Product Manual
21
how you should calculate the elevation offset between the two
antennas after measuring the elevation deviation and the
baseline length. The sign of the elevation offset is also
provided on the diagram below (elevation offset negative if
the secondary antenna is lower than the primary antenna and
vice versa).
The elevation offset should not be more than 45 degrees (or
less than -45 degrees), or the receiver will consider the
antenna setup to be invalid. No heading, roll or pitch
measurements would be calculated in this case.
Azimuth Offset
Ideally, the antennas should be installed to generate a
baseline strictly parallel or perpendicular to the vehicle
centerline.
However, you may also be facing some installation constraints
on your vehicle compelling you to install the antennas
differently. The azimuth offset describes the non-alignment
of the baseline with the vehicle centerline.
When the baseline is strictly parallel to the centerline and the
baseline is oriented in the direction of forward movement, the
azimuth offset is zero. In all other cases, the offset is non-
zero and should be measured as shown in the diagram below.
The non-alignment of the baseline with the vehicle centerline
may be intentional (see explanations in the next section
below).
Baseline length
Baseline Length (m)
Elevation Deviation (m)
Elevation
Deviation
Secondary Antenna
Primary Antenna
Elevation Offset (°)
Elevation Offset (°) = arcsin
[+]
[-]
Vehicle
Centerline
Azimuth Offset (°)
Secondary Antenna
Primary Antenna
Base
l
ine
Di
recti
o
n
Forward movement