TR SONITUS Autonomous Underwater Glider: NARVAL 1006

dBSPL

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Navigation: GPS, Pressure sensor, Altimeter, Gyro
Diving Depth: +1000m
Weight: 60-75 kg
Length: 2.7 meters
Hull diameter 240 mm
Wingspan: 1 meter
Cruise speed: 0.5 m/s
Mission endurance: >6 months

SONITUS Engineering and Consulting serves with superior technology, high brand quality and a dynamic and experienced staff in many fields, especially in the Defense, Maritime, Automotive and Marine Construction Industries.

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About underwater gliders:

An underwater glider is a type of autonomous underwater vehicle (AUV) that employs variable-buoyancy propulsion instead of traditional propellers or thrusters. It employs variable buoyancy in a similar way to a profiling float, but unlike a float, which can move only up and down, an underwater glider is fitted with hydrofoils (underwater wings) that allow it to glide forward while descending through the water. At a certain depth, the glider switches to positive buoyancy to climb back up and forward, and the cycle is then repeated.

While not as fast as conventional AUVs, gliders offer significantly greater range and endurance compared to traditional AUVs, extending ocean sampling missions from hours to weeks or months, and to thousands of kilometers of range. The typical up-and-down, sawtooth-like profile followed by a glider can provide data on temporal and spatial scales unattainable by powered AUVs and much more costly to sample using traditional shipboard techniques. A wide variety of glider designs are in use by navies and ocean research organizations, with gliders typically costing around US$100,000.
 

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Navigation: GPS, Pressure sensor, Altimeter, Gyro
Diving Depth: +1000m
Weight: 60-75 kg
Length: 2.7 meters
Hull diameter 240 mm
Wingspan: 1 meter
Cruise speed: 0.5 m/s
Mission endurance: >6 months

SONITUS Engineering and Consulting serves with superior technology, high brand quality and a dynamic and experienced staff in many fields, especially in the Defense, Maritime, Automotive and Marine Construction Industries.

*

About underwater gliders:

An underwater glider is a type of autonomous underwater vehicle (AUV) that employs variable-buoyancy propulsion instead of traditional propellers or thrusters. It employs variable buoyancy in a similar way to a profiling float, but unlike a float, which can move only up and down, an underwater glider is fitted with hydrofoils (underwater wings) that allow it to glide forward while descending through the water. At a certain depth, the glider switches to positive buoyancy to climb back up and forward, and the cycle is then repeated.

While not as fast as conventional AUVs, gliders offer significantly greater range and endurance compared to traditional AUVs, extending ocean sampling missions from hours to weeks or months, and to thousands of kilometers of range. The typical up-and-down, sawtooth-like profile followed by a glider can provide data on temporal and spatial scales unattainable by powered AUVs and much more costly to sample using traditional shipboard techniques. A wide variety of glider designs are in use by navies and ocean research organizations, with gliders typically costing around US$100,000.
This is one of the UUVs (UGV) i have been telling since a year or two years ago, to be under development, without naming it. We will hear more about this UGV.

This system was developed by a team consisting 2 (core) + 3 people, Sonitus has acquired license and IP rights of the UGV from a start-up named Narwal. They will improve the product and serially produce it.
 

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This is one of the UUVs (UGV) i have been telling since a year or two years ago, to be under development, without naming it. We will hear more about this UGV.

This system was developed by a team consisting 2 (core) + 3 people, Sonitus has acquired license and IP rights of the UGV from a start-up named Narwal. They will improve the product and serially produce it.
This should be developed into a kamikaze device with a large warhead to be used against enemy ships and bridges.
 

dBSPL

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Traditionally, all underwater systems use RF-based systems for communication. But when there is a transmission limitation in the operation area, it cannot be used effectively because it carries the risk of percieve by the adversary. This situation has resulted in the search for alternative communication technologies for vehicles and systems for special operations/infiltration purposes within the enemy area. At this point, we know that the productization process started with the cooperation protocol signed between GURBAG and STM, which was first announced in 2012 with the protocol signed with Bahçeşehir University and STM; Underwater Optical Communication systems studies, the R&D of which is completely based on domestic resources, is an element that will increase the strategic value of special systems with very long endurance and difficult to detectability, as above.

Underwater gliders, which are a system that is almost impossible to detect due to its mass and minimum vibration, are far below the operational depths of military underwater systems and serve non-stop for months; if an increase in the useful load capacity can be achieved and If it can reach optical communication capability between 50-100 miles, in the hands of the Turkish navy and especially in congested seas like the Islands Sea, it can become a strategic multiplier in field.

It's not just about Oceanographic activities, what I'm talking about is more about acquiring real-time underwater tactical pictures for weeks, for example in a high-risk sea areas that can't be interrupted by the enemy. Think dipping sonars that are submerged by helicopters. What I mean is a scanning network from below, not from above. It is not necessary to have systems of the same size which draw the same amount of power. Or these vehicles can travel to the region in multiples and form a passive acoustic field, in a way, below the operational depth of the submarines. Moreover, without taking any risk, the underwater gliders you leave in your territorial waters can cruise thousands of kilometers away.
 
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dBSPL

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“Most underwater robots have limited battery life and must return back after just a few hours. For long-endurance operations, an underwater glider can travel for weeks or months between charges but could benefit from increased deployment opportunities in high-risk areas.”

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By 2003, not only had a working thermal-powered glider (Slocum Thermal) been demonstrated by Webb Research (founded by Doug Webb), but they and other institutions had introduced battery-powered gliders with impressive duration and efficiency, far exceeding that of traditional survey-class AUVs.These vehicles have been widely deployed in the years since then. The University of Washington Seaglider, Scripps Institution of Oceanography Spray, and Teledyne Webb Research Slocum vehicles have performed feats such as completing a transatlantic journey


The Rutgers University Center for Ocean Observing Leadership (RUCOOL)

rucool_global_map_black_axis.png


The Slocum Autonomous Underwater Gliding Vehicle (AUGV), built by Teledyne Webb Research Corporation (Falmouth, MA), is an integrated instrument platform designed to operate in the coastal oceans. It is designed such that, by adjusting its volume via a ballast engine, it dives and climbs in a sawtooth pattern. The result is a low cost, highly adaptable autonomous underwater vehicle with a very low power requirement. While traversing the sawtooth or ‘gliding’, the vehicle slowly travels horizontally at about .5 mph. Whilst gliding, a fin steers the glider towards continuously configurable waypoints.

This requires robust communications and the glider maintains two different types of communication mediums. A RF modem is a fast, functional means of communicating with a glider. This often serves when operating the robot from a vessel or when not in the water. The 2nd communication method is very powerful and allows global communications with the vehicle. The Iridium sattelite phone inside the glider allows it to place a two-way phone call with computers at Rutgers. This phone call allows operators to change the glider’s current task or waypoint, as well as enabling transfer of live datasets from the glider’s scientific payload. This live data is integral to understanding the ocean in real-time as it is fed into the COOL room.

While the majority of the glider is reserved for glider mechanics, battery storage and communication equipment, a section is devoted specifically to scientific payload. Vehicles can be outfitted with interchangeable modules composed of a suite of miniaturized physical and bio-optical instrumentation that measure water properties including temperature and salinity, as well as the absorption and scattering of light in the water column. These instruments, combined with the mobility and long-range communication capabilities of the glider, will provide continuous, near real time information on ocean physics and biology. This information will help to improve the accuracy of oceanic forecasts and ground truthing of ocean color satellite algorithms.

The COOL group is currently focusing on the development and deployment of a fleet of gliders to continuously patrol the coastal oceans. In order to achieve this goal, we are employing some of the same “smart” technologies that NASA has used in deploying earth-orbiting satellite constellations. This technology allows the gliders to adjust their current course based on the previously collected physical and optical data. When realized, this will allow for 24-hour-a-day data collection without constant supervision by a human scientist. The end result will be a glider fleet that will be able to detect and track oceanic features (i.e.: upwelling events, red-tides, and coastal eddies) from their formation to dissipation, improving our current understanding of the dynamical nature of coastal ecosystems and providing earlier detection of oceanic features that develop offshore and are advected into coastal waters.


Slocum Autonomous Underwater Vehicle (AUV)

built by Teledyne Webb Research Corporation (Falmouth, MA), is an integrated instrument platform designed to operate in the coastal oceans up to 1000m depth. It has no propeller. It is designed such that, by adjusting its volume via a ballast engine, it dives and climbs in a sawtooth pattern. The result is a low cost, highly adaptable autonomous underwater vehicle with a very low power requirement. While traversing the sawtooth or ‘gliding’, the vehicle slowly travels horizontally at about 1 kph. Whilst gliding, a fin steers the glider towards continuously adjustable waypoints.

The glider communicates via an Iridium satellite link when at the surface, allowing frequent contact to operators anywhere in the world. This continuous link allows pilots to change flight plans and for scientists to acquire data from the gliders several times per day. This live data is integral to understanding the ocean in real-time.

glider2.jpg


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Seaglider


Seaglider was initially developed by the University of Washington. iRobot received an exclusive five-year license to produce the Seaglider for customers outside the University of Washington in June 2008. May 2013 Kongsberg Underwater Technology, Inc. (part of Kongsberg Maritime) announced that they have completed negotiations with the University of Washington's Center for Commercialization to obtain the sole rights to produce, market and continue the development of Seaglider ™ technology.
 

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Navigation: GPS, Pressure sensor, Altimeter, Gyro
Diving Depth: +1000m
Weight: 60-75 kg
Length: 2.7 meters
Hull diameter 240 mm
Wingspan: 1 meter
Cruise speed: 0.5 m/s
Mission endurance: >6 months

SONITUS Engineering and Consulting serves with superior technology, high brand quality and a dynamic and experienced staff in many fields, especially in the Defense, Maritime, Automotive and Marine Construction Industries.

*

About underwater gliders:

An underwater glider is a type of autonomous underwater vehicle (AUV) that employs variable-buoyancy propulsion instead of traditional propellers or thrusters. It employs variable buoyancy in a similar way to a profiling float, but unlike a float, which can move only up and down, an underwater glider is fitted with hydrofoils (underwater wings) that allow it to glide forward while descending through the water. At a certain depth, the glider switches to positive buoyancy to climb back up and forward, and the cycle is then repeated.

While not as fast as conventional AUVs, gliders offer significantly greater range and endurance compared to traditional AUVs, extending ocean sampling missions from hours to weeks or months, and to thousands of kilometers of range. The typical up-and-down, sawtooth-like profile followed by a glider can provide data on temporal and spatial scales unattainable by powered AUVs and much more costly to sample using traditional shipboard techniques. A wide variety of glider designs are in use by navies and ocean research organizations, with gliders typically costing around US$100,000.
Slap some explosives in it and make it a roaming underwater mine. Harder to detect, more effective at area denial.
 

YeşilVatan

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Slap some explosives in it and make it a roaming underwater mine. Harder to detect, more effective at area denial.
That would be an indiscriminate weapon of area denial. How will the thing know what to hit? I imagine putting a human in the loop would be technically impossible. Deep underwater is not like the sky, you just can't communicate with the thing.
 

dBSPL

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Rampus Autonomous High Tech Underwater

Rampus, a versatile reconnaissance and operation vehicle, is built with advanced technology, capable of carrying out all your operations up to a depth of 1000 meters on a predefined route, by remote control within range and autonomously outside the range.

The autonomous underwater vehicle Rampus, which can perform various missions, provides great benefits in areas such as scientific research, mine detection, environmental protection, energy resources exploration and maritime security. At the same time, it increases human safety and saves labor and costs.

Rampus is designed to operate in harsh sea conditions. It utilizes a deep-water sealed hull structure, high-strength materials and high-quality components.

They operate with energy systems optimized for long-term missions and are capable of covering long distances.

depth altitude - 1000 meters

Brochure: https://sonitus.com.tr/storage/brochures/Rampus Katalog EN.pdf

NARVAL 504-P

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NARVAL 504-P, monitoring enemy threats, conducting strategic operations and surveillance, reconnaissance, advanced underwater systems used for important military missions such as intelligence gathering, submarine and mine detection. vehicles.

NARVAL 504-P is equipped with stealth features, advanced detection and tracking systems; is modularly designed to be used effectively in covert operations. Modular structure so it can be customized to suit different tasks and needs. Combining various modules or modification, the performance and characteristics of NARVAL 504-P may be adapted to specific tasks. can be brought in.

The NARVAL 504-P uses the propeller system to provide movement and propulsion in emergency situations, resulting in higher speed, maneuverability and operational flexibility. Operators can control the direction and movement of the glider more precisely. This feature provides a great advantage for working in narrow spaces or evading enemy threats.

The NARVAL 504-P is capable of operating for 4 hours at depths up to 500 meters. Potential dangers and unknowns at depths can be solved by the effective use of military underwater gliders, allowing strategic operations to be successfully carried out.

Technical Specifications
Depth Altitude: 500 meters
Speed: 2 knots
Weight: 60-80 kg
Wing Span: 1 meter
Endurance: 4 months
Body Diameter: 240 mm
Navigation GPS, Pressure Sensor, Altimeter, Gyro

Brochure: https://sonitus.com.tr/storage/brochures/Narval 504P-v03.pdf

Narval 1006

PSBemp5vBSVc22ef1O7Zf3JbTpeXWtjYQMor04fi.png


The underwater glider has a mission duration of +6 months. The vehicle can cover tens of thousands of square kilometers for +6 months. Narval 1006 has a modular structure. The head part of the vehicle changes according to the customer's mission requirements. Some of the missions that Narval 1006 can perform: Military: Mine, diver, submarine detection, reconnaissance and surveillance in enemy territorial waters, signal intelligence...

Civil: Observation of underwater life, underwater mapping, study of underwater currents, detection of underwater caves...

Brochure: https://sonitus.com.tr/storage/images/vWARb9avPYXpbmN3vnCJQcjJPdViXadWKdhs9PUM.pdf
 

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