Wake homing

Wake homing is a technique used to guide torpedoes to their target.

The torpedo is fired to cross behind the stern of the target ship, through the wake. As it does so, it uses sonar to look for changes in the water caused by the passage of the ship, such as small air bubbles. When these are detected, the torpedo turns toward the ship. It then follows a zig-zag course, turning when it detects the outer edge of the wake, to keep itself in the wake while moving forward. This will eventually bring it to the rear of the ship, where its warhead can do the most damage to propulsion and steering.

The system is difficult to jam, but it can be distracted by other ships crossing the wake. In 2013, the US Navy tested prototypes of a system known as the Countermeasure Anti-Torpedo (CAT),[1] which had been designed to intercept and destroy the incoming torpedo. Deployment of the system did not proceed as planned due to performance issues.[2]

The main disadvantage of wake homing is that the course taken to the target is non-optimal and the target is always sailing away from the weapon, requiring a fast weapon with a longer range than for direct homing. Also, being an active method, sonar wake homing gives up the torpedo position. This is why it is usually supplemented by passive methods, such as thermal and refractometric wake detection. Thermal wake detection centers on locating changes of water temperature in the ship's wake. Refractometric detection senses minute changes in the water's refraction index due to cavitation bubbles and such.