Chinese engineers design drones that survive 87% of missile attacks

Chinese aerospace engineers have developed a novel evasive maneuvering system for combat drones that could increase their missile survival rate from about 10% to 87%. The technology involves equipping drones with lightweight, side-mounted rocket boosters that enable rapid, high-G acceleration and abrupt course changes just one or two seconds before missile impact. This "terminal evasion" system aims to make drone movements unpredictable, causing incoming missiles to miss and often detonate harmlessly in mid-air. The research team, led by Bi Wenhao from Northwestern Polytechnical University, emphasizes three core principles for the system: precise timing of booster ignition, directional intelligence to decide the optimal evasive maneuver (climb, dive, or lateral boost), and sufficient thrust to generate at least 16Gs of acceleration. While promising, the system has so far only been tested in digital simulations, and real-world trials remain pending. Additionally, integrating rocket boosters poses trade-offs by adding weight and reducing battery life, fuel capacity, and payload space. The