Post-peer-review
The Ancillary_Product class identifies an
ancillary measurement related to a Spectral Library
specimen.
The Measurement_Instrument class contains
attributes that identify the instrument that made the
measurement.
The Measurement_Parameters class contains
attributes relevant to a single measurement of a specimen.
The Specimen_Classification class provides
information about how a specimen has been
classified.
The Specimen_Parameters class provides
information about a specimen for which measurements have been
made.
The Spectral_Library_Product class provides
information about a data product in the Spectral
Library.
This section contains the simpleTypes that provide more constraints
than those at the base data type level. The simpleTypes defined here build on the base data
types. This is another component of the common dictionary and therefore falls within the
common namespace.
The ancillary_product_type element provides the
type of data found in an ancillary product.
The data_producer_name element provides the name
of the creator of the product. For products in RELAB, the value
of data_producer_name is always "RELAB".
The data_provider_name element provides the full
name of the person who submitted the product to the
library.
The emission_angle element provides the angle
between the local vertical at the intercept point and a vector
from the intercept point to the sensor.
The incidence_angle element provides the angle
between the local vertical at the intercept point and a vector
from the intercept point to the detector.
The instrument_name element provides a
descriptive name of the instrument that made a spectral
measurement.
The material_common_name element gives the
specific name of the specimen material, as specifically as it is
known. For example, if a specimen is pure olivine, put
"Olivine". If a specimen is a mixture of kaolinite and opal, put
"Kaolinite/Opal". Indicate if "Unidentified".
The material_origin element identifies whether
the specimen is natural or synthetic.
The material_state element identifies the
physical state of the specimen.
The material_subtype element identifies the
material subtype of the specimen.
The material_type element indicates the general
type of the specimen.
The measurement_atmosphere_composition element
identifies any gas(es) present in measurement
environment.
The measurement_atmosphere_description decribes
the atmospheric conditions through which the data was
taken.
The measurement_atmosphere_pressure element
provides the atmospheric pressure of the measurement
environment.
The measurement_atmosphere_relative_humidity
element provides the relative humidity of the measurement
environment.
The measurement_atmosphere_temperature element
provides the temperature of the measurement
environment.
The measurement_date_time element identifies the
date and time of the observation and
measurement.
The measurement_geometry_type element identifies
the type of geometry at which a measurement is
taken.
The measurement_notes element contains relevant
notes about how a measurement was made.
The measurement_reference_standard element
identifies the standard object on which observations are
performed in order to calibrate a measurement.
The measurement_requestor element identifies the
individual or laboratory who requested the measurement. It may
occur more than once.
The measurement_segments element gives the
number of measurement segments that were combined to create the
spectrum. If the spectrum is not merged from multiple segments,
then the value of measurement_segments is 1.
The measurement_source_description element
identifies the source used for the measurement such as the type
of lamp, heating element, laser, or radioactive
source.
The measurement_type element identifies the type
of spectroscopy performed on a specimen.
The mineral_subtype element identifies the
mineral subtype of the specimen.
The mineral_type element identifies the type of
mineral to which the specimen belongs.
The organic_type element identifies the organic
type to which the specimen belongs.
The phase_angle element provides the angle
between incidence and emission vectors.
The processing_description element provides
information about how measurement(s) for a particular product
were made, in addition to the information given in the
Measurement Parameters class. In the case of a product created
by merging multiple measurements, this element describes how the
merge was done.
The rock_subtype element identifies the rock
subtype of the specimen.
The rock_type element identifies the type of
rock the specimen is.
The segment_number element identifies which
segment of a merged spectrum is described by a
Measurement_Parameters class. The first segment is segment
number 1. If the spectrum is not merged from multiple segments,
then the value of segment_number is 1.
The source_specimen_id element identifies the
source specimen from which the observed specimen is
derived.
The specimen_collection_location element
provides the place where the specimen was
collected.
The specimen_description element provides a
short description of the specimen.
The specimen_id element uniquely identifies the
specimen.
The specimen_max_size element identifies the
maximum particle size of the observed
specimen.
The specimen_min_size element identifies the
minimum particle size of the observed
specimen.
The specimen_name element identifies the
specimen as it is named where it is being
kept.
The specimen_owner_location element provides the
institution or laboratory name where the specimen
resides.
The specimen_owner_name element identifies the
individual or laboratory to whom the specimen
belongs.
The specimen_type element gives one or more
terms that classify the origin of the specimen.
The spectral_range_max element identifies the
maximum value at which a given data item was sampled. For
example, a spectrum that was measured in the 0.4 to 3.5 um
spectral range would have a spectral_range_max value of
3.5.
The spectral_range_min element identifies the
minimum value at which a given data item was sampled. For
example, a spectrum that was measured in the 0.4 to 3.5 um
spectral range would have a spectral_range_min value of
0.4.
The spectral_range_parameter_name element
identifies the name of the parameter which determines the
sampling interval of the measurement.
The spectral_range_unit element identifies the
unit of measure for the values specified by spectral_range_min
and spectral_range_max.
The spectral_resolution_width_max element
identifies the maximum width of a spectral band in a given
spectrum. If all bands are the same width,
spectral_resolution_width_min and spectral_resolution_width_max
will have the same value.
The spectral_resolution_width_min element
identifies the minimum width of a spectral band in a given
spectrum. If all bands are the same width,
spectral_resolution_width_min and spectral_resolution_width_max
will have the same value.
The spectral_resolution_width_unit element
identifies the unit of measure for the values specified by
spectral_resolution_width_min and
spectral_resolution_width_max.
The spectral_sampling_interval_max element
identifies the maximum distance between band centers in a given
spectrum. If all band centers are equally spaced,
spectral_sampling_interval_min and
spectral_sampling_interval_max will have the same
value.
The spectral_sampling_interval_min element
identifies the minimum distance between band centers in a given
spectrum. If all band centers are equally spaced,
spectral_sampling_interval_min and
spectral_sampling_interval_max will have the same
value.
The spectral_sampling_interval_unit element
identifies the unit of measure for the values specified by
spectral_sampling_interval_min and
spectral_sampling_interval_max.
The synthetic_processing_description element
describes how a synthetic specimen has been
processed.
The synthetic_type element identifies the
process by which the specimen was produced
synthetically.
The volatile_type element indicates whether the
material was volatile-poor (less than 2.0% LOI) or volatile-rich
(greater than 2.0% LOI).