Saturday, March 27, 2021

Justice Eagle exercise in progress

On the Smardan Roma area in Romania, actions for the main part of the exercise have been established - tactical actions combined with the company's fire management, in cooperation with the subdivisions of US, Romania and the Polish Armies.

















Credit st. pvt. Micha ał Wilk

Thursday, March 25, 2021

IVAS goggle

JOINT BASE LEWIS-MCCORD, Wa. – The Integrated Visual Augmentation System (IVAS) is being developed to address capability gaps in the dismounted close combat force identified by Army leadership via the 2018 National Defense Strategy. The intent is to integrate key technology systems into one device to provide a single platform for Soldiers to fight, rehearse, and train.



IVAS looks at the Soldier as a weapons system, carefully balancing weight and Soldier load with its enhanced capabilities. Therefore, the Army is looking to amplify the impact of one dismounted Soldier equipped with IVAS and apply its capability set to mounted platforms as well.

“Up until this point IVAS has really been focused on the dismounted Soldiers and getting that fighting goggle right,” said MAJ Kevin Smith, C5ISR Night Vision and Electronic Sensors Direction (NVESD) Research and Development Coordinator and PM IVAS Platform Integration Directly Responsible Individual (DRI). “So in parallel, we in the Night Vision Electronic Sensors Directorate have been working to build-in applications to leverage both new and existing sensors on the vehicles to give the Soldier not just enhanced visual situational awareness, but also C2 [Command and Control] situational awareness while they're inside of a platform or vehicle.”


The integrated team made up of Project Manager IVAS, Soldier Lethality Cross Functional Team (SL CFT), NVESD and C5ISR Prototype Integration Facility (PIF), PM Stryker Brigade Combat Team (SBCT), PM Bradley, Army Capability Manager Stryker (ACM-S) and Bradley (ACM-B), and industry partners came together at Joint Base Lewis-McCord to tackle how to best amplify the capabilities of IVAS onto vehicle platforms.

“In the past, as the Soldier in the back who's going to actually be dismounting on the objective you may have a single screen to look at that can maybe toggle between the driver’s view or the commander's view, or the gunners view, or perhaps you're looking through periscope blocks or asking the crew themselves what is actually happening around you,” said SFC Joshua Braly, SL CFT. “But overall when you are buttoned up in the back of a platform you have very limited situational awareness to what you’re walking into.”

Beyond the original problem set, IVAS is looking to be applied to an additional capability gap in order to allow the mounted and dismounted Soldier to maintain both C2 and visual situational awareness seamlessly across Army vehicle platforms.

Soldiers from 1-2 SBCT and 3rd Infantry Division joined the multi-dimensional team to learn IVAS and provide feedback on what would be most operationally effective as the technology integrates onto larger platforms.



SOLDIER EXPERIENCE

“I struggled when I was a squad leader getting out of the bay not knowing where I was because we get dropped at different spots in the op order,” said SGT John Martin, Bradley Master Gunner from 3rd Infantry Division. “Not having information on the ground was definitely a challenge that tripped us up.”

The squads took turns in the Stryker and Bradley vehicles testing each camera view and function, power management, communications, and the ease of mounting and dismounting with the IVAS. The Soldiers quickly saw that the capabilities being developed for dismounted Soldiers via IVAS are amplified by integrating the system into platforms using World View, 360 degree, and See capabilities that leverage the view of external sensors to be transmitted to the Heads Up Display (HUD) of each individual Soldier.

“There’s always a line between the squads and the tracks, and having this equipment is going to help tie them in so the dismounts in the back can see the actual optics of the vehicle itself and then they can seamlessly work with the crew because everyone can see around the vehicle without actually having to step outside of it,” said Martin. “It has countless uses like land navigation, being able to track things while on the battlefield, moving through urban complexes, moving through open terrain, it’s insane.”

Each Soldier with IVAS can “see through” the vehicle to what its external sensors are feeding into the individual HUDs, as if the vehicle has invisible armor. Soldiers with the Stryker Brigade Combat Team understood the implications to not only C2 situational awareness management and safety, but also overall lethality of the force.

“This changes how we operate honestly,” said SGT Philip Bartel with 1-2 SBCT. “Now guys aren't hanging out of vehicles in dangerous situations trying to get views on what's going on. Leadership will be able to maneuver their elements and get view-on-target without having to leave the safety of their armored vehicles. Maneuvering elements with that kind of information will minimize casualties and will overall drastically change how we operate and increase our effectiveness on the battlefield.”

“The fact that we are going to be more lethal on the ground, the fact that we won’t be losing as many guys because everyone can see and track the same information, the capabilities and possibilities and implications of this technology are endless,” added Martin.

SOLDIER CENTERED DESIGN

Soldier Centered Design is a driving principle of IVAS technology development. It calls for the Soldier and squad to be understood and developed as a comprehensive weapons system and prioritizes Soldier feedback. By addressing operational capability gaps with a holistic view, it allows the physical interface and load requirements of Soldiers to be better managed and balanced while integrating leap ahead technology to increase lethality on the battlefield.

“Right now the technology is in prototype phase, so we're getting some really good feedback from actual Soldiers here on the ground today that we can take back and make some critical improvements with, which is awesome,” said Smith. “The reason why we do this is because these requirements need to be generated from the bottom up, not from the top down. So enlisting Soldier feedback is really important to us so that we understand what they need and what their requirements are.”

The program is revolutionizing the way that acquisition requirements are generated. Though engineers and industry experts have always been dedicated to develop effective products to meet Soldier needs through requirements, best practices have now shown that requirements should be developed hand in hand with and by the end user.


“Whereas before requirements were generated, in my opinion, inside of silos, we really need the Soldier’s feedback in order to generate a proper requirement that's best for the Soldier, period,” said Braly. “It’s really important because we can't build something that Soldiers are not going use. We have to get that feedback from Soldiers, listen to Soldiers, and implement that feedback. Then it becomes a better product for the Soldier, and they're going to want to use it. If they don’t want to use it, they won’t, and it’s all for nothing.”


FUTURE OF IVAS

The event was another step towards developing IVAS, which was recently approved to move from rapid prototyping to production and rapid fielding in an effort to deliver next generation capabilities to the close combat force at the speed of relevance.

“One of the goals of IVAS was that it's going to be a fighting goggle as well as a training goggle and we are 100% attempting to bring both to reality,” said Braly. “This is one of those key moments in our military's history where we're able to look back and acknowledge that we're not where we want to be and we're willing to make bold strides to get there. IVAS is without question an effort to do that, and we're working diligently every day to make this a reality.”


Team IVAS continues to iterate the hardware and software prototype towards the Operational Test planned for July 2021 and FUE in 4QFY21.

“This is something that none of us imaged we would see in our careers,” said Martin. “It’s futuristic technology that we’ve all talked about and seen in movies and video games, but it’s something that we never imaged we would have the chance to fight with. It’s definitely technology that we are really excited to use as soon as they can get it to us.”



Tuesday, March 23, 2021

The UK Amry Future plans

The UK Ministry of Defence has released its defence command paper confirming previously rumoured reports that troop numbers, infantry fighting vehicles (IFVs) and main battle tanks would be cut. 



Here's a quick look at the public information on the Integrated review, mainly the AFV side.


  • The review confirms a reduction in the size of the British Army from a Full-time Trade Trained strength of 76,000 down to 72,500 by 2025. The army will also be restructured around Brigade Combat Teams.
  • The British Army will also develop a new ‘Ranger Regiment’ which will form part of an ‘Army Special Operations Brigade’. The Ranger Regiment will seed its personnel from current Specialised Infantry Battalions; 1 SCOTS, 2 PWRR, 2 LANCS and 4 RIFLES.
  • The British government has confirmed a order of 148-150 CR2s to be converted to Challenger 3 spec at a approximate cost of £1.3bn, the remaining CR2 will be retired. Challenger 3 (CR3) RBSL claim it will be the most advanced and deadliest MBT in NATO's arsenal.
  • The Warrior 2 or the Lockheed Martin Warrior CSP upgrade, sadly did not survive the review and will have its entire fleet eventually replaced by the RBSL Boxer fleet (time line not listed) to that end a large cash injection will be made to speed up the Boxer time line.


  • Also to this end the Boxer project will have its capabilities greatly increased to include a suspected IFV version and a direct fire support version alongside the wide variety of module options.
  • The Ajax programming is expected to be completed at long last after lengthy issues.


  • The UK Army is also set to invest in new longer-range artillery capabilities with £250m over the next decade to be invested into the Guided Multiple Launch Rocket System (GMLRS). The Army will also spend £800m over 10 years on a new ‘Mobile Fires Platform’.
  • The UK MOD will also make a short-term investment in sustaining the Exactor missile system, with a view towards a long-term upgrade in future.
  • On an aviation front, the Royal Air Force is set to retire its Tranche 1 Eurofighter Typhoons and its Hawk T1s by 2025. The C130 Hercules fleet will be retired by 2023, and its capability filled by the A400M.
  • Over £2bn is set to be invested in the Tempest Future Combat Air System (FCAS) over the next four years. The E03D Sentry will be retired in 2021 as the Royal Air Force moves to a fleet of three E-7A Wedgetails.
  • The only other equipment confirmation worth mentioning was that the MOD will increase its number of F35's to 48 and the Royal Navy will receive a number of the new Type 32 and Type 26 frigates as well as a large investment to modernize the UK's nuclear defence.
  • Two Littoral Response Groups will be formed, with the first to de deployed to the Euro-Atlantic in 2021 and the second deployed to the Indo-Pacific in 2023.
  • The Royal Navy will also commence the concept and assessment phase for a new ‘Type 83 Destroyer’ which will replace the Type 45 in the late 2030s.



Monday, March 22, 2021

Soviet Sub Collides with USS Kitty Hawk, 21 March 1984

On March 1984, K-314 (Victor-I class submarine) collided with the aircraft carrier USS Kitty Hawk (CV-63) in the Sea of Japan when USS Kitty Hawk was participated in "Team Spirit" exercises. K-314 shadowed the task group. On 21 March 1984, at the end of the Sea of Japan part of the exercise, K-314 surfaced directly in front of Kitty Hawk, far too close for "Kitty Hawk" to avoid the resulting collision. Neither ship was significantly damaged, although the K-314 could not get underway to proceed home for repairs under her own power. The U.S. Navy stayed on scene for two weeks before the Soviets could send out a seagoing tug to bring her home.


USS Kitty Hawk’s (CV 63) fourteenth deployment in early 1984 found her at the center of a great deal of activity. During the joint United States/Republic of Korea Exercise Team Spirit 84-1, Kitty Hawk’s Battle Group Bravo encountered numerous Soviet forces during the eight-day event. Reconnaissance aircraft overflew the group 43 times while six Soviet surface units and one submarine made an appearance.

It was the submarine, however, that had a lasting impact on the ship and its cruise. At 22:07 on 21 March the submarine surfaced and collided with the carrier. The captain and starboard lookout both saw the silhouette of a sub without navigation lights moving away from the ship. Two SH-3H helicopters inspected the sub without noting any apparent damage, but a large piece of the submarine’s screw had broken off in Kitty Hawk’s hull.

The submarine was believed to be a Victor-I class attack boat, tentatively identified as K-314 (610). During the exercise it had been tracked and “killed” more than fifteen times after it was spotted on the surface fifty miles in front of the battle group.

The collision occurred despite the Incidents at Sea agreement that SECNAV John Warner and Admiral Sergei Gorshkov had signed in 1972. This agreement, designed to uphold the United States’ long cherished belief in freedom of the seas and prevent dangerous and hostile collisions at sea, was ignored in this instance. Chief of Naval Operations Admiral James Watkins reflected, “The reason behind the Soviet submarine captain’s slip in judgment is the only mystery here. He showed uncharacteristically poor seamanship in not staying clear of Kitty Hawk. That should cause concern in Moscow.”

Submarine K-314 after surfacing. Damage to the light body is visible. 

The 80,000-ton carrier had suffered no damage in the collision, but that the 5,200-ton submarine, of what the Western nations designate as the Victor class, was seen on the surface dead in the water with a cruiser standing by to assist. The Soviet ships ignored American offers of assistance, the officials said.


Sunday, March 21, 2021

Combined Anti-Armor Team (CAAT) 2 Marines fire TOW missile systems in Tabuk, KSA

TABUK, Kingdom of Saudi Arabia (March 7, 2021) – U.S. Marine Corps joint light tactical vehicles attached to Combined Anti-Armor Team 2, Weapons Company, Battalion Landing Team 1/4, 15th Marine Expeditionary Unit (MEU), maneuver and fires a TOW missile during a theater amphibious combat rehearsal (TACR) in Tabuk, Kingdom of Saudi Arabia, March 7.

TACR integrates U.S. Navy and Marine Corps assets to practice and rehearse a range of critical combat-related capabilities available to U.S. Central Command, both afloat and ashore, to promote stability and security in the region. The 15th MEU is deployed to the U.S. 5th Fleet area of operations in support of naval operations to ensure maritime stability and security in the Central Region, connecting the Mediterranean and Pacific through the Western Indian Ocean and three strategic choke points. (U.S. Marine Corps photo by Staff Sgt. Kassie McDole)




Via DVIDS