9 mai 2024 | International, Terrestre
US special forces want longer reach for rockets, snipers, robots
The new sniper rifle would replace two weapons currently in use.
20 avril 2020 | International, Aérospatial, Naval, Terrestre, C4ISR, Sécurité
Contract Awards by US Department of Defense - April 17, 2020
ARMY
Valiant Government Services LLC, Hopkins, Kentucky (W912DY-15-D-0029, P00012); Acepex Management Corp,* Montclair, California (W912DY-15-D-0030, P00015); Emcor Government Services Inc., Arlington, Virginia (W912DY-15-D-0031, P00013); Electronic Metrology Laboratory LLC, Franklin,* Tennessee (W912DY-15-D-0032, P00011); Facility Services Management Inc.,* Clarksville, Tennessee (W912DY-15-D-0033, P00011); J & J Maintenance Inc., Austin, Texas (W912DY-15-D-0034, P00012); Johnson Controls Building Automation Systems LLC, Huntsville, Alabama (W912DY-15-D-0035, P00012); Quality Services International LLC,* San Antonio, Texas (W912DY-15-D-0036, P00011); Sodexo Management Inc., Gaithersburg, Maryland (W912DY-15-D-0037, P00011); and V W International Inc., Alexandria, Virginia (W912DY-15-D-0038, P00011), were awarded $586,000,000 in modifications in support of the presidential national emergency declaration concerning the novel coronavirus disease. The overall ceiling is now $1,667,700,000. Bids were solicited via the internet with 22 received. Work locations and funding will be determined with each order, with an estimated completion date of Aug. 11, 2020. U.S. Army Corps of Engineers, Huntsville, Alabama, is the contracting activity.
Golden Max LLC,* Stafford, Texas, was awarded a $37,065,080 firm-fixed-price contract for infusion pump kits for the COVID-19 effort. Bids were solicited via the internet with one received. Work locations and funding will be determined with each order, with an estimated completion date of April 19, 2021. U.S. Army Medical Research, Acquisition Activity, Frederick, Maryland, is the contracting activity (W81XWH-20-D-0057).
BAE Systems Land & Armaments L.P., Sterling Heights, Michigan, was awarded a $14,069,872 modification (P00087) to contract W56HZV-15-C-A001 for engineering and manufacturing development portion of the armored multi-purpose vehicle. Work will be performed in Sterling Heights, Michigan, with an estimated completion date of Oct. 29, 2021. Fiscal 2019 and 2020 research, development, test and evaluation, Army funds in the amount of $14,069,872 were obligated at the time of the award. U.S. Army Contracting Command, Detroit Arsenal, Michigan, is the contracting activity.
AIR FORCE
Chromalloy Component Services Inc., San Antonio, Texas, has been awarded a $461,562,336 firm-fixed-price, indefinite-delivery/indefinite-quantity contract with one base year and four option periods for the remanufacture of the F108 Module 13/15 low pressure turbine assembly. Work will be performed in San Antonio, Texas, and is expected to be completed by April 16, 2025. This contract is the result of a competitive acquisition with two offers received. Funding will be made available at the issuing of delivery orders against this contract. The type of funding utilized is defense agencies working capital. The Air Force Sustainment Center, Tinker Air Force Base, Oklahoma, is the contracting activity (FA8122-20-D-0002).
NAVY
Huntington-Ingalls Industries - Ingalls Shipbuilding, Pascagoula, Mississippi, is awarded a $107,976,103 cost-plus-award-fee modification to previously-awarded contract N00024-19-C-4313 to exercise options for the accomplishment of the planning yard services for the littoral combat in-service ships. Work will be performed in Hampton, Virginia (50%); Pascagoula, Mississippi (37%); San Diego, California (7%); and Jacksonville, Florida (6%). The requirements under this contract include, but are not limited to: ship installation drawings development; ship change document updates; operating cycle integration program management; work integration package engineering; type commander response; ship configuration logistics support information system support; configuration data management; research engineering and modeling; provisioned items order; cost and feasibility studies; integrated planning yard material support; provisioning technical documentation; naval ships engineering drawing repository system input and data management; interface and coordination with regional maintenance centers and fleet entities; design alteration and modification development; review and tracing; managing related class ship selected record documents; and hull, mechanical and electrical engineering standardization efforts. Work is expected to be complete by April 2021. Fiscal 2020 other procurement (Navy); and fiscal 2020 operations and maintenance (Navy) funding in the amount $18,854,046 are obligated at time of award, and funding in the amount of $1,115,122 will expire at the end of the current fiscal year. The Naval Sea Systems Command, Washington, District of Columbia, is the contracting activity.
J.I. Garcia Construction Inc.,* Fresno, California (N62473-18-D-5817); Patricia I. Romero, doing business as Pacific West Builders,* National City, California (N62473-18-D-5818); Dimensions Construction Inc.,* San Diego, California (N62473-18-D-5819); K.L. House Construction Co. Inc.,* Albuquerque, New Mexico (N62473-18-D-5820); D Square Construction LLC and Au' Authum Ki A JV,* Tucson, Arizona (N62473-18-D-5821); Herman/JCG Co. JV,* Escondido, California (N62473-18-D-5822); and I.E. Pacific Inc.,* Escondido, California (N62473-18-D-5823), are awarded $90,000,000 to increase the aggregate capacity of the previously-awarded suite of firm-fixed-price, indefinite-delivery/indefinite-quantity, multiple award construction contracts. The contracts are for new construction, renovation and the repair of general building construction. All work will be performed at various federal sites within the Naval Facilities Engineering Command (NAVFAC) Southwest area of operation, including but not limited to: California (90%); Arizona (6%); Nevada (1%); Utah (1%); Colorado (1%); and New Mexico (1%). The contracts are for new construction as well as the renovation and repair of general buildings. The maximum dollar value including the base year and four option years for all seven contracts combined is increased from $240,000,000 to $330,000,000. No funds are being obligated on this award and no funds will expire. Future task orders will be primarily funded by military construction (Navy); operations and maintenance (O&M) (Navy); O&M (Marine Corps); and Navy working capital funds. The original contract was competitively procured via the Navy Electronic Commerce Online website and 24 proposals were received. The NAVFAC Southwest, San Diego, California, is the contracting activity.
Doyon Project Services LLC,* Federal Way, Washington, is awarded $20,999,877 for a firm-fixed-price task order (N44255-20-F-4154) for the Undersea Vehicle Maintenance Facility, Naval Undersea Warfare Center Division, Keyport, Washington. Work will be performed in Keyport, Washington, and provides for the construction of a single-story high bay undersea vehicle maintenance facility. The facility will include information systems, infrastructure for built-in cranes and fire protection systems, parts storage, explosive service lockers, maintenance areas and personnel support spaces. The task order also contains one unexercised option, which if exercised, would increase cumulative contract value to $21,003,842. Work expected to be complete by April 2022. Fiscal 2020 military construction (Navy) contract funds in the amount of $20,999,877 are obligated on this award and will not expire at the end of the current fiscal year. Three proposals were received for this task order. The Naval Facilities Engineering Command, Northwest, Silverdale, Washington, is the contracting activity.
Cubic Dense Applications Inc., San Diego, California, is awarded $8,880,166 for a firm-fixed-price and cost-plus fixed-fee contract with options. This procurement of model AN/USQ-167(V) Communications Data Link System (CDLS) for production of five CDLS Tech Refresh (TR) Integrated Antenna Systems (IAS) for Nimitz class aircraft carrier platforms. Work will be performed in San Diego, California. One AN/USQ-167C(V) CDLS-TR IAS consists of two directional/Omni antennas, one Omni only antenna including hardware/software interface and three above and below deck split radios with communications security module. In addition, the contractor will provide and order the engineering services and provisional items required to support installations, repairs and sustainment. Work is expected to be complete by April 2025. The Navy requires hardware and software delivery for installation within 12 months of the contract's award and for additional units, 12 months after options are exercised. This contract includes four one-year options which, if exercised, will bring the cumulative value of this contract to an estimated $8,880,166. If all options are exercised, work may continue through September 2021. Fiscal 2020 other procurement (Navy) funds in the amount of $1,229,714 will be obligated at the time of award. Contract funds will not expire at the end of the current fiscal year. This contract is awarded as a sole-source under the under the authority of 10 U.S. Code 2304(c)(1). The Naval Information Warfare Systems Command, San Diego, California, is the contracting activity (N00039-20-C-0015).
DEFENSE LOGISTICS AGENCY
General Dynamics Mission Systems Inc., Scottsdale, Arizona, has been awarded a maximum $25,000,000 firm-fixed-price contract for Prophet Enhanced system spare parts. This was a sole-source acquisition using justification 10 U.S. Code 2304 (c)(1), as stated in Federal Acquisition Regulation 6.302-1. This is a five-year contract with no option periods. Location of performance is Arizona, with an April 16, 2025, performance completion date. Using military service is Army. Type of appropriation is fiscal 2020 Army working capital funds. The contracting activity is the Defense Logistics Agency Land and Maritime, Aberdeen Proving Ground, Maryland (SPRBL1-20-D-0021).
Hamilton Sundstrand Corp., Windsor Locks, Connecticut, has been awarded a maximum $7,377,840 firm-fixed-price contract for F100/220 aircraft control units. This was a sole-source acquisition using justification 10 U.S. Code 2304 (c)(1), as stated in Federal Acquisition Regulation 6.302-1. This is a one-year contract with no option periods. Location of performance is Connecticut, with a Jan. 31, 2023, performance completion date. Using customers are foreign military sales to Egypt and Taiwan. Type of appropriation is fiscal 2019 through 2020 Foreign Military Sales funds. The contracting activity is the Defense Logistics Agency Aviation, Tinker Air Force Base, Oklahoma (SPRTA1-20-F-0097).
DEFENSE ADVANCED RESEARCH PROJECTS AGENCY
Galois Inc., Portland, Oregon, was awarded a $12,752,707 cost-plus-fixed-fee contract for a research project under the Securing Information for Encrypted Verification and Evaluation (SIEVE) program. The SIEVE program will use zero knowledge proofs to enable the verification of capabilities relevant to the Department of Defense without revealing the sensitive details associated with those capabilities. Work will be performed in Portland, Oregon, with an expected completion date of May 2024. Fiscal 2019 research, development, test and evaluation (RDT&E) funding in the amount of $1,219,023; and fiscal 2020 RDT&E funding in the amount of $1,474,654 are being obligated at time of award. This contract was a competitive acquisition under an open broad agency announcement, and 13 offers were received. The Defense Advanced Research Projects Agency, Arlington, Virginia, is the contracting activity (HR0011-20-C-0085).
*Small business
https://www.defense.gov/Newsroom/Contracts/Contract/Article/2155142/source/GovDelivery/
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17 juin 2020 | International, Aérospatial
International Hypersonic Strike Weapons Projects Accelerate
James Bosbotinis June 15, 2020 There is growing international interest in the development of offensive hypersonic weapon systems, particularly following the deployment by Russia and China of nascent hypersonic strike capabilities. France, India, Japan and the UK all are seeking to develop a hypersonic strike capability too. Beyond Russia's Avangard hypersonic glide vehicle (HGV) and Kinzhal air-launched ballistic missile (ALBM), and China's DF-17 HGV, both nations are developing additional hypersonic weapon systems. Russia, for example, is working on the Zircon hypersonic cruise missile (HCM) and related technologies, while China is developing an expansive technological base and infrastructure for the development and production of hypersonic systems for military, commercial and space applications. Given the technical challenges and cost inherent in developing hypersonic weapons, particularly in areas such as propulsion, airframe design, guidance and thermal management, what roles will such weapons undertake? The speed, maneuverability and flight characteristics of hypersonic weapons makes them challenging to detect, track and intercept, reducing the warning time available and window for interception. Hypersonic weapons thus provide advantages for the prosecution of time-critical targets, mobile or relocatable targets or in the face of adversary missile defense capabilities. Maritime strike is also a key projected role for hypersonic missiles under development or being deployed by Russia, China and Japan. In the conventional precision-strike role, hypersonic weapons will require a robust set of supporting intelligence, surveillance, target acquisition and reconnaissance capabilities, in particular for the prosecution of mobile/relocatable targets. France is developing its fourth-generation air-launched nuclear missile, the ASN4G, which will be scramjet-powered and is due to enter service in the mid-2030s, replacing the current ASMP-A. It is also developing an HGV demonstrator, the “Vehicule Manoeuvrant Experimental,” or V-MaX, which is due to make its first flight before the end of 2021. India is similarly pursuing two hypersonic weapon projects, the BrahMos-2, developed by the BrahMos joint venture between India and Russia, and another HCM project. The BrahMos-2 is intended to be an HCM capable of speeds of Mach 5-7; HCM development is supported by the scramjet-powered Hypersonic Technology Demonstrator Vehicle (HSTDV). An attempted test flight in June 2019 failed due to a technical problem with the Agni-1, serving as the launch platform for the HSTDV. Japan has outlined plans for two hypersonic weapon systems; the Hyper-Velocity Gliding Projectile (HVGP) and a Hypersonic Cruising Missile. Japan outlined in its Midterm Defense Program (fiscal 2019-23) plans to strengthen the defense of “remote islands in the southwest region,” including through the establishment of HVGP units. The HVGP is intended to be a tactical HGV, capable of delivering a penetrating warhead for targeting, for example, aircraft carriers, or a “high-density EFP” (explosively formed penetrator) warhead for “area suppression.” An initial variant will be deployed in the 2024-28 time frame with an improved variant following in the 2030s. The Japanese HCM will be a scramjet-powered missile, armed with the same warheads as the HVGP, and intended to provide a standoff capability to counter “ships and landing forces attempting to invade Japan.” The HCM will be deployed in the late 2020s/early 2030s, with an improved variant following later in the 2030s. The UK is exploring options for the development of a hypersonic strike capability, including potentially as part of the joint Future Cruise/Anti-Ship Weapon project with France to replace the Storm Shadow/SCALP standoff cruise missile and the anti-ship Exocet and Harpoon from 2030. In July 2019, Air Vice Marshal Simon Rochelle, then chief of staff capability, announced that the UK sought to deploy an affordable, air-launched hypersonic weapon by 2023. Moreover, as Aviation Week disclosed, a joint U.S.-UK study, Thresher (Tactical High-Speed, Responsive and Highly Efficient Round), is underway between the U.S. Air Force Research Laboratory and UK Defence Science and Technology Laboratory (AW&ST April 6-19, p. 14). It is due to be completed in 2022 or 2023. With the notable exception of the UK's intention to rapidly acquire a hypersonic missile by 2023, the majority of known programs are not likely to deliver weapon systems until the second half of the 2020s or 2030s. This period is also likely to see a significant expansion in Russian and Chinese hypersonic strike capabilities. Russia possesses a nascent hypersonic strike capability following the initial deployment in December 2017 of the Kinzhal ALBM and in December 2019 of the Avangard HGV system. The Kinzhal and Avangard were both announced by President Vladimir Putin in his state of the nation address on March 1, 2018, and reflect Russia's long-term efforts to develop hypersonic weapons, particularly as a response to U.S. missile defense efforts. Although seeming to catch the U.S. public by surprise, the development of the Avangard can be traced back to the Albatross project started in the late 1980s as part of the Soviet response to the U.S. Strategic Defense Initiative. NPO Mashinostroyeniya performed several tests of the Yu-70 prototype in 1990-92, until the program was put on hiatus amid the dissolution of the Soviet Union, says Markus Schiller, founder of ST Analytics and a Germany-based consultant on hypersonic technology. The Yu-70 project was revived shortly after Putin assumed power in 2000, leading to a series of test flights in 2001-11. The Avangard HGV is based on an improved version known as the Yu-71, which performed a series of tests in 2013-18, Schiller says. The development of hypersonic weapons also reflects Russia's interest in developing a robust conventional long-range precision-strike capability as part of its wider military modernization efforts. It is developing and deploying both nuclear and conventionally armed hypersonic weapons, including dual-capable systems, to undertake tactical and strategic roles. In addition to the Avangard and Kinzhal, at least three more development programs are underway: the Zircon, GZUR (deriving from the Russian for “hypersonic guided missile”) and an air-launched weapon to arm the Sukhoi Su-57 Felon. The Avangard is an ICBM-launched HGV, initially equipping the UR-100N, a modernized version of the SS-19, and might equip the developmental SS-X-29 Sarmat (Satan 2). The Avangard is reportedly capable of attaining speeds in excess of Mach 20, can maneuver laterally and in altitude, and can travel intercontinental distances. Although principally intended as a nuclear system, the Avangard can reportedly also be used in the conventional strike role. The Kinzhal is a dual-capable, air-launched derivative of the Iskander-M tactical ballistic missile, with a range of 2,000 km (1,250 mi.) and a speed of Mach 10. It is being deployed with a modified variant of the Mikoyan MiG-31, the MiG-31K, and may be integrated with other aircraft, including reportedly the Tupolev Tu-22M3 Backfire. Russia is also developing a scramjet-powered HCM, the 3K22 Zircon, which will be capable of speeds up to Mach 9, have a range in excess of 1,000 km, and operate in the land attack and anti-ship roles. The Zircon will be compatible with existing launchers capable of launching the Oniks supersonic cruise missile, such as the UKSK vertical launch system. It is due to enter service in 2022. A Zircon was successfully test-fired from the new frigate Admiral Gorshkov in February 2020. Following the collapse of the Intermediate-Range Nuclear Forces Treaty, Putin announced the development of a ground-launched Zircon variant. The GZUR is reported to be an air-launched missile capable of a speed of Mach 6, a range of 1,500 km and sized to fit within the bomb bay of a Tupolev Tu-95MS Bear. It may enter service in the early 2020s. In this regard, Russian media reports in May noted the testing of a new hypersonic missile from a Tu-22M3 that is intended to arm the modernized Tu-22M3M. Another hypersonic missile is reported to be under development and intended to equip the Su-57. China has thus far only confirmed one hypersonic weapon, the DF-17. Its pursuit of hypersonic weapons is driven by the requirements to counter U.S. missile defenses and acquire a robust precision-strike capability as part of its wider efforts to develop “world-class” armed forces. The DF-17 is a conventionally armed medium-range ballistic missile (potentially derived from the DF-16), equipped with an HGV, with a range of 1,800-2,500 km. When it debuted at China's National Day Parade on Oct. 1, it was announced as being intended for “precision strikes against medium- and close-range targets.” In testimony before the U.S. House Armed Services Committee this March, U.S. Air Force Gen. Terrence O'Shaughnessy, commander of U.S. Northern Command and the North American Aerospace Defense Command, stated that China is testing an intercontinental HGV. It is likely that the DF-41, China's new ICBM that also debuted at the October 2019 National Day Parade, would be armed with the new HGV. O'Shaughnessy's testimony appeared to echo public statements in 2014 by Lee Fuell, who was then in Air Force intelligence and linked China's HGV development program to plans for that country's nuclear arsenal. China is developing the technologies required for HCMs. For example, in May 2018, a scramjet test vehicle, the Lingyun-1, was publicly exhibited for the first time in Beijing, while in August 2018 China successfully tested a hypersonic waverider test vehicle, the XingKong-2, which attained a speed of Mach 6. Notably, in April 2019, Xiamen University successfully flew the Jiageng-1 test vehicle, which employed a “double waverider” configuration. Interest in developing an air-launched hypersonic strike capability has also been noted. China is also believed to be developing two ALBMs, which would provide China with a near-term air-launched hypersonic strike capability. The new CJ-100, which also debuted at China's 2019 National Day Parade, warrants mention. Aside from the statement that the weapon offers “long range, high precision and quick responsiveness,” no technical information on the CJ-100 has been officially released. The South China Morning Post, citing the Chinese publication Naval and Merchant Ships, suggests the CJ-100 has a cruising speed of Mach 4 and top speed of Mach 4.5, adding that it employs a two-stage configuration utilizing a rocket booster and ramjets. Given China's progress in developing hypersonic technologies, the possibility that the CJ-100 is a hypersonic cruise missile cannot be dismissed. In a further indication of China's progress in the development of hypersonic technologies, in January 2019 it was reported that an indigenous Turbine-Based Combined-Cycle engine had completed its design and development phase and was proceeding to the aircraft integration test phase. https://aviationweek.com/defense-space/missile-defense-weapons/international-hypersonic-strike-weapons-projects-accelerate
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26 octobre 2023 | International, Aérospatial, C4ISR
Ukrainian pilots begin F-16 training in Arizona
The F-16 fundamentals training course is expected to last several months, an Air Force spokesperson said.