- Relative bearing
In nautical navigation the relative bearing of an object is the angle formed by the heading of the vessel and a straight line drawn from the observation station on the vessel to the object.
The relative bearing is measured with a
pelorus or other optical and electronic aids to navigation such as aperiscope ,sonar system , andradar system s. Since World War II, relative bearings of such diverse point sources have been and are calibrated carefully to one another. TheUnited States Navy operates a special range offPuerto Rico and another on the west coast to perform such systems integration. Relative bearings then serve as the baseline data for converting relative directional data intotrue bearing s (N-S-E-W, relative to the Earth's true geography). By contrast,Compass bearing s have an varying error factor at differing locations about the globe, and are less reliable than the compensated or true bearings.The measurement of relative bearings of fixed landmarks and other
navigation aids is useful for the navigator because this information can be used on thenautical chart together with simple geometrical techniques to aid in determining the position of the vessel and/or its speed, course, etc.The measurement of relative bearings of other vessels and objects in movement is useful to the navigator in avoiding the danger of collision.
* Example: The navigator on a ship observes a lighthouse when its relative bearing is 45º and again when it is 90º. he now knows that the distance from the ship to the lighthouse is equal to the distance trvelled by the vessel between both observations.
See also
*
Absolute bearing
* Bearing
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