MEX-ASPERA-PSA-ICD-15-03561-V1.3
May 31, 2007
Mars Express ASPERA-3 to
Planetary Science
Archive Interface Control
Document
For The
Swedish Institute of Space
Physics
Institutet för Rymdfysik
(IRF)
SwRI® Project No. 15-03561
Prepared by:
S. Jeffers
Southwest Research Institute®
Space Science and Engineering Division
Post
Office Drawer 25810,
MEX-ASPERA-PSA-ICD-15-03561-V1.3
ASPERA-3
STANDARD DATA PRODUCTS
ARCHIVE
VOLUMES
MARS EXPRESS
ASPERA to PLANETARY SCIENCE
ARCHIVE
INTERFACE CONTROL DOCUMENT
(SOFTWARE
INTERFACE SPECIFICATION)
(ASPERA-3
Archive Volumes EAICD/SIS)
Version 1.3
Rev. May 31, 2007
Approved:
_______________________________________ ___________________
Rickard Lundin or Stas Barabash Date
Principal Investigator Co-PI
_______________________________________ ___________________
David Winningham Date
US Principal Investigator
_______________________________________ ___________________
Agustin Chicarro Date
Mars Express Project Scientist
_______________________________________ ___________________
Joe Zender Date
Mars Express Archive Data Manager
_______________________________________ ___________________
Ray Walker Date
PDS-PPI Node Manager
DISTRIBUTION LIST
|
||||
|
Name |
Organization |
Email |
|
|
Rickard Lundin |
ASPERA-3 PI, IRF |
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|
Stas Barabash |
ASPERA-3 Co-PI, IRF |
||
|
David Winningham |
ASPERA-3 US PI, SwRI® |
||
|
Rudy Frahm |
ASPERA-3 Co-I, SwRI® |
||
|
Joe Zender |
Mars Express PSA, ESTEC |
||
|
David Heather |
Mars Express PSA, ESTEC |
||
|
Ray Walker |
NASA PDS-PPI |
||
|
Steve Joy |
NASA PDS-PPI |
||
|
Leif Kalla |
IRF |
||
|
Mats Holmström |
IRF |
||
|
Sandee Jeffers |
SwRI |
||
|
Carrie Gonzalez |
SwRI |
||
|
Joey Mukherjee |
SwRI |
||
DOCUMENT CHANGE HISTORY
|
Change |
Date |
Affected
Portions |
|
Initial Draft |
November 7, 2003 |
All |
|
Updated Draft |
March 31, 2004 |
All |
|
Updated Draft – based on feedback from PDS-PPI
and PSA; also addressed some TBD’s |
April 2, 2004 |
Signature Page, Sections 1.8, 1.9, 2.1.4,
2.1.6, 2.3, 2.4, 2.5.4, 3.2.2, 3.4.2, & Section 4 |
|
Version 1.0 – based on discussions with
PDS-PPI and PSA in developing a test archive data set |
June 11, 2004 |
TBD Items – Table 3, Sections 2.4.6, 3.1.1,
3.1.3, 3.4.1, 3.4.2, & 4.3.2.2 |
|
Version 0.8 – Document not ready for
signatures, so backed off version number to 0.8 (~80% complete); updates
based on Data Review Item Discrepancies (RIDs) and ongoing discussions with
PSA and PDS-PPI |
September 15, 2004 |
TBD Items – Table 3, Sections 1.6, 1.7, 2.3.2,
2.3.3, 2.4.6, 3.2.2, 3.4.2.4, 3.4.2.8, & 3.4.2.10 |
|
Version 0.85 – (~85% complete); updates based
on Data Review Item Discrepancies (RIDs) and ongoing discussions with PSA and
PDS-PPI |
October 11, 2004 |
TBD Items – Table 3, 2.3.4, 2.4.6, 3.1.3,
3.2.2, 3.4.2.2, 3.4.2.4, 3.4.2.8, & 3.4.2.10 |
|
Version 0.90 – (~90% complete); updates based
on Data Review Item Discrepancies (RIDs) and ongoing discussions with PSA and
PDS-PPI |
October 22, 2004 |
2.3.1, 2.4.6, 3.4.2.2, 3.4.2.4, 4.3.1 |
|
Version 0.91 – (~91% complete); updates based
on Data Review Item Discrepancies (RIDs) and ongoing discussions with PSA and
PDS-PPI |
November 5, 2004 |
TBD Items – Table 3, 1.6, 2.3.4, 2.4.7, 3.1.1,
3.1.3, 3.2.2, 3.4.1, 3.4.2.8, 3.4.2.10 |
|
Version 0.95 – (~95% complete); updates based
on Data Review Item Discrepancies (RIDs) and ongoing discussions with PSA and
PDS-PPI |
December 6, 2004 |
TBD Items – Table 3, 1.6, 2.1, Tables 7, 8,
& 9; 2.3.2, 2.3.4, 2.4.2, 2.4.5, 2.4.6, 2.4.9, 3.1.1, 3.1.2, 3.1.4,
3.2.3, 3.4.1, 3.4.2.5, 3.4.2.6, 3.4.2.8, 3.4.2.9, 3.4.2.10, 3.4.2.12, 4.1,
4.2, 4.3 |
|
Version 1.0 – “Signature Ready” Version;
updates based on Review telecon, Independent Reviewers’ comments, and ongoing
discussions with PSA and PDS-PPI |
January 17, 2005 |
TBD Items – Table 3;
2.4.3; 2.4.7; 2.4.9; 3.4.2.3; 3.4.2.4; 3.4.2.5; 3.4.2.6; 3.4.2.7; 4.3.2;
4.3.3; 4.3.4; Appendix A; Appendix B |
|
Additional updates
to Version 1.0 based on Data Review held at ESTEC January 26-27, 2005 |
February 2, 2005 |
TBD Items – Table 3;
1.9 Table 5 – added Leif Kalla, Data Manager; 2.4.7 – clarification
concerning form of calibration reports; 2.4.9 – additional ancillary data;
3.4.2.5 – changed file naming scheme for calibration files; 3.4.2.12 – added
ancillary data description; 4.2 Table 17 – updated delivery dates; 4.3.4.1
& Table 26 – added NPI MODE DATA description and information; Appendix B
– Directory listing updated to reflect changed calibration files naming
scheme |
|
Version 1.1 – based
on discussions with IRF concerning IMA data set changes and ongoing
discussions with PSA |
September 16, 2005 |
TBD Items – Table 3;
2.1 and Table 7 – IMA standard data products; 2.3.4 – Volume Identification;
2.4.5 – IMA data set description; 2.4.6 & 3.4.2.5 – deleted references to CalTab software;
2.4.9 – clarification of ancillary data usage; 3.4.2.12 – description of DATA
directory; 4.1.2 – IMA DATA directory; 4.2 Table 17 – updated delivery dates
and IMA standard data products; 4.3.3 – updated entire section of IMA Data
Product Design |
|
Version 1.2 – based
on PSA ELS Data Set Review, PDS-PPI NPI/ELS Review, and ongoing discussions
with IRF, PSA, and PDS-PPI |
May 31, 2006 |
TBD Items – Table 3;
1.8.2 Glossary – added unit definitions; 2.1 ELS instrument description, NPI
Data Products, and Tables 6-9; 2.4.5, 3.4.1, and 4.2 Table 17 – units
updated; 4.3.1 Table 18 – clarification of data accuracy vs. instrument
accuracy; 4.3.2 Table 19 – ELS units updated; 4.3.2.1 – ELS data formats
updates, Table 20 – added MODE DATA rows; 4.3.2.2 Table 21 – updated ELS
description in data label; 4.3.3.1 Table 23 – added MODE DATA rows; 4.3.4
Table 25 NPI units updated; 4.3.4.1 Table 26 – added MODE DATA rows. |
|
Version 1.3 – based
on discussions with IRF, PSA, and PDS-PPI. Updates for NPI – merge of raw and
calibrated data set; and minor updates – IMA and NPI sample labels,
calibration table descriptions. |
May 31, 2007 |
2.1 IMA instrument
description and data products, Table 7, NPI data set; 2.3.4 volume ID
information; 2.4.5 NPI data set; 3.1.1 volume information; 3.1.2 data set ID
formation; 3.1.3 DATA directory naming convention; 3.4.1 volume sets and data
sets; 3.4.2.4 Table 13 catalog directory contents; 4.1 data set definitions
and contents; Table 17 e-volume sizes, NPI data set, and delivery schedules;
4.3.1 Table 18 general data product format; 4.3.2 Table 19 ELS data
directories; 4.3.3 Table 22 IMA data directories and filenames; 4.3.3.1 IMA
data product formats and Table 23; 4.3.4 NPI data products and Table 25;
4.3.4.1 Table 26 NPI data file contents; 4.3.4.2 Table 27 NPI sample label;
Appendix A; and Appendix B. |
TBD Items
|
Item Description |
Section |
Pages |
|
NPD Data Products and sizes |
2.1 – Table 9 |
13 |
|
Delivery of PSA Level 2, CODMAC Level 3 data |
3.1.1, 4.2 |
22, 37-38 |
|
NPD DATA Directory Structure |
4.1.4 |
35 |
|
NPD Data Products and Delivery Schedule |
4.2, 4.3.5 |
38, 60-66 |
TABLE OF CONTENTS
1.2.1 ESA Planetary Science Archive (PSA)
1.2.2 NASA Planetary Data System (PDS)
1.7 Relationships to Other Interfaces
1.8 Acronyms, Abbreviations, and Glossary
1.8.1 Acronyms and Abbreviations
1.9 Contact Names and Addresses
2 Overview of Instrument Design, Data Handling Process and Product Generation
2.3.1 Data Production and Transfer Methods
2.4.1 Pre-Flight Data Products
2.4.4 Other Files Written During Calibration
2.4.8 Derived and Other Data Products
3.1.1 Deliveries and Archive Volume Format
3.1.3 Data Directory Naming Convention
3.2 Standards Used in Data Product Generation
3.2.2.2 Spacecraft Clock Formats
3.2.2.3 OBT to UTC Time Conversion
3.2.4 Other Applicable Standards
3.4.1 Volume Sets and Data Sets
3.4.2.12 DATA (Standard Products) Directory
4 Detailed Interface Specifications
4.1 Structure and Organization Overview
4.1.1 ELS DATA Directory Structure
4.1.2 IMA DATA Directory Structure
4.1.3 NPI DATA Directory Structure
4.1.4 NPD DATA Directory Structure
4.2 Data Sets, Definition and Content
4.3.1 General Data Product Format
4.3.2.1 ASPERA-3 ELS Data Product Formats
4.3.2.2 ELS Sample Data Product Labels
4.3.3.1 ASPERA-3 IMA Data Product Formats
4.3.3.2 IMA Sample Data Product Labels
4.3.4.1 ASPERA-3 NPI Data Product Formats
4.3.4.2 NPI Sample Data Product Labels
4.3.5.1 ASPERA-3 NPD Data Product Formats
4.3.5.2 NPD Sample Data Product Labels
Appendix A. Available Software to Read PDS Files
Appendix B. Example of Data Set Directory Listing
List of
Tables:
Table 2: Document Change History
Table 4: Acronyms and Abbreviations
Table 5: ASPERA-3 Archive Collection Support
Staff
Table 6: ASPERA-3 Electron Spectrometer (ELS)
Data Sets
Table 7: ASPERA-3 Ion Mass Analyzer (IMA) Data
Sets
Table 8: ASPERA-3 Neutral Particle Imager
(NPI) Data Sets
Table 9: ASPERA-3 Neutral Particle Detector
(NPD) Data Sets
Table 10: Root Directory Contents
Table 11: Index Directory Contents
Table 12: Document Directory
Contents
Table 13: Catalog Directory Contents
Table 14: Calibration Directory
Contents
Table 15: Software Directory
Contents
Table 16: Extras Directory Contents
Table 17: Delivery of ASPERA-3 Data
Sets
Table 18: ASPERA-3 Data Product
Format
Table 19: ELS Data Directory
Contents
Table 20: ELS Science Data File
Contents and Structure
Table 21: ELS Science Sample Label
Table 22: IMA Data Directory
Contents
Table 23: IMA Science Data File
Contents and Structure
Table 24: IMA Science Sample Label
Table 25: NPI Data Directory
Contents
Table 26: NPI Science Data File
Contents and Structure
Table 27: NPI Science Sample Label
Table 28: NPD Data Directory
Contents: TBD
Table 29: NPD Science Data File
Contents and Structure TBD
Table 30: NPD Science Sample Label:
TBD
This document describes the contents and types of volumes belonging to all of the ASPERA-3 data sets.
The purpose of this document is two-fold. First, it provides users of the ASPERA-3 instrument data with detailed descriptions of the data products and a description of how the products are generated, including data sources and destinations. Secondly, this EAICD document is the official interface between the ASPERA-3 instrument team and the archiving authorities, ESA Planetary Science Archive (PSA) and NASA Planetary Data System (PDS). This specification applies to all archive volumes containing ASPERA-3 data products for the mission duration.
The Planetary Data System Standard is used as the archiving standard by
· NASA for U.S. Planetary missions, implemented by PDS
· ESA for European Planetary missions, implemented by the Research and Scientific Support Department (RSSD) of ESA
The PSA is the official Mars Express science data archive, and any data sets distributed to PDS must be identical copies of the PSA data sets.
ESA implements an online science archive, the PSA,
The PSA aims for online ingestion of logical archive volumes and will offer the creation of physical archive volumes on request.
The PDS is the primary organization within NASA responsible
for archiving planetary data. ASPERA-3 data products are to be archived at the
Planetary Plasma Interactions (PPI) node located at the
This document describes the Mars Express ASPERA-3 data flow from the spacecraft to insertion into the PSA and the PDS. Information on how data are processed, formatted, labeled, and uniquely identified is included. General naming schemes for data volumes, data sets, data and label files are discussed. Standards used to generate the data products are explained. The design of the data set structure and data products is given.
This specification is useful to those who wish to understand the format and content of the ASPERA-3 PSA/PDS data product archive collection. Typically, these individuals would be planetary scientists, the staff of the PSA and PDS, software engineers, or data analysts.
The general scientific objectives of the ASPERA-3 experiment are to study the solar wind and atmosphere interaction, and to characterize the plasma and neutral gas environment in the near-Mars space through energetic neutral atom (ENA) imaging and in situ plasma measurements. The investigations will address the fundamental question:
What is the long-term and short-term impact of the solar wind on Mars and its atmosphere?
The ASPERA-3 experiment is comprised of four sensors: two ENA sensors, an electron spectrometer, and an ion spectrometer. The following are the science goals of ASPERA-3:
a. For remote mapping of the global solar wind interaction with the Martian atmosphere,
b. To characterize quantitatively the effects of plasma interacting with the atmosphere,
c. To determine the morphology of the global plasma and neutral gas outflow at Mars.
a. To better understand the transfer of energy, mass and momentum of solar wind plasma to the Martian ionosphere and upper atmosphere,
b. To provide adequate measurements of the plasma acceleration/outflow from the Martian ionosphere, part of the outflow charge-exchanging to ENAs,
c. To provide undisturbed solar wind parameters required for interpretation of ENA images.
Planetary Science Data Dictionary Document, August 28, 2002, JPL D-7116, Rev. E
Planetary Data System Standards Reference, August 1, 2003, Version 3.6, JPL D-7669, Part 2
The Mars Express Archive Generation, Validation and Transfer Plan, June 21, 2001, Rev. 1.0, ESA-MEX-TN-4009
Planetary Science Archive Experiment Data Release Concept Technical Proposal, 22 October 2004, Issue 1.14, SOP-RSSD-TN-015
Planetary Science Archive Technical Note Geometry and Position Information, 08 October 2004, Issue 3, Revision 3, SOP-RSSD-TN-010
Program-Level Requirements for the ASPERA-3
APAF Project Data Management Plan, July 10, 2003, Version 1.3, APAF-PDMP-15-03561
ASPERA-3 Main Unit Software User’s Guide, June 21, 2003, Issue 3, ME-ASP-MA-0005
ICA-IMA-VIA TC/TM Data Formats and Related Software Aspects, Issue 1.7, 28 October 2004
ASPERA-3: Analyser of Space
Plasmas and Energetic Ions for Mars Express,
September 2004, ESA SP-1240
ASPERA-3 Flight Performance
Report: submitted to ESA December 19, 2002
Other interfaces that have an
impact on ASPERA-3 data set generation, packaging, distribution, and
documentation include:
|
Acronym |
Definition |
|
APAF |
ASPERA-3
Processing and Archiving Facility |
|
ASCII |
American
Standard Code for Information Interchange |
|
ASPERA-3 |
Analyzer
of Space Plasma and Energetic Atoms (3rd Version) |
|
CD-R |
Compact
Disc – Recordable Media |
|
CD-ROM |
Compact
Disc – Read-Only Memory |
|
CDT |
Central
Daylight Time |
|
Co-I |
Co-Investigator |
|
Co-PI |
Co-Principal
Investigator |
|
CODMAC |
Committee
on Data Management and Computation (of NRC) |
|
CST |
Central
Standard Time |
|
CSV |
Comma
Separated Values (PDS Spreadsheet Object ASCII format) |
|
DDID |
Data
Delivery Interface Document |
|
DDS |
Data
Disposition System |
|
DOY |
Day
Of Year (Julian date, 3 digits) |
|
DPU |
Data
Processing Unit (of the ASPERA-3 instrument package) |
|
DSID |
Data
System Interface Document |
|
DVD |
Digital
Versatile Disc |
|
EAICD |
Experimenter
to Archive Interface Control Document |
|
ECLIPJ |
Ecliptic
coordinates based upon the J2000 frame |
|
EDR |
Experiment
Data Record |
|
ELS |
Electron
Spectrometer (of the ASPERA-3 instrument package) |
|
ENA |
Energetic
Neutral Atom |
|
ESA |
European
Space Agency |
|
ESOC |
|
|
ESTEC |
European
Space Research and |
|
GB |
Gigabyte(s) |
|
GIF |
Graphics
Interchange Format |
|
HTML |
Hyper-Text
Markup Language |
|
IC |
Interplanetary
Cruise |
|
ICD |
Interface
Control Document |
|
IDFS™ |
Instrument
Data File Set or Instrument Description File Set |
|
IMA |
Ion
Mass Analyzer (of the ASPERA-3 instrument package) |
|
IRF |
Swedish
Institute of Space Physics ( |
|
ISO |
International
Standards Organization |
|
J2000 |
Earth
mean equator, dynamical equinox of J2000 |
|
JPL |
Jet
Propulsion Laboratory |
|
MB |
Megabyte(s) |
|
MEX |
Mars
Express |
|
MU |
Main
Unit – refers to ASPERA-3 Main Unit DPU (IMA has separate DPU) |
|
NAIF |
Navigation
Ancillary Information Facility |
|
NASA |
National
Aeronautics and Space Administration |
|
|
Near
Earth Verification |
|
NPD |
Neutral
Particle Detector (of the ASPERA-3 instrument package) |
|
NPI |
Neutral
Particle Imager (of the ASPERA-3 instrument package) |
|
NRC |
National
Research Council |
|
NSSDC |
|
|
OA |
Orbit/Attitude
(of the Mars Express Spacecraft) |
|
OBT |
On-Board
Time |
|
PDF |
Portable
Document Format |
|
PDMP |
Project
Data Management Plan |
|
PDS |
NASA
Planetary Data System |
|
PI |
Principal
Investigator |
|
PM |
Project
Manager |
|
PPI |
Planetary
Data System, Planetary Plasma Interactions Node |
|
PSA |
ESA
Planetary Science Archive |
|
PVV |
PSA
Validation and Verification tool |
|
RDR |
Reduced
Data Record |
|
RSSD |
Research
and Scientific Support Department of ESA |
|
SDDAS™ |
Southwest
Data Display and Analysis System |
|
SIS |
Software
Interface Specification |
|
SPICE |
Spacecraft,
Planet, Instrument, C-matrix, Events files and software |
|
SPM |
Software
Project Manager |
|
SU |
Scanning
Unit (of the ASPERA-3 instrument package) |
|
SwRI® |
Southwest
Research Institute® |
|
TBC |
To
Be Confirmed |
|
TBD |
To
Be Determined (or Defined) |
|
TM |
Telemetry |
|
UCLA |
|
|
UTC |
Universal
Time Coordinated |
Archive – An
archive consists of one or more Data Sets along with all the documentation and
ancillary information needed to understand and use the data. An archive is a logical construct independent
of the medium on which it is stored.
Archive Volume - An Archive Volume is a single physical media (CDROM, DVD, 9-track tape, etc.) used to permanently store files within the PDS archive. Archive Volumes may only be created on media approved by the PDS as meeting archive quality standards.
Archive Volume Set – A collection of one or more Archive Volumes used to store a single Data Set or collection of related Data Sets.
Catalog Information – High-level descriptive information about a Data Set (e.g., mission description, spacecraft description, instrument description), expressed in Object Description Language (ODL), which is suitable for loading into a PDS catalog.
Counts / Accumulation – Refers to raw telemetry data in counts for particle data. The accumulation period is instrument dependent, so the raw data is referenced in this way to indicate raw counts as measured by the instrument.
Counts / Second – Count rate for particle data; science units for NPI and NPD PSA Level 2 data.
Data Product – A labeled grouping of data resulting from a scientific observation, usually stored in one file. A product label identifies, describes, and defines the structure of the data. An example of a Data Product is a planetary image, a spectral table, or a time series table.
Data Set – The accumulation of data products, secondary data, software, and documentation that completely document and support the use of those data products. A data set can be part of a data set collection. (PDS Standards Reference, August 1, 2003)
Differential Number Flux – Science units for ELS and IMA PSA Level 2 data:
cnts
_
cm2
– sr – sec – eV
E-Volume – Electronic version of an archive volume, organized identically to the physical volume with the same requirements to meet PDS archive quality standards.
Standard Data Product – A Data Product generated in a predefined way using well-understood procedures, processed in "pipeline" fashion. Data Products that are generated in a nonstandard way are sometimes called special Data Products.
|
|||||
|
Name |
Organization/Address |
Phone |
Email |
|
|
Mr. Leif Kalla Data Manager |
Institutet för Rymdfysik (IRF) P.O. Box 812 S-98128 |
+46 980 79016 |
Leif.Kalla@irf.se |
|
|
Ms. Sandee Jeffers Archiving Manager |
Southwest Research Institute |
210-522-2010 |
||
|
Ms. Carrie Gonzalez Software Engineer |
Southwest Research Institute |
210-522-5000 |
||
|
Mr. Steven P. Joy PPI Operations Manager |
UCLA-IGPP |
310-825-3506 |
||
|
Dr. Mark Sharlow PPI Data Engineer |
UCLA-IGPP |
310-825-6073 |
||
The Analyzer of Space Plasma and Energetic Atoms, 3rd
version (ASPERA-3), aboard the Mars Express spacecraft is an instrument
comprised of four different sensors (or detectors): the Electron Spectrometer (ELS), the Ion Mass
Analyzer (IMA), the Neutral Particle Detector (NPD), and the Neutral Particle
Imager (NPI). The
general scientific objective of the ASPERA-3 experiment is to study the solar wind–atmosphere
interaction and characterize the plasma and neutral gas environment in the
near-Mars space through energetic neutral atom (ENA) imaging and local charged
particle measurements. The studies are to address the fundamental question: How
strongly do the interplanetary plasma and electromagnetic fields affect the
Martian atmosphere? This question is
directly related to the problem of Martian dehydration.
The Neutral Particle Imager (NPI) provides measurements of the integral ENA flux (0.1 – 60 keV) with no mass and energy resolution but high angular resolution. The Neutral Particle Detector (NPD) provides measurements of the ENA flux, resolving velocity (0.1 – 10 keV) and mass (H and O) with a coarse angular resolution. The electron spectrometer (ELS) is a standard top-hat electrostatic analyzer in a very compact design. These three sensors are located on a scanning platform providing 4π coverage (maximum possible). The instrument also contains an ion mass composition sensor, IMA (Ion Mass Analyzer). Mechanically, IMA is a separate unit connected by a cable to the ASPERA-3 main unit. IMA provides ion measurements in the energy range 0.03 – 30 keV/q for the main ion components H+, H2+, He+, O+, with 20-80 amu/q.
The general scientific objectives of ASPERA-3 are to study the solar wind and atmosphere interaction, and to characterize the plasma and neutral gas environment in the near-Mars space through energetic neutral atom (ENA) imaging and in-situ plasma measurements. The specific science measurements to carry out these goals are:
2.
Mass/energy resolved
neutral hydrogen and oxygen atom spectra in the energy range of 0.1 to 100 keV.
The ASPERA-3 archived data sets contain data measurements necessary to satisfy the scientific goals and objectives. Each ASPERA-3 data set is given a unique alphanumeric identifier (Data Set ID) constructed according to PDS naming conventions (described in section 3.1.2). Within each data set, there are standard data products (collection of similar files). The Standard Data Product ID is used to link similar data products, and each data product (file) has a unique Data Product ID (file name without extension). The Standard Data Product ID formation and the File Naming Convention for data products are given in section 3.1.4.
The following tables show the archived data sets and products of the scientific return.
The Standard Data Product IDs for ELS PSA Level 1b (EDR)
products are:
1.
ELSSCIL_C_ACC –
ELectron Spectrometer SCIence Low energy range data in Counts / ACCumulation
units. This is ELS raw counts for energy range 0.05 eV to 150 eV.
2.
ELSSCIH_C_ACC –
ELectron Spectrometer SCIence High energy range data in Counts / ACCumulation
units. This is ELS raw counts for energy range 5 eV to 20 keV.
The Standard Data Product IDs for ELS PSA Level 2 (RDR) products
are:
1.
ELSSCIL_DNF – ELectron
Spectrometer SCIence Low energy range (0.05 – 150 eV) data in Differential
Number Flux units.
2. ELSSCIH_DNF – ELectron Spectrometer SCIence High energy range (5 eV – 20 keV) data in Differential Number Flux units.
|
Table 6:
ASPERA-3
Electron Spectrometer (ELS) Data Sets |
|||||||||
|
Scientific
Objectives and Measurements |
Data Set ID |
Standard Data
Product ID |
Max. Mb/Day |
|
||||||
|
Define local characteristics of the main plasma regions Electron spectra in energy range of 0.05 eV to 20 keV with a 360° field of view, ±2° deviation out of viewing plane (elevation). There are 16 sectors, each 22.5° wide. |
MEX-M-ASPERA3-2-EDR-ELS-V1.0 PSA Level 1b CODMAC Level 2 |
ELSSCIL_C_ACC |
130 |
|
|||||
|
ELSSCIH_C_ACC |
130 |
|
|||||||
|
MEX-M-ASPERA3-3-RDR-ELS-V1.0 PSA Level 2 CODMAC Level 3 |
ELSSCIL_DNF |
130 |
|
||||||
|
ELSSCIH_DNF |
130 |
|
|||||||
The Standard Data Product IDs for IMA PSA Level 1b (EDR)
products are:
1.
IMA_AZ00_C_ACC – IMA
AZimuth anode 0 data in Counts / ACCumulation units.
2.
IMA_AZ01_C_ACC – IMA
AZimuth anode 1 data in Counts / ACCumulation units.
3.
IMA_AZ02_C_ACC – IMA
AZimuth anode 2 data in Counts / ACCumulation units.
4.
IMA_AZ03_C_ACC – IMA
AZimuth anode 3 data in Counts / ACCumulation units.
5.
IMA_AZ04_C_ACC – IMA
AZimuth anode 4 data in Counts / ACCumulation units.
6.
IMA_AZ05_C_ACC – IMA
AZimuth anode 5 data in Counts / ACCumulation units.
7.
IMA_AZ06_C_ACC – IMA
AZimuth anode 6 data in Counts / ACCumulation units.
8.
IMA_AZ07_C_ACC – IMA
AZimuth anode 7 data in Counts / ACCumulation units.
9.
IMA_AZ08_C_ACC – IMA
AZimuth anode 8 data in Counts / ACCumulation units.
10.
IMA_AZ09_C_ACC – IMA
AZimuth anode 9 data in Counts / ACCumulation units.
11.
IMA_AZ10_C_ACC – IMA
AZimuth anode 10 data in Counts / ACCumulation units.
12.
IMA_AZ11_C_ACC – IMA
AZimuth anode 11 data in Counts / ACCumulation units.
13.
IMA_AZ12_C_ACC – IMA
AZimuth anode 12 data in Counts / ACCumulation units.
14.
IMA_AZ13_C_ACC – IMA
AZimuth anode 13 data in Counts / ACCumulation units.
15.
IMA_AZ14_C_ACC – IMA
AZimuth anode 14 data in Counts / ACCumulation units.
16.
IMA_AZ15_C_ACC – IMA
AZimuth anode 15 data in Counts / ACCumulation units.
The Standard Data Product IDs for IMA PSA Level 2 (RDR)
products are:
1.
IMA_AZ00_DNF – IMA
AZimuth anode 0 data in Differential Number Flux units.
2.
IMA_AZ01_DNF – IMA
AZimuth anode 1 data in Differential Number Flux units.
3.
IMA_AZ02_DNF – IMA AZimuth
anode 2 data in Differential Number Flux units.
4.
IMA_AZ03_DNF – IMA
AZimuth anode 3 data in Differential Number Flux units.
5.
IMA_AZ04_DNF – IMA
AZimuth anode 4 data in Differential Number Flux units.
6.
IMA_AZ05_DNF – IMA
AZimuth anode 5 data in Differential Number Flux units.
7.
IMA_AZ06_DNF – IMA
AZimuth anode 6 data in Differential Number Flux units.
8.
IMA_AZ07_DNF – IMA
AZimuth anode 7 data in Differential Number Flux units.
9.
IMA_AZ08_DNF – IMA
AZimuth anode 8 data in Differential Number Flux units.
10.
IMA_AZ09_DNF – IMA
AZimuth anode 9 data in Differential Number Flux units.
11.
IMA_AZ10_DNF – IMA
AZimuth anode 10 data in Differential Number Flux units.
12.
IMA_AZ11_DNF – IMA
AZimuth anode 11 data in Differential Number Flux units.
13.
IMA_AZ12_DNF – IMA
AZimuth anode 12 data in Differential Number Flux units.
14.
IMA_AZ13_DNF – IMA
AZimuth anode 13 data in Differential Number Flux units.
15.
IMA_AZ14_DNF – IMA
AZimuth anode 14 data in Differential Number Flux units.
16.
IMA_AZ15_DNF – IMA
AZimuth anode 15 data in Differential Number Flux units.
|
||||||||||
|
Scientific
Objectives and Measurements |
Data Set ID |
Standard Data
Product ID |
Max. Mb/Day |
|
||||||
|
Define local characteristics of the main plasma regions Ion energy/mass/angle resolved spectra in energy range 0.03 to 30 keV, 1-106 atomic mass units per charge with 4π steradian coverage |
MEX-M-ASPERA3-2-EDR-IMA-V1.0 PSA Level 1b CODMAC Level 2 |
IMA_AZ00_C_ACC |
116 |
|
|||||
|
IMA_AZ01_C_ACC |
116 |
|
|||||||
|
IMA_AZ02_C_ACC |
116 |
|
|||||||
|
IMA_AZ03_C_ACC |
116 |
|
|||||||
|
IMA_AZ04_C_ACC |
116 |
|
|||||||
|
IMA_AZ05_C_ACC |
116 |
|
|||||||
|
IMA_AZ06_C_ACC |
116 |
|
|||||||
|
IMA_AZ07_C_ACC |
116 |
|
|||||||
|
IMA_AZ08_C_ACC |
116 |
|
|||||||
|
IMA_AZ09_C_ACC |
116 |
|
|||||||
|
IMA_AZ10_C_ACC |
116 |
|
|||||||
|
IMA_AZ11_C_ACC |
116 |
|
|||||||
|
IMA_AZ12_C_ACC |
116 |
|
|||||||
|
IMA_AZ13_C_ACC |
116 |
|
|||||||
|
IMA_AZ14_C_ACC |
116 |
|
|||||||
|
IMA_AZ15_C_ACC |
116 |
|
|||||||
|
MEX-M-ASPERA3-3-RDR-IMA-V1.0 PSA Level 2 CODMAC Level 3 |
IMA_AZ00_DNF |
116 |
|
||||||
|
IMA_AZ01_DNF |
116 |
|
|||||||
|
IMA_AZ02_DNF |
116 |
|
|||||||
|
IMA_AZ03_DNF |
116 |
|
|||||||
|
IMA_AZ04_DNF |
116 |
|
|||||||
|
IMA_AZ05_DNF |
116 |
|
|||||||
|
IMA_AZ06_DNF |
116 |
|
|||||||
|
IMA_AZ07_DNF |
116 |
|
|||||||
|
IMA_AZ08_DNF |
116 |
|
|||||||
|
IMA_AZ09_DNF |
116 |
|
|||||||
|
IMA_AZ10_DNF |
116 |
|
|||||||
|
IMA_AZ11_DNF |
116 |
|
|||||||
|
IMA_AZ12_DNF |
116 |
|
|||||||
|
IMA_AZ13_DNF |
116 |
|
|||||||
|
IMA_AZ14_DNF |
116 |
|
|||||||
|
IMA_AZ15_DNF |
116 |
|
|||||||
The Standard Data Product ID for NPI PSA Level 1b (EDR) product is:
1.
NPINORM_C_ACC –
Neutral Particle Imager NORMal mode data in Counts / ACCumulation units (raw
telemetry counts). (No longer generated)
The Standard Data Product ID for NPI PSA Level 1b (EDR) /
PSA Level 2 (RDR) product is:
|
|||||||||
|
Scientific
Objectives and Measurements |
Data Set ID |
Standard Data
Product ID |
Max. Mb/Day |
|
|||||
|
Determine the instantaneous global distributions of plasma and neutral gas near Mars; energy deposition from the solar wind to the ionosphere; search for the solar wind-Phobos interactions Integral ENA fluxes in the energy range 0.1 to 60 keV |
MEX-M-ASPERA3-2-EDR-NPI-V1.0 PSA Level 1b CODMAC Level 2 (No longer generated) |
NPINORM_C_ACC |
78 |
|
|||||
|
MEX-M-ASPERA3-2/3-EDR/RDR-NPI-V1.0 PSA Level 1b / PSA Level 2 CODMAC Level 2 / CODMAC Level 3 |
NPINORM_C_SEC |
78 |
|
||||||
NOTE on NPI PSA Level 2 Data:
The signals produced by
NPI contain both an ENA component and a UV component as expected for all types
of ENA instruments. The signals from each component are intermixed and there is
no prescribed way to separate each component. Extraction is complicated because
both components are model dependent. In some cases, even the type of model to
use is still not identified and, definitely, there is no and will be no
standard approach to separate the two signals. Another aspect is that NPI is very
useful as a UV detector. Thus, the UV component has become as important as the
ENA component.
Therefore, in order to
have useful scientific products into the public archive for NPI, the data are provided
in terms of count rates instead of fluxes. The count rate signal contains the
corrected data from NPI to that stage. The count rate unit allows future
investigations to mine the NPI data for both ENA and UV signals using the most
appropriate models for their particular studies. Thus, NPI count rates are the
correct data unit to be stored in the public archive for science validity and
usefulness.
Since the NPI instrument
accumulates data in 1-second mode, the count rate is produced as the raw data.
Thus, the data set for NPI is a combined raw/calibrated data set.
The
Standard Data Products and IDs for NPD continue to be under discussion and TBD. The table below
reflects what is known at the time of this writing.
|
|||||
|
Scientific
Objectives and Measurements |
Data Set ID |
Standard Data
Product ID |
Max. Mb/Day |
|
|
|
Study plasma induced atmospheric escape; modification of atmosphere by ion bombardment Mass/energy resolved neutral hydrogen and oxygen atom spectra in the energy range of 0.1 to 100 keV |
MEX-M-ASPERA3-2-EDR-NPD-V1.0 PSA Level 1b CODMAC Level 2 |
NPD1RAW_C_ACC |
TBD |
|
|
|
NPD2RAW_C_ACC |
TBD |
|
|||
|
NPD1TOF_C_ACC |
TBD |
|
|||
|
NPD2TOF_C_ACC |
TBD |
|
|||
|
NPD1BM1_C_ACC |
TBD |
|
|||
|
NPD2BM1_C_ACC |
TBD |
|
|||
|
MEX-M-ASPERA3-3-RDR-NPD-V1.0 PSA Level 2 CODMAC Level 3 |
NPD1RAW_C_SEC |
TBD |
|
||
|
NPD2RAW_C_SEC |
TBD |
|
|||
|
NPD1TOF_C_SEC |
TBD |
|
|||
|
NPD2TOF_C_SEC |
TBD |
|
|||
|
NPD1BM1_C_SEC |
TBD |
|
|||
|
NPD2BM1_C_SEC |
TBD |
|
|||
|
NPD1 TBD |
TBD |
|
|||
|
NPD2 TBD |
TBD |
|
|||
* NOTE: There are ongoing discussions among the ASPERA-3 team member to define and finalize the NPD products to deliver.
Southwest Research Institute is responsible for the production and delivery of PDS-compliant ASPERA-3 data archives to PSA and PDS. For ASPERA-3 data products, the relevant PDS personnel are within the Planetary Plasma Interactions (PPI) Node. The personnel at PDS-PPI are responsible for participating in the archive planning efforts and for producing ancillary data (e.g. geometry information, indexes, etc.) for the final data labels and archive volumes. Since IRF is the ASPERA-3 leading PI institution, it is their responsibility to ensure that proper information is disseminated for the development and operation of the data system, and the ASPERA-3 PI has the final say on what data are included in the archive.
ASPERA-3
data are archived at SwRI in the Instrument Data File Set (IDFS) format. The IDFS format is described at
http://www.idfs.org. The IDFS is a
collection of files written in a prescribed format that contain data, timing
information, and meta-data. The impetus
behind the IDFS is the need to maintain certain meta-data parameters with the
data in order to correctly interpret the data.
The two key tasks supported by the IDFS are the conversion of telemetry
values to physical units and the registration of each data sample to a given
point in time. One goal (and a very important one) of IDFS is to preserve the
raw high-resolution data in an organized way that requires no
reprocessing. This approach
automatically does the archiving of the total telemetry base in an organized,
reversible fashion.
The data in IDFS format are archived at SwRI and accessed by the ASPERA-3 team for science data analysis. A software tool that can be executed both interactively and in batch mode has been developed to process IDFS data to the PDS spreadsheet object form. The interactive mode of the IDFStoPDS software tool allows the user to select the data set, input PDS keyword values, and save the information in a template for later use. The batch mode of IDFStoPDS uses the template and optional input time range to process IDFS data to the PDS form in bulk. Each execution of IDFStoPDS generates the PDS-compliant spreadsheet/field object Comma Separated Values (CSV) data file and the associated PDS label file (LBL) for the time range specified (either input or as saved in the template). IDFStoPDS was designed to be flexible so that it can be used to process all levels (from raw to derived) of IDFS data to CSV format for archival.
The SwRI ASPERA-3 software team produces the ASPERA-3
standard product archive collection in cooperation with the PDS Planetary
Plasma Interactions (PPI) Node at the
Using the IDFStoPDS software tool, the SwRI team produces the individual data files and the associated detached PDS labels for each of the standard data products defined in section 2.1 above. Data files are all comma-separated values (CSV), ASCII files containing all data of the appropriate type for the time interval contained in the data product. The IDFStoPDS tool assigns interim values to the following keywords in the detached labels:
1. SPACECRAFT_CLOCK_START_COUNT = “$BSCLK”
2. SPACECRAFT_CLOCK_STOP_COUNT = “$ESCLK”
3. MISSION_PHASE_NAME = “$PHASE”
4. ORBIT_NUMBER = $ORB_NO
These keyword values are preceded by a ‘$’ in order that post-processing software can easily and efficiently parse them to replace with appropriate values. The SwRI customized GeoTab software parses the data labels and properly replaces these keyword values. This completes the generation of fully PDS-compliant detached labels.
SwRI collects the PDS CSV data files and labels onto
logical archive e-volumes (electronic volumes). A single ASPERA-3 data set
(e.g., ELS EDR, NPI EDR, etc.) for a specified time interval is organized as a
single archive e-volume. Once all of the data files, labels, and ancillary data
files are organized onto an archive e-volume, all of the PDS required files
(AAREADME, INDEX, ERRATA, etc.) are generated. The PSA release object/mechanism
will be used for archive e-volume generation and submission. This means that
each logical e-volume is a data release since they are for specific time
periods. In other words, a logical archive e-volume is identical to a data set
release. The collection of data set releases comprises the entire data set (all
data for the whole mission). Once the data and files are generated and
organized for a data release, the archive e-volume (or data set release) is
ready for validation. The SwRI staff runs the PSA-provided validation software
tool (PVV, described in the next section) to ensure all files are present and
conform to PDS standards. Any errors are corrected and the archive e-volumes
are submitted to PSA for ingestion to the official public archive. SwRI
will simultaneously submit the same archive e-volumes to IRF and PDS-PPI. PDS-PPI
agrees to only release ASPERA-3 data to the public after the PSA official
archive has released the data. It is expected at
this time to produce several archive e-volumes every six months for the
ASPERA-3 sensor (ELS, IMA, NPI, and NPD) data that have been reviewed and are
ready for ingestion. Thus, several data set releases (archive e-volumes) will be
produced and delivered at one time.
PSA and PDS do not require data
to be written on physical media, so only e-volumes are organized and delivered
by SwRI to the PSA and PDS. However, at the end of the mission, the PDS PPI
Node will produce physical archive volumes on DVD media and deliver these to
the NSSDC for deep archive.
The ASPERA-3 team, PSA team, and PPI node validate volumes in two ways. Before any volumes are produced, a peer review panel validates the structure and content of the archive volumes. PSA has provided a volume validation tool (PVV) that is to be used by the SwRI team to check each volume before sending to PSA for public release. Once volume production begins, the peer review panel may spot check volumes as deemed necessary by the PSA team.
The official ESA peer review panel consists of members of the instrument team, the PSA team, the Mars Express representative from the PDS Geosciences Node, and scientists selected by the PSA team. In addition, the PDS PPI Node staff reviews the ASPERA-3 data sets. The PSA and PDS personnel are responsible for validating that the volume(s) are fully compliant with PDS standards. The instrument team and chosen science reviewers are responsible for verifying the content of the data set, the completeness of the documentation, and the usability of the data in its archive format. The peer review process is a two-part process. First, the panel reviews this document and verifies that a volume produced to this specification will be useful. Next, the panel reviews a specimen volume to verify that the volume meets this specification and is indeed acceptable.
Each ASPERA-3 archive e-volume bears a unique volume identifier (VOLUME_ID keyword in the VOLDESC.CAT file) of the form: MEXASP_XY00, where MEX identifies the spacecraft (Mars Express), ASP identifies the experiment (ASPERA), X identifies the data set instrument, and Y identifies the data type of the data set. The data set instrument identifier, X, in the Volume ID is defined as: 1 = ELS, 2 = IMA, 3 = NPI, and 4 = NPD. The data type identifier, Y, in the Volume ID is defined as: 1 = PSA Level 1b (raw), and 2 = PSA Level 2 (flux or other science unit). There are eight (8) possibilities:
1. MEXASP_1100 = Volume ID for ELS PSA Level 1b data set
2. MEXASP_1200 = Volume ID for ELS PSA Level 2 data set
3. MEXASP_2100 = Volume ID for IMA PSA Level 1b data set
4. MEXASP_2200 = Volume ID for IMA PSA Level 2 data set
5. MEXASP_3100 = Volume ID for NPI PSA Level 1b data set (no longer used)
6. MEXASP_3200 = Volume ID for NPI combined PSA Level 1b/ Level 2 data set
7. MEXASP_4100 = Volume ID for NPD PSA Level 1b data set
8. MEXASP_4200 = Volume ID for NPD PSA Level 2 data set
For
example, all ELS raw data set releases will have a Volume ID of “MEXASP_1100”,
all IMA raw data set releases will have a Volume ID of “MEXASP_2100”, all ELS
flux data set releases will have a Volume ID of “MEXASP_1200”, and so on. The
VOLUME_ID value can be used as the label for any physical medium on which the
data are stored.
No pre-flight data products are planned for archival at this time.
The sub-system tests contribute to the characterization and calibration of the instrumentation. The data generated by these tests are used to determine data quality (e.g., noise ratios) and to compute calibrations (e.g., sensor efficiencies). The test data are not archived, but the outcomes from these test data are included in the data quality indicators in the data products, and where available, will be provided in any archived calibration data and ancillary data.
The raw ground calibration data are not archived, but the calibration data derived from these tests are included as a set of tables. The structure and content of the calibration tables are described in section 3.4.2.5. The calibration reports and any other calibration documentation are in the DOCUMENT directory.
No other calibration information is available for archive.
There are two main divisions of the ASPERA-3 in-flight data products:
There are four PSA Level 1b (CODMAC Level 2, PDS EDR) data sets, and four PSA Level 2 (CODMAC Level 3, PDS RDR) data sets each for the nominal mission (both in-flight divisions), the first extension (EXT1), and the second extension (EXT2). The data measurements taken during the first Mars Express mission extension will have ‘EXT1’ in the data set IDs. Likewise, the data set IDs will have ‘EXT2’ for the second mission extension. Also, the data products included may differ depending on the instrument (ELS, IMA, NPI, and NPD) modes and operations during the various phases of the mission. See tables 6, 7, 8, and 9 in section 2.1 for scientific measurements of the data sets.
The PSA Level 1b, CODMAC Level 2, Experiment Data Record (EDR) data sets are:
The PSA Level 2, CODMAC Level 3, Reduced Data Record (RDR) data sets are:
Each data set will be organized as a logical volume with ancillary data (geometry and calibration tables) included specific to the data set where applicable.
The software used to process the
data from the IDFS form to the PDS-compliant form is included in the SOFTWARE
directory. Also, the software to generate the Geometry and Position index table
and label files from the data labels and SPICE kernels is located in this
directory. The input files for this software are not for archival, so they are
found in the EXTRAS/IDFS_DATA and EXTRAS/SPICE_DATA subdirectories. There are
two programs:
There are two possible executables
in the ASPERA3_SW_BIN subdirectory for each software tool/program – Solaris
version (Sun) and Linux version (Lin). The software guide for each includes the
version description for each executable (compiler used, platform used, etc.),
how to run the software, and sample inputs and outputs for comparison purposes.
The configuration files necessary to run the programs for a particular release
are in the ASPERA3_SW_CONFIG_* subdirectory. To generate a data set release, a
unique set of configuration files is needed. Thus, a new ASPERA3_SW_CONFIG_*
subdirectory is added for each release. The naming convention for these
subdirectories is:
ASPERA3_SW_CONFIG_<time
period>, where
<time period> = ‘
MMMYYYY
is 3-character month and 4-digit year
The
contents of the SOFTWARE subdirectories are packaged and delivered in .ZIP
files with associated detached .LBL files that describe the contents of the
.ZIP files.
The SOFTWARE directory of the ASPERA-3
data set deliveries contains:
|- - SOFTINFO.TXT (Describes directory contents)
|
|-- ASPERA3_SW_BIN.ZIP
(Contents of the
| ASPERA3_SW_BIN subdirectory)
|
|-- ASPERA3_SW_BIN.LBL (PDS
Label describing the
| contents of
ASPERA3_SW_BIN.ZIP)
|
|-- ASPERA3_SW_CONFIG_*.ZIP
(Contents of the
| ASPERA3_SW_CONFIG_*
-|-- SOFTWARE -| subdirectory for the
| time period/release
‘*’
| as described above)
|
|-- ASPERA3_SW_CONFIG_*.LBL
(Detached PDS Labels
| describing the contents
of
|
ASPERA3_SW_CONFIG_*.ZIP)
|
|-- ASPERA3_SW_DOC.ZIP
(Contents of the
| ASPERA3_SW_DOC
subdirectory)
|
|-- ASPERA3_SW_DOC.LBL (PDS
Label describing
the contents of
ASPERA3_SW_DOC.ZIP)
The
organization and contents of the SOFTWARE directory and subdirectories when the
zip files ASPERA3_SW_BIN.ZIP, ASPERA3_SW_CONFIG_*.ZIP, and ASPERA3_SW_DOC.ZIP
are unzipped is:
|- IDFStoPDS.[Sun,Lin]
|-- ASPERA3_SW_BIN -|- GeoTab.[Sun,Lin]
|
|
|
| |-- IDFStoPDS Set up files (*.cfg)
SW--|-- ASPERA3_SW_CONFIG_* -|-- IDFStoPDS
templates (*.I2P)
| |-- GeoTab input files
|
|
|-- ASPERA3_SW_DOC -|-- IDFStoPDS Guide
|--
GeoTab Guide
Most of the documentation
provided in the archive volumes is either in the form of PDS catalog (.CAT)
files in the CATALOG directory or are in the DOCUMENT directory. The documents
provided in the DOCUMENT directory are:
This EAICD document and the
ASPERA-3 Sensor Frames and Geometry Information are the only documents that are
considered critical documentation for the understanding of the contents and
usage of the ASPERA-3 archived data sets. The calibration reports are provided
in PDF and in ASCII when available. All critical calibration information is
included in ASCII form in the calibration tables and associated labels. The
other documents add to the understanding of the ASPERA-3 experiment, but are
considered non-critical documentation for the archive. Thus, these documents will be delivered to PSA and PDS in PDF form only. PSA and
PDS-PPI will take it upon themselves to translate these documents to an ASCII
form at the end of the mission as required.
Many ASPERA-3 data products are
provided through the SDDAS suite of software tools that support space physics
data analysis. Through this system, many derived data products are developed.
It is the intention to define and deliver to PSA and PDS any derived data
products that the ASPERA-3 team deem useful to the public. This is to be
decided well into the mission and delivered after mission end.
The Mars Express SPICE kernels and software are used to generate Orbit and Attitude data for use in conjunction with the ASPERA-3 data. It is important for ASPERA-3 science studies to know where in space and time the Mars Express spacecraft and ASPERA-3 instruments are located and what objects (Sun, Mars, Earth, Phobos, Deimos) are in the fields of views. The archived GEOMETRY index table for each data set is generated from the Mars Express spacecraft general orbit data using the GeoTab software and SPICE kernels. The ASPERA-3 view directions for each sensor can be derived using the SPICE kernels and software. The ASPERA-3 Sensor Frames and Geometry Information document (in DOCUMENT directory) provides a code example (in C and FORTRAN) for determining the view directions of the ASPERA-3 sensors.
During the mission, the PSA Level 1b data sets for each ASPERA-3 instrument (ELS, IMA, NPI, and NPD) are to be delivered at least every six months. Thus, four logical archive volumes are delivered where each volume contains a single data set. The PSA Release object concept is used where updates (new or changed data) to the data sets are delivered. The data releases are based on monthly intervals, except the cruise phase is divided by Earth Verification (EV) (when Mars Express is closest to Earth) and Inter-Cruise (IC) (when Mars Express is closest to Mars). The archive volumes have the following naming convention:
MEXASP_<sensor name>_<sequence no. XY00>_R<mRn>
where <sensor name> = {ELS, IMA, NPI, or NPD}
<sequence no. XY00> = X identifies the data set:
1 = ELS 3 = NPI
2 = IMA 4 = NPD
Y identifies the data type of the data set:
1 = PSA Level 1b 2 = PSA Level 2
R<mRn> = To differentiate between releases and revisions for deliveries,
Rm refers to Release m, and Rn refers to Revision n.
‘Rn’ is omitted if revision is 0 (no revisions made).
For example, Release 1 of the raw data ELS archive volume is: MEXASP_ELS_1100_R01
Release
17 of the flux data ELS archive volume is: MEXASP_ELS_1200_R17
Release
3 of the raw data IMA archive volume is: MEXASP_IMA_2100_R03
Release
11 of the NPI archive volume is: MEXASP_NPI_3200_R11
etc.
These
are the names of the packaged (zipped, tar’d, etc.) directories and files that
make up the archive e-volumes. The PSA Level 2 data sets (flux or other units)
are to be delivered well into the mission or beginning at mission end (TBD).
PDS data set identifiers (DATA_SET_ID) conform to the following format:
MEX-M-ASPERA3-<data level>-<data type>-<sensor name><-EXTn>-V<version x.y>
where <data level> = CODMAC Levels: ‘2’ or ‘3’, or can be ‘2/3’ for combined data set
CODMAC Level 2 ≡ PSA Level 1b
CODMAC Level 3 ≡ PSA Level 2
<data set type> = ‘EDR’ or ‘RDR’, or can be ‘EDR/RDR’ for combined data set
<sensor name> = {ELS, IMA, NPI, or NPD}
<-EXTn> = for mission extension data sets only, where n is extension number
EXT1 – first mission extension, EXT2 – second extension, etc.
<version x.y> = x starts at 1, y starts at 0
For example, version one of the ELS raw data set has ID: MEX-M-ASPERA3-2-EDR-ELS-V1.0
The naming convention used below the DATA directory is:
<sensor name>_<data set type>_<processing level>_<time period>
where <sensor name> = {ELS, IMA, NPI, or NPD}
<data set type> = EDR or RDR, or EDR_RDR for combined data set
<processing level> = PSA levels: L1B or L2, or L1B_L2 for combined data set
<time period> = YYYY_MM, where YYYY is the 4-digit year and
MM is the 2-digit month (01-12) or ‘EV’ or ‘IC’
For example, the ELS EV raw data is in the DATA subdirectory: ELS_EDR_L1B_2003_EV
and the first Mars ELS raw data will be in the DATA subdirectory: ELS_EDR_L1B_2004_01
If a revision is delivered for the same ELS raw data, it will be in the same DATA subdirectory, but the data labels will have updated REVISION_ID keyword values.
All data sets can be linked even though they are delivered separately through the release ID values. A given release ID corresponds to the same specific time period, and this time period is the same for all the data sets (ELS, IMA, NPI, and NPD).
Data products have names of the following form:
<IDFS name>YYYYDDDHHMMXXXXX<S>VV.CSV
where
<IDFS name> is up to 8 characters briefly describing the data product
(e.g., ELSSCIL, ELSSCIH, IMA_AZ0, NPINORM, NPD1TOF, etc.),
YYYYDDDHHMM is the start year, day, hour, and minute of the data product,
XXXXX is the short units label of the data product
(e.g., C_ACC is for counts/accumulation, C_SEC is for counts/second, DNF is for Differential Number Flux),
S is optional and if present indicates that it is a scanning or sweeping data product
(scanning/sweeping: instrument cycles through steps and data are sampled per step), and
VV is a version number with range 01-99. It is expected that the file version number will remain 01 and that any data file updates will be managed using the REVISION_ID in the labels. If any extreme cases occur where the data file versions must be updated due to major changes and the files must be completely reprocessed to replace older files, these will be handled between the ASPERA-3 team, PSA, and PDS on a case-by-case basis.
CSV extension indicates Comma Separated Values (PDS spreadsheet object).
The associated label files have the exact names as their data products with the .LBL extension.
The PRODUCT_ID values are the exact names as the data products with no extension.
The STANDARD_DATA_PRODUCT_ID values are shortened names of the data products with the date/time and version information removed:
<IDFS name>_XXXXX
where
<IDFS name> and XXXXX are as described above.
The 3.6 PDS standards are used, dated August 1, 2003.
The dates and times used within ASPERA-3 data files are the times when the data are sampled in UTC. The START_TIME and STOP_TIME values in the data labels are also in UTC and in the same format as the dates and times within the data files: yyyy-dddThh:mm:ss.sss, where yyyy is the 4-digit year, ddd is the 3-digit day of year, hh is the 2-digit hour of the day (00-23), mm is the 2-digit minute of the hour (00-59), and ss.sss indicates the seconds (including fraction) of the minute. The PRODUCT_CREATION_TIME is also in UTC and indicates the date/time that the data files and labels are generated as taken from the local computer. The dates/times of the PRODUCT_CREATION_TIME have format: yyyy-mm-ddThh:mm:ss, where yyyy is the 4-digit year, mm is a 2-digit month, dd is the 2-digit day of the month, hh is the 2-digit hour of the day, mm is a 2-digit minute of the hour, and ss indicates the seconds of the minute.
The SPACECRAFT_CLOCK_START_COUNT and SPACECRAFT_CLOCK_STOP_COUNT values represent the on-board time (OBT) counters of the spacecraft and instrument computers. The OBT counter is given in the headers of the experiment telemetry source packets. It contains the data acquisition start time as 32 bits of unit seconds followed by 16 bits of fractional seconds. The OBT is represented as a decimal real number in floating point notation with 5 digits after the decimal point. An integer number followed by a slash represents a reset of the spacecraft clock (e.g., “1/” or “2/”). The SPACECRAFT_CLOCK_*_COUNT values in the data and index labels have the form: n/dddddddddd.ddddd, where n is an integer number, up to 10 digits after the slash, and 5 digits after the decimal point. This is the form returned by the SPICE software using the Mars Express SCLK files.
UTC time is a function of the time correlation packages and the on-board time. The time correlation packages are archived and distributed in the SPICE auxiliary data set and contain linear segments that map the on-board time to UTC time. The linear segment is represented by a time offset and a time gradient. The conversion function is:
Time in UTC = offset + (OBT(seconds) + (OBT(fractional part) * 2-16)) * gradient
The ASPERA-3 data are always in the instrument reference frame since data are sampled in situ. The GEOMETRY table contains spacecraft related parameters expressed in the J2000 reference frame. Any ASPERA-3 instrument specific ancillary data provided will be in the J2000 (equatorial) reference frame.
None.
The ASPERA-3 team, PSA team, and PPI node validate data product contents and formats in two ways. Before any data sets are produced and delivered, a peer review panel validates the structure and content of the data sets. PSA has provided a volume validation tool (PVV) that is to be used by the SwRI team to check each data set volume before sending to PSA for public release. Once data set production begins, the peer review panel may spot check data sets as deemed necessary by the PSA team.
The peer review panel consists of members of the instrument team, the PSA team, the PPI and Central Nodes of the PDS, and scientists chosen by the PSA team. The PSA and PDS personnel are responsible for validating that the data sets are fully compliant with PDS standards. The instrument team and chosen science reviewers are responsible for verifying the content of the data set, the completeness of the documentation, and the usability of the data in its archive format. The peer review process is a two-part process. First, the panel reviews this document and verifies that data sets produced to this specification will be useful. Next, the panel reviews specimen data sets to verify that they meet this specification and is indeed acceptable.
For Mars Express ASPERA-3 data set deliveries to PSA and PDS, a volume set is equivalent to a data set. So, for Volume ID MEXASP_XY00, the following data sets/volumes are delivered:
This data set/volume contains the ELS PSA Level 1b (raw) data.
This data set/volume contains the IMA PSA Level 1b (raw) data.
This data set/volume contains the NPI PSA Level 1b (raw) data. (No longer used.)
This data set/volume contains the NPD PSA Level 1b (raw) data.
This data set/volume contains the ELS PSA Level 2 (differential number flux) data.
This data set/volume contains the IMA PSA Level 2 (differential number flux) data.
This data set/volume contains the NPI PSA Level 1b/Level 2 (counts/second) data.
This data set/volume contains the NPD PSA Level 2 (counts/second) data.
The following files are contained in the root directory, and are produced by SwRI with the assistance of the PPI node at UCLA. These two files are required by the PDS Archive Volume organization standards.
|
File Name |
File Contents |
|
AAREADME.TXT |
This file completely describes the Volume organization
and contents (PDS label attached). |
|
ERRATA.TXT |
A cumulative listing of all known errors, omissions, and
areas of non-conformance with PDS standards on this and all previous volumes
in the volume set. |
|
VOLDESC.CAT |
A description of the contents of the Volume in a PDS
format readable by both humans and computers. |
The following
files are contained in the INDEX directory and are produced by SwRI. The INDEX
files are generated using the PSA PVV tool, the GEO files are generated using
SwRI software linked with the PSA geolib library, and the DOC_INDX files are
generated manually using a local system editor.
|
File Name |
File Contents |
|
INDXINFO.TXT |
A description of the contents of the INDEX directory |
|
INDEX.TAB |
A table listing the ASPERA-3 Data Products for the data
set |
|
INDEX.LBL |
A PDS detached label that describes INDEX.TAB |
|
GEO_EARTH.TAB |
A table of the Geometry and position descriptions for the
data products in the data set with a reference target of Earth |
|
GEO_EARTH.LBL |
A PDS detached label that describes GEO_EARTH.TAB |
|
GEO_MARS.TAB |
A table of the Geometry and position descriptions for the
data products in the data set with a reference target of Mars |
|
GEO_MARS.LBL |
A PDS detached label that describes GEO_MARS.TAB |
|
DOC_INDX.TAB |
A table listing the DOCUMENT files for the data set |
|
DOC_INDX.LBL |
A PDS detached label that describes DOC_INDX.TAB |
The document directory contains this EAICD document in MS Word, PDF, and HTML. Since this document is required for use of the archive data set, PDS standards require that it be available in some ASCII format, and HTML is an acceptable ASCII format. The following files are contained in the DOCUMENT directory.
|
File Name |
File Contents |
|
DOCINFO.TXT |
A description of the contents of the DOCUMENT directory |
|
MEX_ASPERA3_PSA_ICD_Vxx_yy.HTM |
The ASPERA-3 Experiment to Archive Interface Control Document
(this EAICD document) as hypertext, where xx_yy is the version number (e.g.,
V01_00 is first version – same as V1.0) |
|
MEX_ASPERA3_PSA_ICD_Vxx_yy.DOC |
The ASPERA-3 Experiment to Archive Interface Control
Document (this EAICD document) in Microsoft Word format, where xx_yy is the
version number (e.g., V01_00 is same as V1.0) |
|
MEX_ASPERA3_PSA_ICD_Vxx_yy.PDF |
The ASPERA-3 Experiment to Archive Interface Control
Document (this EAICD document) in PDF format, where xx_yy is the version
number (e.g., V01_00 is first version – same as V1.0) |
|
MEX_ASPERA3_PSA_ICD_Vxx_yy.LBL |
The PDS detached label that describes the ASPERA-3
Experiment to Archive Interface Control Document (this EAICD) for each of its
formats: hypertext, MS Word, PDF |
|
ASPERA3_MEX_EXP.PDF |
The Analyzer of Space Plasmas and Energetic Atoms
(ASPERA-3) for the Mars Express Mission (submitted to ESA) in PDF format |
|
ASPERA3_MEX_EXP.LBL |
The PDS detached label that describes the ASPERA3_MEX_EXP.PDF document |
|
ASPERA3_FLIGHT_PERF.PDF |
The ASPERA-3 Flight Performance Report Document
(submitted to ESA) in PDF format |
|
ASPERA3_FLIGHT_PERF.LBL |
The PDS detached label that describes the ASPERA3_FLIGHT_PERF.PDF document |
|
ASPERA3_SENSOR_FRAMES.PDF |
The ASPERA-3 Sensor Numbering and frames support document
(provided by IRF) in PDF format |
|
ASPERA3_SENSOR_FRAMES.LBL |
The PDS detached label that describes the
ASPERA3_SENSOR_FRAMES.PDF document |
|
ASPERA3_SENSOR_GEOMETRY.TXT |
The ASPERA-3 Sensor Frames and Geometry Information Text
file with attached PDS label |
|
ME_ASP_DS_0002.PDF |
The ASPERA-3 Design Description document in PDF format |
|
ME_ASP_DS_0002.LBL |
The PDS detached label that describes the
ME_ASP_DS_0002.PDF document |
|
ME_ASP_MA_0003_V3_0.PDF |
The ASPERA-3 Flight Operation Manual in PDF format |
|
ME_ASP_MA_0003_V3_0.LBL |
The PDS detached label that describes the
ME_ASP_MA_0003_V3_0.PDF document |
|
XXX_CALIBRATION_REPORT.PDF |
ASPERA-3 Instrument XXX Calibration Report (where XXX is
ELS, IMA, NPI, or NPD) in PDF format |
|
XXX_CALIBRATION_REPORT.LBL |
The PDS detached label that describes the
XXX_CALIBRATION_REPORT.PDF document |
The files in the CATALOG directory provide a
top-level understanding of the Mars Express ASPERA-3 Experiment and its data
products. The ESA Mars
Express Project team provided the mission and spacecraft files. The ASPERA-3
team provided information for the instrument and data set files, and SwRI
formatted these files into PDS standard form. All catalog files are ASCII text
files with <CR><LF> line termination and line lengths are no longer
than 72 characters.
|
File Name |
File Contents |
|
CATINFO.TXT |
A description of the contents of the CATALOG directory |
|
MISSION.CAT |
PDS mission catalog description of the Mars Express
mission |
|
INSTHOST.CAT |
PDS instrument host (spacecraft) catalog description of
the Mars Express spacecraft |
|
ASPERA3_INST.CAT |
PDS instrument catalog description of the ASPERA-3
instrument |
|
ASPERA3_XXX_RELEASE.CAT |
PSA Release catalog description of the data set release,
where XXX is ELS, IMA, NPI, or NPD; Each data set release and/or revision has
updated release and revision objects contained |
|
ASPERA3_XXX_YYY_DS.CAT |
PDS Data Set catalog description of the XXX data set, where XXX is
ELS, IMA, NPI, or NPD and YYY is EDR for
PSA Level 1b data, RDR for PSA Level 2 data, and EDR_RDR for combined PSA
Level 1b / Level 2 data |
|
ASPERA3_SOFTWARE.CAT |
PDS Software catalog description of the ASPERA-3 software
included in the SOFTWARE directory |
|
PERSON.CAT |
PDS personnel catalog description of ASPERA-3 Team
members and other persons involved with the generation of Data Products |
|
REF.CAT |
ASPERA-3 references mentioned in other *.CAT files |
The calibration directory contains the
calibration tables (.TAB files) and associated labels (.LBL files) necessary to
convert or process the raw data (PSA Level 1b) to calibrated science units (PSA
Level 2). These files are generated manually by SwRI using
a local system editor. The CALINFO.TXT file describes the contents of the
directory and how to use the calibration tables in the directory.
|
File Name |
File Contents |
|
CALINFO.TXT |
A description of the contents of the CALIB directory |
|
<IDFS name>_CAL<_Type>.TAB |
A calibration data table for data products beginning with
<IDFS name> as described in section 3.1.4. If more than one
table is needed, then a table type <_Type> is appended to the name. For
example, if NPINORM data products need only one table, then the name is
NPINORM_CAL.TAB, but if separate tables are needed, then the name for
geometry factors could be something like NPINORM_CAL_GF.TAB |
|
<IDFS name>_CAL<_Type>.LBL |
A PDS detached label that describes <IDFS
name>_CAL<_Type>.TAB |
The Geometry and Position index table (in the INDEX directory) contains the geometry data for the ASPERA-3 data sets. Any additional geometry information, such as the ASPERA-3 view directions for each sensor, can be derived using the SPICE kernels and software. The ASPERA-3 Sensor Frames and Geometry Information document (in DOCUMENT directory) provides a code example (in C and FORTRAN) for determining the view directions for the ASPERA-3 sensors. There are no data files to put in a GEOMETRY directory, so the ASPERA-3 data sets do not have a GEOMETRY directory.
ASPERA-3 data sets do not have browse products, thus a BROWSE directory does not exist.
The software tools used to generate the
PDS-compliant archive e-volumes from the IDFS data and SPICE kernels are
provided in the SOFTWARE directory. The IDFS data and SPICE kernels used for
input to generate the PDS-compliant data files are found in the EXTRAS
directory. See section 3.4.2.10 for the EXTRAS directory information and
structure. Refer to section 2.4.6 for
additional SOFTWARE directory information and structure. The following files
are contained in the SOFTWARE directory and are produced by SwRI.
|
File Name |
File Contents |
|
SOFTINFO.TXT |
A description of the contents of the SOFTWARE directory |
|
ASPERA3_SW_BIN.ZIP |
A zip file containing the ASPERA3_SW_BIN subdirectory
contents |
|
ASPERA3_SW_BIN.LBL |
A PDS detached label that describes ASPERA3_SW_BIN.ZIP |
|
ASPERA3_SW_CONFIG_*.ZIP |
Zip files containing the contents of the
ASPERA3_SW_CONFIG_* subdirectories, where ‘*’ refers to a time period/data
release (‘ |
|
ASPERA3_SW_CONFIG_*.LBL |
PDS detached labels that describe ASPERA3_SW_CONFIG_*.ZIP |
|
ASPERA3_SW_DOC.ZIP |
A zip file containing the ASPERA3_SW_DOC subdirectory
contents |
|
ASPERA3_SW_DOC.LBL |
A PDS detached label that describes ASPERA3_SW_DOC.ZIP |
There are no plans to include a GAZETTER directory for
ASPERA data set deliveries.
The EXTRAS directory contains additional items that may be
useful to the users, but are non-essential for PDS archival. The contents of
the EXTRAS directory and its subdirectories have no PDS restrictions or
requirements (i.e., do not need to conform to PDS standards). These items include the IDFS data used for
input to process the PDS CSV files, and the SPICE kernels used for generating
the geometry table. The IDFS_DATA_* subdirectories are contained in zip files
and have associated PDS labels to describe the contents. For each data set
delivery (or release), a new IDFS_DATA_* subdirectory is created containing the
IDFS data used as input for the data set delivery time period. The IDFS data
used in previous data set releases remain in the EXTRAS directory in .ZIP
files, and new releases add new IDFS data in newly created .ZIP files.
The naming convention for these subdirectories is:
IDFS_DATA_<time
period>, where
<time period> = ‘
MMMYYYY
is 3-character month and 4-digit year
|
File Name |
File Contents |
|
EXTRINFO.TXT |
Description of the contents of the EXTRAS directory and usage
notes |
|
IDFS_DATA_*.ZIP |
Zip files containing the IDFS database and data files
used in generating the data set releases, where ‘*’ is ‘ |
|
IDFS_DATA_*.LBL |
PDS detached labels that describe the associated
IDFS_DATA_*.ZIP |
|
MEX_SCIENCE_SUBPHASE_DEFS.TAB |
A table listing of the Mars Express science mission
phases used for determining the MISSION_PHASE_NAME values in the data labels |
|
MEX_SCIENCE_SUBPHASE_DEFS.LBL |
PDS detached label for MEX_SCIENCE_SUBPHASE_DEFS.TAB |
|
SPICE_DATA subdirectory |
SPICE kernels used in generating the entries in the
geometry index table and label for this data set release |
Organization of the EXTRAS directory is:
|- - EXTRINFO.TXT (Describes directory contents)
|
|-- IDFS_DATA_*.ZIP
(IDFS_DATA subdirectory
| contents for ‘*’ time
period)
|
|--
IDFS_DATA_*.LBL (PDS Label describing the
| contents of
IDFS_DATA_*.ZIP)
|
| |-- MEX_SCIENCE_SUBPHASE_DEFS.TAB
(Table of
-|- EXTRAS --| sub-phases used for data
labels)
| |
|--
MEX_SCIENCE_SUBPHASE_DEFS.LBL (PDS Label
| describing the
|
| |-- CK (C kernels used)
| |-- FK (Frames kernels used)
| |-- IK (ASPERA-3 Instrument
kernel)
|-- SPICE_DATA
-|-- LSK (Leap Seconds kernel)
|-- ORBNUM (Orbit number kernels)
|-- PCK (Planets/Bodies kernels)
|-- SCLK (Spacecraft clock kernels)
|-- SPK (Spacecraft kernels used)
The organization
and contents of IDFS_DATA_*.ZIP when unzipped is:
|--
Database (subdirectory of
| | IDFS database files)
-|-- IDFS_DATA_* -|
| |-- XXX (subdirectory of XXX
IDFS files, where XXX
is ELS, IMA, NPI, or NPD)
There are no referenced files to be included.
The DATA directory contains the actual Data Products for ASPERA-3. Each archive volume contains a single data set and uses the PSA Release concept for delivery. The DATA directory has subdirectories using the naming conventions described in section 3.1.3. These subdirectories contain the actual data files in CSV format with associated LBL files. Refer to Section 4 for the subdirectory contents, data product descriptions, data file contents and structures, and sample labels for each data set.
This section describes the contents of the ASPERA-3 standard product archive e-volumes (or data sets). Appendix A contains information about the PDS software to read and validate the data products. The complete directory structure is shown in Appendix B.
For each data set release, a DATA subdirectory is added based on time period, so the DATA directory grows with each release. For all ASPERA-3 data products, the CSV and associated LBL files have the same names. The names, without the extensions, are the Data Product IDs and are unique for each data product. The collection of similar data products comprises the Standard Data Product, and the Standard Data Product IDs are formed using two components of the Data Product ID, ‘<IDFS name>_XXXXX’ (see section 3.1.4, File Naming Convention). Descriptions of the Standard Data Product IDs are given in section 2.1. The following sections give the structure and contents of the DATA directories for each ASPERA-3 instrument. There are two data sets per instrument – one for EDR (PSA Level 1B, CODMAC Level 2) data, and one for RDR (PSA Level 2, CODMAC Level 3) data.
The following is the
organization and contents of the DATA directories for the ELS data sets.
|-- ELSSCIH*.CSV
|-- ELSSCIH*.LBL ELS Data
|-- ELS_TTT_LLL_2003_EV --|--
ELSSCIL*.CSV Release 1
| |-- ELSSCIL*.LBL
|
| |-- ELSSCIH*.CSV
|-- ELS_TTT_LLL_2003_IC --|--
ELSSCIH*.LBL ELS Data
| |-- ELSSCIL*.CSV Release 2
| | |-- ELSSCIL*.LBL
-|- DATA --|
| | |-- ELSSCIH*.CSV
|-- ELS_TTT_LLL_2004_01 --|--
ELSSCIH*.LBL ELS Data
| |-- ELSSCIL*.CSV Release 3
| |-- ELSSCIL*.LBL
|
| |-- ELSSCIH*.CSV
|-- ELS_TTT_LLL_2004_02 --|--
ELSSCIH*.LBL ELS Data
| |-- ELSSCIL*.CSV Release 4
. |-- ELSSCIL*.LBL
.
etc.
where TTT = EDR or RDR (Data Type)
LLL = L1B or L2 (PSA Data
Level)
When TTT = EDR, LLL = L1B,
and
When TTT = RDR, LLL = L2
The following is the organization
and contents of the DATA directories for the IMA data sets.
|-- IMA_AZ00*.CSV
|--
IMA_AZ00*.LBL
|-- IMA_AZ01*.CSV
|-- IMA_AZ01*.LBL
|
. IMA
Data
|-- IMA_TTT_LLL_2003_EV --| .
Release
1
| |
.
| |-- IMA_AZ14*.CSV
| |-- IMA_AZ14*.LBL
| |-- IMA_AZ15*.CSV
| |-- IMA_AZ15*.LBL
|
| |-- IMA_AZ00*.CSV
| |-- IMA_AZ00*.LBL
| |-- IMA_AZ01*.CSV
| |-- IMA_AZ01*.LBL
| | .
IMA
Data
|-- IMA_TTT_LLL_2003_IC --| .
Release 2
| |
.
| | |-- IMA_AZ14*.CSV
-|- DATA --| |-- IMA_AZ14*.LBL
|
| |-- IMA_AZ15*.CSV
| |-- IMA_AZ15*.LBL
|
|
|-- IMA_AZ00*.CSV
| |-- IMA_AZ00*.LBL
| |-- IMA_AZ01*.CSV
| |-- IMA_AZ01*.LBL
| | .
IMA Data
|-- IMA_TTT_LLL_2004_01 --| .
Release 3
| | .
| |-- IMA_AZ14*.CSV
| |-- IMA_AZ14*.LBL
| |-- IMA_AZ15*.CSV
|
|-- IMA_AZ15*.LBL
.
.
.
etc.
where TTT = EDR or RDR (Data Type)
LLL = L1B or L2 (PSA Data
Level)
When TTT = EDR, LLL = L1B,
and
When TTT = RDR, LLL = L2
AZnn, nn = 00-15 for
Azimuth Anodes 0-15
The following is the
organization and contents of the DATA directories for the NPI data sets.
|-- NPI_TTT_LLL_2003_EV --|--
NPINORM*.CSV NPI Data
| |-- NPINORM*.LBL Release 1
|
|-- NPI_TTT_LLL_2003_IC --|--
NPINORM*.CSV NPI Data
| | |-- NPINORM*.LBL Release 2
-|- DATA --|
|
|-- NPI_TTT_LLL_2004_01 --|-- NPINORM*.CSV NPI Data
| |-- NPINORM*.LBL Release 3
|
|-- NPI_TTT_LLL_2004_02 --|--
NPINORM*.CSV NPI Data
| |-- NPINORM*.LBL Release 4
|
.
.
etc.
where TTT = EDR, RDR,
or EDR_RDR (Data Type)
LLL = L1B, L2,
or L1B_L2 (PSA Data Level)
When TTT = EDR, LLL = L1B
When TTT = RDR, LLL = L2
When TTT = EDR_RDR, LLL =
L1B_L2
NPD data sets are under discussion, so this section is TBD.
The following table provides information concerning the data types, standard products, delivery volumes, and delivery schedules for the data set releases.
|
||||||||||
|
Data Set ID |
Standard Data
Product IDs |
E-Volume Size /
6-Month Delivery |
Data Release
Delivery Schedule |
|
||||||
|
MEX-M-ASPERA3-2-EDR-ELS-V1.0 PSA Level 1b CODMAC Level 2 Raw counts (cnts/accum) |
ELSSCIH_C_ACC ELSSCIL_C_ACC |
~ 18.0 Gb |
Several Data Set Releases are to
be delivered every six months starting Sept. 2005. The first delivery is 8
releases containing data from launch through June 2004. The next deliveries
contain six months of data each and are to be delivered as soon as possible
in order to catch up to a 6-month lag. The amount of time between the
‘catch-up’ deliveries depends on the review cycle and will be worked out with
PSA and PDS. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-ELS-V1.0 PSA Level 2 CODMAC Level 3 (differential number
flux) |
ELSSCIH_DNF ELSSCIL_DNF |
~ 18.0 Gb |
Several Data Set Releases are to
be delivered every six months starting January 2007. The first delivery is 8
releases containing data from launch through June 2004. The next deliveries
contain six months of data each and are to be delivered as soon as possible
in order to catch up to a 6-month lag. The amount of time between the
‘catch-up’ deliveries depends on the review cycle and will be worked out with
PSA and PDS. |
|
|||||
|
MEX-M-ASPERA3-2-EDR-NPI-V1.0 PSA Level 1b CODMAC Level 2 Raw counts (cnts/accum) |
NPINORM_C_ACC |
~ 3.0 Gb |
Several Data Set Releases were delivered
every six months starting Feb. 2005. The first delivery contains 8 releases
of data from launch through June 2004. Data through December 2005 have been
delivered for this data set. There are no more deliveries for this data set
since the NPI data is now delivered as a combined raw / calibrated data set
(see next). |
|
|||||
|
MEX-M-ASPERA3-2/3-EDR/RDR-NPI-V1.0 PSA Level 1B / 2 CODMAC Level 2 / 3 (counts/second) |
NPINORM_C_SEC |
~ 3.0 Gb |
Several Data Set Releases are to
be delivered every six months starting July 2007. The first delivery contains
8 releases of data from launch through June 2004. The next deliveries contain
six months of data each and are to be delivered as soon as possible in order
to catch up to a 6-month lag. The amount of time between the ‘catch-up’
deliveries depends on the review / ingestion cycle and will be worked out
with PSA and PDS. |
|
|||||
|
MEX-M-ASPERA3-2-EDR-IMA-V1.0 PSA Level 1b CODMAC Level 2 Raw counts (cnts/accum) |
IMA_AZ00_C_ACC IMA_AZ01_C_ACC IMA_AZ02_C_ACC IMA_AZ03_C_ACC IMA_AZ04_C_ACC IMA_AZ05_C_ACC IMA_AZ06_C_ACC IMA_AZ07_C_ACC IMA_AZ08_C_ACC IMA_AZ09_C_ACC IMA_AZ10_C_ACC IMA_AZ11_C_ACC IMA_AZ12_C_ACC IMA_AZ13_C_ACC IMA_AZ14_C_ACC IMA_AZ15_C_ACC |
~ 120 Gb |
Several Data Set Releases are to
be delivered every six months starting in 2007. The first delivery is 8
releases containing data from launch through June 2004. The next deliveries
contain six months of data each and are to be delivered as soon as possible in
order to catch up to a 6-month lag. The amount of time between the ‘catch-up’
deliveries depends on the review cycle and will be worked out with PSA and
PDS. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-IMA-V1.0 PSA Level 2 CODMAC Level 3 (differential
number flux) |
IMA_AZ00_DNF IMA_AZ01_DNF IMA_AZ02_DNF IMA_AZ03_DNF
IMA_AZ04_DNF IMA_AZ05_DNF IMA_AZ06_DNF IMA_AZ07_DNF IMA_AZ08_DNF IMA_AZ09_DNF
IMA_AZ10_DNF IMA_AZ11_DNF IMA_AZ12_DNF IMA_AZ13_DNF IMA_AZ14_DNF IMA_AZ15_DNF
|
~ 120 Gb |
TBD |
|
|||||
|
MEX-M-ASPERA3-2-EDR-NPD-V1.0 PSA Level 1b CODMAC Level 2 Raw counts (cnts/accum) |
TBD |
TBD |
TBD |
|
|||||
|
MEX-M-ASPERA3-3-RDR-NPD-V1.0 PSA Level 2 CODMAC Level 3 (counts/second) |
TBD |
TBD |
TBD |
|
|||||
Since the ASPERA-3 data products tend to have sparsely populated data rows and variable length field values, the PDS SPREADSHEET is the chosen storage format for archival of these data. The SPREADSHEET is an ASCII data object containing logically uniform rows with fixed numbers of variable-length fields separated by field delimiters. For ASPERA-3 data products, the field delimiters are always commas. The SPREADSHEET object row delimiters are always carriage-return line-feed (<CR><LF>) ASCII line termination characters. The format for the SPREADSHEET objects is a comma-separated value format in which string fields are enclosed in double quotes and the extension for the data files is CSV. This format can be imported directly into many commercial data management systems and spreadsheet applications.
The ASPERA-3 SPREADSHEET objects for each data set describe rows of data with eight (8) possible FIELDS (columns) that are always delimited with COMMAs. The VALUES field can contain several items each also delimited with COMMAs. If the data are NOT from a ‘scanning’ instrument, then ITEMS = 1 for the VALUES FIELD object; otherwise, ITEMS > 1, where each item is a data value corresponding to a ‘scan’ parameter (such as center energy). Since each row can (and does for ASPERA-3) contain values from different data types and sensors, each row has fields to describe the data in that row.
The general ASPERA-3 data product format is given in the following table.
|
|||||
|
Object Field Name |
Type |
# Bytes / Format |
Description |
|
|
|
START TIME |
TIME |
21 yyyy-dddThh:mm:ss.sss |
The start time in UTC ‘Day Of Year’ (DOY)
format of the data sample(s) in the current row. |
|
|
|
STOP TIME |
TIME |
21 yyyy-dddThh:mm:ss.sss |
The stop time in UTC ‘Day Of Year (DOY) format of
the data sample(s) in the current row. |
|
|
|
DATA TYPE NAME |
CHAR |
11 / A11 |
Identifies the type of data sampled in the
current row. |
|
|
|
DATA TYPE ID |
INT |
1 / I1 |
Identifies the type of data sampled in the
current row. |
|
|
|
DATA NAME |
CHAR |
50 / A50 |
The name of the data parameter in the current
row. |
|
|
|
DATA UNIT |
CHAR |
50 / A50 |
The units of the data value(s) in the current
row. |
|
|
|
VALUES |
INT or REAL |
Maximum 14 per ITEM Iw, Fw.e, or Ew.e |
Data value for each data item
in the current row. Data items can be variable for each row. |
|
|
|
DATA QUALITY VALUE |
INT |
3 I3 |
The data quality value
associated with all the data items in the current row. This column is
optional and may not appear in all data sets. |
|
|
TIME fields are PDS Date/Time format described in section 3.2.2.1
CHAR fields are maximum values and not padded, so only what is needed is what is used.
REAL fields for data values are formatted for greatest possible accuracy and DO NOT reflect accuracy of the instrumentation measurement capability.
All ELS data on an archive volume are in the DATA directory. Each data set delivery release adds a new subdirectory of data to the DATA directory. All ELS data are in .CSV format with associated detached PDS .LBL files. The following table indicates the DATA subdirectories and contents of the ELS data sets.
|
||||||||
|
Data Set Release Time Period |
Data Set ID Subdirectory / File Name |
File Contents |
|
||||
|
Data Set Release 1 Earth Verification (EV) Data Data taken during the cruise phase when
Mars Express is closer to Earth than to Mars. This is mostly the |
MEX-M-ASPERA3-2-EDR-ELS-V1.0 ELS_EDR_L1B_2003_EV / ELSSCIL*.CSV
ELS_EDR_L1B_2003_EV / ELSSCIL*.LBL ELS_EDR_L1B_2003_EV / ELSSCIH*.CSV
ELS_EDR_L1B_2003_EV / ELSSCIH*.LBL |
These ELS files contain the PSA level
1b, CODMAC level 2 science low (ELSSCIL*) and science high (ELSSCIH*) energy
range data in counts/accumulation. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-ELS-V1.0 ELS_RDR_L2_2003_EV / ELSSCIL*.CSV ELS_RDR_L2_2003_EV
/ ELSSCIL*.LBL ELS_RDR_L2_2003_EV / ELSSCIH*.CSV ELS_RDR_L2_2003_EV /
ELSSCIH*.LBL |
These ELS files contain the PSA level 2,
CODMAC level 3 science low (ELSSCIL*) and science high (ELSSCIH*) energy
range data in differential number flux units. |
|
||||||
|
Data Set Release 2 Inter-Cruise (IC) Data Data taken during the cruise phase when
Mars Express is closer to Mars than to Earth but before Mars Orbit Insertion.
This includes all data for time period October 2003 through December 2003. |
MEX-M-ASPERA3-2-EDR-ELS-V1.0 ELS_EDR_L1B_2003_IC / ELSSCIL*.CSV ELS_EDR_L1B_2003_IC
/ ELSSCIL*.LBL ELS_EDR_L1B_2003_IC / ELSSCIH*.CSV ELS_EDR_L1B_2003_IC /
ELSSCIH*.LBL |
These ELS files contain the PSA level
1b, CODMAC level 2 science low (ELSSCIL*) and science high (ELSSCIH*) energy
range data in counts/accumulation. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-ELS-V1.0 ELS_RDR_L2_2003_IC / ELSSCIL*.CSV ELS_RDR_L2_2003_IC
/ ELSSCIL*.LBL ELS_RDR_L2_2003_IC / ELSSCIH*.CSV ELS_RDR_L2_2003_IC /
ELSSCIH*.LBL |
These ELS files contain the PSA level 2,
CODMAC level 3 science low (ELSSCIL*) and science high (ELSSCIH*) energy
range data in differential number flux units. |
|
||||||
|
Data Set Release 3 January 2004 Data (2004_01) Data taken during January 2004 – first
Mars orbits. |
MEX-M-ASPERA3-2-EDR-ELS-V1.0 ELS_EDR_L1B_2004_01 / ELSSCIL*.CSV ELS_EDR_L1B_2004_01
/ ELSSCIL*.LBL ELS_EDR_L1B_2004_01 / ELSSCIH*.CSV ELS_EDR_L1B_2004_01 /
ELSSCIH*.LBL |
These ELS files contain the PSA level
1b, CODMAC 2 science low (ELSSCIL*) and science high (ELSSCIH*) energy range
data in counts/accumulation. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-ELS-V1.0 ELS_RDR_L2_2004_01 / ELSSCIL*.CSV ELS_RDR_L2_2004_01
/ ELSSCIL*.LBL ELS_RDR_L2_2004_01 / ELSSCIH*.CSV ELS_RDR_L2_2004_01 /
ELSSCIH*.LBL |
These ELS files contain the PSA level 2,
CODMAC level 3 science low (ELSSCIL*) and science high (ELSSCIH*) energy
range data in differential number flux units. |
|
||||||
|
Data Set Release N, N > 3 Data taken during year YYYY and month MM
(01-12) while orbiting Mars. |
MEX-M-ASPERA3-2-EDR-ELS-V1.0 ELS_EDR_L1B_YYYY_MM / ELSSCIL*.CSV ELS_EDR_L1B_YYYY_MM
/ ELSSCIL*.LBL ELS_EDR_L1B_YYYY_MM / ELSSCIH*.CSV ELS_EDR_L1B_YYYY_MM /
ELSSCIH*.LBL |
These ELS files contain the PSA level
1b, CODMAC level 2 science low (ELSSCIL*) and science high (ELSSCIH*) energy
range data in counts/accumulation. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-ELS-V1.0 ELS_RDR_L2_YYYY_MM / ELSSCIL*.CSV ELS_RDR_L2_YYYY_MM
/ ELSSCIL*.LBL ELS_RDR_L2_YYYY_MM / ELSSCIH*.CSV ELS_RDR_L2_YYYY_MM /
ELSSCIH*.LBL |
These ELS files contain the PSA level 2,
CODMAC level 3 science low (ELSSCIL*) and science high (ELSSCIH*) energy
range data in differential number flux units. |
|
||||||
All ELS data products have the same format, and each row (data file record) in the ELS SPREADSHEET data products has eight (8) COLUMN objects. The VALUES COLUMN object has an ITEMS element, where 0 < ITEMS ≤ 128 for ELS. The number of ITEMS in the VALUES object is the same for each data product, but will vary between data products. There are 16 SENSOR DATA TYPE NAME rows (records), one for each of the 16 ELS sectors, followed by a corresponding SCAN DATA TYPE NAME row. Each SCAN VALUE (Deflection Potential in volts) corresponds to the same ITEM element of the previous 16 SENSOR rows. Thus, the START TIME and STOP TIME are the same for the SENSOR records and corresponding SCAN record. The DATA QUALITY VALUE is only applicable for the SENSOR data. The 16 SENSOR rows and one SCAN row are followed by 23 rows (records) of mode data. All 23 rows of MODE DATA cover the same time period and correspond to the previous 16 SENSOR DATA TYPE NAME rows. The following table shows the contents of the columns for the different rows of the ELS data products.
|
|||||||||
|
START TIME |
STOP TIME |
DATA TYPE NAME |
DATA TYPE ID |
DATA NAME |
DATA UNIT |
VALUES |
DATA QUALITY VALUE |
|
|
Sensor 0 Start Time |
Sensor 0 Stop Time |
SENSOR |
1 |
ELS Sector 0 XR, where X = L for Low range data and H for High range
data |
c/acc (raw, EDR) or cnts/(cm2-sr-sec-eV) (diff. number flux, RDR) |
ITEMS # of data values, Comma delimited |
0 – 4 and fill value, .LBL file
has descriptions |
|
|
Sensor 1 Start Time |
Sensor 1 Stop Time |
SENSOR |
1 |
ELS Sector 1 XR, where X = L for Low range data and H for High range
data |
c/acc (raw, EDR) or cnts/(cm2-sr-sec-eV) (diff. number flux, RDR) |
ITEMS # of data values, Comma delimited |
0 – 4 and fill value, .LBL file has descriptions |
|
|
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
|
|
Sensor 15 Start Time |
Sensor 15 Stop Time |
SENSOR |
1 |
ELS Sector 15 XR, where X = L for Low range data and H for High range
data |
c/acc (raw, EDR) or cnts/(cm2-sr-sec-eV) (diff. number flux, RDR) |
ITEMS # of data values, Comma delimited |
0 – 4 and fill value, .LBL file has descriptions |
|
|
Start Time for previous 16 sensors |
Stop Time for previous 16 sensors |
SCAN |
2 |
Deflection Potential |
Volts |
ITEMS # of data values, Comma delimited |
N/A |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Software Version – Upper Byte |
Unitless |
Upper byte of flight s/w version |
N/A |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Software Version – Lower Byte |
Unitless |
Lower byte of flight s/w version |
N/A |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Software Mode |
Unitless |
0 – off 1 – booting 2 – safe 3 – PROM 4 - normal |
N/A |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Time Summation |
Unitless |
Number of sweeps summed in telemetry |
N/A |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Step Summation |
Unitless |
0 – no sums 1 – every 2 2 – every 4 |
N/A |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Log Compression |
Unitless |
0 – off 1 – on |
N/A |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Sector 0 Enable |
Unitless |
0 – disabled 1 – enabled |
N/A |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Sector 1 Enable |
Unitless |
0 – disabled 1 – enabled |
N/A |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Sector 2 Enable |
Unitless |
0 – disabled 1 – enabled |
N/A |
|
|
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Sector 15 Enable |
Unitless |
0 – disabled 1 – enabled |
N/A |
|
|
Start Time for previous sensor data |
Stop Time for previous sensor data |
MODE DATA |
4 |
Number of Active Anodes |
Unitless |
0 – 16; number of enabled sectors |
N/A |
|
SCAN data: During the PSA conducted independent review of the ELS data set, it was suggested, and approved by IRF, PSA and PDS-PPI, to provide the deflection potential (voltages) instead of the center electron energies in the data files. This reduces the data files by ~40% because the center energies vary slightly between ELS sectors, and thus a SCAN row would have to be written per SENSOR row. By providing the deflection potential, only one SCAN row per 16 sensor rows is written. The center electron energies are calculated by multiplying the K_FACTOR (eV/volt) for each sector with the deflection voltages in the SCAN row. The K_FACTORs are found in the calibration tables in the CALIB directory.
MODE DATA: The mode data give the state of the instrumentation as received in telemetry during the data sampling. These data are beneficial for data processing, and are included only for informational purposes in the archive.
|
PDS_VERSION_ID = PDS3 RECORD_TYPE = STREAM FILE_RECORDS = 40425
DATA_SET_ID =
"MEX-M-ASPERA3-2-EDR-ELS-V1.0" STANDARD_DATA_PRODUCT_ID = "ELSSCIL_C_ACC" PRODUCT_ID =
"ELSSCIL20031741842C_ACCS01" PRODUCT_TYPE = "DATA" PRODUCT_CREATION_TIME = 2004-11-29T18:02:33 RELEASE_ID = 0001 REVISION_ID = 0000
START_TIME =
2003-174T18:42:52.830
STOP_TIME =
2003-174T19:38:55.221
SPACECRAFT_CLOCK_START_COUNT
= "1/0004473766.09844" SPACECRAFT_CLOCK_STOP_COUNT = "1/0004477128.35439"
INSTRUMENT_HOST_NAME = "MARS EXPRESS" INSTRUMENT_HOST_ID = "MEX" MISSION_PHASE_NAME = "EV" MISSION_NAME = "MARS
EXPRESS"
TARGET_NAME = "SOLAR
WIND" TARGET_TYPE = "PLASMA
CLOUD"
ORBIT_NUMBER = "N/A" INSTRUMENT_NAME = "
ANALYZER OF SPACE PLASMA AND ENERGETIC
ATOMS (3RD VERSION)" INSTRUMENT_ID = "ASPERA-3" PRODUCER_ID = "SJEFFERS" PRODUCER_FULL_NAME = "SANDEE JEFFERS"
NOTE = "
ELSSCIL20031741842C_ACCS01.CSV contains
Mars Express ASPERA-3 data from the Electron Spectrometer (ELS)
low range (0.05 eV - 150 eV). The file covers the time period 2003-174
18:42:52.830 to 2003-174 19:38:55.221 (orbit(s)
N/A)."
DESCRIPTION = "
This file contains data from
ELSSCIL: Electron Spectrometer
(ELS) science data (SCI) from the low
range (L) of the ELS power supply with up to 128 steps returned in
telemetry. These step values are in the SCAN rows of the data files
in the form of deflection
potential (volts). To convert each step per sector to center electron energies (eV), use the K_FACTORS in
the calibration
tables. Each SCAN row directly
corresponds to the previous 16 SENSOR rows where the SENSOR
value (c/acc) in a given column is the data sampled at the SCAN value
(deflection voltage) in that
same column. The SENSOR rows have one more column than
the SCAN rows.
The additional column is the data quality indicator (last column) for that sensor data. The data values are formatted for a high level of accuracy and DO NOT reflect
the accuracy of the instrumentation.
Please refer to the Data Set Catalog, ASPERA3_EDR_ELS_DS.CAT,
for detailed information about the data organization, science
meaning, data quality determination, data modes, etc."
^SPREADSHEET =
"ELSSCIL20031741842C_ACCS01.CSV" OBJECT = SPREADSHEET INTERCHANGE_FORMAT = ASCII ROWS = 40425 FIELDS = 8
ROW_BYTES = 1917 /* longest row,
<CR><LF> too.*/ FIELD_DELIMITER = "COMMA"
OBJECT = FIELD NAME = "START
TIME"
FIELD_NUMBER = 1
DATA_TYPE = TIME BYTES = 21 DESCRIPTION = "
The START TIME field specifies the
start time of the data sample(s) being returned in the current
row in UTC. The fields START TIME and STOP TIME define the
time range covered by the samples contained on the current
row."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "STOP
TIME"
FIELD_NUMBER = 2
DATA_TYPE = TIME BYTES = 21 DESCRIPTION = "
The STOP TIME field specifies the stop
time of the data sample(s) being returned in the current
row in UTC. The fields START TIME and STOP TIME define the
time range covered by the samples contained on the current
row."
END_OBJECT = FIELD OBJECT = FIELD NAME = "DATA TYPE
NAME"
FIELD_NUMBER = 3
DATA_TYPE = CHARACTER BYTES = 11 /* does not include
double quotes */ FORMAT = "A11" DESCRIPTION = "
The DATA TYPE NAME field identifies the
type of data sample(s) being returned in the current row. Valid entries include: SENSOR - primary data SCAN - center scan data associated with
the primary data CALIBRATION - calibration data associated with the
primary data MODE DATA
- instrument status (mode) data PITCH ANGLE - pitch angle data associated with the
primary data START AZ - start azimuthal angle data associated
with the primary data. The values are always between 0 and 360
degrees.
STOP AZ - stop azimuthal angle data associated
with the primary data. The values could be negative or could be greater
than 360 degrees. For example, if the data type name of
the row is SENSOR, then the data within that row contains the primary
sensor data being returned."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA TYPE
ID"
FIELD_NUMBER = 4
DATA_TYPE = ASCII_INTEGER BYTES = 1
FORMAT = "I1" DESCRIPTION = "
The DATA TYPE ID field identifies the type
of data sample(s) being returned in the current row. It is equivalent to the DATA TYPE NAME field, except expressed
as an integer instead of a string. Valid entries include: 1 - primary data
2 - center scan data associated
with the primary data 3 - calibration data associated
with the primary data 4 - instrument status (mode) data 6 - pitch angle data associated
with the primary data 7 - start azimuthal angle data
associated with the primary data. The values are always between 0 and 360
degrees. 8 - stop azimuthal angle data
associated with the primary data. The values could be negative or could be
greater than 360 degrees. For example, if the data type id of the
row is 1, then the data within that row contains the primary
sensor data being returned."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA
NAME"
FIELD_NUMBER =
5
DATA_TYPE = CHARACTER BYTES = 50 /* does not include
double quotes */ FORMAT = "A50" DESCRIPTION = "
The DATA NAME field identifies the name
of the data parameter being returned in the current
row." END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA
UNIT"
FIELD_NUMBER = 6
DATA_TYPE = CHARACTER BYTES = 50 /* double quotes not
included */ FORMAT = "A50" DESCRIPTION = "
The DATA UNIT field identifies the
units that the data values are expressed in for the current
row." END_OBJECT = FIELD OBJECT = FIELD NAME =
"VALUES" FIELD_NUMBER = 7 DATA_TYPE = ASCII_REAL BYTES = 1735 /* including
delimiters */ ITEMS = 124 ITEM_BYTES = 13 FORMAT = "E13.6" DESCRIPTION = "
This field contains the data values
associated with the data items being returned. The field DATA TYPE NAME identifies the
type of data being returned."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA QUALITY
VALUE" FIELD_NUMBER = 8
DATA_TYPE = ASCII_REAL BYTES = 13 FORMAT = "E13.6" DESCRIPTION = "
This field contains the data quality
value associated with the data being returned. Valid values include: 0 - Good Data
1 - Questionable Data 2 - Invalid Data
3 - Bad Data
4 - -3.40e+38 – Data Is Not Available Refer to the data set catalog file for
a more in-depth explanation of how the setting of these values are
determined." END_OBJECT = FIELD END_OBJECT = SPREADSHEET
END
|
All IMA data on an archive volume are in the DATA directory. Each data set delivery release adds a new subdirectory of data to the DATA directory. All IMA data are in .CSV format with associated detached PDS .LBL files. The following table indicates the DATA subdirectories and contents of the IMA data sets.
|
||||||||
|
Data Set Release Time Period |
Data Set ID Subdirectory / File Name |
File Contents |
|
||||
|
Data Set Release 1 Earth Verification (EV) Data Data taken during the cruise phase when
Mars Express is closer to Earth than to Mars. This is mostly the |
MEX-M-ASPERA3-2-EDR-IMA-V1.0 IMA_EDR_L1B_2003_EV / IMA_AZ00*.CSV
IMA_EDR_L1B_2003_EV / IMA_AZ00*.LBL IMA_EDR_L1B_2003_EV / IMA_AZ01*.CSV IMA_EDR_L1B_2003_EV
/ IMA_AZ01*.LBL : IMA_EDR_L1B_2003_EV / IMA_AZ09*.CSV
IMA_EDR_L1B_2003_EV / IMA_AZ09*.LBL IMA_EDR_L1B_2003_EV / IMA_AZ10*.CSV
IMA_EDR_L1B_2003_EV / IMA_AZ10*.LBL : IMA_EDR_L1B_2003_EV / IMA_AZ15*.CSV IMA_EDR_L1B_2003_EV
/ IMA_AZ15*.LBL |
These IMA files contain the PSA level
1b, CODMAC level 2, IMA Azimuth anodes 0-15 energy x mass channel data in raw
counts. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-IMA-V1.0 IMA_RDR_L2_2003_EV / IMA_AZ00*.CSV
IMA_RDR_L2_2003_EV / IMA_AZ00*.LBL IMA_RDR_L2_2003_EV / IMA_AZ01*.CSV
IMA_RDR_L2_2003_EV / IMA_AZ01*.LBL : IMA_RDR_L2_2003_EV / IMA_AZ09*.CSV
IMA_RDR_L2_2003_EV / IMA_AZ09*.LBL IMA_RDR_L2_2003_EV / IMA_AZ10*.CSV
IMA_RDR_L2_2003_EV / IMA_AZ10*.LBL : IMA_RDR_L2_2003_EV / IMA_AZ15*.CSV IMA_RDR_L2_2003_EV
/ IMA_AZ15*.LBL |
These IMA files contain the PSA level 2,
CODMAC level 3, IMA Azimuth anodes 0-15 energy x mass channel data in differential
number flux units. |
|
||||||
|
Data Set Release 2 Inter-Cruise (IC) Data Data taken during the cruise phase when
Mars Express is closer to Mars than to Earth but before Mars Orbit Insertion.
This includes all data for time period October 2003 through December 2003. |
MEX-M-ASPERA3-2-EDR-IMA-V1.0 IMA_EDR_L1B_2003_IC / IMA_AZ00*.CSV IMA_EDR_L1B_2003_IC
/ IMA_AZ00*.LBL IMA_EDR_L1B_2003_IC / IMA_AZ01*.CSV IMA_EDR_L1B_2003_IC /
IMA_AZ01*.LBL : IMA_EDR_L1B_2003_IC / IMA_AZ09*.CSV IMA_EDR_L1B_2003_IC
/ IMA_AZ09*.LBL IMA_EDR_L1B_2003_IC / IMA_AZ10*.CSV IMA_EDR_L1B_2003_IC /
IMA_AZ10*.LBL : IMA_EDR_L1B_2003_IC / IMA_AZ15*.CSV IMA_EDR_L1B_2003_IC
/ IMA_AZ15*.LBL |
These IMA files contain the PSA level
1b, CODMAC level 2, IMA Azimuth anodes 0-15 energy x mass channel data in raw
counts. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-IMA-V1.0 IMA_RDR_L2_2003_IC / IMA_AZ00*.CSV IMA_RDR_L2_2003_IC
/ IMA_AZ00*.LBL IMA_RDR_L2_2003_IC / IMA_AZ01*.CSV IMA_RDR_L2_2003_IC /
IMA_AZ01*.LBL : IMA_RDR_L2_2003_IC / IMA_AZ09*.CSV IMA_RDR_L2_2003_IC
/ IMA_AZ09*.LBL IMA_RDR_L2_2003_IC / IMA_AZ10*.CSV IMA_RDR_L2_2003_IC /
IMA_AZ10*.LBL : IMA_RDR_L2_2003_IC / IMA_AZ15*.CSV IMA_RDR_L2_2003_IC
/ IMA_AZ15*.LBL |
These IMA files contain the PSA level 2,
CODMAC level 3, IMA Azimuth anodes 0-15 energy x mass channel data in
differential number flux units. |
|
||||||
|
Data Set Release 3 January 2004 Data (2004_01) Data taken during January 2004 – first
Mars orbits. |
MEX-M-ASPERA3-2-EDR-IMA-V1.0 IMA_EDR_L1B_2004_01 / IMA_AZ00*.CSV IMA_EDR_L1B_2004_01
/ IMA_AZ00*.LBL IMA_EDR_L1B_2004_01 / IMA_AZ01*.CSV IMA_EDR_L1B_2004_01 /
IMA_AZ01*.LBL : IMA_EDR_L1B_2004_01 / IMA_AZ09*.CSV IMA_EDR_L1B_2004_01
/ IMA_AZ09*.LBL IMA_EDR_L1B_2004_01 / IMA_AZ10*.CSV IMA_EDR_L1B_2004_01 /
IMA_AZ10*.LBL : IMA_EDR_L1B_2004_01 / IMA_AZ15*.CSV IMA_EDR_L1B_2004_01
/ IMA_AZ15*.LB |
These IMA files contain the PSA level
1b, CODMAC level 2, IMA Azimuth anodes 0-15 energy x mass channel data in raw
counts. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-IMA-V1.0 IMA_RDR_L2_2004_01 / IMA_AZ00*.CSV IMA_RDR_L2_2004_01
/ IMA_AZ00*.LBL IMA_RDR_L2_2004_01 / IMA_AZ01*.CSV IMA_RDR_L2_2004_01 /
IMA_AZ01*.LBL : IMA_RDR_L2_2004_01 / IMA_AZ09*.CSV IMA_RDR_L2_2004_01
/ IMA_AZ09*.LBL IMA_RDR_L2_2004_01 / IMA_AZ10*.CSV IMA_RDR_L2_2004_01 /
IMA_AZ10*.LBL : IMA_RDR_L2_2004_01 / IMA_AZ15*.CSV IMA_RDR_L2_2004_01
/ IMA_AZ15*.LBL |
These IMA files contain the PSA level 2,
CODMAC level 3, IMA Azimuth anodes 0-15 energy x mass channel data in
differential number flux units. |
|
||||||
|
Data Set Release N, N > 3 Mars Data (YYYY_MM) Data taken during year YYYY and month MM
(01-12) while orbiting Mars. |
MEX-M-ASPERA3-2-EDR-IMA-V1.0 IMA_EDR_L1B_YYYY_MM / IMA_AZ00*.CSV IMA_EDR_L1B_YYYY_MM
/ IMA_AZ00*.LBL IMA_EDR_L1B_YYYY_MM / IMA_AZ01*.CSV IMA_EDR_L1B_YYYY_MM /
IMA_AZ01*.LBL : IMA_EDR_L1B_YYYY_MM / IMA_AZ09*.CSV IMA_EDR_L1B_YYYY_MM
/ IMA_AZ09*.LBL IMA_EDR_L1B_YYYY_MM / IMA_AZ10*.CSV IMA_EDR_L1B_YYYY_MM /
IMA_AZ10*.LBL : IMA_EDR_L1B_YYYY_MM / IMA_AZ15*.CSV IMA_EDR_L1B_YYYY_MM
/ IMA_AZ15*.LB |
These IMA files contain the PSA level
1b, CODMAC level 2, IMA Azimuth anodes 0-15 energy x mass channel data in raw
counts. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-IMA-V1.0 IMA_RDR_L2_YYYY_MM / IMA_AZ00*.CSV IMA_RDR_L2_YYYY_MM
/ IMA_AZ00*.LBL IMA_RDR_L2_YYYY_MM / IMA_AZ01*.CSV IMA_RDR_L2_YYYY_MM /
IMA_AZ01*.LBL : IMA_RDR_L2_YYYY_MM / IMA_AZ09*.CSV IMA_RDR_L2_YYYY_MM
/ IMA_AZ09*.LBL IMA_RDR_L2_YYYY_MM / IMA_AZ10*.CSV IMA_RDR_L2_YYYY_MM /
IMA_AZ10*.LBL : IMA_RDR_L2_YYYY_MM / IMA_AZ15*.CSV IMA_RDR_L2_YYYY_MM
/ IMA_AZ15*.LBL |
These IMA files contain the PSA level 2,
CODMAC level 3, IMA Azimuth anodes 0-15 energy x mass channel data in
differential number flux units. |
|
||||||
All IMA data products have the same format, and each row (data file record) in the IMA SPREADSHEET data products has seven (7) COLUMN objects. The VALUES COLUMN object has an ITEMS element, where ITEMS = 96 or 32 for IMA. The number of ITEMS in the VALUES object is the same for each data product, but can vary between data products. There are 32 SENSOR DATA TYPE NAME rows (records), one for each of the 32 mass channels, followed by a corresponding SCAN DATA TYPE NAME row. Each SCAN VALUE (center electron energy in eV) corresponds to the same ITEM element of the previous 32 SENSOR rows. Thus, the START TIME and STOP TIME are the same for the SENSOR records and corresponding SCAN record. The 32 SENSOR rows and one SCAN row are followed by 9 rows (records) of mode data. All 9 rows of MODE DATA cover the same time period and correspond to the previous 32 SENSOR DATA TYPE NAME rows. The following table shows the contents of the columns for the different rows of the IMA data products.
|
||||||||
|
START TIME |
STOP TIME |
DATA TYPE NAME |
DATA TYPE ID |
DATA NAME |
DATA UNIT |
VALUES |
|
|
Sensor 0 Start
Time |
Sensor 0 Stop Time |
SENSOR |
1 |
Mass Channel 0 |
c/acc (raw, EDR) or cnts/(cm2-sr-sec-eV)
(diff. number flux, RDR) |
ITEMS # of data values, Comma delimited |
|
|
Sensor 1 Start
Time |
Sensor 1 Stop Time |
SENSOR |
1 |
Mass Channel 1 |
c/acc (raw, EDR) or cnts/(cm2-sr-sec-eV)
(diff. number flux, RDR) |
ITEMS # of data values, Comma delimited |
|
|
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
|
|
Sensor 31 Start
Time |
Sensor 31 Stop Time |
SENSOR |
1 |
Mass Channel 31 |
c/acc (raw, EDR) or cnts/(cm2-sr-sec-eV)
(diff. number flux, RDR) |
ITEMS # of data values, Comma delimited |
|
|
Start Time for
previous 32 sensors |
Stop Time for previous 32
sensors |
SCAN |
2 |
Ion Energy Index |
Index into table of Center energies in eV
(Electron Volts) |
ITEMS # of data values, Comma delimited |
|
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Shadow Mask |
Unitless |
0 – disabled 1 – enabled |
|
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
High Voltage Mask |
Unitless |
0 – disabled 1 – enabled |
|
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Operational Index |
Unitless |
Indicates data mode |
|
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Solar Wind Start Index |
Unitless |
Starting index for 32-step
mode |
|
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Polar Angle Index |
Unitless |
Polar angle step level (0-15) |
|
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Azimuth Sum Mode |
Unitless |
0 – no sums 1 – every 2 2 – every 4 3 – every 8 4 – all 16 |
|
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Polar Angle Sum Mode |
Unitless |
0 – no sums 1 – every 2 2 – every 4 3 – every 8 4 – all 16 |
|
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Energy Cycle Mode |
Unitless |
0 – 96 steps 1 – 32 steps |
|
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Mass Channel Sum Mode |
Unitless |
0 – no sums 1 – every 2 2 – every 4 |
|
MODE DATA: The mode data give the state of the instrumentation as received in telemetry during the data sampling. These data are beneficial for data processing, and are included only for informational purposes in the archive.
|
PDS_VERSION_ID = PDS3 RECORD_TYPE = STREAM FILE_RECORDS = 11904
DATA_SET_ID =
"MEX-M-ASPERA3-2-EDR-IMA-V1.0" STANDARD_DATA_PRODUCT_ID = "IMA_AZ0_C_ACC" PRODUCT_ID = "IMA_AZ020032870902C_ACCS01" PRODUCT_TYPE = "DATA" PRODUCT_CREATION_TIME = 2004-11-23T17:06:19 RELEASE_ID = 0002 REVISION_ID = 0000 START_TIME =
2003-287T09:02:50.420
STOP_TIME =
2003-287T10:42:02.344
SPACECRAFT_CLOCK_START_COUNT
= "1/0014202163.26623" SPACECRAFT_CLOCK_STOP_COUNT = "1/0014208115.21634"
INSTRUMENT_HOST_NAME = "MARS EXPRESS" INSTRUMENT_HOST_ID = "MEX" MISSION_PHASE_NAME = "IC" MISSION_NAME = "MARS
EXPRESS" TARGET_NAME = "SOLAR
WIND"
TARGET_TYPE = "PLASMA
CLOUD"
ORBIT_NUMBER = "N/A" INSTRUMENT_NAME = "
ANALYZER OF SPACE PLASMA AND
ENERGETIC ATOMS (3RD VERSION)"
INSTRUMENT_ID = "ASPERA-3" PRODUCER_ID = "SJEFFERS" PRODUCER_FULL_NAME = "SANDEE JEFFERS"
NOTE = " IMA_AZ020032870902C_ACCS01.CSV contains
Mars Express ASPERA-3 data from the Ion Mass Analyzer (IMA) for
azimuth anode 0 (c/acc) in all mass channels (0-31) in energy range (1
eV - 40 keV). The file covers the time period 2003-287
09:02:50.420 to 2003-287 10:42:02.344 (orbit(s)
N/A)."
DESCRIPTION = "
This file contains data from IMA_AZ0: Ion Mass Analyzer (IMA) azimuth anode 0 (AZ0) data from all mass
channels (0-31) with energy range of 1 eV to 40 keV. The center energies (eV) of the energy
range are the SCAN values determined for all
the SENSORs (Mass channels). The SCAN row directly corresponds to the
previous SENSOR rows where the SENSOR value (c/acc) in a given
column is the data sampled at the SCAN value (center eV) in that same
column. The SENSOR rows have one more column than the SCAN
row. The additional column is the data quality indicator (last column)
for that sensor data. Please refer to the Data Set Catalog,
ASPERA3_EDR_IMA_DS.CAT, for detailed information about the data
organization, science meaning, data quality determination, data modes,
etc."
^SPREADSHEET = "IMA_AZ020032870902C_ACCS01.CSV" OBJECT = SPREADSHEET INTERCHANGE_FORMAT = ASCII ROWS = 11904 FIELDS = 8
ROW_BYTES = 1525 /* longest row,
<CR><LF> too.*/ FIELD_DELIMITER = "COMMA"
OBJECT = FIELD NAME = "START
TIME"
FIELD_NUMBER = 1
DATA_TYPE = TIME BYTES = 21 DESCRIPTION = "
The START TIME field specifies the
start time of the data sample(s) being returned in the current
row in UTC. The fields START TIME and STOP TIME define the
time range covered by the samples contained on the current
row."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "STOP
TIME" FIELD_NUMBER = 2
DATA_TYPE = TIME BYTES = 21 DESCRIPTION = "
The STOP TIME field specifies the stop
time of the data sample(s) being returned in the current
row in UTC. The fields START TIME and STOP TIME define the time
range covered by the samples contained on the current
row."
END_OBJECT = FIELD OBJECT = FIELD NAME = "DATA TYPE
NAME"
FIELD_NUMBER = 3 DATA_TYPE = CHARACTER BYTES = 11 /* does not include
double quotes */ FORMAT = "A11" DESCRIPTION = "
The DATA TYPE NAME field identifies the
type of data sample(s) being returned in the current row. Valid entries include:
SENSOR - primary data SCAN - center scan data associated with
the primary data CALIBRATION - calibration data associated with the
primary data MODE DATA - instrument status (mode) data PITCH ANGLE - pitch angle data associated with the
primary data START AZ - start azimuthal angle data associated
with the primary data. The values are always between 0 and 360
degrees.
STOP AZ - stop azimuthal angle data associated
with the primary data. The values could be negative or could be greater
than 360 degrees. For example, if the data type name of
the row is SENSOR, then the data within that row contains the primary
sensor data being returned." END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA TYPE ID" FIELD_NUMBER = 4
DATA_TYPE = ASCII_INTEGER BYTES = 1 FORMAT = "I1" DESCRIPTION = "
The DATA TYPE ID field identifies the
type of data sample(s) being returned in the current row. It is equivalent to the DATA TYPE NAME field, except expressed
as an integer instead of a string. Valid entries include: 1 - primary data
2 - center scan data associated
with the primary data 3 - calibration data associated
with the primary data 4 - instrument status (mode)
data 6 - pitch angle data associated
with the primary data 7 - start azimuthal angle data
associated with the primary data. The values are always between 0 and 360
degrees. 8 - stop azimuthal angle data
associated with the primary data. The values could be negative or could be
greater than 360 degrees. For example, if the data type id of the
row is 1, then the data within that row contains the primary
sensor data being returned."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA
NAME"
FIELD_NUMBER = 5
DATA_TYPE = CHARACTER BYTES = 50 /* does not include
double quotes */ FORMAT = "A50" DESCRIPTION = "
The DATA NAME field identifies the name
of the data parameter being returned in the current
row." END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA
UNIT"
FIELD_NUMBER = 6
DATA_TYPE = CHARACTER BYTES = 50 /* double quotes not
included */ FORMAT = "A50" DESCRIPTION = "
The DATA UNIT field identifies the
units that the data values are expressed in for the current
row." END_OBJECT = FIELD
OBJECT = FIELD NAME =
"VALUES" FIELD_NUMBER = 7 DATA_TYPE = ASCII_REAL BYTES = 1343 /* including
delimiters */ ITEMS = 96 ITEM_BYTES = 13 FORMAT = "E13.6" DESCRIPTION = "
This field contains the data values
associated with the data items being returned. The field DATA TYPE NAME identifies the
type of data being returned."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA QUALITY
VALUE" FIELD_NUMBER = 8
DATA_TYPE = ASCII_REAL BYTES = 13 FORMAT = "E13.6" DESCRIPTION = "
This field contains the data quality
value associated with the data being returned. Valid values include: 0 - Good Data
1 - Bad Data
Refer to the data set catalog file for
a more in-depth explanation of how the setting of these values are
determined." END_OBJECT = FIELD END_OBJECT = SPREADSHEET
END
|
All NPI data on an archive volume are in the DATA directory. Each data set delivery release adds a new subdirectory of data to the DATA directory. All NPI data are in .CSV format with associated detached PDS .LBL files. The following table indicates the DATA subdirectories and contents of the NPI data sets.
|
||||||||
|
Data Set Release Time Period |
Data Set ID Subdirectory / File Name |
File Contents |
|
||||
|
Data Set Release 1 Earth Verification (EV) Data Data taken during the cruise phase when
Mars Express is closer to Earth than to Mars. This is mostly the |
MEX-M-ASPERA3-2-EDR-NPI-V1.0 NPI_EDR_L1B_NEV /
NPINORM*.CSV NPI_EDR_L1B_NEV / NPINORM*.LBL |
These NPI files contain the PSA level
1b, CODMAC level 2 normal mode data in counts/accumulation. |
|
|||||
|
MEX-M-ASPERA3-2/3-EDR/RDR-NPI-V1.0 NPI_EDR_RDR_L1B_L2_2003_EV
/ NPINORM*.CSV NPI_EDR_RDR_L1B_L2_2003_EV / NPINORM*.LBL |
These NPI files contain the PSA level 1b
/ 2, CODMAC level 2 / 3 normal mode data in counts/sec (count rate). |
|
||||||
|
Data Set Release 2 Inter-Cruise (IC) Data Data taken during the cruise phase when
Mars Express is closer to Mars than to Earth but before Mars Orbit Insertion.
This includes all data for time period October 2003 through December 2003. |
MEX-M-ASPERA3-2-EDR-NPI-V1.0 NPI_EDR_L1B_IC /
NPINROM*.CSV NPI_EDR_L1B_IC / NPINORM*.LBL |
These NPI files contain the PSA level
1b, CODMAC level 2 normal mode data in counts/accumulation. |
|
|||||
|
MEX-M-ASPERA3-2/3-EDR/RDR-NPI-V1.0 NPI_EDR_RDR_L1B_L2_2003_IC
/ NPINORM*.CSV NPI_EDR_RDR_L1B_L2_2003_IC / NPINORM*.LBL |
These NPI files contain the PSA level 1b
/ 2, CODMAC level 2 / 3 normal mode data in counts/sec (count rate). |
|
||||||
|
Data Set Release 3 January 2004 Data (JAN2004) Data taken during January 2004 – first
Mars orbits. |
MEX-M-ASPERA3-2-EDR-NPI-V1.0 NPI_EDR_L1B_JAN2004 / NPINORM*.CSV NPI_EDR_L1B_JAN2004
/ NPINORM*.LBL |
These NPI files contain the PSA level
1b, CODMAC level 2 normal mode data in cnts/accum. |
|
|||||
|
MEX-M-ASPERA3-2/3-EDR/RDR-NPI-V1.0 NPI_EDR_RDR_L1B_L2_2004_01
/ NPINORM*.CSV NPI_EDR_RDR_L1B_L2_2004_01 / NPINORM*.LBL |
These NPI files contain the PSA level 1b
/ 2, CODMAC level 2 / 3 normal mode data in counts/sec (count rate). |
|
||||||
|
Data Set Release N, N > 3 Mars Data (YYYY_MM) Data taken during year YYYY and month MM
(01-12) while orbiting Mars. |
MEX-M-ASPERA3-2-EDR-NPI-V1.0 NPI_EDR_L1B_MMMYYYY /
NPINORM*.CSV NPI_EDR_L1B_MMMYYYY / NPINORM*.LBL |
These NPI files contain the PSA level
1b, CODMAC level 2 normal mode data in cnts/accum. |
|
|||||
|
MEX-M-ASPERA3-2/3-EDR/RDR-NPI-V1.0 NPI_EDR_RDR_L1B_L2_YYYY_MM
/ NPINORM*.CSV NPI_EDR_RDR_L1B_L2_YYYY_MM / NPINORM*.LBL |
These NPI files contain the PSA level 1b
/ 2, CODMAC level 2 / 3 normal mode data in counts/sec (count rate). |
|
||||||
All NPI data products have the same format, and each row (data file record) in the NPI SPREADSHEET data products has eight (8) COLUMN objects. The VALUES COLUMN object has an ITEMS element, where ITEMS = 1 for NPI. There are 32 SENSOR rows, one for each NPI sector, followed by 40 rows (records) of mode data. All 40 rows of MODE DATA cover the same time period and correspond to the previous 32 SENSOR DATA TYPE NAME rows. The following table shows the contents of the columns for the NPI data product rows.
|
||||||||||||||||||
|
START TIME |
STOP TIME |
DATA TYPE NAME |
DATA TYPE ID |
DATA NAME |
DATA UNIT |
VALUES |
DATA QUALITY VALUE |
|
|||||||||
|
Sensor 0 Start
Time |
Sensor 0 Stop Time |
SENSOR |
1 |
NPI Sector 0 |
cnts/acc (EDR) or cnts/sec (EDR/RDR) |
1 Value per sector (row) |
0 – 4 and fill value, .LBL file has descriptions |
|
|||||||||
|
Sensor 1 Start
Time |
Sensor 1 Stop Time |
SENSOR |
1 |
NPI Sector 1 |
cnts/acc (EDR) or cnts/sec (EDR/RDR) |
1 Value per sector (row) |
0 – 4 and fill value, .LBL file has
descriptions |
|
|||||||||
|
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
|
|||||||||
|
Sensor 31 Start
Time |
Sensor 31 Stop Time |
SENSOR |
1 |
NPI Sector 31 |
cnts/acc (EDR) or cnts/sec (EDR/RDR) |
1 Value per sector (row) |
0 – 4 and fill value, .LBL file has
descriptions |
|
|||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Software Version – Upper Byte |
Unitless |
Upper byte of flight s/w version |
N/A |
||||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Software Version – Lower Byte |
Unitless |
Lower byte of flight s/w version |
N/A |
||||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Software Mode |
Unitless |
0 – off 1 – booting 2 – safe 3 – PROM 4 - normal |
N/A |
||||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Log Compression Enabled |
Unitless |
0 – disabled 1 – enabled |
N/A |
||||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
RICE Compression Enabled |
Unitless |
0 – disabled 1 – enabled |
N/A |
||||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Accumulation Time |
Unitless |
N = 0-15, power of 2 to calculate data
accumulation time in secs: 2N * 0.03125 |
N/A |
|
|||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Sector 0 Enable |
Unitless |
0 – disabled 1 – enabled |
N/A |
||||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Sector 1 Enable |
Unitless |
0 – disabled 1 – enabled |
N/A |
||||||||||
|
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
. . . |
|
|||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Sector 31 Enable |
Unitless |
0 – disabled 1 – enabled |
N/A |
||||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
Number of Active Anodes |
Unitless |
0 – 32; number of enabled
sectors |
N/A |
||||||||||
|
Start Time for
previous sensor data |
Stop Time for previous sensor
data |
MODE DATA |
4 |
NPI MCP Mode |
Unitless |
0 – >
-2350V 1 – -2350V to -2450V 2 –
-2450V to -2550V 3 –
-2550V to -2650V |
N/A |
||||||||||
MODE DATA: The mode data give the state of the instrumentation as received in telemetry during the data sampling. These data are beneficial for data processing, and are included only for informational purposes in the archive.
|
PDS_VERSION_ID = PDS3 RECORD_TYPE = STREAM FILE_RECORDS = 1064
DATA_SET_ID = "MEX-M-ASPERA3-2/3-EDR/RDR-NPI-V1.0"
STANDARD_DATA_PRODUCT_ID = "NPINORM_C_SEC" PRODUCT_ID = "NPINORM20040212052C_SEC01" PRODUCT_TYPE = "DATA" PRODUCT_CREATION_TIME = 2007-03-30T20:37:17 RELEASE_ID = 0003 REVISION_ID = 0000
START_TIME =
2004-021T20:52:26.985
STOP_TIME =
2004-021T20:52:58.985 SPACECRAFT_CLOCK_START_COUNT
= "1/0022798340.01504" SPACECRAFT_CLOCK_STOP_COUNT = "1/0022798372.01504"
INSTRUMENT_HOST_NAME = "MARS EXPRESS" INSTRUMENT_HOST_ID = "MEX" MISSION_PHASE_NAME = "MC Phase 1" MISSION_NAME = "MARS EXPRESS" TARGET_NAME = "MARS" TARGET_TYPE = "PLANET" ORBIT_NUMBER = 38 INSTRUMENT_NAME = "
ANALYZER OF SPACE PLASMA AND
ENERGETIC ATOMS (3RD VERSION)"
INSTRUMENT_ID = "ASPERA-3" PRODUCER_ID = "SJEFFERS" PRODUCER_FULL_NAME = "SANDEE JEFFERS"
NOTE = "
NPINORM20040212052C_SEC01.CSV contains
Mars Express ASPERA-3 data from the Neutral Particle Imager (NPI) in
c/sec sampled in the energy range of 0.1 keV to 60 keV. The file covers the time period 2004-021
20:52:26.985 to 2004-021 20:52:58.985 (beginning orbit
38)." DESCRIPTION = "
This file contains data for NPINORM:
Neutral Particle Imager (NPI) normal instrument mode (NORM). There are 32 azimuthal sectors and data are sampled in the energy range of
0.1 keV to 60 keV. Each row contains a single data value (SENSOR) in
c/sec corresponding to one of the 32 azimuthal sectors, followed by
a data quality indicator. The NPI Instrument is stationary (not
rotating) for this data – the ASPERA-3 scanning unit is parked and has
not yet been turned on. Please refer to the Data Set Catalog,
ASPERA3_EDR_RDR_NPI_DS.CAT, for detailed information about data
organization, science meaning, data
quality determination, data modes,
etc."
^SPREADSHEET = "NPINORM20040212052C_SEC01.CSV" OBJECT = SPREADSHEET INTERCHANGE_FORMAT = ASCII ROWS = 1064 FIELDS = 8
ROW_BYTES = 193 /* longest row,
<CR><LF> too.*/ FIELD_DELIMITER = "COMMA"
OBJECT = FIELD NAME = "START
TIME"
FIELD_NUMBER = 1
DATA_TYPE = TIME BYTES = 21 DESCRIPTION = " The START TIME field specifies the
start time of the data sample(s) being returned in the current
row in UTC. The fields START TIME and STOP TIME define the
time range covered by the samples contained on the current
row."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "STOP
TIME"
FIELD_NUMBER = 2
DATA_TYPE = TIME BYTES = 21 DESCRIPTION = "
The STOP TIME field specifies the stop
time of the data sample(s) being returned in the current
row in UTC. The fields START TIME and STOP TIME define the
time range covered by the samples contained on the current
row." END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA TYPE
NAME"
FIELD_NUMBER = 3
DATA_TYPE = CHARACTER BYTES
= 11 /* does not
include double quotes */ FORMAT = "A11" DESCRIPTION = "
The DATA TYPE NAME field identifies the
type of data sample(s) being returned in the current row. Valid entries include: SENSOR - primary data MODE DATA - instrument status (mode) data For example, if the data type name of
the row is SENSOR, then the data within that row contains the primary
sensor data being returned."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA TYPE
ID"
FIELD_NUMBER = 4
DATA_TYPE = ASCII_INTEGER BYTES = 1
FORMAT = "I1" DESCRIPTION = "
The DATA TYPE ID field identifies the
type of data sample(s) being returned in the current row. It is equivalent to the DATA TYPE NAME field, except expressed
as an integer instead of a string. Valid entries include: 1 - primary data 4 - instrument status (mode)
data For example, if the data type id of the
row is 1, then the data within that row contains the primary
sensor data being returned."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA NAME" FIELD_NUMBER = 5
DATA_TYPE = CHARACTER BYTES = 50 /* does not include
double quotes */ FORMAT = "A50" DESCRIPTION = "
The DATA NAME field identifies the name
of the data parameter being returned in the current
row." END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA
UNIT"
FIELD_NUMBER = 6
DATA_TYPE = CHARACTER BYTES = 50 /* double quotes not
included */ FORMAT = "A50" DESCRIPTION = " The DATA UNIT field identifies the
units that the data values are expressed in for the current
row." END_OBJECT = FIELD
OBJECT = FIELD NAME =
"VALUES"
FIELD_NUMBER =
7
DATA_TYPE = ASCII_INTEGER
BYTES = 12 /*
including delimiters */
ITEMS = 1
ITEM_BYTES = 12 DESCRIPTION = "
This field contains the data values
associated with the data items being returned. The field DATA TYPE NAME identifies the
type of data being returned."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA QUALITY
VALUE" FIELD_NUMBER = 8
DATA_TYPE = ASCII_INTEGER
BYTES = 3 FORMAT
= "I3" DESCRIPTION = "
This field contains the data quality
value associated with the data being returned. Valid values include: 0 - Good Data
1 - Questionable Data 2 - Invalid Data 3 - Bad Data
4 - -1 – Data Is Not Available Refer to the data set catalog file for
a more in-depth explanation of how the setting of these values are
determined." END_OBJECT = FIELD END_OBJECT = SPREADSHEET
END
|
All NPD data on an archive volume are in the DATA directory. Each data set delivery release adds a new subdirectory of data to the DATA directory. All NPD data are in .CSV format with associated detached PDS .LBL files. The following table indicates the DATA subdirectories and contents of the NPD data sets.
|
||||||||
|
Data Set Release Time Period |
Data Set ID Subdirectory / File Name |
File Contents |
|
||||
|
Data Set Release 1 Earth Verification (EV) Data Data taken during the cruise phase when
Mars Express is closer to Earth than to Mars. This is mostly the |
MEX-M-ASPERA3-2-EDR-NPD-V1.0 NPD_EDR_L1B_2003_EV / NPD1RAW*.CSV NPD_EDR_L1B_2003_EV / NPD1RAW*.LBL NPD_EDR_L1B_2003_EV / NPD1TOF*.CSV NPD_EDR_L1B_2003_EV / NPD1TOF*.LBL NPD_EDR_L1B_2003_EV / NPD1BM1*.CSV NPD_EDR_L1B_2003_EV / NPD1BM1*.LBL NPD_EDR_L1B_2003_EV / NPD2RAW*.CSV NPD_EDR_L1B_2003_EV / NPD2RAW*.LBL NPD_EDR_L1B_2003_EV / NPD2TOF*.CSV NPD_EDR_L1B_2003_EV / NPD2TOF*.LBL NPD_EDR_L1B_2003_EV / NPD2BM1*.CSV NPD_EDR_L1B_2003_EV / NPD2BM1*.LBL |
These NPD files contain the PSA level
1b, CODMAC level 2 RAW, TOF, and Bin Matrix mode data in counts/accumulation
for NPD1 and NPD2. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-NPD-V1.0 NPD_RDR_L2_2003_EV / NPD1RAW*.CSV NPD_RDR_L2_2003_EV / NPD1RAW*.LBL NPD_RDR_L2_2003_EV / NPD1TOF*.CSV NPD_RDR_L2_2003_EV / NPD1TOF*.LBL NPD_RDR_L2_2003_EV / NPD1BM1*.CSV NPD_RDR_L2_2003_EV / NPD1BM1*.LBL NPD_RDR_L2_2003_EV / NPD2RAW*.CSV NPD_RDR_L2_2003_EV / NPD2RAW*.LBL NPD_RDR_L2_2003_EV / NPD2TOF*.CSV NPD_RDR_L2_2003_EV / NPD2TOF*.LBL NPD_RDR_L2_2003_EV / NPD2BM1*.CSV NPD_RDR_L2_2003_EV / NPD2BM1*.LBL NPD_RDR_L2_2003_EV / TBD*.CSV NPD_RDR_L2_2003_EV / TBD*.LBL |
These NPD files contain the PSA level 2,
CODMAC level 3 RAW, TOF, and Bin Matrix mode data in counts/second (count
rate) for NPD1 and NPD2. NPD re-binned RAW mode spectra data TBD |
|
||||||
|
Data Set Release 2 Inter-Cruise (IC) Data Data taken during the cruise phase when
Mars Express is closer to Mars than to Earth but before Mars Orbit Insertion.
This includes all data for time period October 2003 through December 2003. |
MEX-M-ASPERA3-2-EDR-NPD-V1.0 NPD_EDR_L1B_2003_IC / NPD1RAW*.CSV NPD_EDR_L1B_2003_IC / NPD1RAW*.LBL NPD_EDR_L1B_2003_IC / NPD1TOF*.CSV NPD_EDR_L1B_2003_IC / NPD1TOF*.LBL NPD_EDR_L1B_2003_IC / NPD1BM1*.CSV NPD_EDR_L1B_2003_IC / NPD1BM1*.LBL NPD_EDR_L1B_2003_IC / NPD2RAW*.CSV NPD_EDR_L1B_2003_IC / NPD2RAW*.LBL NPD_EDR_L1B_2003_IC / NPD2TOF*.CSV NPD_EDR_L1B_2003_IC / NPD2TOF*.LBL NPD_EDR_L1B_2003_IC / NPD2BM1*.CSV NPD_EDR_L1B_2003_IC / NPD2BM1*.LBL |
These NPD files contain the PSA level
1b, CODMAC level 2 RAW, TOF, and Bin Matrix mode data in counts/accumulation for NPD1 and NPD2. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-NPD-V1.0 NPD_RDR_L2_2003_IC / NPD1RAW*.CSV NPD_RDR_L2_2003_IC / NPD1RAW*.LBL NPD_RDR_L2_2003_IC / NPD1TOF*.CSV NPD_RDR_L2_2003_IC / NPD1TOF*.LBL NPD_RDR_L2_2003_IC / NPD1BM1*.CSV NPD_RDR_L2_2003_IC / NPD1BM1*.LBL NPD_RDR_L2_2003_IC / NPD2RAW*.CSV NPD_RDR_L2_2003_IC / NPD2RAW*.LBL NPD_RDR_L2_2003_IC / NPD2TOF*.CSV NPD_RDR_L2_2003_IC / NPD2TOF*.LBL NPD_RDR_L2_2003_IC / NPD2BM1*.CSV NPD_RDR_L2_2003_IC / NPD2BM1*.LBL NPD_RDR_L2_2003_IC / TBD*.CSV NPD_RDR_L2_2003_IC / TBD*.LBL |
These NPD files contain the PSA level 2,
CODMAC level 3 RAW, TOF, and Bin Matrix mode data in counts/second (count
rate) for NPD1 and NPD2. NPD re-binned RAW mode spectra data TBD |
|
||||||
|
Data Set Release 3 January 2004 Data (2004_01) Data taken during January 2004 – first
Mars orbits. |
MEX-M-ASPERA3-2-EDR-NPD-V1.0 NPD_EDR_L1B_2004_01 / NPD1RAW*.CSV NPD_EDR_L1B_2004_01 / NPD1RAW*.LBL NPD_EDR_L1B_2004_01 / NPD1TOF*.CSV NPD_EDR_L1B_2004_01 / NPD1TOF*.LBL NPD_EDR_L1B_2004_01 / NPD1BM1*.CSV NPD_EDR_L1B_2004_01 / NPD1BM1*.LBL NPD_EDR_L1B_2004_01 / NPD2RAW*.CSV NPD_EDR_L1B_2004_01 / NPD2RAW*.LBL NPD_EDR_L1B_2004_01 / NPD2TOF*.CSV NPD_EDR_L1B_2004_01 / NPD2TOF*.LBL NPD_EDR_L1B_2004_01 / NPD2BM1*.CSV NPD_EDR_L1B_2004_01 / NPD2BM1*.LBL |
These NPD files contain the PSA level
1b, CODMAC level 2 RAW, TOF, and Bin Matrix mode data in counts/accumulation for NPD1 and NPD2. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-NPD-V1.0 NPD_RDR_L2_2004_01 / NPD1RAW*.CSV NPD_RDR_L2_2004_01 / NPD1RAW*.LBL NPD_RDR_L2_2004_01 / NPD1TOF*.CSV NPD_RDR_L2_2004_01 / NPD1TOF*.LBL NPD_RDR_L2_2004_01 / NPD1BM1*.CSV NPD_RDR_L2_2004_01 / NPD1BM1*.LBL NPD_RDR_L2_2004_01 / NPD2RAW*.CSV NPD_RDR_L2_2004_01 / NPD2RAW*.LBL NPD_RDR_L2_2004_01 / NPD2TOF*.CSV NPD_RDR_L2_2004_01 / NPD2TOF*.LBL NPD_RDR_L2_2004_01 / NPD2BM1*.CSV NPD_RDR_L2_2004_01 / NPD2BM1*.LBL NPD_RDR_L2_2004_01 / TBD*.CSV NPD_RDR_L2_2004_01 / TBD*.LBL |
These NPD files contain the PSA level 2,
CODMAC level 3 RAW, TOF, and Bin Matrix mode data in counts/second (count
rate) for NPD1 and NPD2. NPD re-binned RAW mode spectra data TBD |
|
||||||
|
Data Set Release N, N > 3 Mars Data (YYYY_MM) Data taken during year YYYY and month MM
(01-12) while orbiting Mars. |
MEX-M-ASPERA3-2-EDR-NPD-V1.0 NPD_EDR_L1B_YYYY_MM / NPD1RAW*.CSV NPD_EDR_L1B_YYYY_MM / NPD1RAW*.LBL NPD_EDR_L1B_YYYY_MM / NPD1TOF*.CSV NPD_EDR_L1B_YYYY_MM / NPD1TOF*.LBL NPD_EDR_L1B_YYYY_MM / NPD1BM1*.CSV NPD_EDR_L1B_YYYY_MM / NPD1BM1*.LBL NPD_EDR_L1B_YYYY_MM / NPD2RAW*.CSV NPD_EDR_L1B_YYYY_MM / NPD2RAW*.LBL NPD_EDR_L1B_YYYY_MM / NPD2TOF*.CSV NPD_EDR_L1B_YYYY_MM / NPD2TOF*.LBL NPD_EDR_L1B_YYYY_MM / NPD2BM1*.CSV NPD_EDR_L1B_YYYY_MM / NPD2BM1*.LBL |
These NPD files contain the PSA level
1b, CODMAC level 2 RAW, TOF, and Bin Matrix mode data in counts/accumulation for NPD1 and NPD2. |
|
|||||
|
MEX-M-ASPERA3-3-RDR-NPD-V1.0 NPD_RDR_L2_YYYY_MM / NPD1RAW*.CSV NPD_RDR_L2_YYYY_MM / NPD1RAW*.LBL NPD_RDR_L2_YYYY_MM / NPD1TOF*.CSV NPD_RDR_L2_YYYY_MM / NPD1TOF*.LBL NPD_RDR_L2_YYYY_MM / NPD1BM1*.CSV NPD_RDR_L2_YYYY_MM / NPD1BM1*.LBL NPD_RDR_L2_YYYY_MM / NPD2RAW*.CSV NPD_RDR_L2_YYYY_MM / NPD2RAW*.LBL NPD_RDR_L2_YYYY_MM / NPD2TOF*.CSV NPD_RDR_L2_YYYY_MM / NPD2TOF*.LBL NPD_RDR_L2_YYYY_MM / NPD2BM1*.CSV NPD_RDR_L2_YYYY_MM / NPD2BM1*.LBL NPD_RDR_L2_YYYY_MM / TBD*.CSV NPD_RDR_L2_YYYY_MM / TBD*.LBL |
These NPD files contain the PSA level 2,
CODMAC level 3 RAW, TOF, and Bin Matrix mode data in counts/second (count
rate) for NPD1 and NPD2. NPD re-binned RAW mode spectra data TBD |
|
||||||
All NPD data products have the same format, and each row (data file record) in the NPD SPREADSHEET data products has eight (8) COLUMN objects.
TBD
|
|||||||||
|
START TIME |
STOP TIME |
DATA TYPE NAME |
DATA TYPE ID |
DATA NAME |
DATA UNIT |
VALUES |
DATA QUALITY VALUE |
|
|
|
|
|
|
|
|
|
|
|
|
PDS_VERSION_ID = PDS3 RECORD_TYPE = STREAM FILE_RECORDS = 15183168
DATA_SET_ID = "MEX-M-ASPERA3-2-EDR-NPD-V1.0" STANDARD_DATA_PRODUCT_ID = "NPD1RAW_RAW" PRODUCT_ID =
"NPD1RAW20031902308RAW01" PRODUCT_TYPE = "DATA" PRODUCT_CREATION_TIME = 2004-11-30T17:12:20 RELEASE_ID = 0001 REVISION_ID = 0000
START_TIME =
2003-190T23:08:36.307
STOP_TIME =
2003-191T01:12:25.215
SPACECRAFT_CLOCK_START_COUNT
= "1/0005872109.28972" SPACECRAFT_CLOCK_STOP_COUNT = "1/0005879538.22878"
INSTRUMENT_HOST_NAME = "MARS EXPRESS" INSTRUMENT_HOST_ID = "MEX" MISSION_PHASE_NAME = "IC" MISSION_NAME = "MARS
EXPRESS" TARGET_NAME = "SOLAR
WIND"
TARGET_TYPE = "PLASMA
CLOUD"
ORBIT_NUMBER = "N/A" INSTRUMENT_NAME = "
ANALYZER OF SPACE PLASMA AND
ENERGETIC ATOMS (3RD VERSION)"
INSTRUMENT_ID = "ASPERA-3" PRODUCER_ID = "SJEFFERS" PRODUCER_FULL_NAME = "SANDEE JEFFERS"
NOTE = "
NPD1RAW20031902308RAW01.CSV contains Mars
Express ASPERA-3 data from the Neutral Particle Detector 1
(NPD1) taken in RAW event mode and represented in raw units. There are
four data values: Time Of Flight, Direction, Coincidence,
and Stop Pulse Height. The file covers the time period 2003-190
23:08:36.307 to 2003-191 01:12:25.215 (orbit(s)
N/A)."
DESCRIPTION = "
This file contains data from
NPD1RAW: Neutral Particle Detector
1 (NPD1) RAW event mode. There are four
data values: Time of Flight, Direction, Coincidence, and Stop Pulse
Height. Each row contains a single data value (SENSOR) in raw units
corresponding to one of the four data values, followed by a data
quality indicator. Please refer to the Data Set Catalog,
ASPERA3_EDR_NPD_DS.CAT, for detailed
information about the data organization,
science meaning, data quality determination, data modes, etc."
^SPREADSHEET =
"NPD1RAW20031902308RAW01.CSV" OBJECT = SPREADSHEET INTERCHANGE_FORMAT = ASCII ROWS = 15183168 FIELDS = 8
ROW_BYTES = 195 /* longest row,
<CR><LF> too.*/ FIELD_DELIMITER = "COMMA"
OBJECT = FIELD NAME = "START
TIME"
FIELD_NUMBER = 1
DATA_TYPE = TIME BYTES = 21 DESCRIPTION = "
The START TIME field specifies the
start time of the data sample(s) being returned in the current
row in UTC. The fields START TIME and STOP TIME define the
time range covered by the samples contained on the current
row."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "STOP TIME" FIELD_NUMBER = 2
DATA_TYPE = TIME BYTES = 21 DESCRIPTION = "
The STOP TIME field specifies the stop
time of the data sample(s) being returned in the current
row in UTC. The fields START TIME and STOP TIME define the
time range covered by the samples contained on the current
row."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA TYPE
NAME"
FIELD_NUMBER = 3
DATA_TYPE = CHARACTER BYTES = 11 /* does not include
double quotes */ FORMAT = "A11" DESCRIPTION = "
The DATA TYPE NAME field identifies the
type of data sample(s) being returned in the current row. Valid entries include: SENSOR - primary data SCAN - center scan data associated with
the primary data CALIBRATION - calibration data associated with the
primary data MODE DATA - instrument status (mode) data PITCH ANGLE - pitch angle data associated with the
primary data START AZ - start azimuthal angle data associated
with the primary data. The values are always between 0 and 360
degrees.
STOP AZ - stop azimuthal angle data associated
with the primary data. The values could be negative or could be greater
than 360 degrees. For example, if the data type name of
the row is SENSOR, then the data within that row contains the primary
sensor data being returned."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA TYPE
ID"
FIELD_NUMBER = 4
DATA_TYPE = ASCII_INTEGER BYTES = 1
FORMAT = "I1" DESCRIPTION = "
The DATA TYPE ID field identifies the
type of data sample(s) being returned in the current row. It is equivalent to the DATA TYPE NAME field, except expressed
as an integer instead of a string. Valid entries include: 1 - primary data
2 - center scan data associated
with the primary data 3 - calibration data associated
with the primary data 4 - instrument status (mode)
data 6 - pitch angle data associated
with the primary data 7 - start azimuthal angle data
associated with the primary data. The values are always between 0 and 360
degrees. 8 - stop azimuthal angle data
associated with the primary data. The values could be negative or could be
greater than 360 degrees.
For example, if the data type id of the
row is 1, then the data within that row contains the primary
sensor data being returned."
END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA
NAME" FIELD_NUMBER = 5
DATA_TYPE = CHARACTER BYTES = 50 /* does not include
double quotes */ FORMAT = "A50" DESCRIPTION = "
The DATA NAME field identifies the name
of the data parameter being returned in the current
row." END_OBJECT = FIELD
OBJECT = FIELD NAME = "DATA
UNIT"
FIELD_NUMBER = 6
DATA_TYPE = CHARACTER BYTES = 50 /* double quotes not
included */ FORMAT = "A50" DESCRIPTION = "
The DATA UNIT field identifies the
units that the data values are expressed in for the current
row." END_OBJECT = FIELD OBJECT = FIELD NAME =
"VALUES" FIELD_NUMBER = 7 DATA_TYPE = ASCII_REAL BYTES = 13 /* including
delimiters */ ITEMS = 1 ITEM_BYTES = 13 FORMAT = "E13.6" DESCRIPTION = " This field contains the data values
associated with the data items being returned. The field DATA TYPE NAME identifies the
type of data being returned."
END_OBJECT
= FIELD
OBJECT = FIELD NAME = "DATA QUALITY
VALUE" FIELD_NUMBER = 8
DATA_TYPE = ASCII_REAL BYTES = 13 FORMAT = "E13.6" DESCRIPTION = "
This field contains the data quality
value associated with the data being returned. Valid values include: 0 - Good Data
1 - Questionable Data 2 - Invalid Data
3 - Bad Data
4 - Refer to the data set catalog file for
a more in-depth explanation of how the setting of these values are
determined." END_OBJECT = FIELD END_OBJECT = SPREADSHEET
END
|
There are no available
PDS tools that can display the ASPERA-3 spreadsheet CSV files. However, there
are non-PDS generic tools that can be used. The CSV format is fairly common and
can be loadable into Microsoft Excel or other spreadsheet software. However,
Microsoft Excel is limited to 65,536 rows, and most of ASPERA-3 CSV files
contain more than 65,536 rows so Microsoft Excel will truncate them. Since the
ASPERA-3 CSV files are in ASCII format, it is recommended to use a text editor
to read and format the data for input to other tools.
Files in Root Directory MEXASP_NPI_3200:
AAREADME.TXT
ERRATA.TXT
VOLDESC.CAT
Subdirectories in Root Directory
MEXASP_NPI_3200:
CALIB
CATALOG
DATA
DOCUMENT
EXTRAS
INDEX
SOFTWARE
MEXASP_NPI_3200/CALIB:
CALINFO.TXT
NPINORM_CAL.LBL
NPINORM_CAL.TAB
MEXASP_NPI_3200/CATALOG:
ASPERA3_INST.CAT
ASPERA3_NPI_EDR_RDR_DS.CAT
ASPERA3_NPI_RELEASE.CAT
ASPERA3_SOFTWARE.CAT
CATINFO.TXT
INSTHOST.CAT
MISSION.CAT
PERSON.CAT
REF.CAT
MEXASP_NPI_3200/DATA:
NPI_EDR_RDR_L1B_L2_2003_EV
NPI_EDR_RDR_L1B_L2_2003_IC
NPI_EDR_RDR_L1B_L2_2004_01
MEXASP_NPI_3200/DATA/NPI_EDR_RDR_L1B_L2_2003_EV:
NPINORM20031741842C_SEC01.CSV
NPINORM20031741842C_SEC01.LBL
NPINORM20031752233C_SEC01.CSV
NPINORM20031752233C_SEC01.LBL
NPINORM20031752338C_SEC01.CSV
NPINORM20031752338C_SEC01.LBL
NPINORM20031760127C_SEC01.CSV
NPINORM20031760127C_SEC01.LBL
NPINORM20031762025C_SEC01.CSV
NPINORM20031762025C_SEC01.LBL
NPINORM20031811922C_SEC01.CSV
NPINORM20031811922C_SEC01.LBL
NPINORM20031842309C_SEC01.CSV
NPINORM20031842309C_SEC01.LBL
NPINORM20031872207C_SEC01.CSV
NPINORM20031872207C_SEC01.LBL
NPINORM20031881807C_SEC01.CSV
NPINORM20031881807C_SEC01.LBL
NPINORM20031891637C_SEC01.CSV
NPINORM20031891637C_SEC01.LBL
NPINORM20031892324C_SEC01.CSV
NPINORM20031892324C_SEC01.LBL
NPINORM20031901858C_SEC01.CSV
NPINORM20031901858C_SEC01.LBL
NPINORM20031902308C_SEC01.CSV
NPINORM20031902308C_SEC01.LBL
NPINORM20031912147C_SEC01.CSV
NPINORM20031912147C_SEC01.LBL
NPINORM20031922332C_SEC01.CSV
NPINORM20031922332C_SEC01.LBL
NPINORM20031942005C_SEC01.CSV
NPINORM20031942005C_SEC01.LBL
NPINORM20032061754C_SEC01.CSV
NPINORM20032061754C_SEC01.LBL
MEXASP_NPI_3200/DATA/NPI_EDR_RDR_L1B_L2_2003_IC:
NPINORM20032870902C_SEC01.CSV
NPINORM20032870902C_SEC01.LBL
NPINORM20033650932C_SEC01.CSV
NPINORM20033650932C_SEC01.LBL
MEXASP_NPI_3200/DATA/NPI_EDR_RDR_L1B_L2_2004_01:
NPINORM20040050603C_SEC01.CSV
NPINORM20040050603C_SEC01.LBL
NPINORM20040121133C_SEC01.CSV
NPINORM20040121133C_SEC01.LBL
NPINORM20040141547C_SEC01.CSV
NPINORM20040141547C_SEC01.LBL
NPINORM20040212052C_SEC01.CSV
NPINORM20040212052C_SEC01.LBL
NPINORM20040230605C_SEC01.CSV
NPINORM20040230605C_SEC01.LBL
NPINORM20040232208C_SEC01.CSV
NPINORM20040232208C_SEC01.LBL
NPINORM20040242341C_SEC01.CSV
NPINORM20040242341C_SEC01.LBL
NPINORM20040251414C_SEC01.CSV
NPINORM20040251414C_SEC01.LBL
MEXASP_NPI_3200/DOCUMENT:
ASPERA3_FLIGHT_PERF.LBL
ASPERA3_FLIGHT_PERF.PDF
ASPERA3_MEX_EXP.LBL
ASPERA3_MEX_EXP.PDF
ASPERA3_SENSOR_FRAMES.LBL
ASPERA3_SENSOR_FRAMES.PDF
ASPERA3_SENSOR_GEOMETRY.TXT
DOCINFO.TXT
ME_ASP_DS_0002.LBL
ME_ASP_DS_0002.PDF
ME_ASP_MA_0003_V3_0.LBL
ME_ASP_MA_0003_V3_0.PDF
MEX_ASPERA3_PSA_ICD_V01_03.DOC
MEX_ASPERA3_PSA_ICD_V01_03.HTM
MEX_ASPERA3_PSA_ICD_V01_03.LBL
MEX_ASPERA3_PSA_ICD_V01_03.PDF
NPI_CALIBRATION_REPORT.LBL
NPI_CALIBRATION_REPORT.PDF
MEXASP_NPI_3200/EXTRAS:
EXTRINFO.TXT
IDFS_DATA_IC.LBL
IDFS_DATA_IC.ZIP
IDFS_DATA_JAN2004.LBL
IDFS_DATA_JAN2004.ZIP
IDFS_DATA_NEV.LBL
IDFS_DATA_NEV.ZIP
MEX_SCIENCE_SUBPHASE_DEFS.LBL
MEX_SCIENCE_SUBPHASE_DEFS.TAB
SPICE_DATA
MEXASP_NPI_3200/EXTRAS/SPICE_DATA:
FK
LSK
ORBNUM
PCK
SCLK
SPK
MEXASP_NPI_3200/EXTRAS/SPICE_DATA/FK:
MEX_V06.TF
MEXASP_NPI_3200/EXTRAS/SPICE_DATA/LSK:
NAIF0007.TLS
MEXASP_NPI_3200/EXTRAS/SPICE_DATA/ORBNUM:
ORMM_MERGED_00090.ORB
MEXASP_NPI_3200/EXTRAS/SPICE_DATA/PCK:
DE403-MASSES.TPC
EARTH_030531_040531_040309.BPC
MARS_IAU2000_V0.TPC
PCK00007.TPC
PCK00008.TPC
MEXASP_NPI_3200/EXTRAS/SPICE_DATA/SCLK:
MEX_040930_STEP.TSC
MEXASP_NPI_3200/EXTRAS/SPICE_DATA/SPK:
DE405S.BSP
ORHM_______________00038.BSP
ORMM__031222180906_00052.BSP
ORMM__040201000000_00060.BSP
MEXASP_NPI_3200/INDEX:
DOC_INDX.LBL
DOC_INDX.TAB
GEO_EARTH.LBL
GEO_EARTH.TAB
GEO_MARS.LBL
GEO_MARS.TAB
INDEX.LBL
INDEX.TAB
INDXINFO.TXT
MEXASP_NPI_3200/SOFTWARE:
ASPERA3_SW_BIN.LBL
ASPERA3_SW_BIN.ZIP
ASPERA3_SW_CONFIG_IC.LBL
ASPERA3_SW_CONFIG_IC.ZIP
ASPERA3_SW_CONFIG_JAN2004.LBL
ASPERA3_SW_CONFIG_JAN2004.ZIP
ASPERA3_SW_CONFIG_NEV.LBL
ASPERA3_SW_CONFIG_NEV.ZIP
ASPERA3_SW_DOC.LBL
ASPERA3_SW_DOC.ZIP
SOFTINFO.TXT