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December 3, 2024 | International, Land

Agreements signed: Rheinmetall and Lithuania begin construction of modern artillery ammunition production plant

The necessary contracts, including a land lease agreement and a supply contract for the procurement of 155mm ammunition, were signed at a ceremony held on 29 November 2024.

https://www.epicos.com/article/893561/agreements-signed-rheinmetall-and-lithuania-begin-construction-modern-artillery

On the same subject

  • Soldiers tout new network tool as a ‘game changer’

    August 3, 2020 | International, C4ISR, Security

    Soldiers tout new network tool as a ‘game changer’

    Andrew Eversden The Army's first iteration of new network tools, known as Capability Set '21, was heavily influenced by existing network gaps identified by the 82nd Airborne on more than a year's worth of deployments. According to Capt. Brian Delgado, S6 of the 82nd Airborne Division's 1st Brigade Combat Team, the “biggest game changer” for soldiers in the field provided in the integrated tactical network kit of Capability Set '21 was the secure but unclassified environment. The SBU environment allows soldiers to more easily share and receive information. In the current network, information that flows through the network is classified, and many lower-level users don't have proper clearances. “Army operational construct requires battalion formations to conduct combined arms missions, but today's network does not support the battalion's organic capacity to deconflict an air picture, nor an ability to combine dismounted, mounted, fires, intelligence and air pictures into a combined operating picture (COP),” Delgado said. “Part of this challenge is due to the fact that dismounted and most mounted COP tools like Nett Warrior (NW) and Joint Battle Command-Platform resided on the Secret enclave. The vast majority of users at the tactical level do not possess Secret clearances, which makes sharing and receiving key information difficult.” Capability Set '21 lets soldiers securely share controlled unclassified information across the network, allowing war fighters on the ground to receive important information regardless of their security clearance. With the new tools, the Army moved from a 100 percent classified network to a 75 percent SBU network. “This means we now were able to use software applications at the Unclassified level in a tactical environment. SBU allowed the utilization of tactical software like the Tactical Assault Kit (TAK) to provide a [combined operating picture] down to the lowest level of leaders,” Delgado said. Col. Garth Winterle, project manager for tactical radios at Army Program Executive Office Command, Control, Communications-Tactical, said in a May interview with C4ISRNET that the SBU architecture ”opens the door for a lot of different things,” including improved information sharing with coalition partners. The integrated tactical network kit also unifies the disparate operating picture into a single digital operating picture. The combined operating picture “directly reduces risk in the clearance of fires, combat air support and maneuvering in widely dispersed formations,” Delgado said. “It allowed battalion commanders to fight teams in a dispersed manner that would have been impossible with legacy systems, and therefore greatly reduced the risk to the battalion combat power that enemy indirect fires commonly present,” Delgado added. Capability Set '21 was focused on solving immediate network capability gaps with current technology, while also making network hardware far more expeditionary and while improving network transport capabilities. The capability set includes new radios as well as smaller and lighter servers and satellite terminals. It was designed through collaboration between Army PEO C3T and the Army Network Cross-Functional Team. The Army completed critical design review of Capability Set '21 earlier this year and started procuring new tools this month. Right now, the “majority” of the Army's command-and-control systems sit on large vehicles that aren't useful on expeditionary operations, Delgado said. With the new technology, the integrated tactical network “separated these systems from vehicles, allowing for more network access during early expeditionary operations that we performed,” reducing the reliance on vehicles and allowing soldiers to dismount systems based on needs. Delgado said the new integrated tactical network, or ITN, hardware is “orders of magnitude” smaller than existing tools, providing more flexibility in how units choose command-and-control equipment for operations. “We were able to load a battalion tactical operations center worth of equipment onto a nonstandard small tactical vehicle, and then move it in a matter of hours onto a UH-60 [Black Hawk helicopter] to function as a true command aircraft,” Delgado said. The Capability Set '21 ITN kit also includes radio waveforms that are more resilient, and it allows for data transmission. The 82nd Airborne has previously been reliant on the Single Channel Ground and Airborne Radio System as well as the Soldier Radio Waveform for tactical radio communications, but Delgado said that both had “limitations regarding their effectiveness and survivability for distributed formations,” and that they didn't allow for SBU transmissions. The Army is investing several new radios with more resilient waveforms as part of its modernization initiative, including the two-channel leader radio. “The ITN presents a significant increase in radio resiliency while operating in a contested environment. Most noteworthy are a resistance to tactical jamming, and a near-complete inability of the enemy to ... find radio broadcasts,” Delgado said. https://www.c4isrnet.com/battlefield-tech/it-networks/2020/07/31/soldiers-tout-new-network-tool-as-a-game-changer/

  • Embraer strengthens its Industrial Cooperation with the Czech Republic

    October 6, 2024 | International, Aerospace

    Embraer strengthens its Industrial Cooperation with the Czech Republic

    This new milestone reinforces Embraer’s commitment to strengthening its ties with its local partners, thus contributing to their growth.

  • The data challenge of space-based hypersonics defense

    October 10, 2019 | International, C4ISR

    The data challenge of space-based hypersonics defense

    By: Nathan Strout Managing data is the biggest challenge to developing a new space-based sensor layer that would help detect hypersonic weapons, the director of the Missile Defense Agency said Oct. 7. The agency is working toward building the Hypersonic and Ballistic Tracking Space Sensor, a layer of sensors on orbit that would be capable of detecting and tracking hypersonic weapons that the nation's current missile defense architecture was not designed to handle. The new system will be built into the Space Development Agency's constellation of low earth orbit satellites. For Vice Adm. Jon Hill, the director of the agency, designing the sensors for the system is a surmountable engineering issue and evolving commercial launch capabilities mean it will be easy to get the technology to space once its ready. The real challenge is “the passing of track data between different space vehicles and maintaining track and dealing with clutter.” Hypersonic weapons are dimmer than traditional ballistic missiles, making them harder to detect. The sensors will have to be able to remove that clutter, detect the threat and then pass their data to the next LEO sensor, which will pick up the object as it travels around the globe at hypersonic speed. Allowing for that data flow from sensor to sensor is essential to the effective operation of the system. Hill compared the complexity of that data transfer to his time in the Navy, where information had to go between moving vessels, but the data issue with satellites is magnitudes of order more difficult. “When you put yourself on a moving body that's moving, not at 30 knots but at a much higher speed, you know, maintaining the stability of that track, being able to pull the clutter out of it, determining how much you want to process up on orbit versus how much you want to feed down and process on the ground, then how you distribute. Do you distribute directly from the sensor? Do you control the weapon from space? Or do you take it to the ground station and do it there? There [are] different trades, and we'll probably do it differently in a lot of different ways because that adds to the overall resilience of the system,” Hill said speaking at a Center for Strategic and International Studies event October 7. Finding the right answers to those questions will be a priority for the MDA as it works to works to get the system on orbit quickly. “It's going to be a great capability. We just need to get it up there as soon as we can and rapidly proliferate,” Hill said. https://www.c4isrnet.com/battlefield-tech/space/2019/10/09/the-data-challenge-of-space-based-hypersonics-defense/

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