Basic Mechanisms In Fire Control Computers: Solvers, Integrators… 1953 US Navy Training Film

Published on January 11, 2018

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Basic Mechanisms In Fire Control Computers Part 2:
Component Solvers, Integrators and Multipliers

US Navy Training Film MN-6783b

see also Basic Mechanisms In Fire Control Computers Part 1: Shafts, Gears, Cams, Differentials:

Public domain film from the US Navy, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied.
The soundtrack was also processed with volume normalization, noise reduction, clipping reduction, and/or equalization (the resulting sound, though not perfect, is far less noisy than the original).

The Mark 1, and later the Mark 1A, Fire Control Computer was a component of the Mark 37 Gun Fire Control System deployed by the United States Navy during World War II and up to 1969. It was used on a variety of ships, ranging from destroyers (one per ship) to battleships (four per ship). The Mark 37 system used tachymetric target motion prediction to compute a fire control solution. Weighing more than 3000 pounds (1363 kilograms), the Mark 1 itself was installed in the plotting room, a watertight compartment that was located deep inside the ship’s hull to provide as much protection against battle damage as possible.

Essentially an electromechanical analog computer, the Mark 1 was electrically linked to the gun turrets and the Mark 37 gun director, the latter mounted as high on the superstructure as possible to afford maximum visual and radar range. The gun director was equipped with both optical and radar range finding, and was able to rotate on a small barbette-like structure. Using the range finders, the director was able to produce a continuously varying set of outputs, referred to as line-of-sight (LOS) data, that were electrically relayed to the Mark 1 via synchro motors. The LOS data provided the target’s present range, bearing, and in the case of aerial targets, altitude. Additional inputs to the Mark 1 were continuously generated from the stable element, a gyroscopic device that reacted to the roll and pitch of the ship, the pitometer log, which measured the ship’s speed through the water, and an anemometer, which provided wind speed and direction.

In “Plot” (the plotting room), a team of sailors stood around the 4-foot-tall (1.2 m) Mark 1 and continuously monitored its operation. They would also be responsible for calculating and entering the average muzzle velocity of the projectiles to be fired before action started. This calculation was based on the type of propellant to be used and its temperature, the projectile type and weight, and the number of rounds fired through the guns to date.

Given these inputs, the Mark 1 automatically computed the lead angles to the future position of the target at the end of the projectile’s time of flight, adding in corrections for gravity, relative wind, the magnus effect of the spinning projectile, and parallax, the latter compensation necessary because the guns themselves were widely displaced along the length of the ship. Lead angles and corrections were added to the LOS data to generate the line-of-fire (LOF) data. The LOF data, bearing and elevation, as well as the projectile’s fuze time, was sent to the turrets by synchro motors, whose motion actuated hydraulic machinery to aim the guns.

Once the system was “locked” on the target, it produced a continuous fire control solution. While these fire control systems greatly improved the long-range accuracy of ship-to-ship and ship-to-shore gunfire, especially on heavy cruisers and battleships, it was in the anti-aircraft warfare mode that the Mark 1 made the greatest contribution. However, the anti-aircraft value of analog computers such as the Mark 1 was greatly reduced with the introduction of jet aircraft, where the relative motion of the target became such that the computer’s mechanism could not react quickly enough to produce accurate results.

The design of the postwar Mark 1A may have been influenced by the Bell Labs Mark 8, Fire Control Computer which was developed as an all electrical computer, incorporating technology from the M9 gun data computer as a safeguard to ensure adequate supplies of fire control computers for the USN during WW2. Surviving Mark 1 computers were upgraded to the Mark 1A standard after World War II ended.

Digital fire control computers were not introduced until the age of minicomputers in the mid-1970s…

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