World 

KHORRAMABAD, Iran — The U.S. Air Force and Air National Guard reportedly carried out overnight airstrikes against military targets in western Iran, with the Islamic Revolutionary Guard Corps (IRGC) Aerospace Force's Imam Ali Missile Base near Khorramabad in Lorestan Province appearing to be among the primary targets. According to numerous eyewitness accounts, the strikes were conducted in at least two separate waves, with the first explosions reported at approximately 03:47–03:48 local time and a second round of strikes occurring around 03:55–03:57. Residents across Khorramabad reported powerful explosions that shook buildings throughout the city. Several witnesses said the first blast occurred at around 03:47, while others described repeated explosions shortly afterward, suggesting multiple munitions struck the target area during the opening phase of the operation.   Explosions Reported Across Multiple Cities The effects of the strikes were also reported outside Khorramabad. In the nearby city of Borujerd, residents said they heard exceptionally loud detonations between 03:48 and 03:50. Some witnesses described hearing a roaring sound in the sky before a powerful explosion, while others believed the sounds were caused by military aircraft or missile activity. One resident said the noise was louder than thunder and unlike anything previously experienced. A second wave of explosions was later reported. Witnesses in Borujerd said another powerful blast occurred at approximately 03:55, while residents in Khorramabad confirmed another major explosion at around 03:57, describing it as the second significant detonation of the night. Further reports came from Alisht in Lorestan Province's Selseleh County, where residents heard two separate loud detonations at approximately 03:47 and 03:56. Local witnesses noted that missile-related activity has previously been associated with the area but said they could not determine whether the sounds came from missile launches or incoming strikes. Timeline of Reported Events 03:47 – First powerful explosions reported in Khorramabad. 03:48 – Additional heavy explosions heard across Khorramabad, with residents reporting buildings shaking. 03:48–03:50 – Residents in Borujerd reported loud detonations and roaring sounds in the sky. 03:55 – Another major explosion reported near Borujerd. 03:56 – Additional loud detonations reported in Alisht, Lorestan Province. 03:57 – Second major wave of explosions reported in Khorramabad. The eyewitness reports indicate the overnight operation involved at least two distinct waves of strikes separated by roughly ten minutes.   Imam Ali Missile Base The Imam Ali Missile Base, located near Khorramabad in the Zagros Mountains, is one of the IRGC Aerospace Force's major missile facilities. The installation is built into the mountainside and is widely reported to include underground tunnels, storage bunkers, operational facilities, and missile launch infrastructure designed to protect strategic assets. The base has been associated with Iran's ballistic missile program, including the Shahab-3 medium-range ballistic missile, which has an estimated range of about 1,300 kilometers and is capable of carrying a payload of approximately 800 to 1,200 kilograms. Open-source satellite imagery and previous defense analyses have also identified underground tunnel networks, storage areas, and positions for mobile transporter erector-launchers (TELs) at the site.   Damage Assessment Remains Unclear As of now, there has been no official confirmation regarding the extent of damage to the Imam Ali Missile Base or other military facilities in western Iran. It also remains unclear whether underground missile storage areas or launch infrastructure were affected. Based on eyewitness reports from Khorramabad, Borujerd, and Alisht, the overnight operation appeared to involve sustained strikes against military targets in western Lorestan Province while broader military operations were reportedly taking place elsewhere in Iran. Independent verification of the reported impacts and a full battle damage assessment have not yet been released.   Source : X

Read More → Posted on 2026-07-16 16:35:02
 U.S 

WASHINGTON  — The U.S. Department of the Navy has officially approved its Strategy to Weaponize Data and Artificial Intelligence, establishing a roadmap to build a data-ready, AI-enabled Navy and Marine Corps capable of accelerating decision-making and maintaining maritime superiority. The strategy, signed by Acting Secretary of the Navy Hung Cao, takes effect immediately and reflects more than a year of collaboration led by the Department of the Navy Chief Data and AI Officer (DON CDAO), working alongside artificial intelligence communities across both the Navy and the Marine Corps. According to the Department of the Navy, the strategy is designed to transform how data and artificial intelligence are used across the service, enabling commanders to process information more quickly and make better operational decisions in increasingly complex maritime environments.   Building an AI-First Force The new roadmap positions artificial intelligence as a core element of future naval operations rather than simply a supporting technology. The Department said the strategy will help turn data into a practical warfighting advantage by integrating AI into mission planning, operational decision-making, and digital modernization efforts. “This strategy positions the Department of the Navy to out-learn and out-fight any adversary by rapidly deploying data and artificial intelligence,” Acting Secretary Hung Cao said. “It is our roadmap to building an ‘AI-first’ Fleet, one that turns information into warfighting advantage and enables faster, better decisions.” The Department said the overall objective is to reduce the time needed to collect, process, analyze, and act on operational information while improving the speed and quality of military decision-making.   Five-Step Bits2Effects Cycle A key element of the strategy is the introduction of the Bits2Effects Cycle, described by the Navy as a five-step digital adaptation framework. The framework is intended to integrate data and artificial intelligence for mission impact, allowing the Department to rapidly learn, adapt, and improve during both peacetime and wartime operations. Officials said the framework will help transform digital information into operational capability, enabling the Navy and Marine Corps to respond more effectively to evolving operational requirements.   Six Strategic Priorities The strategy identifies six major priorities that will guide implementation across the Department of the Navy. Accelerating Operational AI The Department will identify the most promising artificial intelligence projects, rapidly evaluate their performance, and expand successful capabilities for full-scale implementation across the fleet. Improving Data Readiness The strategy calls for standardizing, simplifying, and scaling data management practices so mission-relevant information can be easily discovered, accessed, and securely shared across commands. Optimizing Data and AI Infrastructure The Navy plans to develop reliable, secure, and modular digital environments that include the hardware, software, and data required to support the full range of artificial intelligence capabilities. Streamlining Data and AI Governance The Department will modernize governance processes to speed innovation, simplify organizational decision-making, and move risk determinations to the lowest appropriate operational level. Building a Data and AI-Ready Workforce The strategy emphasizes recruiting, training, and qualifying personnel with the technical skills needed to meet operational requirements and keep pace with the rapid evolution of artificial intelligence technologies. Strengthening Partnerships and Collaboration The Department will continue working with industry, academic institutions, federal stakeholders, allies, and international partners to accelerate the development and delivery of advanced data and AI solutions.   Aligning Existing Innovation Efforts Barry Tanner, performing the duties of the Chief Information Officer for the Department of the Navy, said the strategy brings together ongoing innovation efforts under a single vision. “This strategy formalizes the direction the Department has already been moving,” Tanner said. “Every day, our Sailors, Marines, civilians, and industry partners are finding new ways to leverage data and artificial intelligence to solve operational challenges. This strategy aligns those efforts under a common vision, accelerates innovation, and ensures we continue to outpace our competitors in an increasingly data-driven battlespace.”   Supporting Future Naval Operations According to the Department of the Navy, the strategy represents a significant step in strengthening warfighting effectiveness in the digital era. By combining artificial intelligence, high-quality data, and modern digital technologies, the Department aims to accelerate learning, improve operational effectiveness, and provide commanders with faster, more informed decision-making tools. Officials said the efficiencies generated through improved use of data and AI are expected to return valuable resources—including time, funding, and personnel—to mission priorities while supporting the long-term goal of maintaining U.S. maritime superiority. The strategy is effective immediately and will serve as the Department of the Navy's roadmap for integrating data and artificial intelligence across future naval and Marine Corps operations.   Source : navy.mil

Read More → Posted on 2026-07-16 16:25:28
 Europe 

LONDON — The United Kingdom has officially named its new autonomous Collaborative Combat Aircraft (CCA) programme StormFighter, marking a significant step in the Royal Air Force (RAF)’s future air combat strategy. The announcement was made by Minister for Defence Readiness and Industry Luke Pollard during his keynote speech at the Global Air and Space Chiefs’ Conference in London on July 16. StormFighter is part of a £300 million investment in collaborative combat aircraft outlined in the UK's Defence Investment Plan, published on July 2, 2026. The programme aims to develop autonomous aircraft capable of operating alongside the RAF's crewed fighter fleet, including the Eurofighter Typhoon, F-35 Lightning II, and the future Tempest fighter under the Global Combat Air Programme (GCAP).   Autonomous Aircraft to Support Crewed Fighters According to Luke Pollard, StormFighter will be designed to work in close coordination with crewed combat aircraft, providing additional protection and offensive capabilities during future air operations. "We are maximising our air power in the eye of the storm of future combat," Pollard said during the conference. He added that the programme is intended to help transform the Royal Air Force into Europe's first sixth-generation air force. He also described the autonomous aircraft as serving as both a "guardian angel" and an "attack dog" for crewed fighters, supporting operations in increasingly complex combat environments where drones, sixth-generation aircraft, and advanced electronic warfare systems are expected to operate together.   Builds on Earlier UK Autonomous Programmes StormFighter expands on previous UK efforts to integrate autonomous systems into air operations. One of these is Storm Shroud, an uncrewed electronic warfare system introduced in 2025 to operate alongside Typhoon aircraft by disrupting and suppressing enemy radar systems. The programme also follows Project Vanquish, which has been testing jet-powered autonomous aircraft in support of F-35B operations. These projects are part of the UK's broader effort to develop Collaborative Combat Aircraft capable of working as force multipliers for crewed platforms. Several defence companies, including BAE Systems and Boeing, have already expressed interest in participating in the StormFighter programme. A formal set of programme requirements is expected to be issued by the UK government.   Part of Wider Defence Investment Plan StormFighter forms part of the UK's £298 billion Defence Investment Plan, which includes £31 billion for air and space capabilities over the next four years. Within that investment, the government has increased overall funding for drones and advanced uncrewed systems to £5 billion, reflecting a greater focus on autonomous military technologies. Other major air and space investments announced under the plan include: £8.6 billion for the design and testing phase of the Global Combat Air Programme (GCAP). £1.1 billion to upgrade and sustain the Typhoon fleet into the 2040s. Funding to support future F-35A capabilities. More than £4.5 billion for transport aircraft fleets, including the A400M Atlas, Voyager, and C-17 Globemaster III. £360 million to modernise the UK's military jet training system, including future aircraft for the Red Arrows. Pollard said the investments are intended to build a hybrid, digitally integrated and AI-enabled air force, combining crewed and autonomous aircraft to strengthen future operational capabilities.   Focus on Future Air Combat Collaborative Combat Aircraft (CCA) are increasingly becoming a priority for several air forces as they seek to integrate autonomous systems with manned aircraft. These aircraft are designed to perform missions such as reconnaissance, electronic warfare, decoy operations, and strike support while remaining under the supervision of human operators. The United Kingdom's StormFighter programme reflects this approach by developing autonomous aircraft that can operate as part of a networked force alongside existing and next-generation fighter aircraft. The announcement was made during the Global Air and Space Chiefs' Conference, which brings together military leaders, defence industry representatives, and experts to discuss developments in air and space power. This year's conference focused on topics including space operations, nuclear capabilities, integrated air and missile defence, and future air combat technologies.     Source : gov.uk

Read More → Posted on 2026-07-16 15:23:34
 U.S 

WASHINGTON — The U.S. Department of State has approved a possible Foreign Military Sale (FMS) to the Kingdom of Saudi Arabia for Advanced Precision Kill Weapon Systems (APKWS II) and related equipment, with an estimated total value of $1.96 billion. The proposed sale is intended to strengthen Saudi Arabia's homeland defense, improve interoperability with U.S. and allied forces, and enhance its air-to-air and air-to-ground self-defense capabilities. The U.S. government said the proposed sale supports its foreign policy and national security objectives by improving the security of Saudi Arabia, a Major non-NATO Ally, which it described as a force for political stability and economic progress in the Gulf region.   Package Includes 20,000 APKWS II Guidance Sections Saudi Arabia has requested the purchase of up to 20,000 APKWS II laser-guided guidance sections, consisting of: Up to 10,000 APKWS II air-to-air guidance sections Up to 10,000 APKWS II air-to-ground guidance sections The proposed package also includes a range of non-major defense equipment and support items, including: LAU-131 A/A launchers Mk-152 high-explosive warheads MK66 rocket motors Inert MK66 rocket motors Proximity fuzes WTU-1/B practice warheads Test support equipment Launch and employment equipment Spare and repair parts Publications and technical documentation Personnel training, training equipment, and support equipment Transportation U.S. Government and contractor engineering, technical, logistics, and program support services The principal contractor for the proposed sale is BAE Systems, based in Nashua, New Hampshire.   APKWS II Converts Standard Rockets into Precision Weapons The Advanced Precision Kill Weapon System II (APKWS II) is a laser-guidance kit that converts standard 70 mm (2.75-inch) Hydra rockets into precision-guided weapons. Instead of using a completely new missile, the system installs a laser guidance section between the rocket motor and the warhead, allowing existing rockets to strike targets with greater accuracy. The system is designed for both air-to-air and air-to-ground missions and provides a lower-cost precision engagement option compared with larger guided missiles. Its accuracy helps reduce collateral damage while engaging drones, lightly armored vehicles, and other designated targets. APKWS II has been integrated on multiple fixed-wing aircraft and helicopters operated by the U.S. military and international partners.   Strengthening Saudi Arabia's Defense Capabilities According to the U.S. State Department, the proposed sale will improve Saudi Arabia's ability to deter current and future threats by strengthening homeland defense. It will also augment the kingdom's operational aircraft and enhance both its air-to-air and air-to-ground self-defense capabilities. U.S. officials stated that Saudi Arabia will have no difficulty absorbing the equipment and services into its armed forces because it already operates compatible aircraft and weapon systems. The package also includes training, maintenance assistance, and logistics support to ensure effective operation and sustainment of the systems.   Program Support and Implementation Implementation of the proposed sale will require the assignment of 15 additional U.S. Government representatives and 15 U.S. contractor representatives to Saudi Arabia for an extended period. Their responsibilities will include program oversight, technical reviews, training, and in-country maintenance support. The U.S. government also stated that it is not aware of any offset agreement associated with the proposed sale. Any such agreement would be negotiated separately between Saudi Arabia and the contractor if required.   Congressional Review Required The Defense Security Cooperation Agency (DSCA) has notified the U.S. Congress of the proposed Foreign Military Sale in accordance with U.S. law. The notification begins the congressional review process and does not constitute a final contract. Final terms, delivery schedules, and implementation timelines will be determined if the sale proceeds following the review period. The U.S. government further stated that the proposed sale will not alter the basic military balance in the region and will have no adverse impact on U.S. defense readiness.   Source : state.gov

Read More → Posted on 2026-07-16 15:09:28
 U.S 

WASHINGTON — US Vice President JD Vance has alleged that certain elements within the Israeli government supported a well-funded influence campaign aimed at undermining Washington's diplomatic negotiations with Iran. Vance made the remarks during an interview on The Joe Rogan Experience podcast released on Wednesday. Vance claimed the campaign sought to shape American public opinion against a recently negotiated US-Iran memorandum of understanding (MOU). Citing a Time magazine report and filings under the Foreign Agents Registration Act (FARA), he said former Trump campaign manager Brad Parscale and his firm, Clock Tower X, were hired through an advertising agency working on behalf of the Israeli government. According to Vance, the campaign was officially presented as an effort to combat online antisemitism but was instead used to influence opinion against the negotiations. He also alleged that some individuals involved in the campaign personally targeted him because of his role in the administration's diplomatic efforts with Iran. Speaking on the podcast, Vance described the effort as a "very discreet, extremely well-funded campaign" intended to derail the negotiations. He said his responsibility was to act in the interests of the American people, despite criticism directed at him during the talks. Brad Parscale rejected the allegations, stating that claims he worked against the administration or the US-Iran negotiations were false. He maintained that the campaign's purpose was to strengthen support for Israel among younger Americans and not to interfere with US diplomacy. Israeli officials had not issued an immediate public response to Vance's comments. Earlier this week, Vance also said that criticism from some hardline Israeli cabinet members was based on what he described as misinformation. The remarks come as US-Iran negotiations continue alongside renewed military tensions. Although President Donald Trump recently ordered the resumption of coordinated airstrikes against Iran, Vance said diplomatic efforts remain active. He reiterated that the administration's priorities are preventing Iran from acquiring a nuclear weapon and ensuring the continued free flow of global energy supplies through the Strait of Hormuz.   Source : timesofindia

Read More → Posted on 2026-07-16 14:50:38
 World 

TOKYO — Newly published satellite imagery has confirmed the deployment of elements of the U.S. Army's Typhon Mid-Range Capability missile system to Kanoya Air Base in Japan, providing visual confirmation of a deployment that had been announced earlier by U.S. and Japanese authorities. The images, released by Chinese satellite analysis firm MizarVision, show equipment consistent with the Typhon missile battery at the Japan Maritime Self-Defense Force's Kanoya Air Base in Kagoshima Prefecture on the southern island of Kyushu. The deployment is part of a temporary U.S.-Japan military cooperation program focused on joint training and interoperability.   Satellite Imagery Confirms Deployment According to MizarVision's analysis, the satellite images identify several components associated with the Typhon system, including truck-mounted launchers, a battery operations center, and supporting equipment. While the deployment itself had already been publicly announced, the newly released imagery provides visual confirmation that the system has arrived at the base. The Typhon system was transported to Japan by the U.S. Army's 3rd Multi-Domain Task Force, based at Fort Shafter, Hawaii, under plans announced by Japan's Ministry of Defense in May 2026.   Typhon Missile System Capabilities The Typhon Mid-Range Capability is a mobile, ground-based missile system designed to launch both Tomahawk land-attack cruise missiles and SM-6 multipurpose missiles. The Tomahawk cruise missile has an operational range of approximately 1,600 kilometers (994 miles), enabling long-range precision strikes against land targets. The SM-6 missile is designed for multiple missions, including intercepting aircraft, incoming missiles, while also being capable of engaging maritime and ground targets. Military analysts note that the Typhon system was developed to provide the U.S. Army with long-range precision strike capabilities after the United States withdrew from the Intermediate-Range Nuclear Forces (INF) Treaty in 2019, allowing the development and deployment of ground-launched missiles previously restricted under the agreement.   Joint Exercises in Japan The Typhon deployment supports a series of U.S.-Japan military exercises aimed at improving operational coordination in the Western Pacific and East China Sea. The system participated in Valiant Shield 2026, a biennial multinational exercise conducted from June 22 to July 1 across Japan, Hawaii, Guam, and surrounding waters. Following that exercise, the Typhon battery is expected to remain in Japan for Orient Shield, the annual U.S.-Japan ground forces exercise scheduled for September. Japanese officials have stated that no live firing of either the Typhon system or the High Mobility Artillery Rocket Systems (HIMARS) will take place while they are stationed at Kanoya Air Base. After the training activities conclude, the Typhon system is scheduled to be moved to a U.S. military facility in Japan for storage by mid-October. This marks the system's second temporary deployment to Japan. During its first visit in September 2025, the Typhon battery was stationed at Marine Corps Air Station Iwakuni for the Resolute Dragon exercise before being withdrawn from the country several months later.   Strategic Significance The deployment has drawn attention because of the Typhon system's long-range strike capability. According to Chinese military analyst Fu Qianshao, speaking to the South China Morning Post, the Tomahawk missile's approximately 1,600-kilometer range means that, if launched from Kyushu, it could theoretically reach major Chinese coastal areas, including Shanghai and parts of Fujian and Zhejiang provinces. Although the deployment is temporary and intended for military exercises, it reflects broader efforts by the United States and Japan to strengthen joint operational capabilities and deterrence in the Indo-Pacific region.   Regional Response China and Russia have repeatedly criticized the deployment of U.S. land-based missile systems in the Indo-Pacific. Following the announcement of the Typhon deployment, China's Foreign Ministry described the system as a "strategic offensive weapon," arguing that its presence could affect regional security and increase the risk of an arms race. The deployment comes as the United States continues expanding the operational use of the Typhon system in the region. Earlier this year, the U.S. Army used the system to launch a Tomahawk missile during the Balikatan military exercises in the Philippines. Japan is also preparing to receive its own Tomahawk cruise missiles later this year as part of its plans to strengthen long-range strike capabilities under its updated national defense strategy. The temporary deployment of the Typhon missile system to Kanoya Air Base highlights the continuing expansion of U.S.-Japan defense cooperation, with both countries emphasizing improved interoperability and preparedness through joint training while confirming that no live missile launches are planned during the current deployment. Source : MizarVision

Read More → Posted on 2026-07-16 14:33:19
 World 

TEL AVIV, Israel — Israeli defense technology company Axon Vision has officially launched ForceField, a new artificial intelligence-powered counter-drone system designed to protect maneuvering military forces, tanks, armored vehicles, and other ground units from the growing threat of first-person-view (FPV) drones. The company said ForceField has been developed specifically to counter fiber-optic-controlled FPV drones, a type of drone that cannot be neutralized using conventional electronic warfare systems because it does not rely on radio-frequency communications.   Designed to Counter Fiber-Optic FPV Drones FPV drones have become an increasingly common threat on modern battlefields because they allow operators wearing video goggles to guide small drones directly onto targets with high precision. Their relatively low cost and ability to damage expensive military equipment have made them a significant concern for armed forces. A newer generation of FPV drones uses fiber-optic cables instead of wireless radio links to communicate with the operator. Since these drones do not transmit radio signals, traditional electronic warfare jammers cannot disrupt their control systems. This has created a need for new defensive technologies capable of detecting and defeating such threats without relying on electronic jamming. ForceField was developed to address this operational challenge.   AI-Based Detect, Understand and Respond Process ForceField is built around Axon Vision's EDGE AI technology, which the company has developed over several years through programs with Israel's Ministry of Defense. The system follows a three-stage operational process: Detect: Passive sensors continuously search for incoming drone threats during both day and night without emitting radar or other active signals that could reveal the location of friendly forces. Understand: Artificial intelligence analyzes and classifies detected objects in real time to determine whether they pose a threat. Respond: The system operates under a Man-on-the-Loop framework, where AI assists with detection and targeting while a human operator retains final authority to approve or stop weapon engagement.   Uses Standard Military Ammunition Instead of relying on electronic jamming or laser weapons, ForceField defeats incoming drones using an integrated kinetic response, firing physical projectiles to intercept the target. The system is designed to use standard weapons and ammunition already available in military inventories, eliminating the need for specialized interceptors. This approach helps reduce procurement costs and simplifies logistics by allowing armed forces to use existing ammunition supplies. ForceField functions as a self-contained protective system that can be installed on existing armored vehicles without extensive modifications to onboard electronics. It also operates independently without requiring continuous communication with command centers or external radar networks.   Successfully Tested in Live-Fire Trials ForceField completed development following a series of live-fire trials conducted under operationally representative conditions. During the testing, the system successfully detected, tracked and intercepted actual FPV drone targets in real time. In addition to offering ForceField as a complete counter-drone solution, Axon Vision is also making its modular EDGE AI and detection technology available for integration into existing remote weapon stations and defense platforms developed by other manufacturers.   Company Expanding International Presence Founded in 2017 by veterans of elite Israeli military technology units, Axon Vision previously raised approximately $26 million through its initial public offering on the Tel Aviv Stock Exchange to support international expansion. The company is currently conducting evaluations of ForceField with customers in Israel and international markets. Its international expansion follows a strategic cooperation agreement signed with Leonardo DRS in late 2025 to introduce AI-enabled counter-drone technologies to the U.S. market. Under that partnership, Leonardo DRS placed a $350,000 order in January 2026 for demonstrator systems that are currently undergoing evaluation by U.S. defense and homeland security agencies. Earlier this year, Axon Vision also announced that its EDGE ClearSky drone detection system successfully completed operational evaluations with an unnamed defense force. ForceField expands the company's portfolio of AI-based defense technologies as militaries seek new methods to counter increasingly capable FPV drone threats, including fiber-optic-controlled systems that cannot be defeated using conventional electronic warfare.   Source : unmannedairspace

Read More → Posted on 2026-07-16 14:13:55
 World 

MELBOURNE, Fla. — L3Harris Technologies and Shield AI have successfully completed the first live flight test integrating L3Harris' Distributed Spectrum Collaboration and Operations (DiSCO™) electromagnetic battle management ecosystem with Shield AI's Hivemind mission-autonomy software, marking a significant step forward in autonomous electronic warfare capabilities. The flight demonstration was conducted using an L3Harris Green Wolf unmanned aircraft system (UAS). It follows a hardware-in-the-loop simulated demonstration completed in February 2026, advancing the technology from simulation to live flight testing. During the test on a live flight range, the unmanned aircraft systems detected, analyzed and responded to electromagnetic threats without human intervention. The Green Wolf, equipped with Hivemind autonomy software, used threat information generated by the DiSCO system to autonomously make flight decisions and reroute follow-on unmanned aircraft through a safe operating zone in real time. According to L3Harris, the demonstration validated the ability of autonomous systems to sense unknown electromagnetic threats, share information across connected platforms, and coordinate responses without requiring direct operator control. The mission also featured the Deceptor™ electronic warfare payload, a compact software-defined system deployed on multiple unmanned aircraft. During the exercise, the payload detected and characterized unknown threats before sharing the information through the DiSCO network. Hivemind then used that data to coordinate the movement of additional unmanned systems through a safe flight path. Lauren Barnes, President of Spectrum Superiority, Communications & Spectrum Dominance at L3Harris, said the demonstration showed how rapidly new technologies can transition into operational capability. "This successful demonstration shows how quickly we can transform concepts into operational capability for the joint force. By pairing autonomous decision-making with advanced spectrum battle management, we're giving warfighters the resilience and speed they need to stay ahead of rapidly evolving threats." Christian Gutierrez, Senior Vice President of Hivemind at Shield AI, said integrating DiSCO with Hivemind created capabilities beyond what either system could achieve independently. "L3Harris brings some of the most advanced electronic warfare capabilities in the world, and pairing DiSCO with Hivemind onboard Green Wolf produced something neither system could deliver alone. This flight test proved Hivemind can compress the sensor-to-decision cycle in real time, enabling autonomous systems to sense, share, and act on spectrum threats faster than ever before." The demonstration also validated the Green Wolf platform as a multi-mission launched effects system capable of supporting distributed and networked electronic warfare operations. During the test, the aircraft was equipped with advanced threat detection and electronic attack capabilities, demonstrating its ability to operate as part of a coordinated unmanned force. Electronic warfare has become increasingly important in modern military operations as armed forces rely heavily on the electromagnetic spectrum for communications, radar, navigation and command-and-control systems. Autonomous technologies are being developed to help military platforms detect, process and respond to rapidly changing spectrum threats faster than human operators can manage in highly contested environments. L3Harris and Shield AI said they will continue expanding the system's mission applications through an open architecture approach, with further development focused on autonomous electronic warfare capabilities at the tactical edge. The companies aim to enhance coordination between unmanned systems while improving their ability to operate in complex electromagnetic environments.   Source : shield.ai

Read More → Posted on 2026-07-16 14:01:17
 Europe 

STOCKHOLM  — Swedish defense company Saab has secured a contract worth approximately SEK 8.7 billion (around US$830 million) from thyssenkrupp Marine Systems (TKMS) to supply and integrate combat systems, sensors, and composite structures for the German Navy's new MEKO A-200 DEU class frigates. Under the agreement, Saab will provide equipment for four frigates that will be built in Germany, with TKMS serving as the prime contractor for the program. Saab's deliveries are scheduled to take place between 2029 and 2032. The contract also includes an option to equip additional frigates if Germany expands the program in the future.   Contract Supports German Navy Modernization The order is part of Germany's broader effort to modernize its naval fleet and strengthen its capabilities in air, surface, and underwater warfare. The new MEKO A-200 DEU frigates are expected to improve the German Navy's operational readiness while supporting interoperability with NATO partner navies through modern combat management and command-and-control systems. Saab said the integrated combat systems will help simplify joint operations and information sharing with allied naval forces that operate compatible command-and-control networks. Commenting on the contract, Micael Johansson, President and CEO of Saab, said the agreement reflects the company's long-standing partnership with Germany and the Bundeswehr. "It is with great pride that we continue to build on our long and strong relationship and commitment to Germany and the Bundeswehr, while together with TKMS strengthening the German Navy. These deliveries will significantly enhance the Navy's anti-air-, anti-submarine- and anti-surface warfare capabilities," Johansson said.   Saab to Deliver Combat Systems, Radars and Composite Structures As part of the contract, Saab will equip the frigates with its 9LV Combat System, which combines a Combat Management System (CMS) and a Fire Control System (FCS). Together, these systems manage sensor data, coordinate weapons, and support command decisions during naval operations. The sensor package includes: Sea Giraffe 4A Fixed Face, a long-range Active Electronically Scanned Array (AESA) surveillance radar capable of detecting targets at distances of up to 400 kilometers and tracking more than 1,000 targets simultaneously. Sea Giraffe 1X, a lightweight multi-mission radar designed to detect low-flying aircraft, unmanned aerial systems, fast attack craft, and sea-skimming missiles at ranges of up to 75 kilometers. Passive sensor systems, which conduct electronic surveillance and detect threats without transmitting signals, helping improve situational awareness while reducing the vessel's electronic signature.   Composite Superstructures to Reduce Weight and Radar Signature In addition to the combat systems and sensors, Saab will manufacture composite superstructures for the new frigates. Compared with conventional steel structures, composite materials reduce overall ship weight, improve corrosion resistance and structural durability, and help lower the vessels' radar signature. The lighter structures are also expected to improve operational efficiency, support long-term maintenance, and enhance survivability in modern maritime environments.   Cooperation Between Saab and TKMS The project combines Saab's naval combat-system technology with TKMS's shipbuilding expertise. While the frigates will be constructed in Germany, Saab will integrate the ships' combat systems and mission equipment during the delivery period from 2029 to 2032. The agreement also provides an option to equip additional frigates beyond the initial four ships, allowing flexibility for future expansion of the German Navy's fleet. The MEKO A-200 DEU program is expected to become an important element of Germany's naval modernization strategy over the coming decade by introducing updated combat systems, advanced surveillance capabilities, improved survivability, and enhanced interoperability for future national and NATO maritime operations.   Source : saab

Read More → Posted on 2026-07-16 13:02:05
 World 

DUBAI — Iran has asked Yemen's Houthi movement to prepare to close the Bab el-Mandeb strait, the southern gateway to the Red Sea, if the United States launches strikes on Iranian power infrastructure, according to three regional sources familiar with the matter. The request comes as tensions between Tehran and Washington continue to rise. According to two senior Iranian sources and one regional official, Iran's leadership has discussed the plan internally and recently informed the Houthis to remain ready for possible action. The sources spoke on condition of anonymity because of the sensitivity of the issue. The reported move follows U.S. President Donald Trump's warning earlier this week that the United States could target Iran's power grid. Regional sources said Iran is treating the possibility seriously and views the threat of disrupting another major global shipping route as a potential deterrent. Iran's Foreign Ministry and Houthi representatives did not immediately respond to requests for comment.   Houthis Reportedly Ready to Act A source close to the Houthis said the group has already positioned drones and missiles in Yemen near the Gulf of Aden and around areas overlooking the Bab el-Mandeb strait, including the vicinity of the port of Hodeidah. According to the source, the weapons are ready and the group is awaiting further instructions before targeting commercial shipping. The same source said representatives of Iran's Islamic Revolutionary Guard Corps (IRGC) currently in Yemen would decide when any operation should begin.   Risk of Disruption at Two Major Maritime Chokepoints The latest development comes after Iran's closure of the Strait of Hormuz earlier this year during the ongoing regional conflict. Before the conflict, the Strait of Hormuz handled about 20% of global energy supplies, making it one of the world's most important oil transit routes. Since the Hormuz closure, Saudi Arabia has redirected a significant portion of its oil exports through pipelines to the Red Sea port of Yanbu. Regional sources estimate that around 70% of Saudi energy exports are now moving through the Red Sea, which currently carries approximately 7% of global energy supplies. If the Bab el-Mandeb strait were also blocked, two of the Middle East's most important oil export routes would be disrupted at the same time, creating additional pressure on global energy markets.   Global Trade Could Face Major Disruptions The Bab el-Mandeb strait connects the Gulf of Aden with the Red Sea and serves as a critical gateway to the Suez Canal. Under normal conditions, the Red Sea route carries between 12% and 15% of global maritime trade and approximately 30% of the world's container shipping traffic. A simultaneous disruption of both the Strait of Hormuz and the Bab el-Mandeb would force many commercial vessels to avoid the Red Sea and instead sail around the Cape of Good Hope at the southern tip of Africa. The alternative route typically adds 10 to 15 days to shipping times while increasing fuel costs, freight rates, and marine insurance premiums. Europe would likely face delays in imports of manufactured goods from Asia as well as higher transportation costs for energy supplies from the Gulf. Egypt could also experience significant economic losses because of reduced traffic through the Suez Canal, an important source of foreign currency revenue. Major Asian economies, including India and China, could also experience longer delivery times and higher shipping costs for trade with Europe. Countries in East Africa that depend heavily on imported grain from Europe and the Black Sea region could face additional supply challenges.   Saudi Arabia Monitoring Situation Regional sources said Saudi Arabia is taking the reported Iranian-Houthi coordination seriously, particularly after recent Houthi missile attacks on Saudi territory ended a four-year truce. The Houthis said those attacks followed Saudi airstrikes on an airport under their control. Analysts say any expansion of the conflict into Red Sea shipping would increase pressure on energy markets and international trade. Torbjorn Solvedt, Principal Middle East Analyst at Verisk Maplecroft, said that if the conflict spreads to Red Sea export infrastructure and commercial shipping, it would threaten the region's main alternative route for oil exports following the closure of the Strait of Hormuz. One Iranian source said disrupting shipping through the Bab el-Mandeb would not necessarily require advanced military capabilities, adding that even relatively simple attacks could interrupt commercial maritime traffic.   Wider Regional Implications The Houthis have not formally entered the current Iran-U.S. conflict but remain closely aligned with Tehran as part of the "Axis of Resistance," a regional network that also includes Lebanon's Hezbollah and Iraqi Shi'ite armed groups. The United States has repeatedly accused Iran of supplying the Houthis with weapons, funding and military training, including support through Hezbollah. Tehran has consistently denied those allegations, saying Washington continues to destabilize the region. Analysts note that any attempt to block both the Strait of Hormuz and the Bab el-Mandeb would significantly affect global energy supplies and international trade. Such a move could increase pressure for coordinated international efforts to secure the two strategic waterways while also raising concerns over further escalation across the Middle East. The situation remains fluid, and there has been no official confirmation from either Iran or the Houthis regarding the reported plan.   Source : reuters

Read More → Posted on 2026-07-16 12:37:45
 Europe 

SHEFFIELD, United Kingdom — The United Kingdom has delivered the first British-made artillery barrel forgings to Ukraine in almost 20 years, marking the start of a £61 million programme awarded by the UK Ministry of Defence (MoD) to BAE Systems. The programme will provide a total of 150 artillery barrel forgings to support Ukraine's artillery capability. The programme, which was announced by Ukrainian President Volodymyr Zelenskyy last year, marks the return of a manufacturing capability that had not existed in the UK for nearly two decades.   First Deliveries Sent for Testing The first shipment includes four development forgings for 105mm and 155mm artillery gun barrels. These initial units have been sent to Ukraine to allow local industry partners to test and validate their manufacturing and integration processes before full-scale production begins. The barrel forgings are manufactured in South Yorkshire before being transported to Ukraine, where they undergo final machining, finishing, and integration into operational artillery systems. Production is currently running at eight barrel forgings per month, with deliveries expected to continue as manufacturing expands under the contract.   Rebuilding a Key UK Defence Manufacturing Capability The barrel forgings are being produced at Sheffield Forgemasters, an MoD-owned company employing around 780 skilled workers. The programme restores a sovereign defence manufacturing capability that the UK had relied on overseas suppliers for over the past 20 years. To strengthen domestic heavy engineering and steel production, the UK government invested more than £420 million in Sheffield Forgemasters last year. The programme also coincides with the opening of BAE Systems' new £25 million artillery manufacturing facility in Sheffield. The 94,000-square-foot facility is expected to support around 100 highly skilled engineering and manufacturing jobs, reinforcing Sheffield's role as a centre for UK howitzer production. More than 60 companies across the UK supply chain are also expected to benefit from the programme through manufacturing, engineering, and component production.   Defence Secretary Highlights Industrial and Security Benefits UK Defence Secretary Dan Jarvis MBE MP visited Sheffield Forgemasters to meet employees and representatives from BAE Systems as the first deliveries were prepared. "The barrels produced here in South Yorkshire – the first made in Britain in almost two decades – will help Ukraine on the battlefield, while creating valuable skilled jobs in the UK," Jarvis said. He added that the government's £298 billion Defence Investment Plan is designed to strengthen national security, support allies, and expand defence manufacturing across the United Kingdom.   BAE Systems: Long-Term Investment Restores Critical Capability Giles Ambrose, Engineering, Technology and Strategy Director for BAE Systems Weapon Systems UK, described the restart of artillery barrel production as an important step for both the company and the UK's defence industry. "Restarting British artillery barrel production in Sheffield is a significant milestone for both BAE Systems and Sheffield Forgemasters," Ambrose said. "It demonstrates the importance of long-term investment in sovereign defence capability." He added that the programme reflects the UK's ability to rebuild critical industrial skills and manufacturing capacity through cooperation between BAE Systems, Sheffield Forgemasters, and suppliers across the country.   Supporting Ukraine While Strengthening UK Industry Artillery remains one of the most heavily used weapon systems in the war in Ukraine, with sustained operations placing significant wear on gun barrels. Regular replacement of barrels is necessary to maintain the accuracy, safety, and operational readiness of artillery systems. Under the programme, the UK will continue delivering the remaining 150 artillery barrel forgings as production increases. Alongside supporting Ukraine's defence requirements, the project strengthens the UK's domestic defence manufacturing base, expands industrial capacity, and helps rebuild a strategic capability that had been absent for nearly two decades.     Source : baesystems

Read More → Posted on 2026-07-16 12:08:23
 U.S 

California, United States  — The U.S. Army has signed a three-year Cooperative Research and Development Agreement (CRADA) with California-based startup Auriga Space to explore the use of electromagnetic launch technology for counter-drone defense. The research will be carried out in partnership with the Army's Combat Capabilities Development Command Armaments Center (DEVCOM AC), based in New Jersey, United States, to evaluate whether magnetic propulsion can provide an alternative to conventional chemical-propellant interceptor systems. The agreement focuses on developing electromagnetic accelerators capable of launching counter-drone interceptors without relying on traditional rocket motors. The effort comes as the U.S. military looks for more affordable and rapidly deployable solutions to counter the growing threat posed by large numbers of low-cost unmanned aerial systems.   Addressing the Cost of Countering Drone Swarms Modern air defense systems rely heavily on conventional interceptors that are effective but costly and time-consuming to manufacture. In contrast, many drones can be produced at a much lower cost, creating an economic challenge for air defense operations. The issue was highlighted during recent U.S. military operations involving Iran, where American forces reportedly fired more than 1,000 Patriot interceptors. According to an analysis by the Center for Strategic and International Studies (CSIS) in Washington, D.C., only 172 interceptors were replenished during the same period. With each PAC-3 Patriot interceptor costing about $4 million, CSIS estimates that U.S. stockpiles may not fully recover from the deficit until at least 2029. Production of conventional missiles also faces supply chain constraints. Many U.S. interceptor systems, including the Patriot and Terminal High Altitude Area Defense (THAAD), use solid rocket motors that depend on ammonium perchlorate, the primary oxidizer for these motors. The United States currently relies on a single domestic producer of this material, limiting the ability to rapidly increase missile production regardless of additional funding.   Electromagnetic Launch Technology Auriga Space's approach eliminates the need for solid rocket motors by using electromagnetic propulsion. The technology accelerates projectiles along a launch track using electricity and precisely controlled magnetic fields, based on principles similar to those used in magnetic levitation (maglev) trains. Because the launch process does not rely on chemical propellants or explosions, it reduces mechanical wear on the launcher and removes the dependence on ammonium perchlorate. This allows the launcher to be reused for thousands of engagements while enabling operators to reload and fire again within seconds. The company says the lower operating cost means that, after the launcher is deployed, each engagement primarily involves the cost of the interceptor's warhead and guidance components rather than an entire rocket propulsion system. This rapid reloading capability is intended to provide what the defense industry refers to as a "deep magazine," allowing continuous engagement of multiple aerial targets.   Hermes Counter-Drone Platform Auriga's primary counter-drone system, known as Hermes, is a transportable, containerized electromagnetic launch platform designed for deployment in a variety of operational environments. The modular system is intended for use at forward operating bases, aboard naval vessels, and at fixed infrastructure sites requiring protection against drone attacks. Following laboratory validation, Auriga plans to conduct the first outdoor flight test of the Hermes platform later this summer. The demonstration is expected to evaluate the system's performance under operational field conditions. Winnie Lai, founder and CEO of Auriga Space, said the partnership addresses one of the most significant challenges in modern air defense. "Attritable drones cost adversaries far less and are far easier to deploy and replenish than present interceptors, and it's one of the most timely and urgent challenges in modern warfare," Lai said. "Electromagnetic propulsion solves for the structural issues with economics and cadence. It's a working technology we at Auriga are already actively testing, and partnering with DEVCOM AC on further research will bring it that much closer to a deployable capability." Role of the CRADA The collaboration is being conducted under a Cooperative Research and Development Agreement (CRADA), a framework that allows U.S. government laboratories and private companies to share technical expertise, facilities, and research without exchanging funding. Such agreements are commonly used by the Department of Defense, headquartered in Arlington, Virginia, to evaluate emerging technologies before considering future procurement programs.   Auriga's Ongoing Defense Programs In addition to the Army partnership, Auriga Space is involved in several U.S. defense research efforts. The company has received a research award from the Missile Defense Agency and a $1.25 million Small Business Innovation Research (SBIR) grant through the U.S. Air Force's innovation organization, AFWERX. Auriga also operates two hypersonic ground-testing systems: Thor, an outdoor electromagnetic test track, and Prometheus, an indoor accelerator. These facilities are used to evaluate how materials and components perform under extremely high-speed conditions. Founded in 2022 by Winnie Lai, formerly a vice president at launch company SpinLaunch, Auriga Space operates a vertically integrated research and development facility in Southern California, where it designs and manufactures its own hardware. The company has raised more than $12 million through venture capital investment and defense-related grants to support the development of its electromagnetic propulsion technologies.   Source : interestingengineering

Read More → Posted on 2026-07-16 12:00:32
 U.S 

EDWARDS AIR FORCE BASE, Calif. — The U.S. Air Force has successfully completed the first live missile launch from an unmanned Collaborative Combat Aircraft (CCA), marking a major milestone in the service's effort to develop autonomous wingman drones for future air operations. The test took place over a restricted training range in the Mojave Desert using the YFQ-44A "Fury", an unmanned aircraft developed by Anduril Industries. During the demonstration, the drone launched a live AIM-120 Advanced Medium-Range Air-to-Air Missile (AMRAAM) against a digital target in an end-to-end, beyond-line-of-sight engagement. According to the Air Force, the YFQ-44A operated from Edwards Air Force Base and received target tracking information through Anduril's Lattice software platform, which processed the data before the engagement. Air Force Chief of Staff Gen. Kenneth Wilsbach confirmed that the AIM-120 successfully tracked the target immediately after launch. The live-fire event represents the first successful weapons test by an aircraft in the Air Force's Collaborative Combat Aircraft (CCA) program, which is intended to introduce unmanned aircraft capable of operating alongside crewed fighter jets.   Human Operator Controlled the Weapon Release Although the YFQ-44A is designed with advanced autonomous flight and maneuvering capabilities, the Air Force emphasized that the aircraft is not authorized to make autonomous decisions to use lethal force. During the test, a human operator received the target track, evaluated the engagement, and issued the command to launch the missile. The drone fired the AIM-120 only after receiving direct authorization, maintaining human oversight throughout the weapon employment process. Gen. Kenneth Wilsbach described the demonstration as an important step in the CCA program. "This live-fire test is an important next step in the development of Collaborative Combat Aircraft. We're one step closer to delivering capabilities to the warfighter," he said. Mark Shushnar, Anduril's Vice President of Autonomous Airpower, said the demonstration validated the complete operational sequence rather than simply releasing a weapon. According to him, the test confirmed the aircraft's ability to receive target data, process operator instructions, and execute the engagement as intended.   Test Followed Months of Development The successful missile launch was the result of a phased testing campaign conducted over several months. Earlier in 2026, the YFQ-44A carried an inert (non-explosive) AIM-120 missile during captive-carry flights to evaluate the aircraft's handling characteristics and aerodynamic performance with the weapon attached. Following those flights, engineers verified the communication links between the aircraft and the missile system in simulated environments to ensure commands from the operator would be transmitted and executed correctly before progressing to a live-fire event. The final missile launch was coordinated by the 412th Test Wing's Air Dominance Combined Test Force, which includes active-duty military personnel, government civilians, and defense contractors responsible for evaluating new air combat systems. Gen. Dale White, the Pentagon's portfolio manager for Critical Major Weapon Systems, said transitioning from inert weapon carriage to an actual missile launch provides valuable flight data that helps validate the program's digital integration models.   Part of the Collaborative Combat Aircraft Program The YFQ-44A "Fury" is one of two aircraft selected for Increment 1 of the Air Force's Collaborative Combat Aircraft (CCA) program. The second design is the YFQ-42A, developed by General Atomics. The YFQ-44A completed its first flight on October 31, 2025, and continues to undergo testing as the Air Force moves toward operational deployment. The CCA program aims to field relatively affordable autonomous aircraft that can fly alongside crewed fighters such as the F-35, F-22, and the future F-47. These robotic wingmen are intended to carry additional sensors and weapons, perform higher-risk missions, extend the reach of crewed aircraft, and increase the combat capability available to a single pilot. Rather than replacing human pilots, the aircraft are designed to support crewed operations while keeping human operators responsible for decisions involving the use of weapons. To enable large-scale procurement, the Air Force plans to acquire Collaborative Combat Aircraft at approximately one-third the cost of an F-35A, which has a unit cost of about $83 million.   Further Testing Planned The Air Force has already approved production contracts for the first phase of the CCA program. While Anduril's YFQ-44A has now completed the program's first live-fire demonstration, General Atomics is expected to conduct a similar live missile test with its YFQ-42A "Dark Merlin" later this fall. The United States is not alone in developing autonomous combat aircraft. Similar loyal wingman programs are also progressing internationally, including Australia's MQ-28 Ghost Bat and Turkey's Kızılelma, both of which have recently conducted weapon-related testing as countries continue developing unmanned aircraft designed to operate alongside manned fighter fleets.   Source : Anduril Industries

Read More → Posted on 2026-07-16 11:32:31
 World 

MOSCOW — Russia's state-owned defense and technology corporation Rostec has unveiled a new modular protection system called "Pautina" (Web), designed to help protect critical industrial and energy infrastructure from unmanned aerial vehicle (UAV) attacks. The system was developed by RT-Project Technologies, a subsidiary of Rostec, in partnership with Standard Electric. It was presented during a regional mission of the state corporation in the Tver Region. According to the developers, the Pautina system is currently undergoing trial operation at several facilities in Russia's fuel and energy sector to evaluate its performance under real-world conditions.   Designed to Protect Critical Infrastructure Rostec said the Pautina system is intended to protect a wide range of facilities, including oil storage sites, fuel terminals, electrical substations, warehouses, and other critical industrial infrastructure. The modular design allows the system to protect facilities of any surface area and structures more than 25 meters high, enabling it to be adapted for different industrial sites.   Structure and Installation The Pautina system consists of load-bearing columns, a high-strength mesh, and support structures that together form a continuous protective barrier around a facility. According to Rostec, the structure is assembled entirely using bolted connections, eliminating the need for on-site welding. This installation method allows the system to be deployed in confined spaces and high-fire-risk environments, such as fuel storage facilities. The company said the approach improves installation safety while reducing construction time and overall project costs. All metal components receive factory-applied hot-dip galvanizing, providing long-term protection against corrosion and increasing the durability of the structure.   Protection Capabilities According to Rostec, the standard configuration of the Pautina system creates a continuous high-strength protective mesh around a facility that is designed to intercept incoming drones. The company states that the basic version can withstand the impact of a drone weighing up to 200 kilograms traveling at speeds of up to 250 kilometers per hour. Rostec also said the system's protective capabilities can be further enhanced without requiring a complete redesign, although the company did not provide additional technical details.   Testing and Deployment The company said the structure has successfully completed field tests for seismic stability. Testing to evaluate its effectiveness against different types of drones is continuing as part of ongoing trial operations at several fuel and energy facilities. Rostec has not released detailed performance data or disclosed how many sites are currently participating in the trial program.   Integrated Counter-Drone Protection Alexander Nazarov, Deputy Chief Executive Officer of Rostec State Corporation, said the Pautina system is designed to create a continuous protective barrier capable of stopping many long-range drones used against industrial facilities. He added that the system is intended to operate alongside other Rostec counter-drone technologies, including electronic jamming systems and kinetic interception systems, providing an additional layer of protection for critical civilian infrastructure.   Broader Infrastructure Protection Efforts The introduction of the Pautina system comes as Russia continues efforts to strengthen the physical protection of key energy and industrial infrastructure against long-range drone attacks. Earlier this year, leaked confidential documents from the Russian energy company Rosneft highlighted the engineering challenges involved in protecting large industrial facilities from long-range, GPS-guided drones. The documents described the limitations of conventional passive protective measures, including steel cable nets, scaffolding, and shipping containers, which can face structural constraints and regulatory requirements associated with permanent construction. The modular design of Pautina offers an alternative approach by allowing protective structures to be installed more quickly and adapted to different industrial sites without extensive permanent construction. As trial operations continue, the system may see wider deployment across Russia's fuel, energy, and other critical infrastructure sectors if it meets operational requirements during ongoing evaluations.   Source : Rostec

Read More → Posted on 2026-07-16 11:22:51
 Europe 

KYIV — Ukraine has successfully tested a domestically developed ballistic missile, marking a significant step in the country's efforts to strengthen its indigenous missile capabilities. The successful launch took place on July 14, the same day  President Volodymyr Zelenskyy’s government was dismissed as part of a cabinet reshuffle. The announcement was made by outgoing Defence Minister Mykhailo Fedorov in a farewell message reflecting on his seven-month tenure at the Ministry of Defence. Fedorov confirmed that the missile program was developed under the ministry's responsibility and described the timing of the successful test as symbolic, as it coincided with the government's dismissal. According to Fedorov, the development team made several key improvements during the program, including revising the missile's technical requirements, increasing its targeting accuracy, and reducing overall production costs by 30 percent. He did not identify the missile by name but said the project represented an important advancement for Ukraine's domestic missile industry.   Ballistic Missile Marks New Capability The successful test represents an important development in Ukraine's long-range strike capability. Unlike drones and cruise missiles, which fly relatively low and are powered throughout most of their flight, ballistic missiles follow a different trajectory. They are launched by rocket propulsion on a steep ascent before following a high-speed arc toward their target, reducing the time available for air defence systems to respond. Ukraine has increasingly focused on expanding its domestic missile production as part of broader efforts to reduce dependence on foreign military supplies while strengthening its defence industry during the ongoing war.   Analysts Point to Sapsan Missile System Although Fedorov did not disclose the missile's identity, Ukrainian defence publication Militarnyi assessed that the tested system is likely the 1KR1 Sapsan operational-tactical ballistic missile system, also known by its export designation Hrim-2. Analysts noted that Fedorov specifically described the program as a Ministry of Defence project, making it unlikely to be the privately developed FP-7 or FP-9 ballistic missiles produced by Ukrainian company Fire Point. The Sapsan missile system, developed by the state-owned KB Pivdenne design bureau, reportedly entered serial production and systematic operational use in 2025. According to publicly available information, the missile can carry a 480 to 500-kilogram warhead to ranges of up to 500 kilometers, with reported speeds between Mach 5.2 and Mach 7.   Procurement Reforms and Lower Production Costs Fedorov linked the missile program's achievements to wider procurement reforms introduced during his time as Defence Minister. He has promoted greater competition in defence procurement by expanding the use of open tenders instead of traditional closed purchasing processes. Earlier, Fedorov said a competitive tender for 155 mm artillery shells reduced the unit price by approximately $1,000 per shell, generating total savings of around $100 million for Ukraine. It remains unclear whether the reported 30 percent reduction in ballistic missile production costs resulted from procurement reforms, engineering improvements, or a combination of both.   Long-Term Missile Production Plans Ukraine has accelerated investment in domestic missile production over the past two years. President Volodymyr Zelenskyy previously confirmed progress toward mass production of the Sapsan missile system in 2025. In March 2026, Ukraine's Defence Procurement Agency signed long-term contracts with domestic manufacturers covering both cruise missiles and ballistic missiles. Initial deliveries are expected to begin this year, with additional deliveries scheduled through 2027. Earlier in June 2026, Fedorov also stated that funding for Ukraine's ballistic missile development program had been fully secured, describing long-range missile capabilities as an important part of the country's defence strategy.   Test Coincides With Political Transition The missile launch occurred during a major political transition in Kyiv. Parliament voted to dismiss the government, leading to the resignation of the entire cabinet, including Fedorov. Following the reshuffle, lawmakers approved Serhii Koretskyi, the former head of state energy company Naftogaz, as Ukraine's new prime minister. The cabinet changes have triggered protests in central Kyiv and added political pressure on President Volodymyr Zelenskyy's administration as the war continues. Despite the leadership transition, the successful ballistic missile test indicates that Ukraine's domestic defence development programs are continuing under long-term procurement and production plans. Officials have not released additional technical information about the missile's performance, range during the test, or operational deployment timeline, citing security considerations.   Source : Social Post

Read More → Posted on 2026-07-16 10:59:34
 U.S 

WASHINGTON — The United States has granted the United Arab Emirates (UAE) expanded access to advanced artificial intelligence (AI) chips and other sensitive technologies after the Gulf nation supported recent U.S. military operations against Iran. The policy change, confirmed by the U.S. Commerce Department, removes many licensing requirements for exports of advanced AI chips, military equipment, commercial satellites, and other dual-use technologies to the UAE. According to The Wall Street Journal, the decision follows the UAE's military support during the recent U.S. campaign against Iran, known as Operation Epic Fury. During the operation, the UAE reportedly carried out dozens of airstrikes against Iranian targets, including a strike on a refinery located on Iran's Lavan Island. Emirati forces also intercepted hundreds of Iranian missiles and helped maintain the safe movement of commercial shipping through the Strait of Hormuz, one of the world's most important energy trade routes.   UAE Moved to Highest U.S. Export Category Under the new policy, the U.S. Commerce Department has reclassified the UAE into its highest export tier, placing it alongside close American partners such as European countries, South Korea, and India. Previously, the UAE was subject to stricter export controls that limited access to advanced U.S. technologies. The updated classification allows many sensitive technologies to be exported without the standard licensing process. The decision enables the UAE's state-backed artificial intelligence companies, G42 and Core42, to purchase advanced semiconductors from U.S. manufacturers, including Nvidia, more easily. It also removes regulatory barriers for major American technology companies such as Amazon, Apple, Google, Meta, Microsoft, and OpenAI, allowing them to move forward with plans to build large-scale AI data centers in the UAE. The UAE is currently the only country in the Middle East to receive this level of unrestricted access to U.S. technology.   Part of UAE's Technology Strategy The expanded access supports the UAE's long-term strategy to diversify its economy beyond oil by investing in artificial intelligence, cloud computing, and digital infrastructure. The Wall Street Journal also reported that G42 is taking steps toward becoming a U.S. company as part of its broader effort to strengthen technology cooperation with the United States. The Commerce Department's decision follows earlier approvals that allowed shipments of thousands of advanced AI chips to support AI infrastructure projects in the UAE. Companies including Microsoft previously received authorization to supply high-performance Nvidia GPUs for data center projects in the country. Access to advanced processors is expected to support AI model development, expansion of data centers, and other technology initiatives across the UAE.   Political and Security Questions Raised The decision has also drawn attention from some members of the U.S. Congress, who have questioned both its timing and potential national security implications. Critics have pointed to financial links between UAE leadership and President Donald Trump's family. Before Trump's second inauguration, Sheikh Tahnoun bin Zayed Al Nahyan, the UAE's National Security Advisor and chairman of G42, directed a $500 million investment to acquire a 49% stake in World Liberty Financial, a cryptocurrency venture launched by the Trump family. Senator Elizabeth Warren said the investment generated significant financial benefits for President Trump shortly before the Commerce Department approved license-free technology exports to the UAE. Representative Sydney Kamlager-Dove has also questioned whether the policy change could represent an improper exchange of financial and political benefits. National security experts have raised separate concerns over the protection of advanced U.S. technology. U.S. intelligence agencies had previously expressed concerns that G42 provided technology to China that could benefit the People's Liberation Army. G42 has denied those allegations. Some former U.S. officials have also argued that hosting some of the world's largest AI data centers outside the United States could increase the risk of unauthorized access to sensitive technologies.   U.S. and UAE Defend the Agreement Both the White House and the UAE have rejected allegations of any conflict of interest related to the technology agreement. Jeffrey Kessler of the U.S. Commerce Department described the regulatory change as "one of the most significant achievements of the administration." The department said the UAE has implemented strong security measures designed to prevent sensitive American technology from being diverted or misused. UAE Ambassador to the United States Yousef Al Otaiba welcomed the decision, saying the expanded access strengthens decades of close cooperation between the two countries. U.S. officials have also described the policy as recognition of the UAE's long-standing cooperation on regional security, including its role during recent operations against Iran. The agreement further strengthens bilateral ties while expanding opportunities for U.S. technology companies operating in the Gulf region.   Source : wsj

Read More → Posted on 2026-07-15 15:26:07
 U.S 

AUSTIN, Texas  — SuperCritical Materials, an Austin-based nuclear fuel infrastructure company, has secured an exclusive license from the U.S. Department of Energy (DOE) to commercialize a patented technology that extracts uranium directly from seawater. The agreement, announced on July 14, gives the company exclusive rights to manufacture and deploy the technology at an industrial scale in the United States, with plans to expand into allied countries in the future. The licensed technology was developed through the DOE's Office of Nuclear Energy, with research led by scientists at the Pacific Northwest National Laboratory (PNNL). It is designed to help strengthen long-term domestic nuclear fuel supplies as the United States expands the use of advanced nuclear reactors and works to reduce dependence on imported uranium.   Technology Designed to Recover Uranium From Seawater Although uranium exists in seawater at extremely low concentrations of about 3.3 parts per billion, the world's oceans contain an estimated 4.5 billion metric tons of dissolved uranium. According to the DOE, this is more than 1,000 times the world's identified land-based uranium reserves, making it a potential long-term source of nuclear fuel if extraction can be carried out economically. The patented process uses specially treated acrylic fibers coated with proprietary adsorption materials. These fibers are placed in seawater, where they selectively capture dissolved uranium ions and certain other strategic metals. Once the fibers become saturated, they are brought back onshore, where the captured materials are removed through chemical processing. The fibers can then be reused in future extraction cycles. After recovery, the uranium enters the conventional nuclear fuel cycle, including conversion, enrichment, and fuel fabrication before it can be used in nuclear power plants.   Commercial Production Plans SuperCritical Materials plans to build its first commercial facility in Texas, although the company has not yet made a final investment decision. The proposed plant is expected to produce approximately 1.85 million pounds (839,150 kilograms) of uranium annually and operate for at least 40 years. According to the company, that level of production could provide enough nuclear fuel to generate electricity for about four million households each year. SuperCritical expects commercial uranium production could begin in 2030 or 2031, subject to project approvals and development. The company said deployment in Texas will require coordination with multiple regulatory agencies, including the Texas Commission on Environmental Quality, the Texas Railroad Commission, and the U.S. Coast Guard. To support its commercialization plans, SuperCritical has raised $4.5 million in private funding and is preparing to seek a public listing on the Nasdaq later this year.   Supporting U.S. Nuclear Fuel Security The project comes as the United States seeks to strengthen its domestic nuclear fuel supply chain. The country currently imports much of its enriched uranium from foreign suppliers, including Russia, France, and Germany. In recent years, the U.S. has enacted legislation banning imports of Russian uranium, although temporary waivers remain available until 2028. Alexander Canon Bryan, founder and Chief Executive Officer of SuperCritical Materials, said the company's long-term objective is to strengthen the domestic nuclear fuel industry. "Our long-term goal is to transform the U.S. from a net importer to a net exporter of uranium and nuclear fuels." Bryan said a reliable domestic nuclear fuel supply will be important as electricity demand continues to grow from industries such as artificial intelligence, advanced manufacturing, and robotics.   DOE Highlights Long-Term Potential The Department of Energy said laboratory-scale research has already demonstrated that uranium can be extracted from seawater, and continued development could help improve long-term fuel security. Ted Garrish, Assistant Secretary of Nuclear Energy, said: "Uranium extraction from seawater has been demonstrated at lab scale. DOE has invested in proving that this extraction process works. As the United States accelerates advanced nuclear energy deployment, ensuring reliable domestic sources of nuclear fuel becomes increasingly important. This technology represents a potentially significant contribution to America's long-term fuel security and industrial competitiveness."   Potential Beyond Uranium In addition to uranium, the adsorption technology can also capture certain strategic and critical minerals dissolved in seawater. SuperCritical said future commercial operations could include recovering these materials alongside uranium, supporting broader U.S. efforts to strengthen domestic supply chains for critical minerals and reduce reliance on foreign sources. While the technology has been successfully demonstrated at the laboratory level, large-scale commercial deployment remains the next step. If successfully developed, seawater uranium extraction could become an additional long-term source of nuclear fuel alongside conventional uranium mining, helping diversify future nuclear fuel supplies as demand for nuclear energy continues to grow.   Source : nucnet

Read More → Posted on 2026-07-15 15:09:48
 U.S 

DUGWAY PROVING GROUNDS, Utah — Raytheon, an RTX business, has successfully completed a key technology demonstration of its Next Generation Short Range Interceptor (NGSRI), a new surface-to-air missile being developed for the U.S. Army as the future replacement for the long-serving Stinger missile. The demonstration took place on July 15, 2026, at Dugway Proving Grounds in Utah, where Raytheon launched multiple guided missiles using its soldier-portable Command Launch Assembly (CLA). According to the company, every launch successfully detected, tracked, and intercepted Army-simulated aerial threats, achieving direct hits and target destruction. The successful demonstration marks another milestone in the Army's effort to modernize its short-range air defense capabilities against evolving aerial threats, including aircraft, helicopters, and unmanned aerial systems.   Advanced Optics and Rocket Motor Improve Performance Raytheon said the NGSRI's improved performance comes from a combination of advanced technologies integrated into both the launcher and the missile. The system uses precision optics in the Command Launch Assembly (CLA) and the missile's seeker, allowing faster target detection and tracking. These sensors are paired with a highly loaded grain solid rocket motor (SRM) developed by Northrop Grumman, which provides greater propulsion and extends the missile's engagement range beyond current legacy systems such as the Stinger. The NGSRI is designed as a fire-and-forget interceptor, allowing operators to launch the missile without continuous guidance after firing. It is being developed for use from both shoulder-mounted launchers and vehicle-mounted platforms, providing flexibility for different operational requirements.   Raytheon Highlights Improved Capability Tom Laliberty, President of Land and Air Defense Systems at Raytheon, said the demonstration showed significant improvements over the current Stinger system. "Raytheon's NGSRI saw farther and locked faster, demonstrating superior target acquisition, longer range and greater lethality than Stinger—which is already the world's most in-demand shoulder-fired air defense system." He added that the new interceptor is designed to be easier to manufacture and deploy, making it a more capable, affordable, and rapidly producible weapon for future military requirements.   Program Progress Over the past year, Raytheon has carried out several company-funded tests to refine and mature the NGSRI design. In addition, the company has completed two incremental demonstrations under contract with the U.S. Army. Raytheon also confirmed it has previously completed 10 successful subsystem demonstrations, validating key technologies including the missile seeker, solid rocket motor, Command Launch Assembly, warhead, tracking, guidance, aerodynamic control, fuzing, and safety systems. These demonstrations are intended to reduce technical risk as the program moves toward future production decisions.   Part of the Army's Air Defense Modernization The NGSRI is being developed under the U.S. Army's Maneuver Short-Range Air Defense (M-SHORAD) Increment 3 program. The objective is to replace the Stinger missile with a modern interceptor capable of countering current and emerging aerial threats while maintaining portability for frontline soldiers. The missile is designed to engage rotary-wing aircraft, fixed-wing aircraft, and Group 2 and Group 3 unmanned aerial systems. It is also engineered for compatibility with existing Stinger infrastructure, including the Stinger Vehicle Universal Launcher used on platforms such as the Sgt. Stout. As the original manufacturer of the Stinger missile and its launchers, Raytheon said it is ensuring full interoperability between the NGSRI and both existing and future mounted platforms.   Modular Design for Faster Production Drawing on more than 60 years of air defense experience, Raytheon is incorporating modular system architecture and automated manufacturing processes into the NGSRI program. According to the company, these manufacturing approaches are intended to accelerate development timelines, simplify production, and support higher manufacturing rates if the system enters full-scale production.   Army Plans Future Procurement The U.S. Army has indicated that it plans to procure the next-generation interceptor in significant numbers. A recent Request for Information (RFI) outlined potential acquisition of up to 11,000 NGSRI missiles and 2,200 Command Launch Assemblies over a ten-year period, with initial low-rate production expected to begin in fiscal year 2028. Raytheon's NGSRI is one of two competing designs under the program, with Lockheed Martin also developing a competing proposal. The Army aims to select a system that can be fielded around 2028 to strengthen short-range air defense against increasingly advanced aerial threats. The Stinger missile, first introduced in the early 1980s, has served as the U.S. military's primary shoulder-fired air defense weapon for decades and has been widely supplied to allied nations. The NGSRI is intended to build on that capability by providing longer range, improved target acquisition, enhanced performance against modern threats, and compatibility with both portable and vehicle-mounted launch systems.       Source : rtx

Read More → Posted on 2026-07-15 14:51:26
 Europe 

PARIS, France — France has agreed to strengthen Ukraine's air defense capabilities by supplying two additional SAMP/T air defense batteries this year and accelerating deliveries of Aster 30 interceptor missiles. The announcement follows talks between Ukrainian President Volodymyr Zelenskyy and French President Emmanuel Macron as both countries expanded their long-term defense cooperation. Under the agreement, France will transfer two current-generation SAMP/T air defense batteries before the end of 2026 to reinforce Ukraine's air defense network. France and Italy will also speed up the delivery of Aster 30 interceptor missiles, with additional shipments expected by October 2026 to support the systems already in service. The SAMP/T (Surface-to-Air Missile Platform/Terrain) is a long-range air defense system jointly developed by France and Italy. It is designed to intercept a range of aerial threats, including aircraft, cruise missiles, drones, and certain types of ballistic missiles. A standard SAMP/T battery includes a multifunction radar, command post, and mobile launchers armed with Aster 30 missiles. Depending on the target profile, the Aster 30 missile has an interception range of up to 120 kilometers. Ukraine first received a SAMP/T battery from France and Italy in 2023. The system has since been used to help defend Ukrainian cities and critical infrastructure against aerial attacks. As of July 2026, the operation of at least one SAMP/T battery in Ukraine has been officially confirmed.   Ukraine to Become First Operator of SAMP/T NG As part of the broader defense agreement, Ukraine has placed an order for four SAMP/T NG (New Generation) air defense systems, making it the first country scheduled to receive and operate the upgraded version. The SAMP/T NG features improved sensors, upgraded command-and-control capabilities, and compatibility with the Aster 30 Block 1 New Technology (B1 NT) interceptor missile, which offers enhanced performance against certain ballistic missile threats. According to the agreement, the two current-generation SAMP/T batteries being delivered this year will provide additional air defense coverage while production of the SAMP/T NG systems is completed. Once the new systems are delivered and become operational, the temporary batteries are expected to be returned to France.   France Grants Missile and Bomb Production Licenses The agreement also marks a significant expansion of defense-industrial cooperation between the two countries. France has granted Ukraine licenses to manufacture several advanced French weapon systems domestically, including: SCALP long-range air-launched cruise missiles. AASM (Hammer) precision-guided air-to-ground bombs. Aster 30 air defense interceptor missiles. The licensed production is intended to strengthen Ukraine's domestic defense industry, reduce reliance on imported stockpiles, and support long-term sustainment of key weapon systems. Cooperation on FREYJA Missile Defense Program France will also participate in Ukraine's FREYJA anti-ballistic missile defense program, providing industrial cooperation and technical support through French defense companies and the French Directorate General of Armaments (DGA). The cooperation aims to accelerate the development of Ukraine's domestic missile defense capabilities against ballistic missile threats.   Broader Defense Partnership The agreement reflects a broader expansion of military and technological cooperation between France and Ukraine. Alongside additional air defense systems and accelerated missile deliveries, the partnership focuses on strengthening Ukraine's long-term defense production capacity through local manufacturing and joint industrial projects. The combination of new SAMP/T batteries, future deployment of the SAMP/T NG, accelerated Aster 30 missile deliveries, domestic production of advanced French weapons, and cooperation on the FREYJA program is intended to enhance Ukraine's air and missile defense capabilities while supporting the development of its defense industry. Source : newsukraine

Read More → Posted on 2026-07-15 14:42:25
 World 

JERUSALEM — Israel has lifted a temporary restriction that blocked additional U.S. aerial refueling aircraft from landing at Ben Gurion Airport after senior American military officials raised concerns over the decision. The issue was resolved following discussions between U.S. and Israeli officials, allowing U.S. military operations to continue while introducing measures to reduce pressure on civilian airport operations. The dispute began when Israel's Transport Ministry, led by Transport Minister Miri Regev, introduced a directive limiting the number of U.S. aerial refueling aircraft parked at Ben Gurion Airport to 20. At the time, between 33 and 34 American tanker aircraft were stationed at the airport. According to Israeli authorities, the restriction was intended to address a shortage of aircraft parking stands ahead of the peak summer travel season. The Israel Airports Authority warned that the continued presence of additional military aircraft could create significant parking constraints, potentially affecting civilian operations and placing up to 50,000 passenger flight bookings at risk of cancellation. The proposed limit prompted an immediate response from senior officials at U.S. Central Command (CENTCOM), who asked Israel to reverse the decision. U.S. officials said the refueling aircraft remain essential for supporting ongoing regional operations and maintaining deterrence capabilities amid continued tensions involving Iran. American officials also emphasized that Ben Gurion Airport remains the preferred operating location for these aircraft because of its advanced infrastructure, established logistics support, and proximity to hotels and other facilities required by flight crews. The U.S. position received support from the Israel Defense Forces (IDF). A senior Israeli military official described the tanker fleet as a strategic asset that plays an important role in joint U.S.-Israel military preparations and said the aircraft should be allowed to operate according to U.S. operational requirements. Following discussions between the two governments, Transport Minister Miri Regev cancelled the landing restriction on July 15, just one day after it was reportedly introduced. Israeli officials said the disagreement did not represent a broader dispute between the allies, and Prime Minister Benjamin Netanyahu also discussed the matter directly with U.S. representatives to ensure continued coordination. As part of the agreed solution, U.S. refueling operations will continue without interruption. However, to reduce congestion at Ben Gurion Airport, only around 20 tanker aircraft will remain parked there. The remaining U.S. aircraft will be relocated to Israeli Air Force bases and other military facilities in coordination with Israel's Defense Ministry. The large U.S. military presence at Ben Gurion Airport dates back to the regional military buildup that began before the conflict with Iran in February 2026. At its peak, approximately 75 U.S. refueling and cargo aircraft were stationed at the airport to support American operations and regional contingency planning. Earlier this month, the United States began returning some of those aircraft to their home bases after diplomatic efforts temporarily reduced regional tensions. However, the Pentagon recently paused further withdrawals following renewed regional escalation, keeping the refueling fleet in Israel to maintain rapid response capability if required. The agreement allows Israel to address growing civilian aviation demands during the busy summer travel season while ensuring that U.S. military aircraft continue to support operational requirements. The outcome also reflects the close coordination between Washington and Jerusalem in balancing civilian airport operations with ongoing defense cooperation. Source : israelnationalnews

Read More → Posted on 2026-07-15 14:07:51
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