RFC 1876 (rfc1876) - Page 3 of 18

A Means for Expressing Location Information in the Domain Name System

RFC 1876            Location Information in the DNS         January 1996


             than a "plus or minus" value.  (This was chosen to match
             the interpretation of SIZE; to get a "plus or minus" value,
             divide by 2.)

VERT PRE     The vertical precision of the data, in centimeters,
             expressed using the sane representation as for SIZE.  This
             is the total potential vertical error, rather than a "plus
             or minus" value.  (This was chosen to match the
             interpretation of SIZE; to get a "plus or minus" value,
             divide by 2.)  Note that if altitude above or below sea
             level is used as an approximation for altitude relative to
             the [WGS 84] ellipsoid, the precision value should be
             adjusted.

LATITUDE     The latitude of the center of the sphere described by the
             SIZE field, expressed as a 32-bit integer, most significant
             octet first (network standard byte order), in thousandths
             of a second of arc.  2^31 represents the equator; numbers
             above that are north latitude.

LONGITUDE    The longitude of the center of the sphere described by the
             SIZE field, expressed as a 32-bit integer, most significant
             octet first (network standard byte order), in thousandths
             of a second of arc, rounded away from the prime meridian.
             2^31 represents the prime meridian; numbers above that are
             east longitude.

ALTITUDE     The altitude of the center of the sphere described by the
             SIZE field, expressed as a 32-bit integer, most significant
             octet first (network standard byte order), in centimeters,
             from a base of 100,000m below the [WGS 84] reference
             spheroid used by GPS (semimajor axis a=6378137.0,
             reciprocal flattening rf=298.257223563).  Altitude above
             (or below) sea level may be used as an approximation of
             altitude relative to the the [WGS 84] spheroid, though due
             to the Earth's surface not being a perfect spheroid, there
             will be differences.  (For example, the geoid (which sea
             level approximates) for the continental US ranges from 10
             meters to 50 meters below the [WGS 84] spheroid.
             Adjustments to ALTITUDE and/or VERT PRE will be necessary
             in most cases.  The Defense Mapping Agency publishes geoid
             height values relative to the [WGS 84] ellipsoid.









Davis, et al                  Experimental