Friday, July 12, 2024

US F-35 Pilot Makes Emergency Exit at Japanese Base: Speculation on Potential Causes

 




On July 12, a video surfaced online showing a US F-35 pilot hastily exiting his aircraft at Marine Corps Air Station Iwakuni, Japan. Posted by the Clash Report account on the X social network, the video depicts the F-35 parked on a runway with the cockpit open. The pilot can be seen climbing out and carefully making his way along the fuselage towards the wing before jumping to the ground. Fire trucks arrive during the video, with firefighters in full gear, suggesting a potential heat or gas-related emergency, though specifics remain speculative.

The absence of an official statement from the US Air Force has led to various hypotheses. One possibility is outgassing, where gases previously trapped in materials are released. In an F-35, this could occur from construction materials, the fuel system, or the pilot's life support systems. These gases could create hazardous conditions, such as toxic fumes in the cockpit or electrical malfunctions, forcing the pilot to exit quickly.

Composite materials used in the F-35 might release gases when exposed to high temperatures, potentially during high-speed flights or combat. If these gases accumulate in the cockpit, they could pose a significant risk. Another concern is the fuel system, where a fault or leak could release volatile gases into the cockpit, creating a dangerous environment. The life support systems could also malfunction, releasing harmful gases and causing hypoxia or exposure to toxins.

Outgassing could also impact the F-35's avionics and other critical systems. Released gases might cause condensation on electronic components, leading to short circuits or malfunctions. This could result in the pilot losing control of the aircraft, necessitating an emergency exit.

Heat is another factor that can affect the F-35. Excessive heat in the cockpit can lead to pilot heat stress or exhaustion, impairing cognitive and physical performance. Heat can also cause malfunctions in avionics and electronic systems, compromising the aircraft's operational capabilities. Prolonged exposure to high temperatures can weaken structural materials, risking airframe failures.

Additionally, heat can impact the F-35's fuel and hydraulic systems, increasing the risk of fuel vaporization or hydraulic fluid degradation, leading to leaks, fires, or loss of control surfaces. The stealth capabilities of the F-35 could also be affected, as high temperatures might alter radar-absorbing materials, reducing the aircraft's ability to evade detection.

Despite these speculations, the US Air Force has not provided an official reason for the pilot's emergency exit. The situation remains unclear, and further announcements from Washington are awaited to clarify the incident.

US Air Force to Arm C-17 Globemaster with Hypersonic Missiles: Boeing Unveils New 'Revolver' Launch System





 The US Air Force's second-largest airlifter, the C-17 Globemaster III, is set to gain significant offensive capabilities. Boeing has introduced the "Revolver" launch system, which will enable the aircraft to launch multiple hypersonic missiles from its cargo bay. This adaptation aligns with the USAF's strategy to enhance the offensive capabilities of airlifters like the C-17 and C-130J, particularly in the Indo-Pacific region where conflicts with China may arise.

The USAF's plan anticipates that cargo and tanker planes will need to provide more than logistical support in potential confrontations with powerful adversaries like Russia or China. The Revolver system is designed to integrate X-51A Waverider hypersonic cruise missiles, allowing the launch of 12 missiles using an advanced drum and electromagnetic catapult mechanism. These missiles, known for their scramjet engines, can exceed Mach 5, offering long-range precision strikes.

Originally intended for the B-52 Stratofortress, the X-51 program involved collaboration among the Air Force, DARPA, NASA, Boeing, and Pratt & Whitney Rocketdyne. Although the X-51 was scheduled for mid-2020s service, delays have pushed back its deployment.

In 2013, the X-51A achieved a historic hypersonic flight, maintaining scramjet power for three and a half minutes at Mach 5.1. Boeing showcased the Revolver concept in a video, emphasizing its versatility and enhanced capabilities for the C-17.

The C-17, capable of transporting 102 paratroopers, 54 patients, or 85 tons of cargo, is a critical asset for global operations. With the Revolver launcher, it will also serve in missile deployment, enhancing its role in modern military logistics.

Boeing's efforts in hypersonic technology also include the DARPA Glide Breaker program, aiming to develop a hypersonic interceptor prototype. Meanwhile, China's advancements in hypersonic weaponry pose a significant challenge, with the US making substantial investments to close the gap, including a $756 million contract with Lockheed Martin for ground-based hypersonic systems.

The USAF tested a hypersonic cruise missile in the Pacific in March, demonstrating its commitment to remaining competitive. Recent exercises with the C-17 have involved loading and unloading missile cradles, illustrating its flexibility to operate from various airfields.

The Rapid Dragon project explores deploying cruise missiles from cargo planes, allowing C-17s to carry out offensive missions with minimal modifications. This approach is seen as cost-effective, providing strategic advantages by leveraging existing transport fleets.

China is wary of this capability, recognizing the difficulty in tracking cargo planes capable of launching missiles from unexpected locations. Overall, the C-17's transformation into a missile-carrying aircraft exemplifies the evolving strategies in modern warfare, with significant implications for global military dynamics.

Canada Initiates Acquisition of Up to 12 New Submarines for Arctic Defense

 




Canada is initiating the acquisition of up to 12 new conventionally-powered submarines capable of operating under ice. This move, announced by Defence Minister Bill Blair, marks the first step in engaging the industry for this significant defense project.

Given Canada's vast coastline, maintaining robust underwater surveillance is vital for national security and sovereignty. The updated defense policy, "Our North, Strong and Free," highlights the increasing accessibility of the Arctic due to climate change, which is making the region more attractive to foreign actors with military ambitions. By 2050, the Arctic Ocean may become a major shipping route between Europe and East Asia.

The Arctic's growing accessibility has led to increased activity from global competitors seeking access to natural resources and transportation routes. Russian submarines are active in the Atlantic, Arctic, and Pacific Oceans, while China is rapidly expanding its underwater fleet.

In response to these challenges, the Canadian government is committed to renewing and expanding its submarine fleet. The current fleet of four Victoria-class submarines is aging and costly to maintain. A modern fleet is essential to protect Canada's sovereignty from emerging threats.

Minister Blair announced that Canada is taking the first step in procuring up to 12 new submarines, starting with formal industry engagement. This initiative, part of the Canadian Patrol Submarine Project (CPSP), aims to acquire a larger, modernized fleet to enhance the Royal Canadian Navy's ability to detect and deter maritime threats, control maritime approaches, project power, and maintain a persistent deterrent across all three coasts.

The Department of National Defence is meeting with manufacturers and potential partners as part of the CPSP. A formal Request for Information (RFI) will be posted in fall 2024 to gather information on procurement, construction, delivery, and operational capabilities. This RFI will also explore establishing a submarine sustainment capability in Canada, fostering strategic partnerships for personnel training and information sharing.

Canada's new submarines must meet key requirements, including stealth, lethality, persistence, and Arctic deployability. These capabilities will ensure Canada can effectively detect, track, deter, and, if necessary, defeat adversaries in all three oceans while supporting allies globally.

The procurement of up to 12 submarines is essential for defending Canada's three coasts. The federal government is eager to collaborate with industry to deliver world-class submarines.

“As the country with the longest coastline in the world, Canada needs a new fleet of submarines,” said Minister Blair. “This new fleet will protect our sovereignty and contribute significantly to the security of our partners and NATO Allies.”

The Arctic region is becoming more accessible, leading to increased Russian and Chinese activity. In response, the Canadian government has committed $8.1 billion over five years and $73 billion over 20 years for new defense spending, which includes renewing the submarine fleet, acquiring vehicles for icy terrains, enhancing patrol vessels, and other key defense upgrades. Canada’s current fleet of Victoria-class submarines, purchased from the UK in 1998, will be modernized into the mid-to-late 2030s.

Tuesday, July 9, 2024

Biden Announces New Air Defense Support for Ukraine at NATO Summit

 




At the NATO summit marking the alliance's 75th anniversary, President Joe Biden announced a new agreement with four countries to supply additional air defense systems to Ukraine, a crucial need as Kyiv defends against Russian missile attacks.

Speaking from the historic Mellon Auditorium in Washington, D.C., where the original North Atlantic Treaty was signed, Biden described the agreement as a “historic donation of air defense equipment for Ukraine.” He detailed that the United States, Germany, the Netherlands, Romania, and Italy will provide Ukraine with equipment for five additional strategic air defense systems over the next few months.

“The United States and our partners intend to provide Ukraine with dozens of additional tactical air defense systems,” Biden added. The U.S., Germany, and Romania will supply additional Patriot batteries, the Netherlands will contribute Patriot components, and Italy will donate a SAMP-T system.

The five countries stated they are working on a “further announcement this year of additional strategic air defense systems for Ukraine.” They also plan to supply Ukraine with numerous tactical air defense systems, including NASAMS, HAWKs, IRIS T-SLM, IRIS T-SLS, and Gepard systems.

This announcement follows the U.S.'s recent move to prioritize Ukraine for Patriot and NASAM interceptors. “Ukraine will receive hundreds of additional interceptors over the next year, helping protect Ukrainian cities and troops,” Biden said. Many of these interceptors will be delivered by the end of summer, with Ukraine taking precedence over other countries, except Taiwan and Israel, which will not face delays.

Biden's announcement came a day after a devastating Russian missile attack on Ukraine’s largest children's hospital, which killed at least 31 people and wounded over 150 in five Ukrainian cities. Ukrainian President Volodymyr Zelenskyy, who is attending the summit in Washington, confirmed the attack.

More security packages for Ukraine from other NATO member countries are expected to be announced during the summit. “Together we’ve built a global coalition to stand with Ukraine,” said Biden, highlighting the collective economic, humanitarian, and military support provided to Ukraine, including tanks, armored vehicles, air defense systems, long-range missiles, and millions of munitions.

Biden concluded by noting that the United States and nearly two dozen allied partners have signed a bilateral security agreement with Ukraine.

US Navy to Deploy Uncrewed Underwater Vehicles from Submarines by End of 2024





The US Navy (USN) is set to deploy a torpedo-tube launch-and-recovery (TTL&R) uncrewed underwater vehicle (UUV) capability on an operational submarine for the first time. This deployment will begin by the end of 2024 in the European theatre. Although submarines have previously used UUVs, the TTL&R method simplifies deployment and retrieval, enhancing capabilities and maneuverability in the underwater domain.

Vice Admiral Rob Gaucher, Commander of Submarine Forces, announced at the Naval Leaders' Combined Naval Event 2024 (CNE 24) in Farnborough, UK, that the UUVs would be installed on the USS Delaware in the coming weeks and will be deployed by year's end. The Delaware, a Virginia-class nuclear-powered attack submarine commissioned in April 2020, is part of the USN's plan to develop a fully integrated SSN-based UUV capability.

Vice Adm Gaucher emphasized the importance of increasing UUV operations within the submarine force and outlined plans to accelerate this development in 2024. The deployment will include an HII REMUS 600 UUV, tested successfully in late 2023 when launched and recovered via the Delaware’s torpedo tube. The US Navy’s regional commanders in Europe will seek exercises and opportunities to test this TTL&R-based UUV capability during the Delaware’s deployment across the Atlantic.

The second successful test of the TTL&R capability occurred on the Delaware in December 2023, following an earlier test in the Pacific. Vice Adm Gaucher highlighted the need to integrate emerging commercial UUV technologies into regular naval operations, stressing the importance of practical experience and trials.

The TTL&R capability, part of the AUKUS (Australia/UK/US) strategic partnership, exemplifies new concepts and technologies being developed under Pillar 2. This development underscores the collaboration between the three navies in advancing subsea and seabed warfare capabilities, with UUVs playing a crucial role in defending underwater infrastructure.

Vice Adm Gaucher concluded by emphasizing the need for more exercises and development to expand uncrewed operations, aiming for exponential growth in the use of uncrewed systems. 

Hezbollah Releases Drone Surveillance Footage of Israeli Military Infrastructure in Golan Heights





 Following the release of drone footage by Lebanon-based Hezbollah showing Israel's military sites, a second high-definition video has surfaced, heightening fears of a possible conflict. On July 9, Hezbollah (allegedly backed by Iran) published drone footage revealing sensitive Israeli military facilities in the Golan Heights, under Israeli control. The footage, containing images and coordinates of military targets in Northern Israel, has circulated widely on social media and messaging apps like Telegram. Reports indicate that the 10-minute video was captured by drones over Israeli intelligence bases, command centers, and military camps in the occupied Syrian Golan Heights.

This marks Hezbollah's second such drone operation. Last month, they released a nearly ten-minute video from spy drones over various Israeli locations, including Haifa's seaport and airport. Despite Israel's advanced air defense systems, these drones, known as 'Hoopoe,' have managed to evade detection and capture footage of Israeli infrastructure in June 2024. Hezbollah regularly deploys both surveillance and attack drones into Israel, using the collected data for subsequent strikes.

The recent footage is significant as it comes shortly after Hezbollah claimed responsibility for a drone attack on an Israeli military intelligence base on Mount Hermon in the Golan Heights on July 7. Israel responded with counter-strikes on Hezbollah buildings in southern Lebanon. Rising tensions between Israel and Iran-backed Hezbollah have sparked concerns of a large-scale conflict, prompting several countries to evacuate their citizens from Lebanon. The US Pentagon has warned of a potential catastrophe if war erupts.

Harrison Mann, a former Defense Intelligence Agency major, indicated that the US might become involved in a regional conflict if another war breaks out between Israel and Lebanon. Despite these warnings, both sides continue to engage in regular hostilities. Hezbollah opposes Israel's actions in Gaza, calling them genocidal, and recently declared that Hamas' attack on Israel was a precursor to Israel's destruction.

With no signs of de-escalation, Hezbollah's recording of Israeli military sites is seen as an effort to bypass Israel's renowned surveillance and air defense technology. According to Reuters, following the deaths of senior commanders in Israeli airstrikes, Hezbollah has adopted low-tech methods to evade advanced Israeli surveillance. Hezbollah's leader, Sayyed Hassan Nasrallah, described this as a "blinding" campaign against Israel, utilizing drones to research and target Israeli intelligence capabilities.

Israel claims to have killed several Hezbollah operatives in response to their attacks. The IDF routinely sends surveillance drones over the border and uses advanced electronic eavesdropping. However, Hezbollah has adapted its strategies, avoiding traceable cell phones and using traditional communication methods and code phrases. Hezbollah also operates a private communication network dating back to the early 2000s, using couriers to update codes regularly.

Hezbollah showcases its intelligence-gathering and UAV capabilities, including an attack on Israel's Sky Dew observation balloon. Although these claims couldn't be independently verified, there is substantial evidence and social media claims indicating evolving combat strategies within Hezbollah's ranks.

Malaysia Plans to Induct Su-57 Fighter Jets by 2035

 




Despite mixed reviews of the Russian Su-57 Felon fighter jet, there is noticeable international interest in its purchase. According to local media outlet Twentytwo13, Malaysia is considering adding the Su-57 to the Royal Malaysian Air Force's (RMAF) fleet by 2035. Unnamed sources report that Malaysia could receive its first Su-57 Felon towards the end of its 14th Plan, which involves procuring one squadron initially with an option for a second.

The sources also mention that Malaysia intends to acquire another type of fighter jet, likely the American-made F/A-18C/D Hornets from Kuwait. Additionally, Malaysia plans to upgrade its current fleet of 18 Sukhoi Su-30MKM jets to the Super Flanker standard.

Malaysia's interest in the Su-57 and the South Korean KF-21 Boramae is due to their modern, operational status. Initially, Malaysia considered several options, including the Eurofighter Typhoon, French Dassault Rafale, Swedish Saab JAS-39 Gripen, and American Boeing F/A-18E/F Super Hornet. However, these aircraft are classified as 4.5 generation and have been in service for about two decades. The Super Hornet, for instance, is nearing its 25th year in operation, with Boeing planning to end production by 2025. Experts believe this generation of aircraft has nearly reached its developmental potential.

Meanwhile, Russia continues to equip its fighter squadrons with the Su-57 Felon in a cautious low-rate initial production phase.

The Su-57 Felon, developed by Russia’s Sukhoi company, is designed for air combat and strike missions. It features stealth, supermaneuverability, and the latest avionics, and is set to replace older aircraft like the MiG-29 and Su-27 in the Russian Air Force. The Su-57 is 66 feet long, 46 feet wide, and 15 feet tall, enabling it to carry a variety of weapons and sensors while remaining hard to detect on radar. It uses two Saturn AL-41F1 engines that help it reach speeds of up to Mach 2 and fly at supersonic speeds without afterburners, conserving fuel.

The unique wing design combines trapezoidal and swept wings with two widely spaced engines, improving lift, reducing drag, and enhancing stability and control. The Su-57's movable horizontal and vertical stabilizers enhance agility, stability, and control during various flight phases. The aircraft is built with alloys, including 40.5-44.5% aluminum and 18.6% titanium, and composites, which make up 22-26% of its weight and about 70% of its outer surface.

The Su-57 features the N036 Byelka radar system, which uses AESA technology to electronically steer its beam, allowing quicker target spotting and tracking. This radar enhances the Su-57’s situational awareness and combat effectiveness. It can detect and follow multiple targets simultaneously and has advanced electronic warfare capabilities, including jamming enemy radars and communications and gathering intelligence from enemy signals. The radar’s low probability of intercept (LPI) capability makes its signals hard for enemies to detect, reducing the chance of the Su-57 being tracked or targeted.

The Su-57 is armed with the R-77 missile (AA-12 Adder), R-73 missile (AA-11 Archer), and R-37M missile (AA-13 Arrow) for long-range engagements. It also carries air-to-ground weapons like the Kh-38 missile and Kh-59MK2 cruise missile, which is designed for high-value targets with low radar visibility and precision. The Su-57 can deploy guided bombs such as the KAB-250 and KAB-500, making it effective for close air support and strategic bombing. Additionally, it has a 30mm GSh-30-1 autocannon for close-range air combat and ground target strafing, adding to its versatility and lethality.

Monday, July 8, 2024

Japan Unveils Footage of Hypersonic Missile Test for Island Defense

 




Japan has taken a significant step in bolstering its defense capabilities by successfully testing the Hyper Velocity Gliding Projectile (HVGP). This hypersonic missile test was conducted by the Acquisition Technology and Logistics Agency (ATLA) of Japan's Ministry of Defense (MoD) on March 23, 2024, in the United States. The test, which was publicly announced last week, showcased the HVGP as a “High-Speed Gliding Missile for Island Defense,” categorizing it within the boost-glide vehicle class.

The HVGP is part of Japan’s strategic effort to counter the growing hypersonic threats from China, Russia, and North Korea. Hypersonic weapons, capable of traveling at speeds greater than five times the speed of sound and maneuvering during flight, pose a significant challenge to current missile defense systems. Japan’s HVGP is scheduled for deployment by the Japan Ground Self-Defense Force (JGSDF) in the fiscal year 2026.

Development of the HVGP began in 2018, aiming for completion by 2025. However, due to escalating regional threats, mass production started early in 2023. The missile will be developed in phases, with the initial “Early Deployment Version (Block 1)” tested recently. Future versions, “Enhanced Capability Version (Block 2A)” and “Enhanced Capability Version (Block 2B),” are planned to extend the missile’s range to 2,000 km and 3,000 km, respectively, by the fiscal years 2027 and 2030.

The HVGP’s design allows it to be launched from a truck-mounted booster, with the warhead separating mid-flight to glide towards its target. This design enhances its agility and makes it difficult to intercept. The primary guidance system is the Global Navigation Satellite System (GNSS), with an inertial navigation system as a backup. Future enhancements may include radio-frequency imaging and infrared homing for engaging moving targets.

Japan has been proactively working on hypersonic standoff systems, including the Hypersonic Cruise Missile (HCM) and the HVGP, to strengthen its defense posture. Japan's defense minister, Yasukazu Hamada, has emphasized the importance of these developments in response to increasing military threats from neighboring countries. The HVGP is expected to serve as a crucial component in defending Japan’s isolated islands and maintaining regional stability.

The recent test aimed to evaluate the HVGP’s fundamental propulsion, materials, and electronic systems. Further tests are necessary to confirm the system’s full operational capabilities. The HVGP could potentially be adapted for anti-ship roles, providing a versatile defense tool against various threats. Japan's proactive steps in hypersonic missile development reflect its commitment to enhancing national security and maintaining a technological edge in the region.

Could Israel Acquire F-22 Raptors as the US Air Force Retires Them?

 




The US Air Force (USAF) plans to retire its older F-22 Raptors in 2024, deeming upgrades too costly. However, Israel, a key ally, might find value in acquiring these fifth-generation fighter jets despite upgrade expenses surpassing $2 billion. 

Unlike the widely exported F-35, the F-22 has only been operated by the US due to a 1990s Congressional ban aimed at preventing its advanced stealth technology from reaching adversaries like Russia and China.

Former President Donald Trump once considered selling the F-22 to Israel to maintain its military edge, especially after agreeing to sell F-35s to the UAE. With the USAF seeking to redirect funds from retiring Block 20 F-22s to new projects like hypersonic missile development and the Next Generation Air Dominance (NGAD) fighter, 32 out of 185 F-22s are set for storage. Despite operational costs of $485 million annually, experts argue that transferring these aircraft to Israel would bolster US allies against threats from Iran, Russia, and China.

National security analyst Brandon J. Weichert suggests that selling F-22s to Israel could help reopen production lines, reduce costs, and sustain the jet's long-term viability. The F-22, although not designed for export, offers unparalleled capabilities, as demonstrated in exercises like Northern Edge 2006, where it achieved a 108-to-zero kill ratio against top fighter jets.

Developed under the Advanced Tactical Fighter (ATF) program, the F-22 Raptor is a single-seat, twin-engine stealth fighter with superior air-to-air and ground attack capabilities. Despite its high cost and certain limitations, such as a relatively short range and small weapons magazine, the F-22 remains a formidable asset. The USAF originally planned to procure 750 units but scaled down to 187 by 2009, with the last delivery in 2012.

As the USAF considers the future of its F-22 fleet, transferring some of these aircraft to Israel could ensure the US remains strategically prepared with well-armed allies, particularly amid growing global tensions.

Pentagon Recommits to Sentinel Nuclear Missile Amid Rising Costs and Program Overhaul

 




The Pentagon remains dedicated to developing the LGM-35A Sentinel intercontinental ballistic missile despite escalating costs, instructing the U.S. Air Force to restructure the program to manage expenses. The Sentinel, made by Northrop Grumman, is now projected to cost $140.9 billion, an 81% increase from the initial $77.7 billion estimate. Without modifications, costs could reach $160 billion. This restructuring will delay the program by several years. 

William LaPlante, undersecretary of defense for acquisition and sustainment, emphasized the necessity of modernizing nuclear forces despite the costs. The Sentinel is set to replace the aging Minuteman III missile. In January, the Air Force reported severe cost overruns, prompting a critical Nunn-McCurdy breach review. LaPlante decided to continue with the Sentinel, citing its essential role in national security and the lack of cheaper alternatives.

Significant changes are expected, including rescinding the program's Milestone B approval and ordering a complete restructure to address cost overruns and management issues. The per-unit cost, initially $118 million in 2020, has risen to about $214 million, including additional components.

 Andrew Hunter, the Air Force’s assistant secretary for acquisition, technology, and logistics, supported LaPlante's decision and pledged to devise a restructuring plan over the next few months. This plan will likely take 18 to 24 months for the Pentagon's approval.

Most cost overruns are linked to Sentinel’s command and launch segment, including missile silos and launch control centers. The Air Force aims to scale back these facilities to reduce costs and transition timelines from the Minuteman III system to the new Sentinel facilities. Northrop Grumman continues to make progress on the Sentinel, achieving key milestones in design, development, and testing.

 The Pentagon now has better information on Sentinel's complexities, leading to more accurate cost estimates. The Air Force has established oversight committees and executive officers to manage its nuclear enterprise, ensuring the Minuteman III’s sustainability during the interim period.

Gen. Jim Slife, the Air Force’s vice chief of staff, noted that the most challenging decisions regarding program cuts would be made after establishing the new baseline costs, which are expected to emerge in the next few years.

Turkey's KAAN Fighter Jet: Ambitious Plans for Global Sales and Advanced Capabilities





 In a recent interview with Gdh TV, Mehmet DemiroÄŸlu, the executive director of Turkish Aerospace Industries (TAI), detailed the ambitious plans for the KAAN fighter jet, which is touted as Turkey's fifth-generation fighter. Preliminary data suggests that the Turkish Air Force will acquire over 100 KAAN aircraft. Additionally, TAI aims to secure international orders, potentially boosting total sales to between 250 and 300 units. Friendly and allied nations are expected to receive around 150 of these jets. 

The KAAN recently completed its second flight, with former TAI executive Temel Kotil claiming the aircraft would surpass the American F-35 in performance. TAI is actively promoting the KAAN internationally to avoid a significant price hike, as the cost of each jet could exceed $100 million without external orders. 

Potential partners include Azerbaijan, with whom Turkey signed a cooperation agreement last summer, and Pakistan. Ukraine has also shown interest, with their ambassador to Turkey indicating plans to both purchase and utilize the KAAN fighters. By 2028, the Turkish Air Force plans to receive 20 KAAN fighters, with production expected to ramp up significantly by 2030.

The KAAN fighter, also known as the TF-X, is designed to perform a variety of missions, including air-to-air combat, air-to-ground strikes, and reconnaissance. It is being developed by TAI in collaboration with various national and international partners. The aircraft's dimensions include a length of approximately 19 meters, a wingspan of around 12 meters, and a height of about 6 meters. Its twin-engine setup will enable high-speed maneuvers and sustained supersonic flight, though the exact engine model is not yet confirmed. 

The KAAN boasts advanced stealth capabilities, supercruise ability, and highly agile aerodynamics, reducing its radar cross-section. Its avionics suite features advanced radar systems, electronic warfare capabilities, and an integrated sensor fusion system for comprehensive situational awareness and multi-target engagement. 

The aircraft will carry various weapons, including air-to-air missiles, air-to-ground missiles, precision-guided bombs, and a built-in cannon, with multiple hardpoints for external weapons and fuel tanks. Its operational range is projected to be around 1,200 nautical miles without refueling, extendable with external fuel tanks or aerial refueling.

Promoting the KAAN in the international market is crucial for Turkey to manage costs and enhance its defense capabilities. The aircraft’s advanced features and ambitious production plans reflect Turkey’s commitment to establishing a robust and competitive aerospace industry. The KAAN project, led by TAI with both national and international collaborations, represents a significant step forward in Turkey’s defense technology and its aspirations for a stronger presence in the global defense market.

China's 'Monster' Coast Guard Vessel Anchors in Philippine Waters, Escalating South China Sea Tensions





 In a move considered "intimidation" by Philippine officials, China has anchored its enormous coast guard vessels within the Philippines' exclusive economic zone (EEZ), heightening tensions in the South China Sea. On July 3, the China Coast Guard vessel CCG-5901 anchored near Sabina Shoal in the Spratly Islands, about 130 kilometers northwest of the Philippine island of Palawan. This vessel remained in place as of July 6.

The Philippine Coast Guard quickly warned the Chinese vessel and questioned its intentions. Jay Tarriela, the spokesperson for the Philippine Coast Guard, emphasized that the Philippines would not back down from its territorial claims in the South China Sea. “It’s an intimidation on the part of the China Coast Guard,” Tarriela stated. “We’re not going to pull out, and we’re not going to be intimidated.”

China’s Ministry of Foreign Affairs, during a regular press briefing, denied the Philippines' claim that the area was within its EEZ. Spokesperson Lin Jian stated, “China’s military and police ships patrolling and enforcing the law in the waters near Xianbin Jiao comply with China’s domestic law and international law,” using the Chinese name for the Sabina Shoal.

China asserts "indisputable sovereignty" over almost the entire South China Sea, leading to overlapping claims with several countries, including the Philippines. Despite a 2016 ruling by an international tribunal in The Hague favoring the Philippines and rejecting China's broad claims, Beijing continues to enforce its territorial ambitions through its coast guard and militia boats.

Over the past year, China Coast Guard ships, often supported by militia boats, have been involved in numerous incidents, resulting in damage to Philippine vessels and injuries to Filipino sailors. The CCG-5901, with its significant size and firepower, frequently leads China's efforts to assert control. Last year, this vessel was deployed near Vanguard Bank, a contentious area between Vietnam and China, highlighting its role in regional power dynamics.

China's coast guard vessels, dubbed "The Monster," are the largest of their kind globally. At 541 feet in length and displacing 12,000 tons, these vessels dwarf most other coast guard ships, including those of the United States. Their impressive size and capabilities make them pivotal in China's strategy of intimidation and control over disputed waters.

The BRP Teresa Magbanua, the largest and most advanced vessel in the Philippine Coast Guard, has been stationed at Sabina Shoal since April to counter the presence of Chinese maritime militias. Measuring 97 meters, it is considerably smaller than the Chinese CCG-5901 but remains a crucial asset for the Philippines. Despite its size, the Teresa Magbanua will continue to patrol and ensure the security of Philippine waters.

Philippine Coast Guard officials have stated that while the Teresa Magbanua is vital to their operations, it is not meant to be a permanent outpost but rather a patrol vessel safeguarding Philippine sovereignty. This stance reflects the broader regional tensions and the ongoing struggle for control and influence in the South China Sea.

Sunday, July 7, 2024

India to Test US-Made Stryker AFVs for Enhanced Border Defense Against China





India is set to evaluate the US-made Stryker Armored Fighting Vehicle (AFV) to boost its defense capabilities against potential threats along its northern and western borders. The Stryker AFV has seen extensive use in global conflicts, most recently in Ukraine. Indian media reports indicate that the Indian Army will soon test these vehicles in desert terrains and the high-altitude region of Ladakh. Defense establishment sources reveal that the Indian Army aims to acquire around 530 armored fighting vehicles.

Following the 2+2 ministerial consultations in November 2023 between India and the US, a senior US defense official announced plans for the US and India to collaborate on producing Stryker AFVs for India. Although no official agreement has been signed, sources suggest that negotiations are at an advanced stage. Last month, Indian National Security Advisor Ajit Doval and US National Security Adviser Jake Sullivan discussed the AFVs.

India is expected to make a limited off-the-shelf purchase of Strykers through the Foreign Military Sales (FMS) route. Subsequently, joint production of the vehicles is likely to take place in India under the US-India Initiative on Critical and Emerging Technologies (iCET). The Stryker is under consideration because Indian vendors have not met the required qualitative standards (QR).

However, the Stryker has some technical limitations that are being assessed. Concerns have been raised about the 350-horsepower Caterpillar C7 engine's performance at high altitudes due to thin air. To address this, the US has offered to replace it with a 750-horsepower Cummins Advanced Combat Engine, providing a significant upgrade.

With an eye on China’s People's Liberation Army near the disputed border, India needs an advanced, battle-tested armored vehicle for high-altitude terrains like Eastern Ladakh. The Indian Army, seeking to modernize its Russian-origin BMP-II amphibious infantry fighting vehicles, plans to replace them with wheeled and tracked Infantry Combat Vehicles. The Strykers are likely to be deployed in high-altitude areas along the border with China, such as Eastern Ladakh and Sikkim. Since the 2020 conflict, India has emphasized the need for light tanks and more armored combat vehicles to navigate the challenging high-altitude terrain.

Opinions about the Stryker in India are divided. Some military experts believe the vehicle will strengthen India’s arsenal against the PLA, while others argue that India already has the indigenous capability with the Wheeled Armoured Platform (WhAP). Although the WhAP has demonstrated its capabilities with multiple turrets, a sight system, and a fire control system, some defense sources argue that it lacks comprehensive sight systems, fire control systems, and weaponry.

If approved, the Stryker’s capabilities will need modifications to suit high-altitude regions like Eastern Ladakh. Proponents emphasize the Stryker's versatility, mobility, and flexibility as suitable for India’s needs. They also note similarities between the US Stryker and the Chinese armored vehicle VN22, highlighting the strategic importance of acquiring such technology.

Combatant Commanders require a brigade that can be quickly and strategically deployed, and Indian officials believe the Stryker meets this need. It is lighter and easier to move compared to larger tanks like the T-72 and T-90 in the Indian arsenal. The Stryker, while not as strong as tanks, can operate in various terrains like snow, mud, and sand.

The Stryker has been combat-tested in Iraq, Afghanistan, and more recently in Ukraine against Russian forces, proving its reliability and effectiveness in various combat situations. 

Japan Unveils Future Destroyer with Game-Changing Electromagnetic Railgun Technology





 In October 2023, Japan achieved a significant milestone by becoming the first nation to successfully test-fire a medium-caliber maritime electromagnetic railgun from an offshore platform. Following this success, the Japan Maritime Self-Defense Force (JMSDF) is now considering the development of a new class of destroyers equipped with electromagnetic railguns.

The 13DDX future destroyer concept, developed by the Ministry of Defense’s Acquisition, Technology & Logistics Agency (ATLA), gained momentum after the successful railgun tests. In May 2024, Vice Admiral Imayoshi Shinichi, ATLA’s Director General of Naval Systems, presented the ambitious plans for the 13DDX at the Combined Naval Event 2024 in Farnborough, UK, where he discussed the future destroyer and submarine projects of the JMSDF.

According to ATLA, the 13DDX—Air Defense Destroyer will be equipped with advanced systems including Rail Guns, Active SAMs, High-Power Lasers, High-speed Maneuvering Target Detection Radar, HPM Weapons, a Fire Control Network, IPES (Downsizing Large-Capacity GEN), AI-based CDS, Autonomous Navigation, Automated Damage Control, and modular mission capabilities.

The 13DDX will also feature directed energy weapons (DEW) and a new multifunction radar optimized for detecting high-speed targets. It will incorporate elements from the JMSDF’s Asahi-class destroyers and Mogami-class frigates.

In early 2022, the Japanese Ministry of Defense decided to develop an electromagnetic weapon system to intercept hypersonic missiles. By 2023, ATLA successfully tested this system, marking the first maritime railgun test ever conducted. Railguns use electromagnetic energy to fire projectiles at speeds around Mach 7, targeting ships, missiles, and aircraft without the need for gunpowder or explosive propellants.

A railgun can theoretically fire a projectile the size of a bowling ball fast enough to destroy a small building over long distances. Due to their significant power requirements, railguns are typically large and not portable, though there are proposals to adapt this technology for non-weapon uses such as launching aircraft and spacecraft.

The medium-sized electromagnetic railgun prototype developed by ATLA, first seen in May 2023, can fire 40mm steel rounds weighing 320g (0.7lb). The railgun uses five megajoules (MJ) of charge energy to fire bullets at speeds around 2,230m/s (Mach 6.5). ATLA aims to eventually operate the railgun on 20 MJ of charge energy.

Japan plans to deploy the railgun both on land and at sea. Initially, the Aegis Ashore land-based system was intended to enhance ballistic missile interception capabilities, but this plan was abandoned in 2020. The development and testing of railguns come as Japan seeks to counter the threat from hypersonic weapons developed by China, North Korea, and Russia.

Admiral Shinichi emphasized the need to enhance Japan’s long-range air defense capabilities in response to the challenging security environment and growing anti-access/area denial (A2/AD) capabilities of other countries.

Japan is accelerating the development of formidable firepower due to the tense geopolitical landscape in East Asia. In May 2024, Japan entered a railgun cooperation agreement with France and Germany to jointly explore and deploy this advanced technology. Meanwhile, China faced setbacks in its own electromagnetic hypersonic railgun testing.

Japan is bolstering its defense capabilities with the development of the 13DDX and its electromagnetic railgun technology, signaling a new era in naval warfare. Japan also plans to mount railguns on land-based trucks, creating a mobile defense network capable of intercepting hypersonic missiles. As tensions rise in the Indo-Pacific region, the world will be watching Japan’s naval transformation closely.

Iranian Navy’s IRIS Sahand Frigate Sinks Mysteriously in Bandar Abbas Port





 The Iranian Navy recently suffered a significant loss when the frigate IRIS Sahand [F-74] unexpectedly sank at the port of Bandar Abbas. Reports from Iranian and Russian sources indicate that the cause of the sinking remains unclear. The frigate, docked at the southern Iranian port on the Persian Gulf, was found lying on its left side, with parts of its starboard side and conning tower visible above the waterline. Iranian media have acknowledged the "incident" but have not provided detailed explanations, referring to it as an accident.

The IRIS Sahand [F-74] is relatively new, having joined the fleet on December 1, 2018. It was constructed at the Shahid Darvishi Marine Industries shipyard in Bandar Abbas, near the Strait of Hormuz. Sahand is the third vessel in the Mowj project lineup, following its predecessors, Jamaran and Damavand.

Named after a volcano, the IRIS Sahand carries the legacy of its predecessor, a British-built Vosper Mk. 5 light frigate that was lost during combat with American forces in Operation Praying Mantis in 1988. The current IRIS Sahand made headlines in 2021 by traveling from the Persian Gulf to the Baltic Sea to participate in the Main Naval Parade of the Russian Navy.

The IRIS Sahand is a Moudge-class frigate, domestically produced in Iran. It was launched in November 2012 and entered service in December 2018. The vessel measures approximately 94 meters (308 feet) in length and 11 meters (36 feet) in beam, with a draft of about 3.25 meters (10.7 feet). These dimensions enable it to perform a variety of naval operations across different maritime environments.

Powered by four diesel engines, the IRIS Sahand can reach speeds of up to 30 knots and has a range of about 3,700 nautical miles when cruising at 15 knots. With a displacement of around 1,500 tons, it is classified as a light frigate but is equipped with advanced systems and weaponry, making it a versatile and formidable part of the Iranian Navy.

The frigate features an array of systems, including radar, sonar, and electronic warfare capabilities, enhancing its ability to detect, track, and engage various threats. Its advanced communication systems enable seamless coordination with other naval units.

The IRIS Sahand typically has a crew of around 140 personnel, including officers, sailors, and specialized technicians responsible for operating and maintaining the ship’s diverse systems and weaponry. The crew size ensures efficient operations and readiness for various missions.

In terms of armaments, the IRIS Sahand is well-equipped with anti-ship missiles like the Noor and Qader, capable of striking enemy vessels over long distances. For defense against multi-spectrum threats, it is armed with torpedoes, naval guns, and surface-to-air missiles. Additionally, it features close-in weapon systems (CIWS) for point defense against incoming missiles and aircraft.

US Air Force Advances Next-Gen Air Dominance with Anduril and General Atomics CCA Funding





 The US Air Force (USAF) has decided to continue funding Anduril and General Atomics for detailed design, manufacturing, and testing of near-prototype platforms under the Collaborative Combat Aircraft (CCA) program. This marks a significant step towards enhancing the Air Force's next-generation air dominance capabilities. The CCA program is a critical part of the USAF’s Next Generation Air Dominance (NGAD) Family of Systems, which aims to maintain air superiority with a mix of manned and unmanned systems, reducing human risk, lowering costs, and increasing efficiency.

CCA is a US program for unmanned combat air vehicles (UCAVs) designed to work in tandem with next-generation manned aircraft, such as sixth-generation fighters and bombers like the Northrop Grumman B-21 Raider. Unlike traditional UCAVs, CCAs incorporate artificial intelligence (AI) to enhance their battlefield survivability, offering a more affordable alternative to manned aircraft with similar capabilities.

From 2023 to 2028, the USAF plans to invest over $6 billion in CCA programs. Success in this initiative could reduce the need for additional manned squadrons, balancing affordability with capability. CCAs will elevate human pilots to mission commanders, with AI handling tactical control of cost-effective robotic craft. These multi-role aircraft can be modular, performing various tasks such as sensors, shooters, and weapons carriers, and potentially acting as decoys or aerial refuelers.

The CCA program will integrate AI and autonomy to complete missions without constant human intervention, enhancing situational awareness, lethality, and survivability in contested environments. DARPA’s Longshot UAV, which extends mission range and reduces risks to manned aircraft, is an example of such technology.

Two years ago, the USAF announced its intent and broad requirements for the desired CCA. As part of the 2024 budget, contracts have been awarded to Anduril and General Atomics, with nearly twenty other companies remaining as potential industry partners. The program aims to make production decisions by 2026 and operationalize the systems by 2030, including international partnerships to achieve economies of scale and interoperability with NATO and other allies.

Initial production contracts could include at least 1,000 CCAs, potentially pairing two CCAs with each of the 200 NGAD platforms and the 300 F-35s. The CCAs will enhance the USAF’s capability to counter growing aerial threats, particularly from China, by performing complex tasks such as electronic warfare and aerial combat.

DARPA’s Air Combat Evolution (ACE) program is a key contributor to the CCA initiative. ACE aims to increase trust in combat autonomy through human-machine collaborative aerial engagements. It applies AI to realistic dogfighting scenarios and scales autonomous dogfighting to more complex, multi-aircraft operational-level simulations, preparing for future live experimentation in Mosaic Warfare.

General Atomics plans to build the CCA using components from the MQ-9 Reaper, with the project still in its initial stages. Anduril, which acquired Blue Force Technologies and its “Fury” stealthy aggressor drone program, is another major player. Their designs, such as General Atomics’ “Gambit” and Anduril’s “Fury,” will leverage digital engineering and AI to enhance air dominance.

The CCA program represents a pivotal shift in aerial combat, leveraging AI and autonomous systems to create a cost-effective, powerful air force. With a planned investment of $6 billion through 2028, the USAF aims to deploy CCAs at a large scale, enhancing the safety and performance of current and future fighter fleets in response to proliferating hostile stealth fighters.

Sunday, June 30, 2024

China Revolutionizes Aerial Surveillance with Advanced Weather Radar Technology

 




Chinese scientists may have achieved a significant breakthrough in aerial surveillance by upgrading ordinary weather radars to detect even the smallest airborne objects. This innovative radar technology allows the detection of tiny high-altitude balloons with the same precision as spotting an F-35 stealth fighter jet, according to claims by the Hong Kong "South China Morning Post."

This advancement transforms weather radars, traditionally unable to detect such small, slow-moving objects, into highly effective surveillance tools. This capability poses potential security concerns for other nations, including the US and India.

The new technology, which only requires a software upgrade for existing weather radars, is both cost-effective and efficient. This means that China can enhance its aviation monitoring and national defense capabilities without significant investment in new hardware.

This upgrade enables weather radars to continue their primary function of weather forecasting while also monitoring small airborne objects, marking a major technological advancement. In the context of the competitive global technological landscape, this achievement underscores China's prowess in innovation.

The development is timely, considering the growing contest for aerial dominance. In early 2023, a Chinese "weather balloon" traversed the US, causing a media frenzy and embarrassing the US military, which initially failed to detect it.

Understanding the Threat: Spy Balloons

Spy balloons have a longstanding history in espionage, offering unique advantages despite the prevalence of satellites. These advanced balloons, equipped with high-tech imaging gear, can provide close-range monitoring and intercept communications. Unlike satellites, which orbit rapidly, these balloons hover at lower altitudes, capturing clearer images.

Chinese researchers have highlighted the military uses of such balloons, including creating false air situations, deploying weapons, and conducting psychological warfare and reconnaissance.

China's "Spy Balloons" in US Skies

In January 2023, a large Chinese balloon entered US airspace, initially undetected by the US military. Public pressure led to the deployment of fighter jets to track the balloon, which was eventually shot down in February 2023. Subsequent investigations revealed the balloon was transmitting navigation data back to China using an American internet service provider.

Threat to Other Countries

China's surveillance efforts extend beyond the US. Countries like Japan and India have reported mysterious aerial objects, suspected to be Chinese spy balloons. China has established its Near-Space Command, utilizing drones, robotics, and spy balloons for high-altitude surveillance under the Central Military Commission.

The Strategic Support Force (SSF), a covert unit of the People's Liberation Army (PLA), operates spy balloons and other surveillance technologies. The SSF runs tracking and command stations worldwide and has a fleet of space support ships.

The Biden administration has accused China of running a military-linked aerial surveillance program targeting over 40 countries. The US and its allies, including Japan and Taiwan, have reported multiple instances of suspected Chinese spy balloons in their airspace.

In November 2023, an unidentified flying object near Imphal airport in Manipur, India, led to the mobilization of fully loaded Rafale jets, highlighting the heightened state of alert regarding potential aerial threats from China.

Conclusion

The implications are clear: aerial surveillance has entered a new phase. While the US and other nations work to improve their detection capabilities, China has surged ahead, converting simple weather radars into advanced surveillance systems. This development signals a new era in aerial espionage, with China significantly altering the landscape of aerial security and surveillance.

Lockheed Martin Battles for Indian Air Force Transport and Fighter Jet Contracts Against Airbus and Embraer





 Lockheed Martin, a major U.S. defense contractor, is fiercely competing for the Indian Air Force's (IAF) transport and fighter jet aircraft contracts. For the transport aircraft, Lockheed Martin is up against Airbus and Embraer.

The IAF’s transport aircraft have been crucial for Humanitarian Assistance and Disaster Relief (HADR) operations within India and internationally. They also play a vital role in the logistics and movement of Indian armed forces, especially in the Himalayan regions. Historically, the Ilyushin Il-76MD and Antonov An-32 aircraft have been the mainstay for almost 40 years. The recent additions of the C-17 Globemaster and C-130J-30 have extended India’s reach and payload capacity.

As India progresses towards becoming the third-largest economy, its global commitments necessitate an upgrade in the IAF’s transport capabilities. Older aircraft are nearing retirement, prompting the IAF to seek new transport aircraft with an 18 to 30-ton cargo capacity. Contenders include Embraer’s C-390, Lockheed Martin’s C-130J, and the Airbus A400M Atlas.

Currently, the IAF operates a 17-aircraft fleet of Ilyushin Il-76MDs, 105 Antonov An-32 aircraft, 12 Boeing C-17 Globemaster III, and 12 Lockheed Martin C-130J-30 Super Hercules. The older HS-748 aircraft are being replaced by the Airbus C-295MW.

The Indo-Russian Medium Transport Aircraft (MTA) project, initiated in 2009, aimed to replace the An-32 but has faced delays and technical issues, with Russia continuing the project alone. The Ilyushin Il-276, a potential outcome of this project, is expected to begin flight testing in 2023.

In December 2022, the IAF issued a Request for Information (RFI) for a new transport aircraft with an 18 to 30-ton capacity, extending the submission deadline to March 31, 2024. The RFI emphasizes technology transfer, indigenization, and establishing a manufacturing line in India.

The contenders for the contract are:

  1. Airbus A400M Atlas: A four-engine turboprop aircraft capable of carrying 37 tons and performing various roles, including medical evacuation and aerial refueling.
  2. Embraer C-390 Millennium: A twin-engine, jet-powered aircraft with a 26-ton payload, suitable for multiple missions and known for its operational flexibility and low costs.
  3. Lockheed Martin C-130J Super Hercules: A four-engine turboprop with a 19-ton payload, already in service with the IAF and known for its reliability and performance.

The evaluation process will consider technical specifications, life cycle costs, technology transfer levels, and potential for local manufacturing. The decision will also account for the aircraft's ability to operate from short, rough airstrips and support high-altitude operations.

India's defense acquisition processes are often lengthy, but the need for modernizing the IAF’s transport fleet is urgent to avoid capability gaps. Lockheed Martin, Airbus, and Embraer are all well-acquainted with India, with each offering distinct advantages and extensive collaboration history.

Lockheed Martin, in particular, is also pitching its F-21 fighter aircraft to the IAF, emphasizing its long-term presence in India and integration of Indian suppliers into its global supply chain. Airbus, with its significant civil aviation footprint in India, and Embraer, known for its advanced technologies and collaborations, are formidable competitors in this high-stakes battle for IAF contracts.

Saturday, June 29, 2024

China Captures US Anti-Submarine Device Deployed by US Navy's P-8A Poseidon in South China Sea





 The U.S. Navy's advanced P-8A Poseidon maritime patrol aircraft recently deployed a hydroacoustic buoy in the South China Sea, which has reportedly been retrieved by Chinese forces. This buoy, designed for submarine detection, poses significant concerns over potential reverse engineering by China, which has a history of replicating American technology.

A video posted by Yuyuan Tantian, a social media account linked to the state-run China Central Television, shows what appears to be a U.S. Navy P-8A Poseidon dropping multiple cylindrical devices into the sea. Reports suggest that one of these devices fell near the Second Thomas Shoal in the Spratly Islands, an area contested by the Philippines and China and the site of recent clashes.

Following the incident, the China Coast Guard quickly arrived to retrieve and inspect the unidentified electronic devices, according to Yuyuan Tantian. The video further shows labels on an electronic device identifying Ultra Electronics, a UK-based defense contractor, as the manufacturer. Ultra Electronics specializes in producing radars and electronic warfare products, including sonobuoys.

Sonobuoys are specialized buoys equipped with acoustic sensors designed to detect submarines. When deployed from aircraft like the P-8 Poseidon, they form a network of listening devices that monitor underwater sounds. Passive sonobuoys listen for sounds emitted by submarines, while active sonobuoys emit sound pulses and listen for echoes from objects, including submarines. These devices descend to a predetermined depth using a parachute and then activate their sensors. The data collected is transmitted back to the P-8 Poseidon via radio signals for analysis.

Reverse engineering a captured U.S. sonobuoy could reveal crucial details about American anti-submarine warfare technology. Key areas of interest include the sonobuoy's sensor technology, data processing, communication with the P-8 Poseidon, power management, and any unique software or algorithms used for signal processing and data encryption.

It's challenging to verify China's claims about capturing the sonobuoy, and the specific type of sonobuoy captured remains unknown. Common sonobuoys used by the P-8 Poseidon include the AN/SSQ-53F DIFAR, AN/SSQ-62E DICASS, AN/SSQ-101 ADAR, and the AN/SSQ-125 MAC. These devices, made by companies like Ultra Electronics, Sparton Corporation, Lockheed Martin, and ERAPSCO, provide sophisticated capabilities for detecting and tracking submarines.

India Nears Finalization of Maintenance Deal for Russian S-400 Systems with Local Production Plans by 2028

 




According to a source within the Indian defense industry, an agreement between an Indian company and the Russian manufacturer of the S-400 air defense systems for local maintenance and repair is nearly complete. This has been reported by various media outlets, including EurAsian Times, Russia’s Sputnik, and India’s Times of India.

The key joint venture involves an Indian firm collaborating with Almaz-Antey, the Russian state-owned company that developed the S-400 surface-to-air missile (SAM) system. The primary aim of this partnership is to maintain and repair S-400 air defense systems in India, with plans to eventually produce essential components locally.

Negotiations between the Indian company and Almaz-Antey are almost concluded. The partners intend to establish two support centers and commence manufacturing spare parts in India by 2028.

Discussions about India’s role in manufacturing spare parts and maintaining the S-400 system began back in 2019. Reports from BulgarianMilitary.com indicated that Russia and India were negotiating the production of parts for the S-400 systems within India. Sergey Chemezov from Russia’s high-tech company, Rostec, confirmed these discussions. He also mentioned that Russia had previously sold licenses to India for the production of Su-30 fighter jets and T-90 tanks, and collaborated on the development and production of the BrahMos missile in India.

India sought to purchase the Russian-made S-400 missile systems as early as 2015, finalizing a $5.43 billion contract during Russian President Vladimir Putin’s visit to India. This move faced opposition from Washington, which threatened sanctions on countries buying military equipment from Russia. Despite U.S. pressure, India remains committed to acquiring the S-400 systems.

Indian sources report a delay in the delivery of the SA-21 Growler anti-aircraft missile systems from Russia. Originally scheduled for delivery by 2024, the final pair will now arrive between July and September 2026, likely due to the ongoing conflict between Russia and Ukraine. However, Russia has not officially commented on the delay.

In October last year, new information surfaced about India’s pending S-400 units, with photos shared on Russian Telegram accounts showing the transport of key S-400 components. These photos suggested that the final units for India were nearing completion, pending final assembly and quality tests before shipment.

In March 2024, BulgarianMilitary.com reported another delay in the delivery of the final pair of S-400 Triumf systems to India, disrupting India's defense plans which rely on the three existing S-400 units. The delay of the fourth and fifth units, now expected in 2026, is a significant issue for India.

This situation might offer an unexpected benefit for India's defense industry. India, which currently relies on imported parts for various platforms, could leverage the ongoing conflicts and production challenges to gain a major technology transfer from Russia. This would facilitate local assembly of parts and components, turning a challenging situation into a potential advantage through Transfer of Technology (ToT).