America Tests the LRASM Anti-Ship Missile From Its B-2 Stealth Bomber to Counter China, but Speed Remains Its Achilles Heel Against BrahMos The US Air Force has test-fired the AGM-158C LRASM anti-ship missile from the B-2 Spirit stealth bomber, delivering a pointed warning to China over its growing naval assertiveness in the Indo-Pacific. While LRASM impresses with stealth design, AI-driven guidance, and swarming capability, it remains a subsonic weapon that falls well short of the BrahMos in speed. In a pointed signal toward Beijing, the United States Air Force has successfully tested the AGM-158C LRASM anti-ship missile from the B-2 Spirit stealth bomber, widely considered the most capable strategic aircraft in any military's inventory. The test comes amid sharpening tensions in the Indo-Pacific and reflects Donald Trump's assertive military stance. Defense analysts describe LRASM as a serious threat to Chinese naval power in the region, while also noting that on the single metric of raw speed, it falls well short of the BrahMos, the supersonic cruise missile jointly developed by India and Russia. What LRASM Is and How It Works LRASM is far more than a standard guided munition. Built on the airframe of the AGM-158 JASSM-ER, originally a land-attack weapon, LRASM has been redesigned to hunt and destroy enemy warships at sea with full autonomy. Its outer structure carries a stealth profile engineered to defeat the air defense radars fitted on modern naval vessels. Most critically, it does not need GPS or any external targeting input to find and strike an enemy ship. It can operate entirely on its own. AI-Powered Guidance That GPS Jamming Cannot Stop The defining feature of LRASM is its artificial intelligence-driven guidance system. Even if an adversary jams or disables GPS signals during active combat, LRASM continues flying toward its target. The missile relies on a combination of on-board sensors, passive radar, and thermal imaging technology, specifically Imaging Infrared or IIR, to independently identify and engage enemy vessels at sea. This makes it resilient against the electronic warfare countermeasures that frequently neutralize GPS-dependent weapons, giving it a significant advantage in a contested electromagnetic environment. Swarm Intelligence: A Coordinated Fleet-Killer One of LRASM's most tactically significant capabilities is its ability to function in a swarm. When multiple LRASMs are fired at the same time, they communicate with each other through data links and collectively decide which missile will strike which ship, at what angle, and at what moment. The result is a coordinated attack that arrives simultaneously from multiple directions, leaving an enemy fleet almost no window to mount a coherent defense. This embedded collective intelligence represents a meaningful leap in naval strike capability. Why the B-2 and LRASM Combination Matters The B-2 Spirit is regarded as the most lethal stealth bomber in existence. It can penetrate hostile airspace without appearing on enemy radar. Combining that platform with LRASM, itself a stealth weapon, allows the United States to destroy modern enemy warships and aircraft carriers from a very long standoff distance, never entering the range of adversary defenses. This pairing is central to American planning for any potential conflict in the Indo-Pacific, and the recent test underscores how seriously that planning is being pursued. The Speed Gap: Where LRASM Falls Behind BrahMos LRASM's most significant drawback is its speed. It is a subsonic missile, meaning it travels below the speed of sound. BrahMos, developed jointly by India and Russia, flies at Mach 3, three times the speed of sound. At that velocity, enemy crews have virtually no reaction time once BrahMos is inbound. LRASM's slower pace theoretically gives adversary air defense systems more time to detect and engage it, even though its stealth characteristics reduce that vulnerability considerably. Supporters of the LRASM design counter that speed is not the only measure of lethality. The missile employs sea-skimming flight, staying extremely close to the ocean surface where radar systems struggle to track it. It also incorporates Electronic Counter-Countermeasure, or ECCM, technology that helps it resist jamming and defeat tracking attempts. Together, these features mean LRASM remains a credible and lethal weapon despite its subsonic flight profile, though the speed gap with BrahMos is a recurring point of debate among defense analysts. Not Confined to Aircraft: Surface Ships Can Fire It Too Testing of LRASM has concentrated on air launches from the B-2 and B-1B bombers as well as the F/A-18 Super Hornet fighter jet. However, the missile has also been designed for launch from ship-based Vertical Launch Systems, specifically the VLS Mk 41 fitted on American surface warships. This means LRASM is not a weapon exclusive to the air force. The navy can deploy it from its own vessels, significantly expanding the number of platforms capable of carrying out long-range anti-ship strikes and complicating enemy planning across both air and maritime domains. The Broader Contest for Naval Dominance in the Indo-Pacific China has been expanding its naval presence in the Indo-Pacific at a rapid pace, pressing territorial claims and challenging freedom of navigation that the United States has long underwritten in the region. America has responded by investing in longer-range, stealthier, and more autonomous strike weapons capable of neutralizing Chinese warships and carriers before they can bring their own firepower to bear. LRASM is a key part of that investment. Whether it can fully substitute for the speed advantage that weapons like BrahMos offer remains a live debate, but its combination of stealth design, AI-driven autonomy, swarming capability, and multi-platform flexibility makes it one of the most capable anti-ship weapons in the American arsenal today. What this means for you What this means for you: • A stronger US military posture in the Indo-Pacific indirectly benefits India's maritime security by helping check China's expanding naval footprint in the shared region. • BrahMos's clear speed advantage over America's newest anti-ship weapon reinforces India's standing as a serious player in advanced missile technology and global defense exports. Questions & Answers 1. What is the LRASM missile? The AGM-158C LRASM is an American anti-ship missile equipped with stealth technology and an AI-driven guidance system that can find and destroy enemy warships even without GPS. 2. Why is the B-2 Spirit and LRASM test so significant? The B-2 is the world's most dangerous stealth bomber and combined with LRASM it can destroy enemy warships and aircraft carriers from a very long standoff distance while staying safely out of the adversary's reach. 3. How much faster is BrahMos compared to LRASM? BrahMos flies at Mach 3, three times the speed of sound, while LRASM is a subsonic missile that travels slower than the speed of sound. 4. How does LRASM evade enemy air defenses despite being subsonic? LRASM flies in sea-skimming mode, hugging the ocean surface closely, and is equipped with ECCM technology that prevents enemy radar systems from effectively tracking it. 5. Can LRASM only be launched from aircraft? No. While tested from the B-2, B-1B bombers, and the F/A-18 Super Hornet, LRASM is also designed to be launched from ship-based Vertical Launch Systems, specifically the VLS Mk 41. 6. What is LRASM's standout capability? Its AI-based autonomous guidance system is its standout feature, functioning even when GPS is jammed, and multiple missiles can coordinate attacks via data links to neutralize an entire enemy fleet simultaneously. 7. What airframe is LRASM built on? LRASM was developed on the airframe of the AGM-158 JASSM-ER, which was originally designed as a land-attack missile. https://trendkia.com/en/security/china-ko-samndara-men-gherane-ke-lie-america-ka-b-2-bombara-se-lrasm-parikshana-lekina-brahmos-ki-raphtara-se-bahuta-pichhe-hai-ya-3744 TrendKia — Har trend, sabse pehle.