PK Qkr r PDS4_SP_1F00_1300.csv"Sort Key","Type","Name","Version","Name Space Id","Description","Steward","Value Type","Minimum Cardinality","Maximum Cardinality","Minimum Value","Maximum Value","Minimum Characters","Maximum Characters","Unit of Measure Type","Specified Unit Id","Attribute Concept","Conceptual Domain"
"sp:Filter:1 ","Class","Filter","1.0.0.0","sp"," The Filter class identifies the filter associated with a specific band or bin along a spectral axis in an Array object. The filter may be identified by either name, identifier, or number or some combination of these. ","sbn","","","","","","","","","","",""
"sp:Filter:2 sp:filter_name:1 ","Attribute","filter_name","n/a","sp"," The filter_name attribute provides the commonly-used name of the instrument filter through which an image or measurement was acquired or which is associated with a given instrument mode. ","sbn","ASCII_Short_String_Collapsed","0","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Filter:2 sp:filter_number:1 ","Attribute","filter_number","n/a","sp"," The filter_number attribute provides the numeric identifier of an instrument filter through which an image or measurement was acquired or which is associated with a given instrument mode. Within the bin class of a spectral data object, it identifies the filter through which data in the given band were acquired. ","sbn","ASCII_NonNegative_Integer","0","1","0","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Filter:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Circular_FOV:1 ","Class","Circular_FOV","1.0.0.0","sp"," The Circular_FOV class contains attributes to describe a circular aperture/field of view. ","sbn","","","","","","","","","","",""
"sp:Circular_FOV:2 sp:diameter_angle:1 ","Attribute","diameter_angle","n/a","sp"," The diameter_angle attribute provides the angle subtended on the sky by the diameter of a circular aperture. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Angle","none","TBD_classConcept","REAL"
"sp:Rectangular_FOV:1 ","Class","Rectangular_FOV","1.0.0.0","sp"," This class is used to describe a rectangular (i.e., slit) aperture. ","sbn","","","","","","","","","","",""
"sp:Rectangular_FOV:2 sp:width_angle:1 ","Attribute","width_angle","n/a","sp"," The width_angle is the angle subtended on the sky by the short dimension of a simple slit. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Angle","none","TBD_classConcept","REAL"
"sp:Rectangular_FOV:2 sp:length_angle:1 ","Attribute","length_angle","n/a","sp"," The length_angle attribute provides the angle subtended on the sky by the long dimension of a simple slit. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Angle","none","TBD_classConcept","REAL"
"sp:Rectangular_FOV:2 sp:celestial_north_position_angle:1","Attribute","celestial_north_position_angle","n/a","sp"," The celestial_north_position_angle attribute provides the angle the long axis of the slit makes with respect to celestial north, measured eastward of celestial north in the range 0-180 degrees. ","sbn","ASCII_Real","0","1","0.0","180.0","Unbounded","Unbounded","Units_of_Angle","none","TBD_classConcept","REAL"
"sp:Rectangular_FOV:2 sp:body_positive_pole_position_angle:1","Attribute","body_positive_pole_position_angle","n/a","sp"," The body_positive_pole_position_angle attribute provides the angle the long axis of the slit makes with respect to the positive (or "north") pole of the target body, measured clockwise from the pole in the range 0-180 degrees. ","sbn","ASCII_Real","0","1","0.0","180.0","Unbounded","Unbounded","Units_of_Angle","none","TBD_classConcept","REAL"
"sp:Complex_FOV:1 ","Class","Complex_FOV","1.0.0.0","sp"," The Complex_FOV class is used for apertures (slits) that are not either circular or a simple rectangular shape. ","sbn","","","","","","","","","","",""
"sp:Complex_FOV:2 sp:width_angle:1 ","Attribute","width_angle","n/a","sp"," The width_angle is the angle subtended on the sky by the short dimension of a simple slit. ","sbn","ASCII_Real","0","*","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Angle","none","TBD_classConcept","REAL"
"sp:Complex_FOV:2 sp:length_angle:1 ","Attribute","length_angle","n/a","sp"," The length_angle attribute provides the angle subtended on the sky by the long dimension of a simple slit. ","sbn","ASCII_Real","0","*","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Angle","none","TBD_classConcept","REAL"
"sp:Complex_FOV:2 sp:celestial_north_position_angle:1","Attribute","celestial_north_position_angle","n/a","sp"," The celestial_north_position_angle attribute provides the angle the long axis of the slit makes with respect to celestial north, measured eastward of celestial north in the range 0-180 degrees. ","sbn","ASCII_Real","0","1","0.0","180.0","Unbounded","Unbounded","Units_of_Angle","none","TBD_classConcept","REAL"
"sp:Complex_FOV:2 sp:body_positive_pole_position_angle:1","Attribute","body_positive_pole_position_angle","n/a","sp"," The body_positive_pole_position_angle attribute provides the angle the long axis of the slit makes with respect to the positive (or "north") pole of the target body, measured clockwise from the pole in the range 0-180 degrees. ","sbn","ASCII_Real","0","1","0.0","180.0","Unbounded","Unbounded","Units_of_Angle","none","TBD_classConcept","REAL"
"sp:Bin_Center_Lookup:1 ","Class","Bin_Center_Lookup","1.0.0.0","sp"," The Bin_Center_Lookup class provides a link to a map or list of bin center values - either to a field in a spectral table, or to a distinct data object that is part of the same product, or to a separate PDS product containing the information. ","sbn","","","","","","","","","","",""
"sp:Bin_Center_Lookup:2 sp:bin_center_field_name:1 ","Attribute","bin_center_field_name","n/a","sp"," The bin_center_field_name must contain the value of a 'name' attribute of a Field defined in the referenced Table object. This named Field contains the bin center information for each row in a 1D spectrum presented in tabular form. It will have units (and possibly offset and scaling factor) as indicated in the Field definition. This will usually be accompanied by a bin_width_field_name. ","sbn","ASCII_Short_String_Collapsed","0","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Bin_Center_Lookup:2 sp:bin_center_field_number_list:1 ","Attribute","bin_center_field_number_list","n/a","sp"," The bin_center_field_number_list attribute is used only in the case of spectra in the format "Tabulated-Flat", where each row of a table contains a spectrum and the spectral points are defined as individual Fields - one Field defined for each point. The format is a parenthesized, ordered list of the field_number values from the Field definitions that correspond to the bin center values. ","sbn","ASCII_Short_String_Collapsed","0","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Bin_Width_Constant:1 ","Class","Bin_Width_Constant","1.0.0.0","sp"," The Bin_Width_Constant class is used inside a Bin_Width_Lookup class for those cases where the bin width is either not well known or unknown. It provides a way to specify a nominal constant width or indicate that there is no available information about the bin width. If the bin width is completely unknown, use the appropriate bin_width attribute for the spectral type (frequency, wavelength, wavenumber, or energy), and indicate that it is nil, with a reason of "unknown". When this class is used, a full explanation of the situation should be provided by the bin_width_desc attribute of the parent class. ","sbn","","","","","","","","","","",""
"sp:Bin_Width_Constant:2 sp:bin_width_energy:1 ","Attribute","bin_width_energy","n/a","sp"," The bin_width_energy attribute provides the width of a bin along a spectral axis in a spectral object, in energy units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Energy","none","TBD_classConcept","REAL"
"sp:Bin_Width_Constant:2 sp:bin_width_frequency:1 ","Attribute","bin_width_frequency","n/a","sp"," The bin_width_frequency attribute provides the width of a bin along a spectral axis in a spectral object, in frequency units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Frequency","none","TBD_classConcept","REAL"
"sp:Bin_Width_Constant:2 sp:bin_width_wavelength:1 ","Attribute","bin_width_wavelength","n/a","sp"," The bin_width_wavelength attribute provides the width of a bin along a spectral axis in a spectral object, in wavelength units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Length","none","TBD_classConcept","REAL"
"sp:Bin_Width_Constant:2 sp:bin_width_wavenumber:1 ","Attribute","bin_width_wavenumber","n/a","sp"," The bin_width_wavenumber attribute provides the width of a bin along a spectral axis in a spectral object, in wavenumber units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Wavenumber","none","TBD_classConcept","REAL"
"sp:Bin_Width_Lookup:1 ","Class","Bin_Width_Lookup","1.0.0.0","sp"," The Bin_Width_Lookup class provides a link to a map or list of bin width values - either to a field in a spectral table, or to a distinct data object that is part of the same product, or to a separate PDS product containing the information. ","sbn","","","","","","","","","","",""
"sp:Bin_Width_Lookup:2 sp:bin_width_field_name:1 ","Attribute","bin_width_field_name","n/a","sp"," The bin_width_field_name must contain the value of a 'name' attribute of a Field defined in the referenced Table object. This named Field contains the bin width information for each row in a 1D spectrum presented in tabular form. It will have units (and possibly offset and scaling factor) as indicated in the Field definition. This attribute must be accompanied by a bin_center_field_name. If bin widths are constant or unknown, use the Bin_Width_Constant class to specify this. ","sbn","ASCII_Short_String_Collapsed","0","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Bin_Width_Lookup:2 sp:bin_width_field_number_list:1 ","Attribute","bin_width_field_number_list","n/a","sp"," The bin_width_field_number_list attribute is used only in the case of spectra in the format "Tabulated-Flat", where each row of a table contains a spectrum and the spectral points are defined as individual Fields - one Field defined for each point. The format is a parenthesized, ordered list of the field_number values from the Field definitions that correspond to the bin width values. If bin widths are constant or unknown, use the Bin_Width_Constant class to specify this. ","sbn","ASCII_Short_String_Collapsed","0","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Spectral_Lookup:1 ","Class","Spectral_Lookup","1.0.0.0","sp"," The Spectral_Lookup class references either specific Fields included in a spectral table (for 1D and tabulated spectra), or a 2-dimensional lookup map providing spectral characteristics for a corresponding spectral Array object. In the latter case, the referenced lookup map may either be to the referencing product, or an external stand-alone product. ","sbn","","","","","","","","","","",""
"sp:Spectral_Lookup:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Axis_Bin_Set_Energy:1 ","Class","Axis_Bin_Set_Energy","1.0.0.0","sp"," The Axis_Bin_Set_* classes describe the spectral characteristics of each band along the spectral dimension of the data object. This will be a literal "axis" in the case of 2D and 3D spectral arrays, or the "Row" axis of a spectral table (each row is a spectral bin), or the "Field" axis of table containing one spectrum per row. These classes are used in cases where the spectral information is not uniform along the spectral dimension. ","sbn","","","","","","","","","","",""
"sp:Axis_Bin_Set_Energy:2 sp:axis_name:1 ","Attribute","axis_name","n/a","sp"," The axis_name attribute contains a string that matches the axis_name attribute in the associated array-type spectrum object; or the special values "Field" and "Row" for tabular and tabulated spectra. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Axis_Bin_Set_Frequency:1 ","Class","Axis_Bin_Set_Frequency","1.0.0.0","sp"," The Axis_Bin_Set_* classes describe the spectral characteristics of each band along the spectral dimension of the data object. This will be a literal "axis" in the case of 2D and 3D spectral arrays, or the "Row" axis of a spectral table (each row is a spectral bin), or the "Field" axis of table containing one spectrum per row. These classes are used in cases where the spectral information is not uniform along the spectral dimension. ","sbn","","","","","","","","","","",""
"sp:Axis_Bin_Set_Frequency:2 sp:axis_name:1 ","Attribute","axis_name","n/a","sp"," The axis_name attribute contains a string that matches the axis_name attribute in the associated array-type spectrum object; or the special values "Field" and "Row" for tabular and tabulated spectra. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Axis_Bin_Set_Wavelength:1 ","Class","Axis_Bin_Set_Wavelength","1.0.0.0","sp"," The Axis_Bin_Set_* classes describe the spectral characteristics of each band along the spectral dimension of the data object. This will be a literal "axis" in the case of 2D and 3D spectral arrays, or the "Row" axis of a spectral table (each row is a spectral bin), or the "Field" axis of table containing one spectrum per row. These classes are used in cases where the spectral information is not uniform along the spectral dimension. ","sbn","","","","","","","","","","",""
"sp:Axis_Bin_Set_Wavelength:2 sp:axis_name:1 ","Attribute","axis_name","n/a","sp"," The axis_name attribute contains a string that matches the axis_name attribute in the associated array-type spectrum object; or the special values "Field" and "Row" for tabular and tabulated spectra. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Axis_Bin_Set_Wavenumber:1 ","Class","Axis_Bin_Set_Wavenumber","1.0.0.0","sp"," The Axis_Bin_Set_* classes describe the spectral characteristics of each band along the spectral dimension of the data object. This will be a literal "axis" in the case of 2D and 3D spectral arrays, or the "Row" axis of a spectral table (each row is a spectral bin), or the "Field" axis of table containing one spectrum per row. These classes are used in cases where the spectral information is not uniform along the spectral dimension. ","sbn","","","","","","","","","","",""
"sp:Axis_Bin_Set_Wavenumber:2 sp:axis_name:1 ","Attribute","axis_name","n/a","sp"," The axis_name attribute contains a string that matches the axis_name attribute in the associated array-type spectrum object; or the special values "Field" and "Row" for tabular and tabulated spectra. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Uniformly_Sampled_Energy:1 ","Class","Uniformly_Sampled_Energy","1.0.0.0","sp"," The Uniformly_Sampled_Energy class provides attributes describing the spectral characteristics of a named axis of an Array object or the rows or fields of a Table object, in cases where the spectral sampling interval is regular and the sampling parameters are in energy units. ","sbn","","","","","","","","","","",""
"sp:Uniformly_Sampled_Energy:2 sp:axis_name:1 ","Attribute","axis_name","n/a","sp"," The axis_name attribute contains a string that matches the axis_name attribute in the associated array-type spectrum object; or the special values "Field" and "Row" for tabular and tabulated spectra. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Uniformly_Sampled_Energy:2 sp:sampling_interval_energy:1 ","Attribute","sampling_interval_energy","n/a","sp"," The sampling_interval_energy attribute provides the spacing of points, in energy units, at which data are sampled and at which a value for an instrument or data parameter is available. This sampling interval can be either the original (raw) sampling or the result of some resampling process. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Energy","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Energy:2 sp:sampling_scale:1 ","Attribute","sampling_scale","n/a","sp"," The sampling_scale attribute indicates the type of scale that applies to the sample interval increments. It must have a value of either Linear or Logarithmic. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Uniformly_Sampled_Energy:2 sp:sampling_scale:2 Value:Linear","Value","Linear","","","The sampling intervals are linear with respect to the physical values they represent."
"sp:Uniformly_Sampled_Energy:2 sp:sampling_scale:2 Value:Logarithmic","Value","Logarithmic","","","The sampling values are logarithms of the physical values they represent."
"sp:Uniformly_Sampled_Energy:2 sp:sampling_base:1 ","Attribute","sampling_base","n/a","sp"," The sampling_base attribute indicates the numeric base of the associated logarithmic sampling interval. ","sbn","ASCII_Real","0","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Energy:2 sp:bin_width_energy:1 ","Attribute","bin_width_energy","n/a","sp"," The bin_width_energy attribute provides the width of a bin along a spectral axis in a spectral object, in energy units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Energy","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Energy:2 sp:first_center_energy:1 ","Attribute","first_center_energy","n/a","sp"," The first_center_energy attribute provides the value at the center of the first bin along the spectral axis of a spectral data object in energy units. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Energy","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Energy:2 sp:last_center_energy:1 ","Attribute","last_center_energy","n/a","sp"," The last_center_energy attribute provides the value at the center of the last bin along the spectral axis of a spectral data object in energy units. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Energy","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Energy:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Uniformly_Sampled_Frequency:1 ","Class","Uniformly_Sampled_Frequency","1.0.0.0","sp"," The Uniformly_Sampled_Frequency class provides attributes describing the spectral characteristics of a named axis of an Array object or the rows or fields of a Table object, in cases where the spectral sampling interval is regular and the sampling parameters are in frequency units. ","sbn","","","","","","","","","","",""
"sp:Uniformly_Sampled_Frequency:2 sp:axis_name:1 ","Attribute","axis_name","n/a","sp"," The axis_name attribute contains a string that matches the axis_name attribute in the associated array-type spectrum object; or the special values "Field" and "Row" for tabular and tabulated spectra. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Uniformly_Sampled_Frequency:2 sp:sampling_interval_frequency:1 ","Attribute","sampling_interval_frequency","n/a","sp"," The sampling_interval_frequency attribute provides the spacing of points, in frequency units, at which data are sampled and at which a value for an instrument or data parameter is available. This sampling interval can be either the original (raw) sampling or the result of some resampling process. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Frequency","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Frequency:2 sp:sampling_scale:1 ","Attribute","sampling_scale","n/a","sp"," The sampling_scale attribute indicates the type of scale that applies to the sample interval increments. It must have a value of either Linear or Logarithmic. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Uniformly_Sampled_Frequency:2 sp:sampling_scale:2 Value:Linear","Value","Linear","","","The sampling intervals are linear with respect to the physical values they represent."
"sp:Uniformly_Sampled_Frequency:2 sp:sampling_scale:2 Value:Logarithmic","Value","Logarithmic","","","The sampling values are logarithms of the physical values they represent."
"sp:Uniformly_Sampled_Frequency:2 sp:sampling_base:1 ","Attribute","sampling_base","n/a","sp"," The sampling_base attribute indicates the numeric base of the associated logarithmic sampling interval. ","sbn","ASCII_Real","0","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Frequency:2 sp:bin_width_frequency:1 ","Attribute","bin_width_frequency","n/a","sp"," The bin_width_frequency attribute provides the width of a bin along a spectral axis in a spectral object, in frequency units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Frequency","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Frequency:2 sp:first_center_frequency:1 ","Attribute","first_center_frequency","n/a","sp"," The first_center_frequency attribute provides the value at the center of the first bin along the spectral axis of a spectral data object in frequency units. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Frequency","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Frequency:2 sp:last_center_frequency:1 ","Attribute","last_center_frequency","n/a","sp"," The last_center_frequency attribute provides the value at the center of the last bin along the spectral axis of a spectral data object in frequency units. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Frequency","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Frequency:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Uniformly_Sampled_Wavelength:1 ","Class","Uniformly_Sampled_Wavelength","1.0.0.0","sp"," The Uniformly_Sampled_Wavelength class provides attributes describing the spectral characteristics of a named axis of an Array object or the rows or fields of a Table object, in cases where the spectral sampling interval is regular and the sampling parameters are in wavelength units. ","sbn","","","","","","","","","","",""
"sp:Uniformly_Sampled_Wavelength:2 sp:axis_name:1 ","Attribute","axis_name","n/a","sp"," The axis_name attribute contains a string that matches the axis_name attribute in the associated array-type spectrum object; or the special values "Field" and "Row" for tabular and tabulated spectra. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Uniformly_Sampled_Wavelength:2 sp:sampling_interval_wavelength:1 ","Attribute","sampling_interval_wavelength","n/a","sp"," The sampling_interval_wavelength attribute provides the spacing of points, in wavelength units, at which data are sampled and at which a value for an instrument or data parameter is available. This sampling interval can be either the original (raw) sampling or the result of some resampling process. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Length","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Wavelength:2 sp:sampling_scale:1 ","Attribute","sampling_scale","n/a","sp"," The sampling_scale attribute indicates the type of scale that applies to the sample interval increments. It must have a value of either Linear or Logarithmic. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Uniformly_Sampled_Wavelength:2 sp:sampling_scale:2 Value:Linear","Value","Linear","","","The sampling intervals are linear with respect to the physical values they represent."
"sp:Uniformly_Sampled_Wavelength:2 sp:sampling_scale:2 Value:Logarithmic","Value","Logarithmic","","","The sampling values are logarithms of the physical values they represent."
"sp:Uniformly_Sampled_Wavelength:2 sp:sampling_base:1 ","Attribute","sampling_base","n/a","sp"," The sampling_base attribute indicates the numeric base of the associated logarithmic sampling interval. ","sbn","ASCII_Real","0","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Wavelength:2 sp:bin_width_wavelength:1 ","Attribute","bin_width_wavelength","n/a","sp"," The bin_width_wavelength attribute provides the width of a bin along a spectral axis in a spectral object, in wavelength units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Length","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Wavelength:2 sp:first_center_wavelength:1 ","Attribute","first_center_wavelength","n/a","sp"," The first_center_wavelength attribute provides the value at the center of the first bin along the spectral axis of a spectral data object in wavelength units. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Length","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Wavelength:2 sp:last_center_wavelength:1 ","Attribute","last_center_wavelength","n/a","sp"," The last_center_wavelength attribute provides the value at the center of the last bin along the spectral axis of a spectral data object in wavelength units. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Length","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Wavelength:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Uniformly_Sampled_Wavenumber:1 ","Class","Uniformly_Sampled_Wavenumber","1.0.0.0","sp"," The Uniformly_Sampled_Wavenumber class provides attributes describing the spectral characteristics of a named axis of an Array object or the rows or fields of a Table object, in cases where the spectral sampling interval is regular and the sampling parameters are in wavenumber units. ","sbn","","","","","","","","","","",""
"sp:Uniformly_Sampled_Wavenumber:2 sp:axis_name:1 ","Attribute","axis_name","n/a","sp"," The axis_name attribute contains a string that matches the axis_name attribute in the associated array-type spectrum object; or the special values "Field" and "Row" for tabular and tabulated spectra. ","sbn","ASCII_Short_String_Collapsed","0","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Uniformly_Sampled_Wavenumber:2 sp:sampling_interval_wavenumber:1 ","Attribute","sampling_interval_wavenumber","n/a","sp"," The sampling_interval_wavelength attribute provides the spacing of points, in wavenumber units, at which data are sampled and at which a value for an instrument or data parameter is available. This sampling interval can be either the original (raw) sampling or the result of some resampling process. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Wavenumber","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Wavenumber:2 sp:sampling_scale:1 ","Attribute","sampling_scale","n/a","sp"," The sampling_scale attribute indicates the type of scale that applies to the sample interval increments. It must have a value of either Linear or Logarithmic. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Uniformly_Sampled_Wavenumber:2 sp:sampling_scale:2 Value:Linear","Value","Linear","","","The sampling intervals are linear with respect to the physical values they represent."
"sp:Uniformly_Sampled_Wavenumber:2 sp:sampling_scale:2 Value:Logarithmic","Value","Logarithmic","","","The sampling values are logarithms of the physical values they represent."
"sp:Uniformly_Sampled_Wavenumber:2 sp:sampling_base:1 ","Attribute","sampling_base","n/a","sp"," The sampling_base attribute indicates the numeric base of the associated logarithmic sampling interval. ","sbn","ASCII_Real","0","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Wavenumber:2 sp:bin_width_wavenumber:1 ","Attribute","bin_width_wavenumber","n/a","sp"," The bin_width_wavenumber attribute provides the width of a bin along a spectral axis in a spectral object, in wavenumber units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Wavenumber","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Wavenumber:2 sp:first_center_wavenumber:1 ","Attribute","first_center_wavenumber","n/a","sp"," The first_center_wavenumber attribute provides the value at the center of the first bin along the spectral axis of a spectral data object in wavenumber units. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Wavenumber","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Wavenumber:2 sp:last_center_wavenumber:1 ","Attribute","last_center_wavenumber","n/a","sp"," The last_center_wavenumber attribute provides the value at the center of the last bin along the spectral axis of a spectral data object in wavenumber units. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Wavenumber","none","TBD_classConcept","REAL"
"sp:Uniformly_Sampled_Wavenumber:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Bin_Energy:1 ","Class","Bin_Energy","1.0.0.0","sp"," The Bin_Energy class specifies the characteristics of an individual bin along a spectral or other binned axis in an Array object, in units of energy. ","sbn","","","","","","","","","","",""
"sp:Bin_Energy:2 sp:bin_sequence_number:1 ","Attribute","bin_sequence_number","n/a","sp"," The bin_sequence_number provides the sequential numbering of bins along an axis in an Array object. ","sbn","ASCII_NonNegative_Integer","1","1","0","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Energy:2 sp:center_energy:1 ","Attribute","center_energy","n/a","sp"," The center_energy attribute provides the value at the center of a bin along the band axis of a spectral data object. When describing data from a spectrometer, the value corresponds to the peak of the response function for a particular detector and/or grating. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Energy","none","TBD_classConcept","REAL"
"sp:Bin_Energy:2 sp:bin_width_energy:1 ","Attribute","bin_width_energy","n/a","sp"," The bin_width_energy attribute provides the width of a bin along a spectral axis in a spectral object, in energy units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Energy","none","TBD_classConcept","REAL"
"sp:Bin_Energy:2 sp:detector_number:1 ","Attribute","detector_number","n/a","sp"," The detector_number attribute provides the spectrometer detector number corresponding to a band of a spectral qube. Detector numbers are usually assigned consecutively from 1, in order of increasing wavelength. ","sbn","ASCII_NonNegative_Integer","0","1","1","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Energy:2 sp:grating_position:1 ","Attribute","grating_position","n/a","sp"," The grating_position attribute of a spectral cube describes the grating position which corresponds to the band. Grating positions are usually assigned consecutively from 0, and increasing position causes increasing wavelength for each detector. ","sbn","ASCII_NonNegative_Integer","0","1","0","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Energy:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Bin_Frequency:1 ","Class","Bin_Frequency","1.0.0.0","sp"," The Bin_Frequency class specifies the characteristics of an individual bin along a spectral or other binned axis in an Array object, in units of frequency. ","sbn","","","","","","","","","","",""
"sp:Bin_Frequency:2 sp:bin_sequence_number:1 ","Attribute","bin_sequence_number","n/a","sp"," The bin_sequence_number provides the sequential numbering of bins along an axis in an Array object. ","sbn","ASCII_NonNegative_Integer","1","1","0","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Frequency:2 sp:center_frequency:1 ","Attribute","center_frequency","n/a","sp"," The center_frequency attribute provides the value at the center of a bin along the band axis of a spectral data object. When describing data from a spectrometer, the value corresponds to the peak of the response function for a particular detector and/or grating. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Frequency","none","TBD_classConcept","REAL"
"sp:Bin_Frequency:2 sp:bin_width_frequency:1 ","Attribute","bin_width_frequency","n/a","sp"," The bin_width_frequency attribute provides the width of a bin along a spectral axis in a spectral object, in frequency units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Frequency","none","TBD_classConcept","REAL"
"sp:Bin_Frequency:2 sp:detector_number:1 ","Attribute","detector_number","n/a","sp"," The detector_number attribute provides the spectrometer detector number corresponding to a band of a spectral qube. Detector numbers are usually assigned consecutively from 1, in order of increasing wavelength. ","sbn","ASCII_NonNegative_Integer","0","1","1","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Frequency:2 sp:grating_position:1 ","Attribute","grating_position","n/a","sp"," The grating_position attribute of a spectral cube describes the grating position which corresponds to the band. Grating positions are usually assigned consecutively from 0, and increasing position causes increasing wavelength for each detector. ","sbn","ASCII_NonNegative_Integer","0","1","0","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Frequency:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Bin_Wavelength:1 ","Class","Bin_Wavelength","1.0.0.0","sp"," The Bin_Wavelength class specifies the characteristics of an individual bin along a spectral or other binned axis in an Array object, in units of wavelength. ","sbn","","","","","","","","","","",""
"sp:Bin_Wavelength:2 sp:bin_sequence_number:1 ","Attribute","bin_sequence_number","n/a","sp"," The bin_sequence_number provides the sequential numbering of bins along an axis in an Array object. ","sbn","ASCII_NonNegative_Integer","1","1","0","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Wavelength:2 sp:center_wavelength:1 ","Attribute","center_wavelength","n/a","sp"," The center_wavelength attribute provides the value at the center of a bin along the band axis of a spectral data object. When describing data from a spectrometer, the value corresponds to the peak of the response function for a particular detector and/or grating. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Length","none","TBD_classConcept","REAL"
"sp:Bin_Wavelength:2 sp:bin_width_wavelength:1 ","Attribute","bin_width_wavelength","n/a","sp"," The bin_width_wavelength attribute provides the width of a bin along a spectral axis in a spectral object, in wavelength units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Length","none","TBD_classConcept","REAL"
"sp:Bin_Wavelength:2 sp:detector_number:1 ","Attribute","detector_number","n/a","sp"," The detector_number attribute provides the spectrometer detector number corresponding to a band of a spectral qube. Detector numbers are usually assigned consecutively from 1, in order of increasing wavelength. ","sbn","ASCII_NonNegative_Integer","0","1","1","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Wavelength:2 sp:grating_position:1 ","Attribute","grating_position","n/a","sp"," The grating_position attribute of a spectral cube describes the grating position which corresponds to the band. Grating positions are usually assigned consecutively from 0, and increasing position causes increasing wavelength for each detector. ","sbn","ASCII_NonNegative_Integer","0","1","0","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Wavelength:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Bin_Wavenumber:1 ","Class","Bin_Wavenumber","1.0.0.0","sp"," The Bin_Wavenumber class specifies the characteristics of an individual bin along a spectral or other binned axis in an Array object, in units of wavenumber. ","sbn","","","","","","","","","","",""
"sp:Bin_Wavenumber:2 sp:bin_sequence_number:1 ","Attribute","bin_sequence_number","n/a","sp"," The bin_sequence_number provides the sequential numbering of bins along an axis in an Array object. ","sbn","ASCII_NonNegative_Integer","1","1","0","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Wavenumber:2 sp:center_wavenumber:1 ","Attribute","center_wavenumber","n/a","sp"," The center_wavenumber attribute provides the value at the center of a bin along the band axis of a spectral data object. When describing data from a spectrometer, the value corresponds to the peak of the response function for a particular detector and/or grating. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Wavenumber","none","TBD_classConcept","REAL"
"sp:Bin_Wavenumber:2 sp:bin_width_wavenumber:1 ","Attribute","bin_width_wavenumber","n/a","sp"," The bin_width_wavenumber attribute provides the width of a bin along a spectral axis in a spectral object, in wavenumber units. The method used to calculate the width must be specified using the bin_profile_description attribute. This attribute can be set to 'nil' if bin widths are unknown. ","sbn","ASCII_Real","1","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Wavenumber","none","TBD_classConcept","REAL"
"sp:Bin_Wavenumber:2 sp:detector_number:1 ","Attribute","detector_number","n/a","sp"," The detector_number attribute provides the spectrometer detector number corresponding to a band of a spectral qube. Detector numbers are usually assigned consecutively from 1, in order of increasing wavelength. ","sbn","ASCII_NonNegative_Integer","0","1","1","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Wavenumber:2 sp:grating_position:1 ","Attribute","grating_position","n/a","sp"," The grating_position attribute of a spectral cube describes the grating position which corresponds to the band. Grating positions are usually assigned consecutively from 0, and increasing position causes increasing wavelength for each detector. ","sbn","ASCII_NonNegative_Integer","0","1","0","18446744073709551615","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Bin_Wavenumber:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Bin_Description:1 ","Class","Bin_Description","1.0.0.0","sp"," This class groups the various bin description options, allowing a user to choose one. ","sbn","","","","","","","","","","",""
"sp:Bin_Description:2 sp:bin_profile_description:1 ","Attribute","bin_profile_description","n/a","sp"," The bin_profile_description attributes provides a text description of the method used to determine or otherwise define the bin widths following. The description should include information on the shape (e.g. gaussian, square wave, etc.) and what the bin_width value means (i.e., standard deviation of a gaussian function or full-width at half max (FWHM)). ","sbn","UTF8_Text_Preserved","1","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Observation_Parameters:1 ","Class","Observation_Parameters","1.0.0.0","sp"," The Observation_Parameters class collects various values related to the observational circumstances. In general, this class should be present, and all parameters applicable to the situation should be included, even though optional. In some complex cases or for high-level derived products this class may not be applicable, in which case it may be omitted. Use the 'comment' attribute to describe any special circumstances users should be aware of. ","sbn","","","","","","","","","","",""
"sp:Observation_Parameters:2 sp:number_of_exposures:1 ","Attribute","number_of_exposures","n/a","sp"," The number_of_exposures attribute indicates how many individual exposures or distinct integrations were combined to produce the spectrum. ","sbn","ASCII_Integer","0","1","1","9223372036854775807","Unbounded","Unbounded","Units_of_None","none","TBD_classConcept","INTEGER"
"sp:Observation_Parameters:2 sp:net_integration_time:1 ","Attribute","net_integration_time","n/a","sp"," The net_integration_time for a spectrum is the total integration time per pixel. For many detectors (CCDs, for example), all pixels are exposed simultaneously, so this value will correspond to the observation interval. In some cases, however, an instrument will sweep across pixels, rows, or planes, so that the observation period may be substantially longer than the actual integration time contributing to the individual pixels. ","sbn","ASCII_Real","0","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Time","none","TBD_classConcept","REAL"
"sp:Observation_Parameters:2 sp:resolution_limit_energy:1 ","Attribute","resolution_limit_energy","n/a","sp"," The resolution_limit_energy is the smallest possible distinguishable interval in energy for the instrument. ","sbn","ASCII_Real","0","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Energy","none","TBD_classConcept","REAL"
"sp:Observation_Parameters:2 sp:resolution_limit_frequency:1 ","Attribute","resolution_limit_frequency","n/a","sp"," The resolution_limit_frequency is the smallest possible distinguishable interval in frequency for the instrument. ","sbn","ASCII_Real","0","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Frequency","none","TBD_classConcept","REAL"
"sp:Observation_Parameters:2 sp:resolution_limit_wavelength:1 ","Attribute","resolution_limit_wavelength","n/a","sp"," The resolution_limit_wavelength is the smallest possible distinguishable interval in wavelengths for the instrument. ","sbn","ASCII_Real","0","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Length","none","TBD_classConcept","REAL"
"sp:Observation_Parameters:2 sp:resolution_limit_wavenumber:1 ","Attribute","resolution_limit_wavenumber","n/a","sp"," The resolution_limit_wavenumber is the smallest possible distinguishable interval in wavenumber for the instrument. ","sbn","ASCII_Real","0","1","5.0e-324","1.7976931348623157e308","Unbounded","Unbounded","Units_of_Wavenumber","none","TBD_classConcept","REAL"
"sp:Observation_Parameters:2 sp:solar_analog_star_name:1 ","Attribute","solar_analog_star_name","n/a","sp"," The solar_analog_star_name attribute provides a name in a standard format (i.e., one that is recognized by the SIMBAD system) for the solar analog star used to reduce the raw spectral data to the reflectance units presented in this spectrum. ","sbn","UTF8_Short_String_Collapsed","0","*","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Observation_Parameters:2 sp:absolute_calibration_star_name:1","Attribute","absolute_calibration_star_name","n/a","sp"," The absolute_calibration_star_name attribute provides a name in a standard format (i.e., one that is recognized by the SIMBAD system) for the star used to reduce the raw spectral data to the units presented in this spectrum. This is the analog to solar_calibration_star_name for non-reflectance spectra. ","sbn","UTF8_Short_String_Collapsed","0","*","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Observation_Parameters:2 sp:comment:1 ","Attribute","comment","n/a","sp"," The comment attribute is an unlimited length, format-preserved, UTF-8 text field for comments relevant to the context in which it appears. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Field_of_View:1 ","Class","Field_of_View","1.0.0.0","sp"," The Field_of_View class is used to describe the field of view corresponding to the spectral data object. This class should describe the aperture or slit used in making the spectral observation, when applicable, as opposed to the theoretical full field of view of a telescope or boresight (which should be defined in a Geometry Dictionary class). ","sbn","","","","","","","","","","",""
"sp:Field_of_View:2 sp:description:1 ","Attribute","description","n/a","sp"," The description attribute is an unlimited length, format-preserved, UTF-8 text field used specifically for description of circumstances related to the data product of which a user should be aware and might logically expect to find in the label. ","sbn","UTF8_Text_Preserved","1","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Spectral_Characteristics:1 ","Class","Spectral_Characteristics","1.0.0.0","sp"," The Spectral_Characteristics class provides information about the spectral characteristics of a 1D, 2D, or 3D spectral data object. It is note used for tabulated spectra - tables in which each row ","sbn","","","","","","","","","","",""
"sp:Spectral_Characteristics:2 sp:description:1 ","Attribute","description","n/a","sp"," The description attribute is an unlimited length, format-preserved, UTF-8 text field used specifically for description of circumstances related to the data product of which a user should be aware and might logically expect to find in the label. ","sbn","UTF8_Text_Preserved","0","1","Unbounded","Unbounded","1","Unbounded","Units_of_None","none","TBD_classConcept","TEXT"
"sp:Spectral_Characteristics:2 sp:spectrum_format:1 ","Attribute","spectrum_format","n/a","sp"," The spectrum_format attribute is required to define the specific dimensionality of the structure or substructure that contains the intensity values. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Spectral_Characteristics:2 sp:spectrum_format:2 Value:1D","Value","1D","",""," Linear spectrum - each row of the table contains the information for one bin (one point) on the spectrum. You must specify the name of the field containing the intensity information. "
"sp:Spectral_Characteristics:2 sp:spectrum_format:2 Value:2D","Value","2D","",""," The spectrum is presented as a 2D array - an image. "
"sp:Spectral_Characteristics:2 sp:spectrum_format:2 Value:3D","Value","3D","",""," The spectra are presented as a 3D array, each plane containing a 2D spectrum. "
"sp:Spectral_Characteristics:2 sp:spectrum_format:2 Value:Tabulated-Flat","Value","Tabulated-Flat","",""," The spectra are presented as a table in which each row contains a single spectrum, and the individual spectral points and related parameters are each defined by separated Field definitions - that is, no Group_Field classes are used in defining the spectral data format. In this case, all Fields containing spectral data or bin parameters must have field_number attributes. "
"sp:Spectral_Characteristics:2 sp:spectrum_format:2 Value:Tabulated-Parameter ","Value","Tabulated-Parameter Groups","",""," The spectra are presented as a table in which each row contains a single spectrum, and Group_Field classes are used to define the fields corresponding to the spectral values, bin centers, and bin widths (if present). Each Group_Field must contain only a single parameter - in other words, the spectral values a stored contiguously within the record, the bin centers are stored contiguously within the record, etc. In this case, the Group_Field classes containing the spectral values, bin centers, and bin widths (when present) must contain only a single Field that is repeated. "
"sp:Spectral_Characteristics:2 sp:spectrum_format:2 Value:Tabulated-Point Grou","Value","Tabulated-Point Group","",""," The spectra are presented as a table in which each row contains a single spectrum, and a single Group_Field class is used to define the value and all related parameters at a single spectral point. In this case, the same Group_Field class must contain the spectral value, bin center, and bin width (when present) for each point in the spectrum. "
"sp:Spectral_Characteristics:2 sp:value_field_name:1 ","Attribute","value_field_name","n/a","sp"," The value_field_name attribute is required for 1D (linear) spectra. 1D spectra are presented as a table, where each row presents one point in the spectrum. This field must contain a string corresponding to the 'name' attribute of the table field that contains the spectral value. ","sbn","ASCII_Short_String_Collapsed","0","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Spectral_Characteristics:2 sp:value_field_number_list:1 ","Attribute","value_field_number_list","n/a","sp"," The value_field_number_list attribute is used only in the case spectra in the format "Tabulated-Flat", where each row of a table contains a spectrum and the spectral points are defined as individual Fields - one Field defined for each point. The format is a parenthesized, ordered list of the field_number values from the Field definitions that correspond to the spectral values. ","sbn","ASCII_Short_String_Collapsed","0","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Spectral_Characteristics:2 sp:spectral_bin_type:1 ","Attribute","spectral_bin_type","n/a","sp"," The spectral_bin_type attribute contains one of a defined set of values that indicates the binned sampling parameter type (frequency, wavelength, or wavenumber) of the spectrum. ","sbn","ASCII_Short_String_Collapsed","1","1","Unbounded","Unbounded","1","255","Units_of_None","none","TBD_classConcept","SHORT_STRING"
"sp:Spectral_Characteristics:2 sp:spectral_bin_type:2 Value:energy","Value","energy","",""," The spectrum is sampled in the energy domain, and all binning parameters will be in energy units. "
"sp:Spectral_Characteristics:2 sp:spectral_bin_type:2 Value:frequency","Value","frequency","",""," The spectrum is sampled in the frequency domain, and all binning parameters will be in frequency units. "
"sp:Spectral_Characteristics:2 sp:spectral_bin_type:2 Value:wavelength","Value","wavelength","",""," The spectrum is sampled in the wavelength domain, and all binning parameters will be in length units. "
"sp:Spectral_Characteristics:2 sp:spectral_bin_type:2 Value:wavenumber","Value","wavenumber","",""," The spectrum is sampled in the wavenumber domain, and all binning parameters will be in wavenumber units. "
PK Q5ba a PDS4_SP_1F00_1300.sch
Schematron using XPath 2.0
The sp:Axis_Bin_Set_Energy class may only be used when sp:spectral_bin_type is "energy".
In the Axis_Bin_Set classes, the sp:axis_name value must correspond to the name of an axis in the referenced array object, or contain one of the special values "Row" or "Field".
The sp:Axis_Bin_Set_Frequency class may only be used when sp:spectral_bin_type is "frequency".
In the Axis_Bin_Set classes, the sp:axis_name value must correspond to the name of an axis in the referenced array object, or contain one of the special values "Row" or "Field".
The sp:Axis_Bin_Set_Wavelength class may only be used when sp:spectral_bin_type is "wavelength".
In the Axis_Bin_Set classes, the sp:axis_name value must correspond to the name of an axis in the referenced array object, or contain one of the special values "Row" or "Field".
The sp:Axis_Bin_Set_Wavenumber class may only be used when sp:spectral_bin_type is "wavenumber".
In the Axis_Bin_Set classes, the sp:axis_name value must correspond to the name of an axis in the referenced array object, or contain one of the special values "Row" or "Field".
In the Axis_Bin_Set class, the bin_sequence_number of each Bin_Wavenumber class must be unique.
In sp:Bin_Center_Lookup, exactly one of sp:bin_center_field_name, pds:Local_Identifier_Reference, or pds:Internal_Reference must be provided.
The sp:bin_center_field_name attribute must correspond to the name of exactly Field_Character in the referenced Table_Character object.
The sp:bin_center_field_name attribute must correspond to the name of exactly one Field_Character inside a Group_Field_Character for tabulated spectra with groups.
The sp:bin_center_field_name attribute must correspond to the name of exactly one Field_Binary in the referenced Table_Binary object.
The sp:bin_center_field_name attribute must correspond to the name of exactly one Field_Binary inside a Group_Field_Binary for tabulated spectra with groups.
The sp:bin_center_field_name attribute must correspond to the name of exactly one Field_Delimited in the referenced Table_Delimited object.
The sp:bin_center_field_name attribute must correspond to the name of exactly one Field_Delimited inside a Group_Field_Delimited for tabulated spectra with groups.
In the sp:Bin_Center_Lookup class, the attribute pds:reference_type must be equal to 'spectral_characteristics_to_bin_center_values'.
In the sp:Bin_Center_Lookup class, the attribute pds:local_reference_type must be equal to 'spectral_characteristics_to_bin_center_values'.
In sp:Bin_Center_Lookup, the pds:local_identifier_reference must match the pds:local_identifier of a data object in the product label.
For Tabulated-Flat spectra, every value of sp:bin_center_field_number_list must correspond to the value of a field_number attribute in a Field_Character definition.
For Tabulated-Flat spectra, every value of sp:bin_center_field_number_list must correspond to the value of a field_number attribute in a Field_Binary definition.
For Tabulated-Flat spectra, every value of sp:bin_center_field_number_list must correspond to the value of a field_number attribute in a Field_Delimited definition.
In sp:Bin_Energy, bin_sequence_numbers must be between 1 and the number of bins, inclusive.
In sp:Bin_Frequency, bin_sequence_numbers must be between 1 and the number of bins, inclusive.
In sp:Spectral_Lookup, sp:bin_center_field_name and sp:bin_width_field_name may not have the same value.
In sp:Bin_Wavelength, bin_sequence_numbers must be between 1 and the number of bins, inclusive.
In sp:Bin_Wavenumber, bin_sequence_numbers must be between 1 and the number of bins, inclusive.
In sp:Bin_Width_Constant, sp:bin_width_energy must be supplied for energy spectra.
In sp:Bin_Width_Constant, sp:bin_width_frequency must be supplied for frequency spectra.
In sp:Bin_Width_Constant, sp:bin_width_wavelength must be supplied for wavelength spectra.
In sp:Bin_Width_Constant, sp:bin_width_wavenumber must be supplied for wavenumber spectra.
In sp:Bin_Width_Lookup, exactly one of sp:bin_width_field_name, sp:bin_width_field_number_list, pds:Local_Identifier_Reference, or pds:Internal_Reference must be provided.
The sp:bin_width_field_name attribute must correspond to the name of exactly Field_Character in the referenced Table_Character object.
The sp:bin_width_field_name attribute must correspond to the name of exactly one Field_Character inside a Group_Field_Character for tabulated spectra with groups.
The sp:bin_width_field_name attribute must correspond to the name of exactly one Field_Binary in the referenced Table_Binary object.
The sp:bin_width_field_name attribute must correspond to the name of exactly one Field_Binary inside a Group_Field_Binary for tabulated spectra with groups.
The sp:bin_width_field_name attribute must correspond to the name of exactly one Field_Delimited in the referenced Table_Delimited object.
The sp:bin_width_field_name attribute must correspond to the name of exactly one Field_Delimited inside a Group_Field_Delimited for tabulated spectra with groups.
In the sp:Bin_Width_Lookup class, the attribute pds:reference_type must be equal to 'spectral_characteristics_to_bin_width_values'.
In the sp:Bin_Width_Lookup class, the attribute pds:local_reference_type must be equal to 'spectral_characteristics_to_bin_width_values'.
In sp:Bin_Width_Lookup, the pds:local_identifier_reference must match the pds:local_identifier of a data object in the product label.
For Tabulated-Flat spectra, every value of sp:bin_width_field_number_list must correspond to the value of a field_number attribute in a Field_Character definition.
For Tabulated-Flat spectra, every value of sp:bin_width_field_number_list must correspond to the value of a field_number attribute in a Field_Binary definition.
For Tabulated-Flat spectra, every value of sp:bin_width_field_number_list must correspond to the value of a field_number attribute in a Field_Delimited definition.
In sp:Field_of_View, the attribute pds:reference_type must have a value of "spectral_characteristics_to_document".
sp:spectrum_format of 'Tabulated-Flat' must be used with a table-type object.
sp:spectrum_format of 'Tabulated-Parameter Groups' must be used with a table-type object.
sp:spectrum_format of 'Tabulated-Point Group' must be used with a table-type object.
sp:spectrum_format of '1D' must be used with a table-type object.
sp:spectrum_format of '2D' must be used with an Array_2D_Spectrum-type object.
sp:spectrum_format of '3D' must be used with an Array_3D_Spectrum-type object.
sp:value_field_name is required when sp:spectrum_format is '1D', 'Tabulated-Parameter Groups', or 'Tabulated-Point Group' and prohibited otherwise.
The sp:value_field_number_list attribute is required, and may only be used, when sp:spectrum_format is 'Tabulated-Flat'.
In sp:Observation_Parameters, only sp:resolution_limit_energy may be included for energy spectra.
In sp:Observation_Parameters, only sp:resolution_limit_frequency may be included for frequency spectra.
In sp:Observation_Parameters, only sp:resolution_limit_wavelength may be included for wavelength spectra.
In sp:Observation_Parameters, only sp:resolution_limit_wavenumber may be included for wavenumber spectra.
sp:Spectral_Characteristics: The attribute pds:local_reference_type must be equal to either 'spectral_characteristics_to_array_object' or 'spectral_characteristics_to_table_object'.
The Array-type object referenced by sp:Spectral_Characteristics must be either an Array_2D_Spectrum or an Array_3D_Spectrum.
In sp:Spectral_Characteristics must reference either a Table_Character or Table_Binary object when pds:local_reference_type is 'spectral_characteristics_to_table_object'.
The attribute @unit must be equal to one of the following values 'J', 'MeV', 'eV', 'keV'.
The attribute @unit must be equal to one of the following values 'J', 'MeV', 'eV', 'keV'.
The attribute @unit must be equal to one of the following values 'GHz', 'Hz', 'MHz', 'THz', 'kHz', 'mHz'.
The attribute @unit must be equal to one of the following values 'GHz', 'Hz', 'MHz', 'THz', 'kHz', 'mHz'.
The attribute @unit must be equal to one of the following values 'AU', 'Angstrom', 'cm', 'km', 'm', 'micrometer', 'mm', 'nm'.
The attribute @unit must be equal to one of the following values 'AU', 'Angstrom', 'cm', 'km', 'm', 'micrometer', 'mm', 'nm'.
The attribute @unit must be equal to one of the following values '1/cm', '1/m', '1/nm', 'cm**-1', 'm**-1', 'nm**-1'.
The unit value cm**-1 is deprecated and should not be used.
The unit value m**-1 is deprecated and should not be used.
The unit value nm**-1 is deprecated and should not be used.
The attribute @unit must be equal to one of the following values '1/cm', '1/m', '1/nm', 'cm**-1', 'm**-1', 'nm**-1'.
The unit value cm**-1 is deprecated and should not be used.
The unit value m**-1 is deprecated and should not be used.
The unit value nm**-1 is deprecated and should not be used.
The attribute @unit must be equal to one of the following values 'J', 'MeV', 'eV', 'keV'.
The attribute @unit must be equal to one of the following values 'GHz', 'Hz', 'MHz', 'THz', 'kHz', 'mHz'.
The attribute @unit must be equal to one of the following values 'AU', 'Angstrom', 'cm', 'km', 'm', 'micrometer', 'mm', 'nm'.
The attribute @unit must be equal to one of the following values '1/cm', '1/m', '1/nm', 'cm**-1', 'm**-1', 'nm**-1'.
The unit value cm**-1 is deprecated and should not be used.
The unit value m**-1 is deprecated and should not be used.
The unit value nm**-1 is deprecated and should not be used.
The attribute @unit must be equal to one of the following values 'arcmin', 'arcsec', 'deg', 'hr', 'mrad', 'rad'.
The attribute @unit must be equal to one of the following values 'arcmin', 'arcsec', 'deg', 'hr', 'mrad', 'rad'.
The attribute @unit must be equal to one of the following values 'arcmin', 'arcsec', 'deg', 'hr', 'mrad', 'rad'.
The attribute @unit must be equal to one of the following values 'arcmin', 'arcsec', 'deg', 'hr', 'mrad', 'rad'.
The attribute @unit must be equal to one of the following values 'arcmin', 'arcsec', 'deg', 'hr', 'mrad', 'rad'.
The attribute @unit must be equal to one of the following values 'day', 'hr', 'julian day', 'microseconds', 'min', 'ms', 's', 'yr'.
The attribute @unit must be equal to one of the following values 'J', 'MeV', 'eV', 'keV'.
The attribute @unit must be equal to one of the following values 'GHz', 'Hz', 'MHz', 'THz', 'kHz', 'mHz'.
The attribute @unit must be equal to one of the following values 'AU', 'Angstrom', 'cm', 'km', 'm', 'micrometer', 'mm', 'nm'.
The attribute @unit must be equal to one of the following values '1/cm', '1/m', '1/nm', 'cm**-1', 'm**-1', 'nm**-1'.
The unit value cm**-1 is deprecated and should not be used.
The unit value m**-1 is deprecated and should not be used.
The unit value nm**-1 is deprecated and should not be used.
The attribute @unit must be equal to one of the following values 'arcmin', 'arcsec', 'deg', 'hr', 'mrad', 'rad'.
The attribute @unit must be equal to one of the following values 'arcmin', 'arcsec', 'deg', 'hr', 'mrad', 'rad'.
The attribute @unit must be equal to one of the following values 'arcmin', 'arcsec', 'deg', 'hr', 'mrad', 'rad'.
The attribute @unit must be equal to one of the following values 'arcmin', 'arcsec', 'deg', 'hr', 'mrad', 'rad'.
The attribute sp:spectral_bin_type must be equal to one of the following values 'energy', 'frequency', 'wavelength', 'wavenumber'.
The attribute sp:spectrum_format must be equal to one of the following values '1D', '2D', '3D', 'Tabulated-Flat', 'Tabulated-Parameter Groups', 'Tabulated-Point Group'.
The attribute @unit must be equal to one of the following values 'J', 'MeV', 'eV', 'keV'.
The attribute @unit must be equal to one of the following values 'J', 'MeV', 'eV', 'keV'.
The attribute @unit must be equal to one of the following values 'J', 'MeV', 'eV', 'keV'.
The attribute @unit must be equal to one of the following values 'J', 'MeV', 'eV', 'keV'.
The attribute sp:sampling_scale must be equal to one of the following values 'Linear', 'Logarithmic'.
The attribute @unit must be equal to one of the following values 'GHz', 'Hz', 'MHz', 'THz', 'kHz', 'mHz'.
The attribute @unit must be equal to one of the following values 'GHz', 'Hz', 'MHz', 'THz', 'kHz', 'mHz'.
The attribute @unit must be equal to one of the following values 'GHz', 'Hz', 'MHz', 'THz', 'kHz', 'mHz'.
The attribute @unit must be equal to one of the following values 'GHz', 'Hz', 'MHz', 'THz', 'kHz', 'mHz'.
The attribute sp:sampling_scale must be equal to one of the following values 'Linear', 'Logarithmic'.
The attribute @unit must be equal to one of the following values 'AU', 'Angstrom', 'cm', 'km', 'm', 'micrometer', 'mm', 'nm'.
The attribute @unit must be equal to one of the following values 'AU', 'Angstrom', 'cm', 'km', 'm', 'micrometer', 'mm', 'nm'.
The attribute @unit must be equal to one of the following values 'AU', 'Angstrom', 'cm', 'km', 'm', 'micrometer', 'mm', 'nm'.
The attribute @unit must be equal to one of the following values 'AU', 'Angstrom', 'cm', 'km', 'm', 'micrometer', 'mm', 'nm'.
The attribute sp:sampling_scale must be equal to one of the following values 'Linear', 'Logarithmic'.
The attribute @unit must be equal to one of the following values '1/cm', '1/m', '1/nm', 'cm**-1', 'm**-1', 'nm**-1'.
The unit value cm**-1 is deprecated and should not be used.
The unit value m**-1 is deprecated and should not be used.
The unit value nm**-1 is deprecated and should not be used.
The attribute @unit must be equal to one of the following values '1/cm', '1/m', '1/nm', 'cm**-1', 'm**-1', 'nm**-1'.
The unit value cm**-1 is deprecated and should not be used.
The unit value m**-1 is deprecated and should not be used.
The unit value nm**-1 is deprecated and should not be used.
The attribute @unit must be equal to one of the following values '1/cm', '1/m', '1/nm', 'cm**-1', 'm**-1', 'nm**-1'.
The unit value cm**-1 is deprecated and should not be used.
The unit value m**-1 is deprecated and should not be used.
The unit value nm**-1 is deprecated and should not be used.
The attribute @unit must be equal to one of the following values '1/cm', '1/m', '1/nm', 'cm**-1', 'm**-1', 'nm**-1'.
The unit value cm**-1 is deprecated and should not be used.
The unit value m**-1 is deprecated and should not be used.
The unit value nm**-1 is deprecated and should not be used.
The attribute sp:sampling_scale must be equal to one of the following values 'Linear', 'Logarithmic'.
The sp:Uniformaly_Sampled_Energy may only be used when sp:spectral_bin_type is "energy".
If the referenced object is an array, then sp:axis_name must correspond to the name attribute of one of the Array_Axis classes in that array object.
Specify "Row" for a spectral table to indicate that the rows constitute uniformly sampled bins.
Specify "Field" to indicate that each row contains a complete spectrum and the fields constitute uniformly sample bins.
The sp:sampling_base attribute is forbidden if sp:sampling_scale is "Linear".
The sp:sampling_base attribute is required for non-Linear sampling scales.
In the Uniformly_Sampled classes, the first_center value must be less than the last_center value.
The sp:Uniformaly_Sampled_Frequency may only be used when sp:spectral_bin_type is "frequency".
If the referenced object is an array, then sp:axis_name must correspond to the name attribute of one of the Array_Axis classes in that array object.
Specify "Row" for a spectral table to indicate that the rows constitute uniformly sampled bins.
Specify "Field" to indicate that each row contains a complete spectrum and the fields constitute uniformly sample bins.
The sp:sampling_base attribute is forbidden if sp:sampling_scale is "Linear".
The sp:sampling_base attribute is required for non-Linear sampling scales.
In the Uniformly_Sampled classes, the first_center value must be less than the last_center value.
The sp:Uniformaly_Sampled_Wavelength may only be used when sp:spectral_bin_type is "wavelength".
If the referenced object is an array, then sp:axis_name must correspond to the name attribute of one of the Array_Axis classes in that array object.
Specify "Row" for a spectral table to indicate that the rows constitute uniformly sampled bins.
Specify "Field" to indicate that each row contains a complete spectrum and the fields constitute uniformly sample bins.
The sp:sampling_base attribute is forbidden if sp:sampling_scale is "Linear".
The sp:sampling_base attribute is required for non-Linear sampling scales.
In the Uniformly_Sampled classes, the first_center value must be less than the last_center value.
The sp:Uniformaly_Sampled_Wavenumber may only be used when sp:spectral_bin_type is "wavenumber".
If the referenced object is an array, then sp:axis_name must correspond to the name attribute of one of the Array_Axis classes in that array object.
Specify "Row" for a spectral table to indicate that the rows constitute uniformly sampled bins.
Specify "Field" to indicate that each row contains a complete spectrum and the fields constitute uniformly sample bins.
The sp:sampling_base attribute is forbidden if sp:sampling_scale is "Linear".
The sp:sampling_base attribute is required for non-Linear sampling scales.
In the Uniformly_Sampled classes, the first_center value must be less than the last_center value.
The sp:value_field_name attribute must correspond to the name of exactly one Field_Character in the referenced Table_Character object.
The sp:value_field_name attribute must correspond to the name of exactly one Field_Character inside a Group_Field_Character for tabulated spectra with groups.
The sp:value_field_name attribute must correspond to the name of exactly one Field_Binary in the referenced Table_Binary object.
The sp:value_field_name attribute must correspond to the name of exactly one Field_Binary inside a Group_Field_Binary for tabulated spectra with groups.
The sp:value_field_name attribute must correspond to the name of exactly one Field_Delimited in the referenced Table_Delimited object.
The sp:value_field_name attribute must correspond to the name of exactly one Field_Delimited inside a Group_Field_Delimited for tabulated spectra with groups.
For Tabulated-Flat spectra, every value of sp:value_field_number_list must correspond to the value of a field_number attribute in a Field_Character definition.
For Tabulated-Flat spectra, every value of sp:value_field_number_list must correspond to the value of a field_number attribute in a Field_Binary definition.
For Tabulated-Flat spectra, every value of sp:value_field_number_list must correspond to the value of a field_number attribute in a Field_Delimited definition.
PK Q?z
PDS4_SP_1F00_1300.xml
urn:nasa:pds:system_bundle:xml_schema:sp-xml_schema
1.0
PDS4 XML Schema - SP V1.3.0.0
1.15.0.0
Product_XML_Schema
2020-11-03
1.0
This is the system generated PDS4 product label for PDS4 XML Schema and Schematron files.
PDS4_SP_1F00_1300.xsd
2020-11-03T11:47:46
70108
1478
PDS4_SP_1F00_1300.xsd
0
XML Schema Version 1.1
This is a PDS4 XML Schema file for the declared namespace.
PDS4_SP_1F00_1300.sch
2020-11-03T11:47:46
59233
755
PDS4_SP_1F00_1300.sch
0
Schematron ISO/IEC 19757-3:2006
This is the PDS4 Schematron file for the declared namespace. Schematron provides rule-based validation for XML Schema.
PK Q`Q