Barometric altimeters calculate and display altitude by measuring the local barometric pressure and converting that measurement into altitude. This conversion is done using the Standard Atmosphere Table, an international standard representing the barometric pressure at various altitudes on a so-called "standard day" which assumes a consistent non-linear relationship between altitude and pressure. Barometric pressure is used in absolute pressure datums to ensure repeatable measurement results for critical applications.
In reality, the relationship between pressure and altitude is not consistent. As weather patterns move, high
In the Digital Altimeter Setting Indication (DASI) system, the first step is to measure true barometric pressure at a location or "station" (typically an airport) whose exact height above sea level, called "station elevation," is known. That local barometric pressure measurement is then converted to local sea level pressure, ie, the pressure that would be measured if the station were dropped to seal level and all other conditions (latitude, longitude, weather) remained the same. Seal level pressure is needed because altimeters are typically referenced to sea level. The jargon for this adjustment process is "reduction of station pressure to sea level pressure" even though the adjusted pressure reading would be higher than the true pressure reading if the station were above sea level.
This local sea level pressure is referred to as the DASI number. This number, measured in units of pressure, is broadcasted by local National Weather Services and by airport control towers. For example, as a pilot approaches an airport, the current DASI reading is received from the airport and is entered into the on-board altimeter, thereby "correcting" the altimeter for the local variations in barometric pressure. The pilot then knows what the plane's true altitude is relative to the runway.
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