beamToXyzAdp(x, debug = getOption("oceDebug"))"adp".rdi data, the values at the 4th velocity index are changed to
represent the "error" velocity.)To indicate the change, the value of metadata$oce.orientation is
changed from beam to xyz.
For a 3-beam aquadopp object, the beams are transformed into
velocities using the matrix stored in the header.
For 4-beam rdi object, the beams are converted to velocity components
using formulae from section 5.5 of RD Instruments (1998), viz. the
along-beam velocity components $B1$, $B2$, $B3$,
and $B4$ are used to calculate velocity components in a cartesian
system referenced to the instrument using the following formulae:
$u=c*a*(B1-B2)$, $v=c*a*(B4-B3)$,
$w=-b*(B1+B2+B3+B4)$, and an estimate of the
error in velocity is calculated using $e=d*(B1 +
B2 - B3 - B4)$
(Note that the multiplier on $e$ is subject to discussion; RDI suggests one multiplier, but some oceanographers favour another.)
In the above, $c=1$ if the beam geometry is convex, and $c=-1$ if the beam geometry is concave, $a=1/(2*sin(theta))$, $b=1/(4*cos(theta))$ and $d=a/sqrt(2)$, where $theta$ is the angle the beams make to the instrument “vertical”.
2. WHOI/USGS-provided Matlab code for beam-enu transformation http://woodshole.er.usgs.gov/pubs/of2005-1429/MFILES/AQDPTOOLS/beam2enu.m (link last checked 2016-08-05)
read.adp for other functions that relate to
objects of class "adp".Other things related to adp data: [[,adp-method,
[[<-,adp-method, adp-class,
adp, as.adp,
beamName, beamToXyzAdv,
beamToXyz, beamUnspreadAdp,
binmapAdp, enuToOtherAdp,
enuToOther, plot,adp-method,
read.adp.nortek,
read.adp.rdi,
read.adp.sontek.serial,
read.adp.sontek, read.adp,
read.aquadoppHR,
read.aquadoppProfiler,
read.aquadopp,
subset,adp-method,
summary,adp-method, toEnuAdp,
toEnu, velocityStatistics,
xyzToEnuAdp, xyzToEnu