Mars2020 SuperCam Instrument Product Label
Keyword Definitions, Values - PDS Sort
Dictionary:PDS4 Keyword VICAR Property.VICAR Keyword |
General Definition |
XPath |
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Valid Values (attribute) |
Data Type | ||||
The active_flight_computer indicates which flight computer "string" (separate sets of electronics) was active when a product was acquired. For Mars 2020 there are two redundant flight computers called "strings", also known as Rover Compute Elements (RCEs). Either string, A or B, may be active at any given time. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/Observation_Information/active_flight_computer | ||||
1) "A" 2) "B" |
ASCII_Short_String_Collapsed | ||||
IDENTIFICATION. ACTIVITY_ID |
Identifier specifying the activity this observation is a part of. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Observational_Intent/activity_id | |||
ASCII_Short_String_Collapsed | |||||
The Alias class provides a single alternate name and identification for this product in this or some other archive or data system. |
1)/Product_Observational/Identification_Area/Alias_List/Alias | ||||
1) alternate_id 2) alternate_title 3) comment | |||||
The Alias_List class provides a list of paired alternate names and identifications for this product in this or some other archive or data system. |
1)/Product_Observational/Identification_Area/Alias_List | ||||
1) Alias | |||||
IDENTIFICATION. PRODUCT_ID |
The alternate_id attribute provides an additional identifier supplied by the data provider. |
1)/Product_Observational/Identification_Area/Alias_List/Alias/alternate_id | |||
ASCII_Short_String_Collapsed | |||||
TELEMETRY. APPLICATION_PROCESS_ID |
The application_id (often abbreviated APID) attribute identifies the process, or source, which created the data. This can include information such as an identification of the instrument which generated the telemetry stream, its operating mode at the time of data acquisition, and any onboard compression of the data. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/application_id | |||
ASCII_NonNegative_Integer | |||||
TELEMETRY. APPLICATION_PROCESS_NAME |
The application_name attribute provides the name associated with the source or process which created the data. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/application_name | |||
ASCII_Short_String_Collapsed | |||||
The Array 2D class is the parent class for all two dimensional array based classes. |
1)/Product_Observational/File_Area_Observational/Array_2D[*] | ||||
1) Array 2) offset 3) axes 4) name 7) md5_checksum 8) description 9) Axis_Array 10) Element_Array 11) Special_Constants 12) Object_Statistics 13) Digital_Object | |||||
The Articulation_Device_Parameters class contains those attributes and sub-classes that describe an articulation device. An articulation device is anything that can move independently of the spacecraft to which it is attached. Examples include mast heads, wheel bogies, arms, filter wheel, scan platforms. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*] | ||||
5) geom:device_phase 6) geom:selected_instrument_id 8) geom:Device_Component_State 9) geom:Device_Motor_Counts 10) geom:Device_Pose 11) geom:Vector_Device_Gravity 12) geom:Vector_Device_Gravity_Magnitude 14) geom:Coordinate_Space_Present 15) geom:Coordinate_Space_Reference 16) geom:Commanded_Geometry | |||||
The author_list attribute contains a semi-colon-separated list of names of people to be cited as authors of the associated product. The general format for individual names is: SURNAME, GIVEN NAME(s). Initials may be used in lieu of given name(s). If the name contains a suffix ("Jr.", "Sr.", "III", etc.) it should be placed before the comma (,). Do not include the word "and" before the final author. All authors should be listed explicitly - do not elide the list using "et al.". |
1)/Product_Document/Identification_Area/Citation_Information/author_list 2)/Product_Bundle/Identification_Area/Citation_Information/author_list 3)/Product_Collection/Identification_Area/Citation_Information/author_list | ||||
UTF8_Text_Preserved | |||||
TELMETRY. AUTO_DELETE_FLAG |
Indicates if the product was to be automatically deleted onboard after it is transmitted. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/auto_delete_flag | |||
ASCII_Boolean | |||||
SYSTEM. NB |
The axes attribute provides a count of the axes. |
1)/Product_Observational/File_Area_Observational/Array_2D[*]/axes | |||
1) "2" |
ASCII_NonNegative_Integer | ||||
The Axis Array class is used as a component of the array class and defines an axis of the array. |
1)/Product_Observational/File_Area_Observational/Array_2D[*]/Axis_Array[*] | ||||
1) axis_name 3) elements 4) unit 6) Band_Bin_Set | |||||
The axis_index_order attribute provides the axis index that varies fastest with respect to storage order. |
1)/Product_Observational/File_Area_Observational/Array_2D[*]/axis_index_order | ||||
1) "Last Index Fastest" |
ASCII_Short_String_Collapsed | ||||
The axis_name attribute provides a word or combination of words by which the axis is known. |
1)/Product_Observational/File_Area_Observational/Array_2D[*]/Axis_Array[*]/axis_name | ||||
ASCII_Short_String_Collapsed | |||||
TELEMETRY. BOOT_COUNT |
Counter indicating the number of times the spacecraft flight software has been booted. The intent is that this is a global counter that can uniquely identify the current FSW boot, so other counters that reset at boot time can be disambiguated. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Command_Execution/boot_counter | |||
ASCII_Short_String_Collapsed | |||||
mars2020:bu_hardware_identifier GENERIC_PACKET_HEADER_DATA_ELEMENTS. BU_HARDWARE_IDENTIFIER |
Hardware identifier for a specific BU CNDH board. Used to know which SOH engineering unit conversion factors to apply to the data. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/bu_hardware_identifier | |||
ASCII_Integer | |||||
GENERIC_PACKET_HEADER_DATA_ELEMENTS. BU_SOFTWARE_VERSION |
Unique identifier for the software version. Is a unix timestamp of when the software was built. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/bu_software_version | |||
ASCII_Integer | |||||
The Bundle class describes a collection of collections. |
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1) bundle_type 2) description 3) Conceptual_Object | |||||
The Bundle Member Entry class provides a member reference to a collection. |
1)/Product_Bundle/Bundle_Member_Entry[*] | ||||
The bundle_type attribute provides a classification for the bundle. |
1)/Product_Bundle/Bundle/bundle_type | ||||
1) "Archive" 2) "Supplemental" |
ASCII_Short_String_Collapsed | ||||
The Citation_Information class provides specific fields often used in citing the product in journal articles, abstract services, and other reference contexts. |
1)/Product_Document/Identification_Area/Citation_Information 2)/Product_Bundle/Identification_Area/Citation_Information 3)/Product_Collection/Identification_Area/Citation_Information | ||||
1) author_list 2) editor_list 4) doi 5) keyword 6) description | |||||
mars2020:cndh_firmware_version GENERIC_PACKET_HEADER_DATA_ELEMENTS. CNDH_FIRMWARE_VERSION |
Unique identifier for the CNDH firmware version. Is a unix timestamp of when the firmware was built. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/cndh_firmware_version | |||
ASCII_Integer | |||||
The Collection class provides a description of a set of products. |
1)/Product_Collection/Collection | ||||
2) description | |||||
The collection_type attribute provides a classification for the collection. |
1)/Product_Collection/Collection/collection_type | ||||
1) "Browse" 2) "Calibration" 3) "Context" 4) "Data" 5) "Document" 6) "Geometry" 7) "Miscellaneous" 8) "SPICE Kernel" 9) "XML Schema" |
ASCII_Short_String_Collapsed | ||||
msn_surface:command_dispatch_sclk TELEMETRY. COMMAND_DISPATCH_SCLK |
Specifies the spacecraft clock time at which the command execution was started. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Command_Execution/command_dispatch_sclk | |||
ASCII_Short_String_Collapsed | |||||
The Command_Execution class contains information about how the command that acquired this data was executed, such as sequence or activity. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Command_Execution | ||||
2) msn_surface:sequence_version_id 3) msn_surface:sequence_execution_count 4) msn_surface:command_sequence_number 5) msn_surface:command_source_id 6) msn_surface:command_dispatch_sclk 7) msn_surface:observation_id 10) msn_surface:rtt_version | |||||
msn_surface:command_sequence_number IDENTIFICATION. COMMAND_SEQUENCE_NUMBER |
The command_sequence_number attribute provides a numeric identifier for a sequence of commands sent to a spacecraft or instrument. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Command_Execution/command_sequence_number | |||
ASCII_NonNegative_Integer | |||||
OBSERVATION_REQUEST_PARMS . SOURCE_ID |
Specifies where the command that triggered acquisition of this data came from. This may be "GROUND" for ground commanding, or the name of a flight software module that initiated the request. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Command_Execution/command_source_id | |||
1) "GND" 2) "NAVF" 3) "NAVR" 4) "NAVS" 5) "HAFIQ" 6) "SUN" 7) "FAULT" 8) "VTT" 9) "ARMC" 10) "ARMF" 11) "WATCH" 12) "VISODOM" 13) "SPARE1" 14) "SPARE2" 15) "SPARE3" 16) "SPARE4" |
ASCII_Short_String_Collapsed | ||||
The comment attribute is a character string expressing one or more remarks or thoughts relevant to the object. |
1)/Product_Collection/Context_Area/comment 2)/Product_Collection/Context_Area/Investigation_Area/Internal_Reference/comment 3)/Product_Collection/Context_Area/Observing_System/Observing_System_Component[*]/Internal_Reference/comment 4)/Product_Collection/Context_Area/Target_Identification/Internal_Reference/comment 5)/Product_Bundle/Context_Area/Target_Identification/Internal_Reference/comment 6)/Product_Observational/Identification_Area/Alias_List/Alias/comment 7)/Product_Observational/Observation_Area/Investigation_Area/Internal_Reference/comment 8)/Product_Observational/Observation_Area/Observing_System/Observing_System_Component/Internal_Reference/comment 9)/Product_Observational/Observation_Area/Target_Identification/Internal_Reference/comment 10)/Product_Observational/Reference_List/Source_Product_Internal/comment | ||||
ASCII_Text_Preserved | |||||
msn_surface:communication_session_id TELEMETRY. COMMUNICATION_SESSION_ID |
Identifies the communication session used to acquire this data. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/communication_session_id | |||
ASCII_Short_String_Collapsed | |||||
The Context Area provides context information for a product. |
1)/Product_Document/Context_Area 2)/Product_Bundle/Context_Area 3)/Product_Collection/Context_Area | ||||
1) comment 7) Mission_Area | |||||
The Coordinate_Space classes are typically used for lander/rover geometry while the Coordinate_System construction is used for orbiter/flyby geometry. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*] 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition | ||||
2) geom:positive_azimuth_direction 3) geom:positive_elevation_direction 4) geom:quaternion_measurement_method 5) geom:Coordinate_Space_Present 7) geom:Quaternion_Plus_Direction | |||||
geom:coordinate_space_frame_type *. COORDINATE_SYSTEM_NAME |
The coordinate_space_frame_type attribute identifies the type of frame being described, such as SITE, LOCAL_LEVEL, LANDER, ROVER, ARM, etc. When combined with Coordinate_Space_Index and the optional solution_id in the Coordinate_Space_Indexed class, this serves to fully name an instance of a coordinate space. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Coordinate_Space_Present/Coordinate_Space_Indexed/coordinate_space_frame_type 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Coordinate_Space_Reference/Coordinate_Space_Indexed/coordinate_space_frame_type 3)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/Coordinate_Space_Reference/Coordinate_Space_Indexed/coordinate_space_frame_type 4)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Present/Coordinate_Space_Indexed/coordinate_space_frame_type 5)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Reference/Coordinate_Space_Indexed/coordinate_space_frame_type | |||
1) "SITE_FRAME" 2) "ROVER_NAV_FRAME" 3) "ROVER_MECH_FRAME" 4) "LOCAL_LEVEL_FRAME" 5) "RSM_HEAD_FRAME" 6) "ARM_TURRET_FRAME" 7) "ARM_DRILL_FRAME" 8) "ARM_DOCKING_POST_FRAME" 9) "ARM_PIXL_FRAME" 10) "ARM_GDRT_FRAME" 11) "ARM_FCS_FRAME" 12) "ARM_WATSON_FRAME" 13) "ARM_SHERLOC_FRAME" 14) "ARM_CUSTOM_TCP_FRAME" 15) "PIXL_BASE_FRAME" 16) "PIXL_SENSOR_FRAME" 17) "HELI_G_FRAME" 18) "HELI_M_FRAME" 19) "HELI_S1_FRAME" 20) "HELI_S2_FRAME" 21) "CINT_FRAME" 22) "MCMF_FRAME" 23) "MCZ_CAL_PRIMARY" 24) "DRILL_BIT_TIP" 25) "MEDA_RDS" |
ASCII_Short_String_Collapsed | ||||
*. REFERENCE_COORD_SYSTEM_INDEX |
Identifies a coordinate space using an index value given in an identified list. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Coordinate_Space_Reference/Coordinate_Space_Indexed/Coordinate_Space_Index[*] 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/Coordinate_Space_Reference/Coordinate_Space_Indexed/Coordinate_Space_Index[*] 3)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Present/Coordinate_Space_Indexed/Coordinate_Space_Index[*] 4)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Reference/Coordinate_Space_Indexed/Coordinate_Space_Index | |||
1) geom:List_Index_No_Units 2) geom:index_sequence_number 3) geom:index_name | |||||
The Coordinate_Space_Indexed class contains the attributes and classes identifying the indexed coordinate space. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Coordinate_Space_Present/Coordinate_Space_Indexed 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Coordinate_Space_Reference/Coordinate_Space_Indexed 3)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/Coordinate_Space_Reference/Coordinate_Space_Indexed 4)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Present/Coordinate_Space_Indexed 5)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Reference/Coordinate_Space_Indexed | ||||
1) geom:coordinate_space_frame_type 2) geom:solution_id | |||||
The Coordinate_Space_Present class includes the attributes that identifies the coordinate space presently being defined. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Coordinate_Space_Present 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Present | ||||
1) geom:Coordinate_Space_Identification 2) geom:Coordinate_Space_Indexed 3) geom:Coordinate_Space_SPICE | |||||
Parameters that indicate the quality of the coordinate space knowledge. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[1]/Coordinate_Space_Quality | ||||
1) geom:quaternion_measurement_method 2) geom:attitude_propagation_counter 3) geom:attitude_propagation_duration | |||||
The Coordinate_Space_Reference class includes the attributes that identify the coordinate space being used to express coordinates in the class in which it appears. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Coordinate_Space_Reference 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/Coordinate_Space_Reference 3)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Reference | ||||
1) geom:Coordinate_Space_Identification 2) geom:Coordinate_Space_Indexed 3) geom:Coordinate_Space_SPICE | |||||
The copyright attribute is a character string giving information about the exclusive right to make copies, license, and otherwise exploit an object, whether physical or digital. |
1)/Product_Document/Document/copyright | ||||
ASCII_Text_Preserved | |||||
IDENTIFICATION. PRODUCT_CREATION_TIME |
The creation_date_time attribute provides a date and time when the object was created. |
1)/Product_Observational/File_Area_Observational/File/creation_date_time | |||
ASCII_Date_Time_YMD | |||||
mars2020:data_definition_version GENERIC_PACKET_HEADER_DATA_ELEMENTS. DATA_DEFINITION_VERSION |
Version number of the instrument command dictionary, which defines specifics of each command parameter, and the structure of individual data products like SOH. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/data_definition_version | |||
ASCII_Integer | |||||
TELEMETRY. IMAGE_DATA_SIZE |
The data_size specifies number of bytes in the compressed data stream, not including headers. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/data_size | |||
ASCII_NonNegative_Integer | |||||
The data_type attribute provides the hardware representation used to store a value in Field_Binary (see PDS Standards Reference section "Binary Data Types"). |
1)/Product_Observational/File_Area_Observational/Array_2D[*]/Element_Array/data_type 2)/Product_Collection/File_Area_Inventory/Inventory/Record_Delimited/Field_Delimited[*]/data_type 3)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/Field_Binary/data_type | ||||
1) "ASCII_AnyURI" 2) "ASCII_BibCode" 3) "ASCII_Boolean" 4) "ASCII_DOI" 5) "ASCII_Date_DOY" 6) "ASCII_Date_Time_DOY" 7) "ASCII_Date_Time_DOY_UTC" 8) "ASCII_Date_Time_YMD" 9) "ASCII_Date_Time_YMD_UTC" 10) "ASCII_Date_YMD" 11) "ASCII_Directory_Path_Name" 12) "ASCII_File_Name" 13) "ASCII_File_Specification_Name" 14) "ASCII_Integer" 15) "ASCII_LID" 16) "ASCII_LIDVID" 17) "ASCII_LIDVID_LID" 18) "ASCII_MD5_Checksum" 19) "ASCII_NonNegative_Integer" 20) "ASCII_Numeric_Base16" 21) "ASCII_Numeric_Base2" 22) "ASCII_Numeric_Base8" 23) "ASCII_Real" 24) "ASCII_String" 25) "ASCII_Time" 26) "ASCII_VID" 27) "ComplexLSB16" 28) "ComplexLSB8" 29) "ComplexMSB16" 30) "ComplexMSB8" 31) "IEEE754LSBDouble" 32) "IEEE754LSBSingle" 33) "IEEE754MSBDouble" 34) "IEEE754MSBSingle" 35) "SignedBitString" 36) "SignedByte" 37) "SignedLSB2" 38) "SignedLSB4" 39) "SignedLSB8" 40) "SignedMSB2" 41) "SignedMSB4" 42) "SignedMSB8" 43) "UTF8_String" 44) "UnsignedBitString" 45) "UnsignedByte" 46) "UnsignedLSB2" 47) "UnsignedLSB4" 48) "UnsignedLSB8" 49) "UnsignedMSB2" 50) "UnsignedMSB4" 51) "UnsignedMSB8" |
ASCII_Short_String_Collapsed | ||||
The Derived_Geometry class is a container for surface based observations (lander or rover). It is used to provide some geometric quantities relative to a specific Reference Coordinate Space. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*] 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry | ||||
3) geom:emission_angle 9) geom:start_azimuth 10) geom:stop_azimuth 11) geom:target_heliocentric_distance 12) geom:solar_image_clock_angle | |||||
The description attribute provides a statement, picture in words, or account that describes or is otherwise relevant to the object. |
1)/Product_Document/Identification_Area/Citation_Information/description 2)/Product_Bundle/Identification_Area/Citation_Information/description 3)/Product_Bundle/Identification_Area/Modification_History/Modification_Detail/description 4)/Product_Bundle/Bundle/description 5)/Product_Observational/File_Area_Observational/Array_2D[*]/description 6)/Product_Collection/Identification_Area/Citation_Information/description 7)/Product_Collection/Identification_Area/Modification_History/Modification_Detail/description 8)/Product_Collection/File_Area_Inventory/Inventory/Record_Delimited/Field_Delimited[*]/description 9)/Product_Observational/Identification_Area/Modification_History/Modification_Detail/description 10)/Product_Observational/File_Area_Observational/Stream_Text/description 11)/Product_Observational/File_Area_Observational/Header[*]/description 12)/Product_Observational/File_Area_Observational/Table_Binary[*]/description 13)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/Field_Binary/description | ||||
UTF8_Text_Preserved | |||||
OBSERVATION_REQUEST_PARMS. INSTRUMENT_COORDINATE |
The Device_Angle class is a container for the set of angles between the various components or devices of the spacecraft. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Angle | |||
The Device_Angle class is a container for the set of angles the spacecraft device specified in the parent Articulation_Device_Parameters class. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Angle/Device_Angle_Index[*] | ||||
1) geom:List_Index_Angle 3) geom:index_sequence_number 4) geom:index_name | |||||
The Device_Component_State class is a container for the states of the various components of the articulation device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Component_State[*] | ||||
The Device_Component_State_Index class is a container for one state of a component of the articulation device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Component_State[*]/Device_Component_State_Index[*] | ||||
1) geom:List_Index_Text 2) geom:index_sequence_number 3) geom:index_name | |||||
*_ARTICULATION_STATE. ARTICULATION_DEVICE_ID |
The device_id attribute specifies the abbreviated identification of an articulation device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/device_id | |||
1) "CHASSIS" 2) "HGA" 3) "RSM" 4) "ARM" 5) "SHA" 6) "SCS" 7) "DRILL" |
ASCII_Short_String_Collapsed | ||||
CHASSIS_ARTICULATION_STATE. ARTICULATION_DEVICE_MODE |
The device_mode attribute specifies the deployment state (i.e., physical configuration) of an articulation device at the time of data acquisition. Examples include 'Arm Vibe', 'Deployed', 'Free Space', 'Stowed'. Note: the value set for this attribute is mission-specific and should be declared in a mission-specific dictionary. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/device_mode | |||
1) "EMPTY" 2) "FILLED" 3) "SEAL DISPENSED" 4) "SEAL ACTIVATED" |
ASCII_Short_String_Collapsed | ||||
*_ARTICULATION_STATE. ARTICULATION_DEVICE_NAME |
The device_name attribute specifies the common name of an articulation device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/device_name | |||
1) "MOBILITY CHASSIS" 2) "HIGH GAIN ANTENNA" 3) "REMOTE SENSING MAST" 4) "SAMPLE ARM" 5) "SAMPLE HANDLING ARM" 6) "SAMPLE CACHE SYSTEM" 7) "DRILL" |
ASCII_Short_String_Collapsed | ||||
MINI_HEADER. INSTRUMENT_MODE_NAME |
The device_name attribute supplies the formal name for an imaging instrument, an imaging instrument device, or some point on the instrument or device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Imaging/Instrument_State/Device_Temperatures/Device_Temperature[*]/device_name | |||
1) "Cover_Hall_Sensor" 2) "Filter_Hall_Sensor" 3) "Focus_Hall_Sensor" |
ASCII_Short_String_Collapsed | ||||
The Device_Temperature class is a container for all available device temperatures of an articulated device and/or part(s) of a device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Temperature | ||||
The Device_Temperature class provides a container for the temperature of some point on an imaging instrument or other imaging device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Imaging/Instrument_State/Device_Temperatures/Device_Temperature[*] | ||||
1) img:Device_Parameters 2) img:raw_count 4) img:device_id 5) img:sequence_number | |||||
The Device_Temperature_Index class specifies the attributes describing the temperature of one device or some part of a device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Temperature/Device_Temperature_Index[*] | ||||
1) geom:List_Index_Temperature 2) geom:index_sequence_number 3) geom:index_name | |||||
The Device_Temperatures class provides a container for the set of temperatures of an imaging instrument or other imaging device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Imaging/Instrument_State/Device_Temperatures | ||||
The Discipline area allows the insertion of discipline specific metadata. |
1)/Product_Observational/Observation_Area/Discipline_Area | ||||
1) Geometry 2) Surface_Mission_Information 4) Imaging | |||||
The Display_Direction class specifies how two of the dimensions of an Array object should be displayed in the vertical (line) and horizontal (sample) dimensions of a display device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Display_Settings[*]/Display_Direction | ||||
1) comment 2) disp:horizontal_display_axis | |||||
The Display_Settings class contains one or more classes describing how data should be displayed on a display device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Display_Settings[*] | ||||
3) disp:Color_Display_Settings 4) disp:Movie_Display_Settings | |||||
The Document class describes a document. |
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1) revision_id 2) document_name 3) doi 4) author_list 5) editor_list 6) acknowledgement_text 7) copyright 9) document_editions 10) description 11) Document_Edition 12) Digital_Object | |||||
A Document Edition is one complete version of the document in a set of files that is distinguished by language, a unique assemblage of file formats, or some other criteria. |
1)/Product_Document/Document/Document_Edition | ||||
1) edition_name 2) starting_point_identifier 3) language 4) files 5) description | |||||
The Document File class describes a file which is a part of a document. |
1)/Product_Document/Document/Document_Edition/Document_File | ||||
1) File 2) directory_path_name 3) file_name 7) file_size 8) records 9) md5_checksum 10) comment 11) Digital_Object | |||||
The document_standard_id attribute provides the formal name of a standard used for the structure of a document file. |
1)/Product_Document/Document/Document_Edition/Document_File/document_standard_id | ||||
1) "7-Bit ASCII Text" 2) "Encapsulated Postscript" 3) "GIF" 4) "HTML" 5) "HTML 2.0" 6) "HTML 3.2" 7) "HTML 4.0" 8) "HTML 4.01" 9) "JPEG" 10) "LaTEX" 11) "MPEG-4" 12) "Microsoft Excel" 13) "Microsoft Word" 14) "PDF" 15) "PDF/A" 16) "PNG" 17) "Postscript" 18) "Rich Text" 19) "TIFF" 20) "UTF-8 Text" |
ASCII_Short_String_Collapsed | ||||
The doi attribute provides the Digital Object Identifier for an object, assigned by the appropriate DOI System Registration Agency. |
1)/Product_Bundle/Identification_Area/Citation_Information/doi 2)/Product_Bundle/Reference_List/External_Reference[*]/doi | ||||
ASCII_DOI | |||||
The radial "zone" or "shell" of the target for which the observations were collected or which are represented in the product(s). The value may depend on wavelength_range and size of the target. |
1)/Product_Bundle/Context_Area/Primary_Result_Summary/Science_Facets/domain 2)/Product_Collection/Context_Area/Primary_Result_Summary/Science_Facets/domain | ||||
1) "Atmosphere" 2) "Dynamics" 3) "Heliosheath" 4) "Heliosphere" 5) "Interior" 6) "Interstellar" 7) "Ionosphere" 8) "Magnetosphere" 9) "Rings" 10) "Surface" |
ASCII_Short_String_Collapsed | ||||
TELEMETRY. DOWNLOAD_PRIORITY |
The download_priority attribute specifies which data to downlink/transmit, based on order of importance. The ranking and meaning of specific values will vary depending on the mission, and should be defined in the mission software interface specification (SIS). |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/download_priority | |||
ASCII_NonNegative_Integer | |||||
msn_surface:earth_received_start_date_time TELEMETRY. EARTH_RECEIVED_START_TIME |
The earth_received_start_date_time attribute provides the earliest time at which any component telemetry data for a particular product was received. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/earth_received_start_date_time | |||
ASCII_Date_Time_YMD_UTC | |||||
msn_surface:earth_received_stop_date_time TELEMETRY. EARTH_RECEIVED_STOP_TIME |
The earth_received_stop_date_time attribute provides the latest time at which any component telemetry data for a particular product was received. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/earth_received_stop_date_time | |||
ASCII_Date_Time_YMD_UTC | |||||
The edition name attribute provides a name by which the edition is known. |
1)/Product_Document/Document/Document_Edition/edition_name | ||||
UTF8_Short_String_Collapsed | |||||
The editor_list attribute contains a semi-colon-separated list of names of people to be cited as editors of the associated product. The general format for individual names is: SURNAME, GIVEN NAME(s). Initials may be used in lieu of given name(s). If the name contains a suffix ("Jr.", "Sr.", "III", etc.) it should be placed before the comma (,). Do not include the word "and" before the final editor. All editors should be listed explicitly - do not elide the list using "et al.". |
1)/Product_Bundle/Identification_Area/Citation_Information/editor_list 2)/Product_Collection/Identification_Area/Citation_Information/editor_list | ||||
UTF8_Text_Preserved | |||||
The Element Array class is used as a component of the array class and defines an element of the array. |
1)/Product_Observational/File_Area_Observational/Array_2D[*]/Element_Array | ||||
1) data_type 2) unit 3) scaling_factor 4) value_offset | |||||
SYSTEM. NB |
The elements attribute provides the count of the number of elements along an array axis. |
1)/Product_Observational/File_Area_Observational/Array_2D[*]/Axis_Array[*]/elements | |||
ASCII_NonNegative_Integer | |||||
TELEMETRY. EXPECTED_PACKETS |
The expected_packets attribute provides the total number of telemetry packets which constitute a complete data product, i.e., a data product without missing data. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/expected_packets | |||
ASCII_NonNegative_Integer | |||||
msn_surface:expected_transmission_path TELEMETRY. EXPECTED_TRANSMISSION_PATH |
Specifies the planned transmission path (route) for the telemetry data. See also transmission_path and communication_session_id. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/expected_transmission_path | |||
ASCII_Short_String_Collapsed | |||||
The External_Reference class is used to reference a source outside the PDS registry system. |
1)/Product_Bundle/Reference_List/External_Reference[*] | ||||
1) doi 3) description | |||||
The Field_Binary class defines a field of a binary record or a field of a binary group. |
1)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/Field_Binary | ||||
1) name 2) field_number 4) data_type 5) field_length 6) field_format 7) unit 8) scaling_factor 9) value_offset 10) description 11) Special_Constants 12) Field_Statistics 13) Packed_Data_Fields | |||||
The Field_Delimited class defines a field of a delimited record or a field of a delimited group. |
1)/Product_Collection/File_Area_Inventory/Inventory/Record_Delimited/Field_Delimited[*] | ||||
1) name 2) field_number 3) data_type 5) field_format 6) unit 7) scaling_factor 8) value_offset 9) description 10) Special_Constants 11) Field_Statistics | |||||
The field_delimiter attribute provides the character that marks the boundary between two fields in a delimited table. |
1)/Product_Collection/File_Area_Inventory/Inventory/field_delimiter | ||||
1) "Comma" 2) "Horizontal Tab" 3) "Semicolon" 4) "Vertical Bar" 5) "comma" 6) "horizontal tab" 7) "semicolon" 8) "vertical bar" |
ASCII_Short_String_Collapsed | ||||
The field_length attribute provides the number of bytes in the field. |
1)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/Field_Binary/field_length | ||||
ASCII_NonNegative_Integer Units_of_Storage | |||||
The field_location attribute provides the starting byte for a field within a record or group, counting from '1'. |
1)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/Field_Binary/field_location | ||||
ASCII_NonNegative_Integer Units_of_Storage | |||||
The field_number attribute provides the position of a field, within a series of fields, counting from 1. If two fields within a record are physically separated by one or more groups, they have consecutive field numbers; the fields within the intervening group(s) are numbered separately. Fields within a group separated by one or more (sub)groups, will also have consecutive field numbers. |
1)/Product_Collection/File_Area_Inventory/Inventory/Record_Delimited/Field_Delimited[*]/field_number 2)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/Field_Binary[*]/field_number | ||||
ASCII_NonNegative_Integer | |||||
The fields attribute provides a count of the total number of scalar fields directly associated with a table record. Fields within groups within the record are not included in this count. |
1)/Product_Collection/File_Area_Inventory/Inventory/Record_Delimited/fields 2)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/fields | ||||
ASCII_NonNegative_Integer | |||||
The File class consists of attributes that describe a file in a data store. |
1)/Product_Collection/File_Area_Inventory/File 2)/Product_Observational/File_Area_Observational/File | ||||
1) file_name 4) file_size 5) records 6) md5_checksum 7) comment 8) Digital_Object | |||||
The File Area Inventory class describes a file and an inventory consisting of references to members. |
1)/Product_Collection/File_Area_Inventory | ||||
1) File_Area 2) File 3) Inventory | |||||
The File Area Observational class describes, for an observational product, a file and one or more tagged_data_objects contained within the file. |
1)/Product_Observational/File_Area_Observational | ||||
1) File_Area 2) File 3) Composite_Structure 4) Array 5) Array_1D 6) Array_2D 7) Array_2D_Image 8) Array_2D_Map 9) Array_2D_Spectrum 10) Array_3D 11) Array_3D_Image 12) Array_3D_Movie 13) Array_3D_Spectrum 14) Encoded_Header 15) Header 16) Stream_Text 17) Table_Binary 18) Table_Character 19) Table_Delimited | |||||
IDENTIFICATION. PRODUCT_ID |
The file_name attribute provides the name of a file. |
1)/Product_Document/Document/Document_Edition/Document_File/file_name 2)/Product_Collection/File_Area_Inventory/File/file_name 3)/Product_Observational/File_Area_Observational/File/file_name | |||
ASCII_Short_String_Collapsed | |||||
The files attribute provides the number of files in the edition. |
1)/Product_Document/Document/Document_Edition/files | ||||
ASCII_NonNegative_Integer | |||||
msn_surface:flight_software_mode TELEMETRY. FLIGHT_SOFTWARE_MODE |
Specifies the active flight software mode at the time of data product creation. Interpretation of specific modes is mission-dependent. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/flight_software_mode | |||
1) "UNKNOWN" 2) "TEST" 3) "PRELAUNCH" 4) "LAUNCH" 5) "ECLIPSE" 6) "CRUISE" 7) "EDL_APPROACH" 8) "EDL_MAIN" 9) "SURFACE_NOMINAL" 10) "SURFACE_STANDBY" 11) "NONPRIME_TEST" 12) "NONPRIME_PRELAUNCH" 13) "NONPRIME_LAUNCH" 14) "NONPRIME_ECLIPSE" 15) "NONPRIME_CRUISE" 16) "NONPRIME_EDL_APPROACH" 17) "NONPRIME_EDL_MAIN" 18) "NONPRIME_SURFACE_NOMINAL" 19) "NONPRIME_SURFACE_STANDBY" |
ASCII_Short_String_Collapsed | ||||
msn_surface:flight_software_version_id TELEMETRY. FLIGHT_SOFTWARE_VERSION_ID |
The flight_software_version_id attribute identifies the version of the instrument flight software used to acquire the image. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/flight_software_version_id | |||
ASCII_Short_String_Collapsed | |||||
mars2020:generic_data_buffer_size GENERIC_PACKET_HEADER_DATA_ELEMENTS. GENERIC_DATA_BUFFER_SIZE |
The number of bytes of the entire generic buffer. Includes commands, data, header, and trailer, every byte from the packet header marker through the Fletcher checksum. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/generic_data_buffer_size | |||
ASCII_Integer | |||||
The Geometry class is a container for all geometric information in the label. The Image_Display_Geometry class should have one instance if the primary data object is an Array object for which two of the dimensions are suitable for display in the vertical (line) and horizontal (sample) dimensions of a display device. Multiple instances of the Image_Display_Geometry class are only appropriate if the data product contains multiple Array objects and the orientations of the various objects are not the same. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry | ||||
2) geom:Expanded_Geometry 3) geom:Image_Display_Geometry 4) geom:Geometry_Orbiter | |||||
The Geometry_Lander class is a container for all geometric information in the label relating to a landed spacecraft, including rovers. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander | ||||
2) description 4) geom:Articulation_Device_Parameters 5) geom:Camera_Model_Parameters | |||||
Specifies the state or configuration of this instance of Geometry_Lander applies. Use of this attribute enables multiple instances of Geometry_Lander, describing the geometry under different conditions. Note that it is legal for more than one instance to have the same geometry_state, in which case the local_identifier should be used to differentiate the instances, along with description. If not present, the semantics of "Telemetry" should be assumed. It is not required that instances be retained; a derived product may have an Adjusted instance but remove the Telemetry one, for example. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/geometry_state | ||||
ASCII_Short_String_Collapsed | |||||
The groups attribute provides a count of the total number of groups directly associated with a table record. Groups within groups within the record are not included in this count. |
1)/Product_Collection/File_Area_Inventory/Inventory/Record_Delimited/groups 2)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/groups | ||||
ASCII_NonNegative_Integer | |||||
The Header class describes a data object header. |
1)/Product_Observational/File_Area_Observational/Header[*] | ||||
1) Parsable_Byte_Stream 2) name 4) offset 7) md5_checksum 8) description 9) Digital_Object | |||||
The horizontal_display_axis attribute identifies, by name, the axis of an Array (or Array subclass) that is intended to be displayed in the horizontal or "sample" dimension on a display device. The value of this attribute must match the value of one, and only one, axis_name attribute in an Axis_Array class of the associated Array. |
1)/Product_Observational/Observation_Area/Discipline_Area/Display_Settings[*]/Display_Direction/horizontal_display_axis | ||||
ASCII_Short_String_Collapsed | |||||
The horizontal_display_direction attribute specifies the direction across the screen of a display device that data along the horizontal axis of an Array is supposed to be displayed. |
1)/Product_Observational/Observation_Area/Discipline_Area/Display_Settings[*]/Display_Direction/horizontal_display_direction | ||||
1) "Left to Right" 2) "Right to Left" |
ASCII_Short_String_Collapsed | ||||
The identification area consists of attributes that identify and name an object. |
1)/Product_Document/Identification_Area 2)/Product_Bundle/Identification_Area 3)/Product_Collection/Identification_Area 4)/Product_Observational/Identification_Area | ||||
2) version_id 3) title 6) Alias_List | |||||
The Imaging class contains classes and attributes describing both the image product itself and the imaging instrument. Image product information can include exposure duration, filters, data correction, sampling, frame, sub-frames, and how the product was derived. For the imaging instrument, information can be provided describing the dynamic physical or operating characteristics of the imaging instrument. |
1)/Product_Observational/Observation_Area/Discipline_Area/Imaging | ||||
2) img:Brightness_Correction 3) img:Col_Sum 4) img:Color_Filter_Array 5) img:Color_Processing 6) img:Dark_Current_Correction 7) img:Detector 8) img:Downsampling 9) img:Exposure 10) img:Flat_Field_Correction 11) img:Focus 12) img:Focus_Stack 13) img:Frame 14) img:High_Dynamic_Range 15) img:Histogram 16) img:Illumination 17) img:Image_Filter 18) img:Image_Mask 19) img:Onboard_Compression 20) img:Optical_Filter 21) img:Optical_Properties 22) img:Pointing_Correction 23) img:Radiometric_Correction 24) img:Reference_Pixel 25) img:Row_Sum 26) img:Sampling 27) img:Shutter_Subtraction 28) img:Spatial_Filter 29) img:Subframe 30) img:Tiling 31) img:Thumbnail 32) img:Video 34) img:Commanded_Parameters | |||||
IDENTIFICATION. SOLAR_INCIDENCE_TARGET_ANG |
The incidence_angle element provides a measure of the lighting condition at the intercept point. Incidence angle is the angle between the local vertical at the intercept point (surface) and a vector from the intercept point to the sun. The incidence_angle varies from 0 degrees when the intercept point coincides with the subsolar point to 90 degrees when the intercept point is at the terminator (i.e., in the shadowed or dark portion of the target body). |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[2]/incidence_angle | |||
ASCII_Real Units_of_Angle | |||||
IDENTIFICATION. ROVER_MOTION_COUNTER_NAME |
The index_id attribute supplies a short name (identifier) for the associated value in a group of related values. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Component_State[*]/Device_Component_State_Index[*]/index_id 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Temperature/Device_Temperature_Index[*]/index_id 3)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Angle/Device_Angle_Index[*]/index_id 4)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Coordinate_Space_Reference/Coordinate_Space_Indexed/Coordinate_Space_Index[*]/index_id 5)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/Coordinate_Space_Reference/Coordinate_Space_Indexed/Coordinate_Space_Index[*]/index_id 6)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Present/Coordinate_Space_Indexed/Coordinate_Space_Index[*]/index_id 7)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Reference/Coordinate_Space_Indexed/Coordinate_Space_Index/index_id 8)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Motion_Counter/Motion_Counter_Index[*]/index_id | |||
1) "SITE" 2) "DRIVE" 3) "POSE" 4) "ARM" 5) "SHA" 6) "DRILL" 7) "RSM" 8) "HGA" 9) "BITCAR" 10) "SEAL" 11) "RTT" 12) "PMC" 13) "FLIGHT" 14) "POS" 15) "SET" 16) "INSTANCE" |
ASCII_Short_String_Collapsed | ||||
*_ARTICULATION_STATE. ARTICULATION_DEVICE_ANGLE |
The index_value_angle attribute provides the value of an angle as named by the associated index_id, index_name, or index_sequence_number. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Angle/Device_Angle_Index[*]/index_value_angle | |||
ASCII_Real Units_of_Angle | |||||
*_ARTICULATION_STATE. ARTICULATION_DEVICE_TEMP_COUNT |
The index_value_number attribute provides the value with no applicable units as named by the associated index_id or index_name. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Coordinate_Space_Reference/Coordinate_Space_Indexed/Coordinate_Space_Index[*]/index_value_number 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/Coordinate_Space_Reference/Coordinate_Space_Indexed/Coordinate_Space_Index[*]/index_value_number 3)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Present/Coordinate_Space_Indexed/Coordinate_Space_Index[*]/index_value_number 4)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Coordinate_Space_Reference/Coordinate_Space_Indexed/Coordinate_Space_Index/index_value_number 5)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Motion_Counter/Motion_Counter_Index[*]/index_value_number | |||
ASCII_Real | |||||
ARM_ARTICULATION_STATE. ART_DEV_COMPONENT_STATE_NAME |
The index_value attribute provides the string value as named by the associated index_id or index_name. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Component_State[*]/Device_Component_State_Index[*]/index_value_string | |||
1) "NO CONTACT" 2) "CONTACT" |
ASCII_Short_String_Collapsed | ||||
*_ARTICULATION_STATE. ARTICULATION_DEVICE_TEMP |
The index_value_temperature attribute provides the value of a temperature as named by the associated index_id or index_name. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[*]/Device_Temperature/Device_Temperature_Index[*]/index_value_temperature | |||
ASCII_Real Units_of_Temperature | |||||
The information_model_version attribute provides the version identification of the PDS Information Model on which the label and schema are based. |
1)/Product_Document/Identification_Area/information_model_version 2)/Product_Bundle/Identification_Area/information_model_version 3)/Product_Collection/Identification_Area/information_model_version 4)/Product_Observational/Identification_Area/information_model_version | ||||
1) "1.0.0.0" 2) "1.1.0.0" 3) "1.10.0.0" 4) "1.10.1.0" 5) "1.11.0.0" 6) "1.12.0.0" 7) "1.13.0.0" 8) "1.14.0.0" 9) "1.15.0.0" 10) "1.16.0.0" 11) "1.2.0.0" 12) "1.2.0.1" 13) "1.3.0.0" 14) "1.3.0.1" 15) "1.4.0.0" 16) "1.5.0.0" 17) "1.6.0.0" 18) "1.7.0.0" 19) "1.8.0.0" 20) "1.9.0.0" 21) "1.9.1.0" |
ASCII_Short_String_Collapsed | ||||
*_DERIVED_GEOMETRY_PARMS. INSTRUMENT_AZIMUTH |
The instrument_azimuth attribute specifies the value for an instrument's rotation in the horizontal direction. It may be measured from a low hard stop, or relative to a coordinate frame. Although it may be used for any instrument where it makes sense, it is primarily intended for use in surface-based instruments that measure pointing in terms of azimuth and elevation. If this value is expressed using a coordinate system, the coordinate system is specified by the Coordinate_Space_Reference class. The interpretation of exactly what part of the instrument is being pointed is mission-specific. It could be the boresight, the camera head direction, the CAHV camera model A vector direction, or any of a number of other things. As such, for multimission use this value should be used mostly as an approximation, e.g. identifying scenes which might contain a given object. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/instrument_azimuth | |||
ASCII_Real Units_of_Angle | |||||
*_DERIVED_GEOMETRY_PARMS. INSTRUMENT_ELEVATION |
The instrument_elevation attribute specifies the value for an instrument's rotation in the vertical direction. It may be usually measured from a low hard stop, or relative to a coordinate frame. Although it may be used for any instrument where it makes sense, it is primarily intended for use in surface-based instruments that measure pointing in terms of azimuth and elevation. If this value is expressed using a coordinate system, the coordinate system is specified by the Coordinate_Space_Reference class. The interpretation of exactly what part of the instrument is being pointed is mission-specific. It could be the boresight, the camera head direction, the CAHV camera model A vector direction, or any of a number of other things. As such, for multimission use this value should be used mostly as an approximation, e.g. identifying scenes that might contain a given object. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/instrument_elevation | |||
ASCII_Real Units_of_Angle | |||||
The Instrument_State class contains classes providing the values of any dynamic physical or operating characteristics of the imaging instruments. |
1)/Product_Observational/Observation_Area/Discipline_Area/Imaging/Instrument_State | ||||
1) img:Device_Component_States 2) img:Device_Currents 3) img:Device_Motor_Counts 5) img:Device_Voltages | |||||
DERIVED_IMAGE_PARMS. FLAT_FIELD_FILE_NAME |
The Internal_Reference class is used to cross-reference other products in PDS4-compliant registries of PDS and its recognized international partners. |
1)/Product_Collection/Reference_List/Internal_Reference[*] 2)/Product_Document/Context_Area/Investigation_Area/Internal_Reference 3)/Product_Document/Context_Area/Observing_System/Observing_System_Component/Internal_Reference 4)/Product_Bundle/Context_Area/Investigation_Area/Internal_Reference 5)/Product_Bundle/Context_Area/Observing_System/Observing_System_Component[*]/Internal_Reference 6)/Product_Bundle/Context_Area/Target_Identification/Internal_Reference 7)/Product_Bundle/Reference_List/Internal_Reference[*] 8)/Product_Collection/Context_Area/Investigation_Area/Internal_Reference 9)/Product_Collection/Context_Area/Observing_System/Observing_System_Component[*]/Internal_Reference 10)/Product_Collection/Context_Area/Target_Identification/Internal_Reference 11)/Product_Observational/Observation_Area/Investigation_Area/Internal_Reference 12)/Product_Observational/Observation_Area/Observing_System/Observing_System_Component/Internal_Reference 13)/Product_Observational/Observation_Area/Target_Identification/Internal_Reference 14)/Product_Observational/Reference_List/Internal_Reference[*] | |||
4) comment | |||||
The Inventory class defines the inventory for members of a collection. |
1)/Product_Collection/File_Area_Inventory/Inventory | ||||
1) Table_Delimited 2) name 4) offset 5) records 9) md5_checksum 11) description 12) field_delimiter 13) Digital_Object 14) Uniformly_Sampled 15) Record_Delimited | |||||
The Investigation_Area class provides information about an investigation (mission, observing campaign or other coordinated, large-scale data collection effort). |
1)/Product_Document/Context_Area/Investigation_Area 2)/Product_Bundle/Context_Area/Investigation_Area 3)/Product_Collection/Context_Area/Investigation_Area 4)/Product_Observational/Observation_Area/Investigation_Area | ||||
1) name 2) type | |||||
The keyword attribute provides one or more words to be used for keyword search. |
1)/Product_Collection/Identification_Area/Citation_Information/keyword[*] | ||||
UTF8_Short_String_Collapsed | |||||
The language attribute provides the language used for definition and designation of the term. |
1)/Product_Document/Document/Document_Edition/language | ||||
1) "English" |
ASCII_Short_String_Collapsed | ||||
DERIVED_IMAGE. INVERSE_LUT_FILE_NAME |
The lid_reference attribute provides the logical_identifier for a product. |
1)/Product_Collection/Reference_List/Internal_Reference[*]/lid_reference 2)/Product_Document/Context_Area/Investigation_Area/Internal_Reference/lid_reference 3)/Product_Document/Context_Area/Observing_System/Observing_System_Component/Internal_Reference/lid_reference 4)/Product_Bundle/Context_Area/Investigation_Area/Internal_Reference/lid_reference 5)/Product_Bundle/Context_Area/Observing_System/Observing_System_Component[*]/Internal_Reference/lid_reference 6)/Product_Bundle/Context_Area/Target_Identification/Internal_Reference/lid_reference 7)/Product_Bundle/Reference_List/Internal_Reference[*]/lid_reference 8)/Product_Bundle/Bundle_Member_Entry[*]/lid_reference 9)/Product_Collection/Context_Area/Investigation_Area/Internal_Reference/lid_reference 10)/Product_Collection/Context_Area/Observing_System/Observing_System_Component[*]/Internal_Reference/lid_reference 11)/Product_Collection/Context_Area/Target_Identification/Internal_Reference/lid_reference 12)/Product_Observational/Observation_Area/Investigation_Area/Internal_Reference/lid_reference 13)/Product_Observational/Observation_Area/Observing_System/Observing_System_Component/Internal_Reference/lid_reference 14)/Product_Observational/Observation_Area/Target_Identification/Internal_Reference/lid_reference 15)/Product_Observational/Reference_List/Internal_Reference[*]/lid_reference | |||
ASCII_LID | |||||
IDENTIFICATION. PRODUCT_ID |
The lidvid_reference attribute provides the logical_identifier plus version_id, which uniquely identifies a product. |
1)/Product_Observational/Reference_List/Source_Product_Internal/lidvid_reference | |||
ASCII_Short_String_Collapsed | |||||
The local_identifier attribute provides a character string which uniquely identifies the containing object within the label. |
1)/Product_Collection/File_Area_Inventory/File/local_identifier 2)/Product_Observational/File_Area_Observational/Array_2D[*]/local_identifier 3)/Product_Collection/File_Area_Inventory/Inventory/local_identifier 4)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/local_identifier 5)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/local_identifier 6)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/local_identifier 7)/Product_Observational/File_Area_Observational/File/local_identifier 8)/Product_Observational/File_Area_Observational/Stream_Text/local_identifier 9)/Product_Observational/File_Area_Observational/Header[*]/local_identifier 10)/Product_Observational/File_Area_Observational/Table_Binary[*]/local_identifier | ||||
ASCII_Local_Identifier | |||||
*_COORDINATE_SYSTEM. REFERENCE_COORD_SYSTEM_INDEX |
The local_identifier_reference attribute provides the value of the local_identifier of the entity described by the referencing class. Note that a local_identifier attribute, with the same value as this local_identifier_reference, must be present within the label. |
1)/Product_Observational/Observation_Area/Discipline_Area/Display_Settings[*]/Local_Internal_Reference/local_identifier_reference 2)/Product_Observational/Observation_Area/Discipline_Area/Imaging/Local_Internal_Reference/local_identifier_reference 3)/Product_Observational/Observation_Area/Discipline_Area/Processing_Information/Local_Internal_Reference/local_identifier_reference | |||
1) "SITE_FRAME" 2) "SITE_FRAME" 3) "ROVER_NAV_FRAME" 4) "ROVER_NAV_FRAME" 5) "ROVER_NAV_FRAME" 6) "ROVER_NAV_FRAME" 7) "SITE_FRAME" 8) "ROVER_NAV_FRAME" 9) "ROVER_NAV_FRAME" 10) "PIXL_BASE_FRAME" 11) "ARM_PIXL_FRAME" |
ASCII_Local_Identifier_Reference | ||||
The Local Internal_Reference class is used to cross-reference other Description Objects in a PDS4 label. |
1)/Product_Observational/Observation_Area/Discipline_Area/Display_Settings[*]/Local_Internal_Reference 2)/Product_Observational/Observation_Area/Discipline_Area/Imaging/Local_Internal_Reference 3)/Product_Observational/Observation_Area/Discipline_Area/Processing_Information/Local_Internal_Reference | ||||
1) comment | |||||
IDENTIFICATION. LOCAL_MEAN_SOLAR_TIME |
The local_mean_solar_time attribute provides the hour angle of the fictitious mean Sun at a fixed point on a rotating solar system body. |
1)/Product_Observational/Observation_Area/Time_Coordinates/local_mean_solar_time | |||
ASCII_Short_String_Collapsed | |||||
The local_reference_type attribute provides the name of an association between an entity identified by a local_identifier_reference and another corresponding entity identified by a local_identifier. The values for the local_reference_type are expected to be enumerated for appropriate contexts in the Schematron files of local (i.e., discipline and mission) data dictionaries. |
1)/Product_Observational/Observation_Area/Discipline_Area/Display_Settings[*]/Local_Internal_Reference/local_reference_type 2)/Product_Observational/Observation_Area/Discipline_Area/Imaging/Local_Internal_Reference/local_reference_type 3)/Product_Observational/Observation_Area/Discipline_Area/Processing_Information/Local_Internal_Reference/local_reference_type | ||||
ASCII_Short_String_Collapsed | |||||
IDENTIFICATION. LOCAL_TRUE_SOLAR_TIME |
The local_true_solar_time (LTST) attribute provides the local time on a rotating solar system body where LTST is 12 h at the sub-solar point (SSP) and increases 1 h for each 15 degree increase in east longitude away from the SSP for prograde rotation. |
1)/Product_Observational/Observation_Area/Time_Coordinates/local_true_solar_time | |||
ASCII_Short_String_Collapsed | |||||
IDENTIFICATION. PRODUCT_ID |
A logical identifier identifies the set of all versions of an object. It is an object identifier without a version. |
1)/Product_Document/Identification_Area/logical_identifier 2)/Product_Bundle/Identification_Area/logical_identifier 3)/Product_Collection/Identification_Area/logical_identifier 4)/Product_Observational/Identification_Area/logical_identifier | |||
ASCII_LID | |||||
The Mars2020_Parameters class is a superclass containing all Mars2020 mission classes. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters | ||||
1) mars2020:Observation_Information 2) mars2020:MOXIE_Parameters 3) mars2020:PIXL_Parameters 4) mars2020:RIMFAX_Parameters 5) mars2020:SHERLOC_Parameters | |||||
The maximum_field_length attribute sets an upper, inclusive bound on the number of bytes in the field. |
1)/Product_Collection/File_Area_Inventory/Inventory/Record_Delimited/Field_Delimited[*]/maximum_field_length | ||||
ASCII_NonNegative_Integer Units_of_Storage | |||||
The maximum_record_length attribute provides the maximum length of a record, including the record delimiter. |
1)/Product_Collection/File_Area_Inventory/Inventory/Record_Delimited/maximum_record_length | ||||
ASCII_NonNegative_Integer Units_of_Storage | |||||
The member_status attribute indicates whether the collection is primary and whether the file_specification_name has been provided for the product_collection label. |
1)/Product_Bundle/Bundle_Member_Entry[*]/member_status | ||||
1) "Primary" 2) "Secondary" |
ASCII_Short_String_Collapsed | ||||
The mission area allows the insertion of mission specific metadata. |
1)/Product_Observational/Observation_Area/Mission_Area | ||||
The mission_phase_name identifies a time period within the mission. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/Observation_Information/mission_phase_name | ||||
1) "ATLO" 2) "Cruise" 3) "Development" 4) "Surface Mission" 5) "Test" |
ASCII_Short_String_Preserved | ||||
The modification_date attribute provides date the modifications were completed |
1)/Product_Bundle/Identification_Area/Modification_History/Modification_Detail/modification_date 2)/Product_Collection/Identification_Area/Modification_History/Modification_Detail/modification_date 3)/Product_Observational/Identification_Area/Modification_History/Modification_Detail/modification_date | ||||
ASCII_Date_YMD | |||||
The Modification_Detail class provides the details of one round of modification for the product. The first, required, instance of this class documents the date the product was first registered. |
1)/Product_Bundle/Identification_Area/Modification_History/Modification_Detail 2)/Product_Collection/Identification_Area/Modification_History/Modification_Detail 3)/Product_Observational/Identification_Area/Modification_History/Modification_Detail | ||||
2) version_id 3) description | |||||
The Modification_History class tracks the history of changes made to the product once it enters the registry system. |
1)/Product_Bundle/Identification_Area/Modification_History 2)/Product_Collection/Identification_Area/Modification_History 3)/Product_Observational/Identification_Area/Modification_History | ||||
The Motion_Counter class provides a set of integers that describe a (potentially) unique location (position / orientation) for a rover or other movable object. Each time an event occurs that results in a movement, a new motion counter value is created. This includes intentional motion due to drive commands, as well as potential motion due to other articulating devices, such as arms or antennae. This motion counter (or part of it) is used as a reference to define instances of coordinate systems that can move such as SITE or ROVER frames. The motion counter is defined in a mission-specific manner. Although the original intent was to have incrementing indices (e.g., MER), the motion counter could also contain any integer values that conform to the above definition, such as time or spacecraft clock values. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Motion_Counter | ||||
1) name | |||||
The Motion_Counter_Index class identifies and populates one element of a Motion_Counter list. The class should be repeated for each element of the list. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Motion_Counter/Motion_Counter_Index[*] | ||||
1) geom:List_Index_No_Units 2) geom:index_sequence_number 3) geom:index_name | |||||
mars2020:mu_hardware_identifier GENERIC_PACKET_HEADER_DATA_ELEMENTS. MU_HARDWARE_IDENTIFIER |
Hardware identifier for a specific MU board. Used to know which housekeeping engineering unit conversion factors to apply to the data. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/mu_hardware_identifier | |||
ASCII_Integer | |||||
mars2020:mu_version_identifier GENERIC_PACKET_HEADER_DATA_ELEMENTS. MU_VERSION_IDENTIFIER |
Version of the MU, response from the MU send version command. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/mu_version_identifier | |||
ASCII_Integer | |||||
The name attribute provides a word or combination of words by which the object is known. |
1)/Product_Document/Context_Area/Investigation_Area/name 2)/Product_Document/Context_Area/Observing_System/name 3)/Product_Document/Context_Area/Observing_System/Observing_System_Component/name 4)/Product_Bundle/Context_Area/Investigation_Area/name 5)/Product_Bundle/Context_Area/Observing_System/Observing_System_Component[*]/name 6)/Product_Bundle/Context_Area/Target_Identification/name 7)/Product_Observational/File_Area_Observational/Array_2D[*]/name 8)/Product_Collection/Context_Area/Investigation_Area/name 9)/Product_Collection/Context_Area/Observing_System/Observing_System_Component[*]/name 10)/Product_Collection/Context_Area/Target_Identification/name 11)/Product_Collection/File_Area_Inventory/Inventory/Record_Delimited/Field_Delimited[*]/name 12)/Product_Observational/Observation_Area/Investigation_Area/name 13)/Product_Observational/Observation_Area/Observing_System/Observing_System_Component/name 14)/Product_Observational/Observation_Area/Target_Identification/name 15)/Product_Observational/File_Area_Observational/Stream_Text/name 16)/Product_Observational/File_Area_Observational/Header[*]/name 17)/Product_Observational/File_Area_Observational/Table_Binary[*]/name 18)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/Field_Binary/name | ||||
UTF8_Short_String_Collapsed | |||||
GENERIC_PACKET_HEADER_DATA_ELEMENTS. NUMBER_OF_SECTIONS |
Number of command or data sections contained in this buffer. Does not include the header section or the trailer section. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/number_of_sections | |||
ASCII_Integer | |||||
GENERIC_PACKET_HEADER_DATA_ELEMENTS. NV_XMIT_BUFFER_COUNT |
Non-volatile count of the number of times the generic buffer has been transmitted to the RCE. Acts as a unique identifier for the buffer. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/nv_xmit_buffer_count | |||
ASCII_Integer | |||||
SYSTEM. LBLSIZE |
The object_length attribute provides the length of the digital object in bytes. |
1)/Product_Observational/File_Area_Observational/Header[*]/object_length | |||
ASCII_NonNegative_Integer Units_of_Storage | |||||
The observation area consists of attributes that provide information about the circumstances under which the data were collected. |
1)/Product_Observational/Observation_Area | ||||
1) Context_Area 2) comment 8) Mission_Area | |||||
The Observation_Information class provides information about a science observation. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/Observation_Information | ||||
2) mars2020:mission_phase_name 3) mars2020:product_type_name 4) mars2020:spacecraft_clock_start 5) mars2020:spacecraft_clock_stop 6) mars2020:spacecraft_clock_partition 8) mars2020:start_sol_number 9) mars2020:stop_sol_number 10) mars2020:start_local_mean_solar_time 11) mars2020:stop_local_mean_solar_time 12) mars2020:start_local_true_solar_time 13) mars2020:start_local_true_solar_time_sol 14) mars2020:stop_local_true_solar_time 15) mars2020:stop_local_true_solar_time_sol 16) mars2020:start_solar_longitude 17) mars2020:stop_solar_longitude 18) mars2020:active_flight_computer 19) mars2020:start_mars_year 20) mars2020:stop_mars_year | |||||
Describes the intent and context of the observation. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Observational_Intent | ||||
1) msn_surface:campaign 2) msn_surface:goal 3) msn_surface:task 4) msn_surface:activity_notes 5) msn_surface:keyword 7) msn_surface:target_id | |||||
The Observing System class describes the entire suite used to collect the data. |
1)/Product_Document/Context_Area/Observing_System 2)/Product_Bundle/Context_Area/Observing_System 3)/Product_Collection/Context_Area/Observing_System 4)/Product_Observational/Observation_Area/Observing_System | ||||
1) name 2) description 4) Conceptual_Object 5) Physical_Object | |||||
IDENTIFICATION. INSTRUMENT_ID |
The Observing System Component class describes one or more subsystems used to collect data. |
1)/Product_Document/Context_Area/Observing_System/Observing_System_Component 2)/Product_Bundle/Context_Area/Observing_System/Observing_System_Component[*] 3)/Product_Collection/Context_Area/Observing_System/Observing_System_Component[*] 4)/Product_Observational/Observation_Area/Observing_System/Observing_System_Component | |||
1) FRONT_HAZCAM_LEFT_A 2) FRONT_HAZCAM_LEFT_B 3) FRONT_HAZCAM_RIGHT_A 4) FRONT_HAZCAM_RIGHT_B 5) REAR_HAZCAM_LEFT 6) REAR_HAZCAM_RIGHT 7) NAVCAM_LEFT 8) NAVCAM_RIGHT 9) CACHECAM 10) SUPERCAM_RMI 11) MCZ_LEFT 12) MCZ_RIGHT 13) SHERLOC_WATSON 14) SHERLOC_ACI 15) PIXL_MCC 16) SKYCAM 17) LCAM 18) EDL_PUCAM1 19) EDL_PUCAM2 20) EDL_PUCAM3 21) EDL_DDCAM 22) EDL_RDCAM 23) EDL_RUCAM 24) EDL_MICROPHONE 25) HELI_NAV 26) HELI_RTE 27) MEDA_ENVIRONMENT 28) MOXIE 29) PIXL_ENGINEERING 30) PIXL_SPECTROMETER 31) SUPERCAM_NONIMAGE 32) SHERLOC_SPECTROMETER 33) RIMFAX_MOBILE 34) RIMFAX_STATIONARY | |||||
SYSTEM. LBLSIZE |
The offset attribute provides the displacement of the object starting position from the beginning of the parent structure (file, record, etc.). If there is no displacement, offset=0. |
1)/Product_Observational/File_Area_Observational/Array_2D[*]/offset 2)/Product_Collection/File_Area_Inventory/Inventory/offset 3)/Product_Observational/File_Area_Observational/Stream_Text/offset 4)/Product_Observational/File_Area_Observational/Header[*]/offset 5)/Product_Observational/File_Area_Observational/Table_Binary[*]/offset | |||
ASCII_NonNegative_Integer Units_of_Storage | |||||
The parsing_standard_id attribute provides the formal name of a standard used for the structure of a Parsable Byte Stream digital object. |
1)/Product_Collection/File_Area_Inventory/Inventory/parsing_standard_id 2)/Product_Observational/File_Area_Observational/Stream_Text/parsing_standard_id 3)/Product_Observational/File_Area_Observational/Header[*]/parsing_standard_id | ||||
1) "7-Bit ASCII Text" 2) "CDF 3.4 ISTP/IACG" 3) "FITS 3.0" 4) "FITS 4.0" 5) "ISIS2" 6) "ISIS2 History Label" 7) "ISIS3" 8) "PDS DSV 1" 9) "PDS ODL 2" 10) "PDS3" 11) "Pre-PDS3" 12) "TIFF 6.0" 13) "UTF-8 Text" 14) "VICAR1" 15) "VICAR2" |
ASCII_Short_String_Collapsed | ||||
IDENTIFICATION. PHASE_ANGLE |
The phase_angle element provides a measure of the relationship between the instrument viewing position and incident illumination (such as solar light). Phase angle is measured at the target; it is the angle between a vector to the illumination source and a vector to the instrument. If illumination is from behind the instrument, phase_angle will be small. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[2]/phase_angle | |||
ASCII_Real Units_of_Angle | |||||
geom:positive_azimuth_direction *_COORDINATE_SYSTEM. POSITIVE_AZIMUTH_DIRECTION |
The positive_azimuth_direction attribute specifies the direction in which azimuth is measured in positive degrees for an observer on the surface of a body. The azimuth is measured with respect to the elevation reference plane. A value of 'clockwise' indicates that azimuth is measured positively clockwise, and 'counterclockwise' indicates that azimuth increases positively counter-clockwise. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/positive_azimuth_direction 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/positive_azimuth_direction | |||
1) "CLOCKWISE" |
ASCII_Short_String_Collapsed | ||||
geom:positive_elevation_direction *_COORDINATE_SYSTEM. POSITIVE_ELEVATION_DIRECTION |
The positive_elevation_direction attribute provides the direction in which elevation is measured in positive degrees for an observer on the surface of a body. The elevation is measured with respect to the azimuthal reference plane. A value of UP or ZENITH indicates that elevation is measured positively upwards, i.e., the zenith point would be at +90 degrees and the nadir point at -90 degrees. DOWN or NADIR indicates that the elevation is measured positively downwards; the zenith point would be at -90 degrees and the nadir point at +90 degrees. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/positive_elevation_direction 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/positive_elevation_direction | |||
1) "UP" |
ASCII_Short_String_Collapsed | ||||
The Primary_Result_Summary class provides a high-level description of the types of products included in the collection or bundle |
1)/Product_Bundle/Context_Area/Primary_Result_Summary 2)/Product_Collection/Context_Area/Primary_Result_Summary | ||||
1) type 2) purpose 3) data_regime 5) processing_level_id 6) description | |||||
The Process class describes one of the software processes used to produce the data product referenced in the parent Processing_Information class. This class includes descriptions of the process owner as well as the data processing software used to create the data product. |
1)/Product_Observational/Observation_Area/Discipline_Area/Processing_Information/Process | ||||
1) name 2) description 3) proc:process_owner_name | |||||
proc:process_owner_institution_name IDENTIFICATION. PRODUCER_INSTITUTION_NAME |
The pprocess_owner_institution_name attribute specifies the name of the institution that owns the software process. |
1)/Product_Observational/Observation_Area/Discipline_Area/Processing_Information/Process/process_owner_institution_name | |||
1) "MULTIMISSION INSTRUMENT PROCESSING LAB 2) JET PROPULSION LAB" |
ASCII_Short_String_Collapsed | ||||
The Processing_Information class contains detailed information regarding the history of processing of the data product(s) described in the label. Information that can be specified using this class includes input products used to create a specific data product and the software and processes used to produce that product. |
1)/Product_Observational/Observation_Area/Discipline_Area/Processing_Information | ||||
2) proc:Input_Product_List 3) proc:Process | |||||
The processing_level attribute provides a broad classification of data processing level. |
1)/Product_Collection/Context_Area/Primary_Result_Summary/processing_level[*] 2)/Product_Bundle/Context_Area/Primary_Result_Summary/processing_level[*] 3)/Product_Collection/Context_Area/Primary_Result_Summary/processing_level | ||||
1) "Calibrated" 2) "Derived" 3) "Partially Processed" 4) "Raw" 5) "Telemetry" |
ASCII_Short_String_Collapsed | ||||
A Product_Bundle is an aggregate product and has a table of references to one or more collections. |
| ||||
1) Product 2) Context_Area 5) Bundle 6) File_Area_Text | |||||
The product_class attribute provides the name of the product class. |
1)/Product_Document/Identification_Area/product_class 2)/Product_Bundle/Identification_Area/product_class 3)/Product_Collection/Identification_Area/product_class 4)/Product_Observational/Identification_Area/product_class | ||||
1) "Product_AIP" 2) "Product_Ancillary" 3) "Product_Attribute_Definition" 4) "Product_Browse" 5) "Product_Bundle" 6) "Product_Class_Definition" 7) "Product_Collection" 8) "Product_Context" 9) "Product_DIP" 10) "Product_DIP_Deep_Archive" 11) "Product_Data_Set_PDS3" 12) "Product_Document" 13) "Product_File_Repository" 14) "Product_File_Text" 15) "Product_Instrument_Host_PDS3" 16) "Product_Instrument_PDS3" 17) "Product_Metadata_Supplemental" 18) "Product_Mission_PDS3" 19) "Product_Native" 20) "Product_Observational" 21) "Product_Proxy_PDS3" 22) "Product_SIP" 23) "Product_SIP_Deep_Archive" 24) "Product_SPICE_Kernel" 25) "Product_Service" 26) "Product_Software" 27) "Product_Subscription_PDS3" 28) "Product_Target_PDS3" 29) "Product_Thumbnail" 30) "Product_Update" 31) "Product_Volume_PDS3" 32) "Product_Volume_Set_PDS3" 33) "Product_XML_Schema" 34) "Product_Zipped" |
ASCII_Short_String_Collapsed | ||||
A Product_Collection has a table of references to one or more basic products. The references are stored in a table called the inventory. |
| ||||
1) Product 2) Context_Area 5) Collection | |||||
msn_surface:product_completion_status TELEMETRY. PRODUCT_COMPLETION_STATUS |
The product_completion_status attribute indicates whether or not a product is complete or is in one of a number of incomplete states. Sample values might indicate that all portions of the product have been downlinked and received correctly, that all portions have not yet been received, or that the product contains transmission errors. The specific values are mission-dependent. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/product_completion_status | |||
1) "PARTIAL" 2) "PARTIAL_CHECKSUM_FAIL" 3) "COMPLETE_CHECKSUM_PASS" 4) "COMPLETE_NO_CHECKSUM" 5) "COMPLETE_CHECKSUM_FAIL" |
ASCII_Short_String_Collapsed | ||||
A Product Document is a product consisting of a single logical document that may comprise one or more document editions. |
| ||||
1) Product 2) Context_Area 5) Document | |||||
A Product_Observational is a set of one or more information objects produced by an observing system. |
| ||||
1) Product 6) File_Area_Observational_Supplemental | |||||
The program_version attribute specifies the version of the software program. |
1)/Product_Observational/Observation_Area/Discipline_Area/Processing_Information/Process/Software/Software_Program/program_version | ||||
ASCII_Short_String_Collapsed | |||||
TELEMETRY. TELEMETRY_PROVIDER_ID |
The provider_id attribute identifies the organization or subsystem that supplied the telemetry data product to the producer of the raw (EDR) PDS data product. This is typically (but not always) the organization responsible for reassembling packetized data into a single product. These may vary by mission so the permissible values should be set by the mission dictionaries. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/provider_id | |||
1) "MPCS_M2020_DP" |
ASCII_Short_String_Collapsed | ||||
The publication_date attribute provides the date on which an item was published. |
1)/Product_Document/Document/publication_date | ||||
ASCII_Date_YMD | |||||
The publication_year attribute provides the year in which the product should be considered as published. Generally, this will be the year the data were declared "Certified" or "Archived". |
1)/Product_Document/Identification_Area/Citation_Information/publication_year 2)/Product_Bundle/Identification_Area/Citation_Information/publication_year 3)/Product_Collection/Identification_Area/Citation_Information/publication_year | ||||
ASCII_Date_YMD | |||||
The purpose attribute provides an indication of the primary purpose of the observations included. |
1)/Product_Bundle/Context_Area/Primary_Result_Summary/purpose 2)/Product_Collection/Context_Area/Primary_Result_Summary/purpose | ||||
1) "Calibration" 2) "Checkout" 3) "Engineering" 4) "Navigation" 5) "Observation Geometry" 6) "Science" 7) "Supporting Observation" |
ASCII_Short_String_Collapsed | ||||
qcos is the scalar component of a quaternion. qcos = cos(theta/2), where theta is the angle of rotation. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Quaternion_Plus_Direction/qcos 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Quaternion_Plus_Direction/qcos | ||||
ASCII_Real | |||||
qsin1 is the first element of the vector component of a quaternion. qsin1 = x*sin(theta/2) where theta is the angle of rotation and (x,y,z) is the unit vector around which the rotation occurs. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Quaternion_Plus_Direction/qsin1 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Quaternion_Plus_Direction/qsin1 | ||||
ASCII_Real | |||||
qsin2 is the second element of the vector component of a quaternion. qsin2 = y*sin(theta/2) where theta is the angle of rotation and (x,y,z) is the unit vector around which the rotation occurs. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Quaternion_Plus_Direction/qsin2 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Quaternion_Plus_Direction/qsin2 | ||||
ASCII_Real | |||||
qsin3 is the third element of the vector component of a quaternion. qsin3 = z*sin(theta/2) where theta is the angle of rotation and (x,y,z) is the unit vector around which the rotation occurs. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Quaternion_Plus_Direction/qsin3 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Quaternion_Plus_Direction/qsin3 | ||||
ASCII_Real | |||||
Specifies the method by which the coordinate space was measured. This provides an indication of the quality of the definition. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[1]/Coordinate_Space_Quality/quaternion_measurement_method | ||||
1) "Bundle_Adjustment" 2) "Coarse" 3) "Fine" 4) "Sun_Find" 5) "Tilt_Only" 6) "Unknown" |
ASCII_Short_String_Collapsed | ||||
geom:Quaternion_Plus_Direction *_COORDINATE_SYSTEM. ORIGIN_ROTATION_QUATERNION |
Quaternion_Plus_Direction provides the four elements of a quaternion and its direction of rotation. The two end point frames must be identified in the enclosing class. See the definition of Quaternion_Base for more details on the quaternion classes in this dictionary. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Quaternion_Plus_Direction 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Quaternion_Plus_Direction | |||
1) geom:qcos 2) geom:qsin1 4) geom:qsin2 5) geom:qsin3 | |||||
GENERIC_PACKET_HEADER_DATA_ELEMENTS. RCE_TIME_SYNC |
Last time sync value received from RCE by SuperCam RMI |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/rce_time_sync | |||
ASCII_Integer | |||||
TELEMETRY. RECEIVED_PACKETS |
The received_packets attribute provides the total number of telemetry packets actually used to construct this data product. cf. expected_packets. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/received_packets | |||
ASCII_NonNegative_Integer | |||||
The Record_Binary class is a component of the table class and defines a record of the table. |
1)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary | ||||
1) fields 3) groups 4) Field_Binary 5) Group_Field_Binary | |||||
The Record_Delimited class is a component of the delimited table (spreadsheet) class and defines a record of the delimited table. |
1)/Product_Collection/File_Area_Inventory/Inventory/Record_Delimited | ||||
1) fields 3) groups 5) Group_Field_Delimited | |||||
The record_delimiter attribute provides the character or characters used to indicate the end of a record. |
1)/Product_Collection/File_Area_Inventory/Inventory/record_delimiter 2)/Product_Observational/File_Area_Observational/Stream_Text/record_delimiter | ||||
1) "Carriage-Return Line-Feed" 2) "Line-Feed" 3) "carriage-return line-feed" |
ASCII_Short_String_Collapsed | ||||
The record_length attribute provides the length of a record, including a record delimiter, if present. |
1)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/record_length | ||||
ASCII_NonNegative_Integer Units_of_Storage | |||||
The records attribute provides a count of records. |
1)/Product_Collection/File_Area_Inventory/Inventory/records 2)/Product_Observational/File_Area_Observational/Table_Binary[*]/records | ||||
ASCII_NonNegative_Integer | |||||
The Reference_List class provides general references, cross-references, and source products for the product. References cited elsewhere in the label need not be repeated here. |
1)/Product_Collection/Reference_List 2)/Product_Bundle/Reference_List 3)/Product_Observational/Reference_List | ||||
4) Source_Product_External | |||||
The reference_text attribute provides a complete bibliographic citation for a published work. |
1)/Product_Bundle/Reference_List/External_Reference[*]/reference_text | ||||
UTF8_Text_Collapsed | |||||
The reference_type attribute provides the name of the association. |
1)/Product_Collection/Reference_List/Internal_Reference[*]/reference_type 2)/Product_Document/Context_Area/Investigation_Area/Internal_Reference/reference_type 3)/Product_Document/Context_Area/Observing_System/Observing_System_Component/Internal_Reference/reference_type 4)/Product_Bundle/Context_Area/Investigation_Area/Internal_Reference/reference_type 5)/Product_Bundle/Context_Area/Observing_System/Observing_System_Component[*]/Internal_Reference/reference_type 6)/Product_Bundle/Context_Area/Target_Identification/Internal_Reference/reference_type 7)/Product_Bundle/Reference_List/Internal_Reference[*]/reference_type 8)/Product_Bundle/Bundle_Member_Entry[*]/reference_type 9)/Product_Collection/Context_Area/Investigation_Area/Internal_Reference/reference_type 10)/Product_Collection/Context_Area/Observing_System/Observing_System_Component[*]/Internal_Reference/reference_type 11)/Product_Collection/Context_Area/Target_Identification/Internal_Reference/reference_type 12)/Product_Collection/File_Area_Inventory/Inventory/reference_type 13)/Product_Observational/Observation_Area/Investigation_Area/Internal_Reference/reference_type 14)/Product_Observational/Observation_Area/Observing_System/Observing_System_Component/Internal_Reference/reference_type 15)/Product_Observational/Observation_Area/Target_Identification/Internal_Reference/reference_type 16)/Product_Observational/Reference_List/Internal_Reference[*]/reference_type 17)/Product_Observational/Reference_List/Source_Product_Internal/reference_type | ||||
ASCII_Short_String_Collapsed | |||||
release_number is the identifier of a scheduled release of Mars 2020 data from PDS. The first Mars 2020 data release has release_number "01". The release_number for a given product is always the first release in which it appears, and does not change if the product is revised later. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/Observation_Information/release_number | ||||
ASCII_Short_String_Collapsed | |||||
IDENTIFICATION. REQUEST_ID |
The request_id is used to group related datasets together by science or engineering application or theme, such as frames in a mosaic. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Command_Execution/request_id | |||
ASCII_Short_String_Collapsed | |||||
GENERIC_PACKET_HEADER_DATA_ELEMENTS. RESERVED |
Reserved field for SuperCam RMI mini-header |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/reserved_1 | |||
ASCII_Integer | |||||
The rotation_direction attribute identifies the direction of the rotation for a specific quaternion. This is used when the two frames involved are unambiguously identifed in the enclosing classes. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Quaternion_Plus_Direction/rotation_direction 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Quaternion_Plus_Direction/rotation_direction | ||||
1) "Forward" 2) "From Base" 3) "Present to Reference" 4) "Reference to Present" 5) "Reverse" 6) "Toward Base" |
ASCII_Short_String_Collapsed | ||||
SCAM_ANCILLARY_HEADER_DATA_ELEMENTS. LASTATS |
Logical to indicate if LIBS active are statistics |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Ancillary_Header/scam_lastats_flag | |||
ASCII_Boolean | |||||
SCAM_ANCILLARY_HEADER_DATA_ELEMENTS. LDARK |
Indicates whether darks were collected after LIBS active, before LIBS active, or both |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Ancillary_Header/scam_ldark | |||
1) "0" 2) "1" 3) "2" 4) "3" |
ASCII_Integer | ||||
SCAM_ANCILLARY_HEADER_DATA_ELEMENTS. LDSTATS |
Logical to indicate if LIBS dark are statistics |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Ancillary_Header/scam_ldstats_flag | |||
ASCII_Boolean | |||||
SCAM_ANCILLARY_HEADER_DATA_ELEMENTS. POINT_NUMBER |
Point number in the raster |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Ancillary_Header/scam_point_number | |||
ASCII_Integer | |||||
SCAM_ANCILLARY_HEADER_DATA_ELEMENTS. RASTATS |
Logical to indicate if Raman active are statistics |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Ancillary_Header/scam_rastats_flag | |||
ASCII_Boolean | |||||
SCAM_ANCILLARY_HEADER_DATA_ELEMENTS. RDARK |
Indicates whether darks were collected after Raman active, before Raman active, or both |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Ancillary_Header/scam_rdark | |||
1) "0" 2) "1" 3) "2" 4) "3" |
ASCII_Integer | ||||
SCAM_ANCILLARY_HEADER_DATA_ELEMENTS. RDSTATS |
Logical to indicate if Raman darks are statistics |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Ancillary_Header/scam_rdstats_flag | |||
ASCII_Boolean | |||||
SCAM_ANCILLARY_HEADER_DATA_ELEMENTS. TWO_D |
Flag indicating a 2D collect |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Ancillary_Header/scam_two_d_flag | |||
ASCII_Boolean | |||||
Bit mask indicating technique type |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Ancillary_Header/scam_type | ||||
1) "0" 2) "1" 3) "16" 4) "18" 5) "2" 6) "36" 7) "4" 8) "48" 9) "8" 10) "9" |
ASCII_Integer | ||||
The Science_Facets class contains the science-related search facets. It is optional and may be repeated if an product has facets related to, for example, two different disciplines (as defined by the discipline_name facet). Note that Science_Facets was modeled with Discipline_Facets as a component and Discipline_Facets was modeled with Group_Facet1 and Group_Facet2 as components. This dependency hierarchy was flattened and only Science_Facets exists in the schema. |
1)/Product_Bundle/Context_Area/Primary_Result_Summary/Science_Facets 2)/Product_Collection/Context_Area/Primary_Result_Summary/Science_Facets | ||||
2) domain 3) Discipline_Facets 4) discipline_name | |||||
GENERIC_PACKET_HEADER_DATA_ELEMENTS. SE_FIRMWARE_VERSION |
Unique identifier for the SE firmware version. Is a unix timestamp of when the firmware was built. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/se_firmware_version | |||
ASCII_Integer | |||||
mars2020:se_hardware_identifier GENERIC_PACKET_HEADER_DATA_ELEMENTS. SE_HARDWARE_IDENTIFIER |
Hardware identifier for a specific SE board. Used to know which SOH engineering unit conversion factors to apply to the data. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/se_hardware_identifier | |||
ASCII_Integer | |||||
ARM_ARTICULATION_STATE. ARTICULATION_DEV_INSTRUMENT_ID |
The selected_instrument_id attribute specifies an abbreviated name or acronym that identifies the selected instrument mounted on the articulation device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[2]/selected_instrument_id | |||
1) "TURRET" 2) "DRILL" 3) "DOCKING POST" 4) "PIXL" 5) "GDRT" 6) "FCS" 7) "WATSON" 8) "SHERLOC" 9) "CUSTOM TCP" |
ASCII_Short_String_Collapsed | ||||
msn_surface:sequence_execution_count TELEMETRY. SEQUENCE_EXECUTION_COUNT |
The sequence_execution_count specifies how many times this sequence has executed since the last reset of the flight computer. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Command_Execution/sequence_execution_count | |||
ASCII_NonNegative_Integer | |||||
IDENTIFICATION. SEQUENCE_ID |
The sequence_id identifies the command sequence used to acquire this product. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Command_Execution/sequence_id | |||
ASCII_Short_String_Collapsed | |||||
The sequence_number attribute provides a number that is used to order axes in an array. |
1)/Product_Observational/File_Area_Observational/Array_2D[*]/Axis_Array[*]/sequence_number | ||||
ASCII_NonNegative_Integer | |||||
msn_surface:sequence_version_id IDENTIFICATION. SEQUENCE_VERSION_ID |
The sequence_version_id identifies which of potentially several versions of a sequence_id were used to acquire this product. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Command_Execution/sequence_version_id | |||
ASCII_Short_String_Collapsed | |||||
The Software class describes the data processing software used in order to produce the data product. |
1)/Product_Observational/Observation_Area/Discipline_Area/Processing_Information/Process/Software | ||||
1) name 2) software_id 3) software_version_id 4) software_type 5) description | |||||
The Software_Program class describes the specific components or tasks of the Software executed in producing the data product. |
1)/Product_Observational/Observation_Area/Discipline_Area/Processing_Information/Process/Software/Software_Program | ||||
1) name 2) proc:program_type_name 3) proc:program_user 4) proc:program_hostname 5) proc:program_path 7) proc:program_start_date_time 8) proc:program_stop_date_time 9) description 10) proc:Software_Program_Parameters | |||||
Sol_number is the number of the Mars day on which an observation was acquired. Landing day is Sol 0. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/Observation_Information/sol_number | ||||
ASCII_Integer | |||||
*_DERIVED_GEOMETRY_PARMS. SOLAR_AZIMUTH |
The solar_azimuth attribute specifies one of two angular measurements indicating the direction to the Sun as measured from a specific point on the surface of a planet (eg., from a lander or rover). The positive direction of azimuth is set by the positive_azimuth_direction attribute in the reference coordinate space. The azimuth is measured in the clockwise or counterclockwise direction (as viewed from above) with the meridian passing through the positive spin axis of the planet (i.e., the north pole) defining the zero reference. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/solar_azimuth | |||
ASCII_Real Units_of_Angle | |||||
*_DERIVED_GEOMETRY_PARMS. SOLAR_ELEVATION |
The solar_elevation attribute specifies one of two angular measurements indicating the direction to the Sun as measured from a specific point on the surface of a planet (eg., from a lander or rover). The positive direction of the elevation is set by the positive_elevation_direction attribute in the reference coordinate space. The elevation is measured from the plane which is normal to the line passing between the surface point and the planet's center of mass, and that intersects the surface point. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/solar_elevation | |||
ASCII_Real Units_of_Angle | |||||
IDENTIFICATION. SOLAR_LONGITUDE |
The solar_longitude attribute provides the angle between the body-Sun line at the time of interest and the body-Sun line at its vernal equinox. |
1)/Product_Observational/Observation_Area/Time_Coordinates/solar_longitude | |||
ASCII_Real Units_of_Angle | |||||
The Source_Product _Internal class is used to reference one or more source products in the PDS4 registry system. A source product contains input data for the creation of this product. |
1)/Product_Observational/Reference_List/Source_Product_Internal | ||||
3) comment | |||||
The spacecraft_clock_partition provides the clock partition active for the spacecraft_clock_start and spacecraft_clock_stop attributes. This attribute may be used when the spacecraft_clock values do not include a partition number. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/Observation_Information/spacecraft_clock_partition | ||||
ASCII_Integer | |||||
The spacecraft_clock_start is the value of the spacecraft clock at the beginning of an observation, in seconds. Values are formed according to the pattern [p/]dddddddddd[.fffffffff], where p is an optional partition number, dddddddddd is a whole number of seconds up to 10 digits, and .fffffffff is an optional fraction of a second up to 9 digits. The whole number and fraction are separated by a period. If a partition number and slash are not present, then the attribute spacecraft_clock_partition must be used. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/Observation_Information/spacecraft_clock_start | ||||
ASCII_Short_String_Collapsed | |||||
TELEMETRY. SPICE_FILE_NAME |
The spice_kernel_file_name attribute provides the file name of a SPICE kernel file used to process the data or to produce geometric quantities given in the label. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/SPICE_Kernel_Files/SPICE_Kernel_Identification/spice_kernel_file_name | |||
ASCII_File_Name | |||||
The SPICE_Kernel_Files class provides references to the SPICE files used when calculating geometric values. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/SPICE_Kernel_Files | ||||
1) comment | |||||
The SPICE_Kernel_Identification class optionally includes the SPICE kernel type and provides two alternatives for identifying the product: LIDVID using Internal_Reference, and the file name of the kernel file. Although optional, LIDVID should be given if one is available. The optional kernel_provenance attribute indicates whether the kernel is a predict or reconstructed kernel, or some combination of the two, or if it is a kernel type for which such distinctions do not apply. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/SPICE_Kernel_Files/SPICE_Kernel_Identification | ||||
1) kernel_type 2) geom:spice_kernel_file_name 3) geom:kernel_provenance | |||||
IDENTIFICATION. START_TIME |
The start_date_time attribute provides the date and time appropriate to the beginning of the product being labeled. |
1)/Product_Bundle/Context_Area/Time_Coordinates/start_date_time 2)/Product_Collection/Context_Area/Time_Coordinates/start_date_time 3)/Product_Observational/Observation_Area/Time_Coordinates/start_date_time | |||
ASCII_Date_Time_YMD_UTC | |||||
Start_local_mean_solar_time is the local mean solar time, as defined in the main PDS4 data dictionary, at the beginning of an observation. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/Observation_Information/start_local_mean_solar_time | ||||
ASCII_Short_String_Collapsed | |||||
Start_local_true_solar_time is the local true solar time, as defined in the main PDS4 data dictionary, at the beginning of an observation. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/Observation_Information/start_local_true_solar_time | ||||
ASCII_Short_String_Collapsed | |||||
Start_solar_longitude is the solar longitude, as defined in the main PDS4 data dictionary, at the beginning of an observation. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/Observation_Information/start_solar_longitude | ||||
ASCII_Real Units_of_Angle | |||||
IDENTIFICATION. STOP_TIME |
The stop_date_time attribute provides the date and time appropriate to the end of the product being labeled. |
1)/Product_Bundle/Context_Area/Time_Coordinates/stop_date_time 2)/Product_Collection/Context_Area/Time_Coordinates/stop_date_time 3)/Product_Observational/Observation_Area/Time_Coordinates/stop_date_time | |||
ASCII_Date_Time_YMD_UTC | |||||
The Stream text class defines a text object. |
1)/Product_Observational/File_Area_Observational/Stream_Text | ||||
1) Parsable_Byte_Stream 2) name 3) offset 7) md5_checksum 8) description 10) Digital_Object | |||||
The SuperCam_Ancillary_Header class provides ancillary metadata specific to SuperCam observations. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Ancillary_Header | ||||
The SuperCam Generic_Packet_Header class provides metadata from the SuperCam product generic packet header. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header | ||||
2) mars2020:data_definition_version 3) mars2020:nv_xmit_buffer_count 4) mars2020:bu_software_version 5) mars2020:cndh_firmware_version 6) mars2020:bu_hardware_identifier 7) mars2020:se_firmware_version 8) mars2020:se_hardware_identifier 9) mars2020:mu_version_identifier 10) mars2020:mu_hardware_identifier | |||||
The SuperCam_Parameters class provides metadata specific to SuperCam observations. |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters | ||||
1) mars2020:SuperCam_RMI_Mini_Header | |||||
The Surface_Mission_Information class contains attributes specific to surface missions which apply across instrument types. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information | ||||
1) msn_surface:surface_gravity 2) msn_surface:Command_Execution 4) msn_surface:Observational_Intent 5) msn_surface:Commanded_Parameters | |||||
The Table Binary class is an extension of table base and defines a simple binary table. |
1)/Product_Observational/File_Area_Observational/Table_Binary[*] | ||||
1) name 2) offset 5) records 6) md5_checksum 7) description 8) Uniformly_Sampled 10) Digital_Object | |||||
The target_heliocentric_distance attribute provides the scalar distance between the center of the target and the center of the Sun. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/target_heliocentric_distance 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry/target_heliocentric_distance | ||||
ASCII_Real Units_of_Length | |||||
The Target_Identification class provides detailed target identification information. |
1)/Product_Bundle/Context_Area/Target_Identification 2)/Product_Collection/Context_Area/Target_Identification 3)/Product_Observational/Observation_Area/Target_Identification | ||||
1) name 2) alternate_designation 3) type 4) description | |||||
Specifies the name of the target location for items in this class. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[*]/target_name 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry/target_name | ||||
ASCII_Short_String_Collapsed | |||||
The Telemetry class contains downlink-related attributes used primarily during mission operations. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry | ||||
2) msn_surface:application_subtype_id 3) msn_surface:application_name 5) msn_surface:flight_software_version_id 6) msn_surface:telemetry_source_name 7) msn_surface:telemetry_alternate_name 8) msn_surface:transport_protocol 9) msn_surface:communication_session_id 10) msn_surface:telemetry_source_start_time 11) msn_surface:telemetry_source_sclk_start 12) msn_surface:product_completion_status 13) msn_surface:earth_received_start_date_time 14) msn_surface:earth_received_stop_date_time 15) msn_surface:download_priority 17) msn_surface:expected_packets 18) msn_surface:received_packets 19) msn_surface:telemetry_source_host_name 20) msn_surface:expected_transmission_path 21) msn_surface:transmission_path 22) msn_surface:flight_software_mode 23) msn_surface:telemetry_source_size 24) msn_surface:telemetry_source_checksum | |||||
msn_surface:telemetry_source_checksum TELEMETRY. TELEMETRY_SOURCE_CHECKSUM |
Specifies the checksum for the telemetry stream from which this product was derived. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/telemetry_source_checksum | |||
ASCII_Integer | |||||
msn_surface:telemetry_source_host_name TELEMETRY. TELEMETRY_SOURCE_HOST_NAME |
Specifies the name of the host venue that provided the telemetry source data used in the creation of this data set. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/telemetry_source_host_name | |||
ASCII_Short_String_Collapsed | |||||
msn_surface:telemetry_source_name TELEMETRY. TELEMETRY_SOURCE_NAME |
The telemetry_source_name specifies the name source of the telemetry data described in the parent class. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/telemetry_source_name | |||
ASCII_Short_String_Collapsed | |||||
msn_surface:telemetry_source_sclk_start TELEMETRY. TELEMETRY_SOURCE_SCLK_START |
The telemetry_source_sclk_start attribute specifies the value of the spacecraft clock (in seconds) at the creation time of the source product from which this product was derived. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/telemetry_source_sclk_start | |||
ASCII_Short_String_Collapsed | |||||
msn_surface:telemetry_source_size TELEMETRY. TELEMETRY_SOURCE_SIZE |
Specifies the length in bytes of the telemetry stream from which this product was derived. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/telemetry_source_size | |||
ASCII_Integer | |||||
msn_surface:telemetry_source_start_time IDENTIFICATION. TELEMETRY_SOURCE_START_TIME |
The telemetry_source_start_time specifies the creation time of the source product from which this product was derived. It is the same as the telemetry_source_sclk_start converted to Spacecraft Event Time (SCET). |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/telemetry_source_start_time | |||
ASCII_Date_Time_DOY_UTC | |||||
INSTRUMENT_STATE_PARMS. INSTRUMENT_TEMPERATURE_STATUS |
The temperature_status attribute defines the status of the associated temperature measurement. The status is interpreted in a device-specific way, but generally 0 indicates a successful measurement. |
1)/Product_Observational/Observation_Area/Discipline_Area/Imaging/Instrument_State/Device_Temperatures/Device_Temperature[*]/temperature_status | |||
ASCII_Integer | |||||
INSTRUMENT_STATE_PARMS. INSTRUMENT_TEMPERATURE |
The temperature_value attribute provides the temperature, in the specified units, of some point on an imaging instrument or other imaging instrument device. |
1)/Product_Observational/Observation_Area/Discipline_Area/Imaging/Instrument_State/Device_Temperatures/Device_Temperature[*]/temperature_value | |||
ASCII_Real Units_of_Temperature | |||||
The Time_Coordinates class provides a list of time coordinates. |
1)/Product_Bundle/Context_Area/Time_Coordinates 2)/Product_Collection/Context_Area/Time_Coordinates 3)/Product_Observational/Observation_Area/Time_Coordinates | ||||
IDENTIFICATION. INSTRUMENT_ID |
The title attribute provides a short, descriptive text string suitable use as a title or brief description in display or listing of products. |
1)/Product_Document/Identification_Area/title 2)/Product_Bundle/Identification_Area/title 3)/Product_Collection/Identification_Area/title 4)/Product_Observational/Identification_Area/title | |||
UTF8_Short_String_Collapsed | |||||
TELEMETRY. TRANSMISSION_PATH |
Indicates the actual transmission path (route) for the telemetry data. See also expected_transmission_path and communication_session_id. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/transmission_path | |||
ASCII_Short_String_Collapsed | |||||
msn_surface:transport_protocol TELEMETRY. TELEMETRY_SOURCE_TYPE |
The transport_protocol attribute specifies the protocol used in the creation of the telemetry data products by the subsystem which generates the telemetry stream. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/transport_protocol | |||
1) "DATA PRODUCT" 2) 'TEAM-GENERATED IMAGE" |
ASCII_Short_String_Collapsed | ||||
The type attribute classifies Investigation_Area according to the scope of the investigation.. |
1)/Product_Document/Context_Area/Investigation_Area/type 2)/Product_Document/Context_Area/Observing_System/Observing_System_Component/type 3)/Product_Bundle/Context_Area/Investigation_Area/type 4)/Product_Bundle/Context_Area/Observing_System/Observing_System_Component[*]/type 5)/Product_Bundle/Context_Area/Target_Identification/type 6)/Product_Collection/Context_Area/Investigation_Area/type 7)/Product_Collection/Context_Area/Observing_System/Observing_System_Component[*]/type 8)/Product_Collection/Context_Area/Target_Identification/type 9)/Product_Observational/Observation_Area/Investigation_Area/type 10)/Product_Observational/Observation_Area/Observing_System/Observing_System_Component/type 11)/Product_Observational/Observation_Area/Target_Identification/type | ||||
1) "Field Campaign" 2) "Individual Investigation" 3) "Mission" 4) "Observing Campaign" 5) "Other Investigation" |
ASCII_Short_String_Collapsed | ||||
DERIVED_IMAGE_PARMS. RADIANCE_OFFSET__UNIT |
The unit attribute provides the unit of measurement. |
1)/Product_Observational/File_Area_Observational/Array_2D[*]/Element_Array/unit | |||
UTF8_Short_String_Collapsed | |||||
The value_offset attribute is the offset to be applied to each stored value in order to recover an original value. The observed value (Ov) is calculated from the stored value (Sv) thus: Ov = (Sv * scaling_factor) + value_offset. The default value is 0. |
1)/Product_Observational/File_Area_Observational/Table_Binary[*]/Record_Binary/Field_Binary/value_offset | ||||
ASCII_Real | |||||
ARM_ARTICULATION_STATE. ARTICULATION_DEV_VECTOR |
The Vector_Device_Gravity class is a unit vector that specifies the direction of an external force acting on the articulation device, in the spacecraft's coordinate system, at the time the pose was computed. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[2]/Vector_Device_Gravity | |||
1) GRAVITY | |||||
The Vector_Device_Gravity_Magnitude class is a vector (with magnitude) that specifies the direction of an external force acting on the articulation device, in the spacecraft's coordinate system, at the time the pose was computed. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[2]/Vector_Device_Gravity_Magnitude | ||||
1) geom:Vector_Cartesian_Acceleration_Base | |||||
*_COORDINATE_SYSTEM. ORIGIN_OFFSET_VECTOR |
The Vector_Origin_Offset class contains attributes that specify the offset from the reference coordinate system's origin to the origin of the coordinate system. It is the location of the current system's origin as measured in the reference system. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Vector_Origin_Offset 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Vector_Origin_Offset | |||
1) geom:Vector_Cartesian_Position_Base | |||||
ROVER_DERIVED_GEOMETRY_PARMS. SUN_VIEW_DIRECTION |
Unit vector pointing in the direction of the Sun at the time of the observation. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[1]/Vector_Solar_Direction | |||
1) geom:Vector_Cartesian_Unit 2) geom:x_unit 3) geom:y_unit 4) geom:z_unit | |||||
IDENTIFICATION. PRODUCT_ID |
The version_id attribute provides the version of the product, expressed in the PDS [m.n] notation. |
1)/Product_Document/Identification_Area/version_id 2)/Product_Bundle/Identification_Area/version_id 3)/Product_Bundle/Identification_Area/Modification_History/Modification_Detail/version_id 4)/Product_Collection/Identification_Area/version_id 5)/Product_Collection/Identification_Area/Modification_History/Modification_Detail/version_id 6)/Product_Observational/Identification_Area/version_id 7)/Product_Observational/Identification_Area/Modification_History/Modification_Detail/version_id | |||
ASCII_Short_String_Collapsed | |||||
The vertical_display_axis attribute identifies, by name, the axis of an Array (or Array subclass) that is intended to be displayed in the vertical or "line" dimension on a display device. The value of this attribute must match the value of one, and only one, axis_name attribute in an Axis_Array class of the associated Array. |
1)/Product_Observational/Observation_Area/Discipline_Area/Display_Settings[*]/Display_Direction/vertical_display_axis | ||||
ASCII_Short_String_Collapsed | |||||
The vertical_display_direction attribute specifies the direction along the screen of a display device that data along the vertical axis of an Array is supposed to be displayed. |
1)/Product_Observational/Observation_Area/Discipline_Area/Display_Settings[*]/Display_Direction/vertical_display_direction | ||||
1) "Bottom to Top" 2) "Top to Bottom" |
ASCII_Short_String_Collapsed | ||||
msn_surface:virtual_channel_id TELEMETRY. VIRTUAL_CHANNEL_ID |
Specifies the type of data flowing in the telemetry virtual channel. |
1)/Product_Observational/Observation_Area/Discipline_Area/Surface_Mission_Information/Telemetry/virtual_channel_id | |||
ASCII_Integer | |||||
The wavelength range attribute specifies the wavelength range over which the data were collected or which otherwise characterizes the observation(s). Boundaries are vague, and there is overlap. |
1)/Product_Collection/Context_Area/Primary_Result_Summary/Science_Facets/wavelength_range 2)/Product_Bundle/Context_Area/Primary_Result_Summary/Science_Facets/wavelength_range[*] 3)/Product_Collection/Context_Area/Primary_Result_Summary/Science_Facets/wavelength_range[*] | ||||
1) "Far Infrared" 2) "Gamma Ray" 3) "Infrared" 4) "Microwave" 5) "Millimeter" 6) "Near Infrared" 7) "Radio" 8) "Submillimeter" 9) "Ultraviolet" 10) "Visible" 11) "X-ray" |
ASCII_Short_String_Collapsed | ||||
The x component of a Cartesian acceleration vector. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[2]/Vector_Device_Gravity_Magnitude/x_acceleration | ||||
ASCII_Real Units_of_Acceleration | |||||
The x component of a Cartesian position vector. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Vector_Origin_Offset/x_position 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Vector_Origin_Offset/x_position | ||||
ASCII_Real Units_of_Length | |||||
The x component of a unit Cartesian vector. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[2]/Vector_Device_Gravity/x_unit 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[1]/Vector_Solar_Direction/x_unit | ||||
ASCII_Real | |||||
GENERIC_PACKET_HEADER_DATA_ELEMENTS. XMIT_DATA_ID |
The data_id parameter sent with the XMIT_DATA command |
1)/Product_Observational/Observation_Area/Mission_Area/Mars2020_Parameters/SuperCam_Parameters/SuperCam_Generic_Packet_Header/xmit_data_id | |||
ASCII_Integer | |||||
The y component of a Cartesian acceleration vector. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[2]/Vector_Device_Gravity_Magnitude/y_acceleration | ||||
ASCII_Real Units_of_Acceleration | |||||
The y component of a Cartesian position vector. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Vector_Origin_Offset/y_position 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Vector_Origin_Offset/y_position | ||||
ASCII_Real Units_of_Length | |||||
The y component of a unit Cartesian vector. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[2]/Vector_Device_Gravity/y_unit 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[1]/Vector_Solar_Direction/y_unit | ||||
ASCII_Real | |||||
The z component of a Cartesian acceleration vector. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[2]/Vector_Device_Gravity_Magnitude/z_acceleration | ||||
ASCII_Real Units_of_Acceleration | |||||
The z component of a Cartesian position vector. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition[*]/Vector_Origin_Offset/z_position 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Coordinate_Space_Definition/Vector_Origin_Offset/z_position | ||||
ASCII_Real Units_of_Length | |||||
The z component of a unit Cartesian vector. |
1)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Articulation_Device_Parameters[2]/Vector_Device_Gravity/z_unit 2)/Product_Observational/Observation_Area/Discipline_Area/Geometry/Geometry_Lander/Derived_Geometry[1]/Vector_Solar_Direction/z_unit | ||||
ASCII_Real |
Generated with PDOG v1.0 on 2021-07-30 18:25:15.090328