This class stores G1SST model-satellite products.
data
As with all oce
objects, the data
slot
for g1sst
objects is a
list
containing the main data for the object.
metadata
As with all oce
objects, the metadata
slot
for g1sst
objects is a list
containing
information about the data
or about the object itself.
processingLog
As with all oce
objects, the processingLog
slot
for g1sst
objects is a
list
with entries describing the creation and evolution
of the object. The contents are updated by various oce
functions to
keep a record of processing steps. Object summaries and
processingLogShow
both display the log.
Although the [[<-
operator may permit modification of the contents
of g1sst
objects (see [[<-,g1sst-method
),
it is better to use oceSetData
and oceSetMetadata
, because that will save an entry
in the processingLog
to describe the change.
The full contents of the data
and metadata
slots of a g1sst
object named g1sst
may be retrieved in the standard R way. For example,
slot(g1sst, "data")
and slot(g1sst, "metadata")
return
the data
and metadata
slots, respectively. The
[[,g1sst-method
operator can also be used to access slots,
with g1sst[["data"]]
and g1sst[["metadata"]]
, respectively.
Furthermore, [[,g1sst-method
can be used to retrieve
named items (and potentially some derived items) within the
metadata
and data
slots, the former taking precedence
over the latter in the lookup. It is also possible
to find items more directly, using oceGetData
and
oceGetMetadata
, but this cannot retrieve derived items.
G1SST is an acronym for global 1-km sea surface temperature, a product
that combines satellite data with the model output. It is provided by
the JPO ROMS (Regional Ocean Modelling System) modelling group.
See the JPL website [1] to learn more about the data, and see
the read.g1sst
documentation for an example
of downloading and plotting.
It is important not to regard G1SST data in the same category as,
say, amsr-class
data, because the two products
differ greatly with respect to cloud cover. The satellite used by
amsr-class
has the ability to sense water temperature
even if there is cloud cover, whereas g1sst
fills in cloud
gaps with model simulations. It can be helpful to consult
[1] for a given time, clicking and then unclicking the radio button
that turns off the model-based filling of cloud gaps.
1. JPO OurOcean Portal https://ourocean.jpl.nasa.gov/SST/
(link worked in 2016 but was seen to fail 2017 Feb 2).
Other things related to satellite data: plot,satellite-method
,
read.g1sst
, satellite-class
,
summary,satellite-method