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Kraken.

What’s the odds that the U.S. Naval Institute tweets ‘kraken’ today?
https://twitter.com/ToddWal47945939/status/1327474925121064960

USCG halloween 2020 pic had a kraken
https://twitter.com/USCG/status/1322523946026192898

https://www.army.mil/article/64655/kraken_provides_needed_intelligence_force_protection_at_nie

‘Kraken’ provides needed intelligence, force protection at NIE
By Kris Osborn, ASA(ALT)September 1, 2011

WHITE SANDS MISSILE RANGE, N.M. (Army News Service, Aug. 31, 2011) – The Army is evaluating a cutting-edge force-protection system which combines radar, surveillance cameras, unmanned sensors, gunshot detection and remote-controlled weapons.

The sensors and weapons are combined into a single, integrated system that can scan surrounding terrain for threats, alert Soldiers of potential imminent danger and provide them fires to respond, service officials said.

The Combat Outpost Surveillance and Force Protection System, or COSFPS, nicknamed “Kraken” after the mythological sea creature with many heads, was evaluated in July as part of the Army’s 3,800-Soldier-strong Network Integration Evaluation, or NIE at White Sands Missile Range, N.M. The exercise was designed to assess and integrate a host of technologies.

The individual technologies assembled for the Kraken are integrated through a government-owned, scalable and open architecture software called Joint Force Protection Advanced Security System, or JFPASS, said Tom O’Neill, Integrated Base Defense Product director, Joint Project Manager Guardian.

“While the sensor and device payload is impressive and probably offers the most force protection per cubic foot compared to any other system, the key is the integration standard, fusion and automation which reduces troop to task and provides increased situational awareness – thus resulting in more reaction time for the warfighter,” said O’Neill.

The JFPASS software enables data from all of Kraken’s system components to be integrated via a standard protocol, fused and conditionally automated, O’Neill explained; the information is displayed on screens showing a Common Operating Picture, referred to as COP.

“We’ve been able to positively identify targets before they got in range with weapons on our COP. They have tried to raid us multiple times, but we have been able to positively identify them and engage them before they got close. This is great for tracking the people coming in and out of your AO,” said Pvt. James Benham, a forward observer who has been evaluating Kraken/COSFPS in a series of mock-combat exercises at a WSMR “Mountain Village” outpost.

Kraken which represents a partnership between the Army’s Rapid Equipping Force and JPMG is an ISU-90 containerized system and includes the following hardware devices for detection: an Elta Ground Master Ground Systems Radar, or GSR, an STS-1400 GSR, L3 AN/PRS-9 BAIS Unattended Ground Sensors and five “Shot Spotters,” sensors designed to detect direct or indirect enemy gunfire, O’Neill said.

For assessment and identification, a series of 11 cameras are strategically aligned to cover a 360-degree view, including electro-optical/infra-red, low-light perimeter and Forward-Looking Infra-Red, or FLIR, HRC-X all-weather day and night thermal cameras; two of the cameras, a laser rangefinder and a GSR are rotatable atop a 10-meter mast, Benham and O’Neill explained.

Eight white and infra-red perimeter lights are included for night operations, two PRI Trap 250s are employed for defending and two laptops with two larger displays are included for command and control, O’Neill described.

The radar on top of the mast can detect people at distances up to 10 kilometers and vehicles out to 20 kilometers. Also, Kraken has a second mid-range GSR which scans a full 360 degrees every second and is engineered to interface with video cameras, ground sensors and remote weapons applications. Kraken also contains a laser pointer/illuminator.

“Kraken’s six-kilometer continuous sweep can detect anything the size of a head – including rabbits, deer or birds,” Benham said. “The system also has an option where you can emplace sensor overlays. If I get a hit on a sensor, I am able to instantly slew my cameras to that location.”
The cameras, radar and lights are fortified by seismic/acoustic sensors, infra-red or magnetic sensors engineered with sophisticated algorithms designed to identify targets such as enemy personnel or vehicles based on combined seismic and acoustic signatures.
“We currently have 22 UGS [Unattended Ground Sensors] right now. They are located on the roads and on the avenues of approach. If there are blind spots in the radar, I am able to track targets seismically,” Benham said.

Powered by a 10-kilowatt Tactical Quiet Generator, Kraken’s two remote weapons stations can accommodate an M249 Semi-Automatic Weapon or an M240 machine gun, Benham said.

“The remote weapon’s stations have night capabilities with a thermal digital zoom,” he added.
Kraken which is described as an instantiation of the JFPASS software was begun as part of a $30-million Joint Capability Technology Demonstration, O’Neill explained.

...

and SQUID

SQUID

The game-changing scientific device you’ve never heard of.

(Inside Science) Meet the game-changing scientific device you’ve never heard of SQUID. No, not the slimy animal with tentacles that wrestles sperm whales in Moby Dick. We’re talking about an entirely different kind of squid.

You can find them in machines doctors use to monitor cardiac and brain activities. You can also find them in detectors geologists use to find underground oil and silver deposits.

“So, the basic concept that we’re going to be talking about is called the SQUID and that’s an acronym for superconducting quantum interference device,” said John Clarke from the University of California, Berkeley.

By taking advantage of a physical phenomenon known as the Josephson effect, named after physicist Brian David Josephson, who laid the theoretical groundwork for the effect in 1962, SQUIDS use a loop made of superconducting material to measure the smallest changes in a magnetic field. The result? A device that is sensitive to magnetic fields that are a thousand trillion times smaller than a typical refrigerator magnet. It’s so sensitive that it can even detect the tiniest magnetic signals from your heart or brain.

“Someone with an array of SQUIDS could tell whether or not you’re actually paying attention to what I’m saying,” said Clarke.
More at this link.

https://insidescience.org/video/squid