Sea Autonomous Underwater Vehicle, Russia". Naval Technology.
↑ Bazzolo Gabriel (12 May 2020) SeaDrones. Russian UUV Vityaz-D Descend to the Mariana Trench's. qudron.com.ar
1 2 Christina Kitova (28 August 2020). "Army 2020 — Russia Announces Vityaz-D Upgrades – Communal News: Online Business, Wholesale & B2B Marketplace News". Archived from the original on 11 June 2022.{{cite web}}: CS1 maint: unfit URL (link)
↑ "Russian Submarine "Vityaz" Reached The Bottom Of The Mariana Trench". Russian Geographical Society. 13 May 2020.
↑ "Autonomous Uninhabited Underwater Vehicle (ANPA) Avtonomnykh Neobitaemykh Podvodnye Apparat". www.globalsecurity.org.
↑ "Vityaz-D Deep-Sea Autonomous Underwater Vehicle, Russia". www.naval-technology.com.

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[auto-1] "Vityaz-D Deep-Sea Autonomous Underwater Vehicle, Russia". Naval Technology.

[2] Bazzolo Gabriel (12 May 2020) SeaDrones. Russian UUV Vityaz-D Descend to the Mariana Trench's. qudron.com.ar

[auto2-3] 1 2 Christina Kitova (28 August 2020). "Army 2020 — Russia Announces Vityaz-D Upgrades – Communal News: Online Business, Wholesale & B2B Marketplace News". Archived from the original on 11 June 2022.{{cite web}}: CS1 maint: unfit URL (link)

[4] "Russian Submarine "Vityaz" Reached The Bottom Of The Mariana Trench". Russian Geographical Society. 13 May 2020.

[5] "Autonomous Uninhabited Underwater Vehicle (ANPA) Avtonomnykh Neobitaemykh Podvodnye Apparat". www.globalsecurity.org.

[6] "Vityaz-D Deep-Sea Autonomous Underwater Vehicle, Russia". www.naval-technology.com.

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