Flash satellite

The flash satellite technology is a method of satellite geodesy that was developed in the 1960s to facilitate photographic observations of small satellites and to reduce the influence of time errors on orbit measurement . The method became obsolete when high-precision clock systems became available around 1975 and electronic distance measurement became possible over great distances.

At the beginning of space travel, geodetic satellites were measured visually or photographically, which required the missiles to be sufficiently bright . For large-scale surveying networks, bright, high-flying balloon satellites were initially the best solution, but their low weight led to severe orbital disruptions . As an alternative, smaller, compact satellites were built and equipped with powerful xenon lamps and solar panels that could generate short series of flashes . Their brightness was sufficient for satellite cameras with highly sensitive emulsions , and the satellites could also be observed in the earth's shadow .

A second advantage was the possibility of precise simultaneous measurements through distant ground stations . The Timing of the cameras was still hardly accurate possible than some milliseconds , which would km at near-Earth line speeds 7-8 per second already tracking error of 10 to 20 feet mean. If, on the other hand, the simultaneity of the measurements is guaranteed, this influence no longer plays a role in a three-dimensional survey network defined by the flashed target points .