Back to news

January 31, 2024 | International, Land

Missile defense interceptor competition enters critical design phase

The Missile Defense Agency's homeland defense interceptor competition enters critical design review stage, putting it on a path for fielding by FY27.

https://www.defensenews.com/industry/2024/01/31/missile-defense-interceptor-competition-enters-critical-design-phase/

On the same subject

  • Following protest, US Army awards 6th contract for upgunned Stryker design

    June 21, 2019 | International, Land

    Following protest, US Army awards 6th contract for upgunned Stryker design

    By: Jen Judson WASHINGTON — The U.S. Army has awarded a sixth contract to EOS Defense Systems USA, Inc. to develop a design to integrate a new weapon system on a Stryker combat vehicle. The service originally announced it was awarding contracts to five companies, but following a protest filed by EOS, it reevaluated the company's proposal and determined it too should receive a contract, according to the Stryker project manager, Col. Glenn Dean, who spoke to Defense News in an interview this month. The company protested the Army's original decision through Army Contracting Command; upon review, Dean said, it was learned the proposal had not been “accurately assessed.” The sixth award was made June 5 and posted to the Federal Business Opportunities website. The Army made no follow-up announcement regarding the contract. EOS is an Australian-owned company focused on precise, remote weapon systems. The Army awarded $150,000 contracts to five companies on May 23 under its Stryker Medium Caliber Weapons System (MCWS) lethality program: General Dynamics Land Systems Kollsman, Inc. Leonardo DRS Raytheon Pratt & Miller Engineering and Fabrication, Inc. Defense News first reported in May that the Army had decided — after upgunning some of its Stryker vehicles with a 30mm cannon — that it would proceed to outfit at least three of its six brigades of double V-hull A1 Stryker infantry carrier vehicles with the more powerful guns and would hold a competition to acquire that weapon system. The companies have to come up with integration designs using a government-furnished XM813 gun on a government-furnished Stryker DVH A1 hull. The Army was prepared to award six contracts and had the money to bring EOS into the effort, Dean said. Despite the late award, EOS was able to jump into the effort and participated in contractor training on the Stryker and the 30mm cannon, which took place earlier this month, so the companies could take possession of the government-furnished equipment. The MCWS program will be carried out in two phases, which will culminate in equipping a Stryker DVH A1 brigade in fiscal 2022, according to the Army. As part of the design study, competitors will build a production-representative vehicle. The second phase will be a full and open competition to award a production contract. Draft requests for proposals will be released to industry beginning in fall 2019. The two phases, as well as fielding, are expected to take 39 months total — a short timeline. While the Army plans to initially procure three brigade sets of the Stryker MCWS DVH A1 — a total of 83 vehicles per brigade — the service could procure systems for additional brigades at future decision points, the Army said. https://www.defensenews.com/land/2019/06/20/following-protest-army-awards-6th-contract-for-upgunned-stryker-design/

  • TNO has signed a contract with ESA to start phase 2 of TOmCAT

    July 8, 2020 | International, C4ISR

    TNO has signed a contract with ESA to start phase 2 of TOmCAT

    July 2, 2020 - TNO has signed a contract with ESA to demonstrate cutting-edge optical communication technologies for future terabit-per-second telecom satellites. The TOmCAT project (Terabit Optical Communication Adaptive Terminal) will enable high-throughput laser communication between ground stations and satellites. This project is Phase 2 of TOmCAT, which started in 2017. It brings together key players in the Space and High-Tech industries, including: TNO, Airbus Defence & Space Netherlands, FSO Instruments (consortium partner Demcon), Hittech Multin (NL), Celestia-STS (NL), MPB Communications (CA), Airbus DS SAS (FR) and Eutelsat (FR), SES (LU). TOmCAT is a co-funded activity in which TNO, the companies involved, the Canadian Space Agency and the Netherlands Space Office invest through the ESAs ARTES Strategic Programme Line ScyLight. Key technologies include high-bandwidth adaptive optics, thermally stable opto-mechanics, high-power photonics, and high-throughput optical transceivers. TNO Space aims to enable secure broadband connectivity that will support the growing demand for data and increase communication efficiency. We also help stimulate economic growth in the Netherlands and Europe by enabling companies to realise new products, generate new business and improve their competitive position. TOmCAT is one example of these goals in practice. HOW DOES TNO CONTRIBUTE TO TOMCAT? TNO brings all parties together and integrates all expertise to: 1) Design the end-to-end Optical Feeder Link for high-throughput satellites. 2) Build and test cutting-edge technologies required for future Terabit Optical Ground Stations. 3) Build an end-to-end Optical Ground Terminal demonstrator and test it in a 10 km ground-to-ground link. This will show the technical feasibility of future terabit-per-second laser communication between ground and satellite terminals. TNO considers development in the TOmCAT project to be a major and important step towards the realisation of commercial Optical Ground Terminals and Optical Ground Stations for high-throughput Optical Feeder Links. Furthermore, TNO will work in the coming period, in parallel with TOmCAT phase 2, with Airbus Defence & Space Netherlands on business development and, in collaboration, position Airbus DS NL as future Original Equipment Manufacturer (OEMer) of these Optical Ground Terminals and Optical Ground Stations. TECHNOLOGY AND APPLICATION TOmCAT is a technology development project with the end goal of developing a commercial optical ground station product. With high-data-rate laser links, this ground station can communicate with the next generation of Very High Throughput Satellites. One of the innovative elements of TOmCAT is its ability to pre-correct the laser light with adaptive optics. When light moves between the surface of the Earth and space, it gets distorted due to the fluctuations in the atmosphere. TOmCAT measures the distortion of the received laser light from the satellite, and by applying the inverse of this distortion to the transmitted light, a robust communication link can be established. In order to enable this, high speed adaptive optics is required. An important objective for the project is to build a demonstrator to test and prove this concept. View source version on TNO: https://www.tno.nl/en/about-tno/news/2020/7/tno-has-signed-a-contract-with-esa-to-start-phase-2-of-tomcat/

  • Grandoreiro Banking Trojan Hits Brazil as Smishing Scams Surge in Pakistan

    June 16, 2024 | International, Security

    Grandoreiro Banking Trojan Hits Brazil as Smishing Scams Surge in Pakistan

    Smishing Triad expands to Pakistan, while Google uncovers Brazilian threat actors PINEAPPLE, UNC5176, and FLUXROOT.

All news