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Link to ISAMS Home
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The Improved Stratospheric and Mesospheric Sounder (ISAMS) is one of 10
instruments aboard the Upper Atmosphere Research Satellite (UARS). The
ISAMS instrument measured the altitude profiles of temperature, oxides of
nitrogen, ozone, water vapor, methane, and carbon monoxide from the
tropopause to the mesopause. ISAMS also measured aerosol extinction
coefficients. Currently, ISAMS version 10 level 3AL and 3AT data products
from 26 September 1991 to 29 July 1992 are available from the Goddard Space Flight Center (GSFC) Distributed Active
Archive Center (DAAC).
UARS ISAMS LEVEL 3AL DAILY LATITUDE ORDERED
DATA
UARS ISAMS LEVEL 3AT DAILY TIME ORDERED DATA
The ISAMS level 3A data are a subset of the UARS dataset. ISAMS
measured atmospheric profiles of temperature, ozone (O3),
water vapor (H2O), methane (CH4), nitric oxide
(NO), nitrogen dioxide (NO2), nitrous oxide
(N2O), dinitrogen pentoxide (N2O5),
nitric acid (HNO3), and carbon monoxide (CO). Aerosol
extinction coefficients were also measured at 12.1 and 6.23
microns.
There are two ISAMS level 3A data products archived at the DAAC:
Level 3AL
ISAMS level 3AL data are daily latitude- and time-ordered data
interpolated to intervals of 4 degrees latitude at the intersection
of the tangent track of the instrument's line of sight (LOS). Each
record consists of a single array of data of one parameter for a
specific time. Level 3AL data records are written to UARS defined
standard latitudes, which range from -88 to +88 degrees in 4 degree
intervals.
Level 3AT
ISAMS level 3AT data are daily time-ordered data, arranged at time
intervals of 65.536 seconds, or about 495 km intervals along the LOS
tangent track. The reference time at which level 3AT data are
arranged is common across all UARS level 3AT files. Each data record
contains time, latitude, longitude, solar zenith angle, local time,
and an array of data, as well as an array of quality (standard
deviation) values. Data file structures for these file types are
found in the Standard Formatted Data Units (SFDU) documents listed in
the References section below.
To determine the thermal structure of the middle atmosphere and its
fluctuations in space and time (e.g. with season), investigate the
photochemistry of nitrogen-containing species, study the water vapor
budget, and investigate the role of volcanic and polar stratospheric
aerosol in stratospheric chemistry.
The ISAMS objectives are addressed by measurements of carbon dioxide
(CO2) (in four bands, for temperature determination),
nitrous oxide (N2O), nitric oxide (NO), nitrogen dioxide
(NO2), nitrogen pentoxide (N2O5,
nitric acid (HNO3), ozone (O3), water vapor
(H2O), methane (CH4), and carbon monoxide
(CO).
The ISAMS Level 3AL and 3AT data files are written in the Standard
Data Format Units (SFDU) format. Each file consists of three records
called SFDU, LABEL, and DATA. SFDU and LABEL records contain
descriptive information about the instrument and the data, such as
start/stop time of the data, number of records in the file, etc. The
DATA record contains the profile data and their standard deviations.
Time, latitude longitude, local solar time, and solar zenith angles are
provided with each DATA record. Each data file is accompanied by a
short ASCII metadata file, which provides descriptive information such
as the start and stop time of the data, file record lengths, and the
UARS quality flag.
All UARS level 3AL and 3AT files use the same formats to allow for
intercomparisons of atmospheric profiles between the different
instruments. Other UARS instruments which measure chemical species
include the Cryogenic
Limb Array Etalon Spectrometer (CLAES), the Halogen Occultation Experiment
(HALOE) and the Microwave Limb
Sounder (MLS).
ISAMS is an improved version of the SAMS
instrument flown on the
Nimbus-7 satellite from 1978 to 1993.
- Name:
- Frederic W. Taylor
- Addresses:
- Oxford University
- Department of Atmospheric, Oceanic & Planetary Physics
- University of Oxford, Clarendon Laboratory
- Parks Rd, Oxford, OX1 3PU, England
- Telephone Numbers:
- Voice: +44-1865-272902
- FAX: +44-1865-272924
- Electronic Mail Address:
- taylor@isams.atm.ox.ac.uk
Improved Stratospheric and Mesospheric Sounder
The ISAMS instrument is an infrared pressure-modulator radiometer that
observes thermal emission from the Earth's limb. Measurements are in the
4 to 17 micron range using gas correlation spectroscopy and solid-state
detectors cooled to 80 degrees Kelvin by closed cycle refrigerators.
ISAMS infers the amounts of gases in the stratosphere from the
measurement of the unique infrared emission features associated with each
gas.
ISAMS is a limb sounder, which, at the satellite altitude of 585km,
places the tangent point at 23 degrees from the orbital track. When the
satellite flies in the +X direction (defined as forwards), viewing to
the (usual) anti-sun side (+Y) gives coverage from 80N to 34S.
Conversely, when the satellite yaws to fly in the -X direction
(backwards), the coverage viewing to +Y is from 34N to 80S. ISAMS also
has the ability, when the sun-satellite geometry is favorable, to view
to the -Y side for parts of orbits, increasing the potential coverage
to 80N-80S for either satellite flight direction.
The ISAMS instrument is an infrared spectroradiometer which
collects infrared radiation at wavelengths from 4.6 to 16.3 microns.
ISAMS is able to scan on either side of the UARS satellite, though
the instrument views primarily to the cold (anti-sun) side of the
craft. Pressure modulators allow ISAMS to measure selected
atmospheric gases.
The primary optics configuration consists of an off-axis
(non-obscuring) reflecting telescope which scans the atmosphere
vertically at a preprogrammed rate under microprocessor control. An
internal calibration target is provided in the primary optics. This,
together with views of cold space, provides the radiometric offset
and gain.
A rotating, reflecting chopper disc is located at an intermediate
focal point in the optical chain and serves both to modulate the beam
at several hundred hertz and chop it against the cold space
reference. The modulated beam is then modulated again by passage
through the pressure modulator cells, one in each of eight channels.
The pressure modulators use coupled resonant pistons operating in
antiphase; pressure amplitudes of 50 percent of the mean are
achieved.
The detector in each channel is a four-element array in a
square-shaped configuration. Each of the elements measures 2.6 km
high by 18 km wide when projected on to the limb by the instrument
optics. The instrument dwells between steps for typically 2 seconds
to obtain signal-to-noise ratios of approximately 100:1.
ISAMS collected scientific data from 26 September 1991 to 29 July
1992.
Satellite data are collected from a near-circular Earth orbit of
about 585 km altitude and 57 degree inclination.
Upper
Atmosphere Research Satellite (UARS).
UARS was launched September 12, 1991 with the mission of
investigating the chemical and dynamical processes of the Earth's
upper atmosphere. See the UARS Project
document for more information.
ISAMS has a total of 32 detector elements. The signal processing
electronics extracts 2 radiance measurements (Wide-Band and Pressure
Modulated) from each detector every Instrument Measurement Period
(IMP=2.048 secs), giving a total of 64 measurements per IMP. The
detectors are grouped into 4-element arrays at the end of each of 8
optical paths. Each path passes through a different pressure
modulator cell. 2 of these paths (#3 and #7), associated with the two
CO2 modulators, also contain a filter wheel, enabling selection from
one of 4 different spectral regions during any IMP. Thus there are a
total of 14 Spectral channels, which, multiplied by the 2 Signal
channels (WB and PM), gives a total of 28 radiance channels of which
16 may be sampled each IMP.
Spectral selection is achieved by pressure-modulator cells (PMCs)
(Taylor, 1983) whose pressures, therefore transmission
characteristics, may be altered in flight. The various observing
geometries, plus the ability to program the scan pattern and PMC
pressures, lead to a large number of operating modes for ISAMS, which
may be characterized by some combination of:
- PMC Cell Pressure in each of the 8 Cells
- Anti-Sun/Sun side viewing (+/- Y side of spacecraft)
- Satellite Direction (+/- X direction of motion)
- Day/Night at tangent point
- Ascending/Descending node
- Limb Scan program
Whether the tangent point is illuminated or not does not affect
the operation of the ISAMS instrument, but it is convenient to add it
to this list.
Data are telemetered from UARS through the Tracking and Data Relay
Satellite System (TDRSS) to the Data Capture Facility (DCF) at NASA GSFC.
From there the data are given an initial quality check, and are then
forwarded to the UARS Central Data
Handling Facility (CDHF). The instrument PI teams are connected to
the CDHF through remote analysis computers (RACs), where they have
developed software to convert the raw data to higher level processed
data. The CDHF uses the production software to convert the level 0 (raw)
data to level 1, 2, 3A and 3B data. The Goddard DAAC acquires the UARS
data from the CDHF.
None at this time.
ISAMS can view to either side of the UARS spacecraft, allowing for
latitudinal spatial coverage from 80N to 80S. Vertical coverage is
from approximately 15 to 80 km.
Data coverage for ISAMS looking northward on 9/28/91.
Horizontal resolution is 4 degrees for level 3AL/3LP files and 400
km along the orbital track for level 3AT/3TP files. Vertical
resolution for level 3A files is about 2.5 km between pressure
surfaces.
Projection:
Not Applicable.
The CLAES, HALOE, HRDI, ISAMS, and MLS instrument data use
pressure referenced data arrays. It should be noted that not all
species within a data product will contain all 45 pressure levels.
The index of the data array defines the pressure level (in millibars)
given by:
P(i) = 1000 x 10**(-i/6) mb, where i=0,1,2,...
Temporal coverage is from 26 September 1991 to 29 July 1992.
Listed below are the dates within the above time period for which
ISAMS data are missing or unavailable:
Missing Days Parameter Subtype
-------------------------- ---------------------------
15-OCT-1991 to 27-OCT-1991 All
04-DEC-1991 AERO6P23, CH4, CO, N2O, NO2
19-JAN-1992 to 26-MAR-1992 All
05-APR-1992 O3
03-JUN-1992 to 18-JUL-1992 All
NOTE: Due to a problem with the ISAMS instrument,
there are no data after 29 July 1992 (UARS day 322).
The temporal resolution of ISAMS level 3A data granules is
daily.
There are 10 parameters for ISAMS level 3AL/3LP and 3AT/3TP data
products. The parameters are classified according to ISAMS subtypes.
The measured parameters are listed below with the original ISAMS
subtype name, DAAC parameter name, and units:
| Subtype |
DAAC Parameter Name |
Units |
| AERO12P1 |
AEROSOL EXTINCTION AT 12.1 µm |
1/km |
| AERO6P21 |
AEROSOL EXTINCTION AT 6.21 µm |
1/km |
| CH4 |
METHANE |
vmr |
| CO |
CARBON MONOXIDE |
vmr |
| H2O |
WATER VAPOR |
vmr |
| NO2 |
NITROGEN DIOXIDE |
vmr |
| N2O |
NITROUS OXIDE |
|
| N2O5 |
DINITROGEN PENTOXIDE |
vmr |
| O3 |
OZONE |
vmr |
| TEMP |
ATMOSPHERIC TEMPERATURE |
K |
NOTE: HNO3 and NO data were not
produced in the current version of ISAMS Level 3A data. Also, the
H2O subtype is version 9 data.
NOTE: volume mixing ratio = 10e-6
parts per million by volume.
The granularity of ISAMS level 3A data are defined such that there
is one granule for each level and parameter subtype (see the Data Characteristics section above) per day, for a
total of 10 granules per day. Each ISAMS level 3A granule is a
multi-file granule consisting of four files:
-
The binary data file (files ending with PROD, or *PROD extension)
which contains the data profiles, temperature, pressure, spacecraft
and instrument status, number of profile levels, PMC pressure
codes, scan program id, view direction and satellite direction,
line of sight, latitude and longitude, etc.
-
An ASCII metadata file (files ending with META, or *META extension)
associated with the data file containing items such as the begin
date, end date, PI assigned quality flag and record length size of
the data file.
-
A binary parameter file (also *PROD extension) designated 3TP for
3AT granules and 3LP for 2AL granules. ISAMS has a separate 3TP/3LP
parameter file for each species in the 3AT/3AL data file. The
subtype for these files is PARAM. The ISAMS parameter files contain
information about the instrument operating mode line of sight
direction and solar angles. This file was added to accommodate the
additional ISAMS values after the 3AT/3AL file formats had already
been finalized.
- An ASCII metadata file associated with the parameter file (also
*META extension). The information is identical to the metadata file
associated with the data file, except that the record length applies
to the parameter file.
The naming convention for UARS granule file names distributed by the
Goddard DAAC is as follows:
ISAMS_Llll_Sssss_Ddddd
.Vvvvv_Ccc_xxxx,
where:
- lll
- is the UARS processing level (3AL, 3AT, 3LP, 3TP),
- ssss
- is the subtype or parameter,
- dddd
- is the UARS acquisition day (0001 = 12 September 1991),
- vvvv
- is the data version number,
- cc
- is the data version cycle number, and
- xxxx
- is the file extension (PROD for the binary files, or META for the
ASCII metadata files)
For a full description of the naming convention see the
"meta_desc.doc" file.
Average granule sizes are 330 kB for ISAMS_L3AL_DAILY granules
(includes 140 kB 3LP parameter file), and 400 kB for ISAMS_L3AT_DAILY
granules (includes 170 kB 3TP parameter file). The *META files are
small, only about 700 bytes each.
The data are in a native UARS format (SFDU). The files were
originally created on a VAX/VMS system at the UARS CDHF, and now exist
as UNIX stream files at the Goddard DAAC. WINDII data file structures
are presented in the Standard Formatted Data Units (SFDU) documents
listed in the References section.
ISAMS Level 3A data are generated by interpolating the ISAMS Level 2
profiles to standard UARS surfaces (using the Level 2 pressure files)
then interpolating along the tangent track to standard output times
(3AT files) or latitude crossings (3AL files). Associated with each 3A
data file is a parameter file (3TP with 3AT, 3LP with 3AL), containing
additional information on ISAMS operation conditions for each data
profile, parameters which are not accommodated in the standard UARS 3A
data format.
Level 3ALP data are generated from ISAMS Level 2 Data files at the
same time as Level 3AL data files. Where appropriate, the values
contained in Level 3ALP (and also 3AL) are derived from the level 2
profiles by linear interpolation in observation time between adjacent
profiles. This is necessary because the Level 2 profiles are provided
at fixed times where the Level 3AL products are required at fixed
latitudes. No attempt is made to interpolate between successive
profiles that are in different 'modes'.
Reprocessing of the data occur about once a year.
None.
None.
Systematic errors in the measurements and the retrievals are
expected to change with the operating mode of the instrument.
All data are checked by the ISAMS science team and assigned
quality values. These values appear as the DATA_QUALITY_UARS fields
in the ASCII metadata files. The format for DATA_QUALITY_UARS is a 3
character field of the form "p.q" where:
VALUE MEANING
for p 0 Machine inspected
1 Qualitative evaluation
2 Intensive analysis
for q 1 less than 50% good data
2 50% - 75% good data
3 76% - 98% good data
4 better than 98% good data
ISAMS uses the DATA_QUALITY_PI field to indicate data coverage on
an orbital basis. All parameter/subtypes will have the same value
most days. The format for DATA_QUALITY_PI is a 3 character field of
the form "abc" where:
a = N +Y side of UARS pointing north all day
a = S +Y side of UARS pointing south all day
(the +Y, or cold side of UARS, is the dominant view for ISAMS)
b = 0,1,...F (hex) Number of +Y tangent tracks [0-15]
c = 0,1,...F (hex) Number of -Y tangent tracks [0-15]
c = X No -Y views attempted
example:
"NAX" Cold side (+Y) pointing north, 10 +Y orbit tracks,
no -Y views attempted
Systematic errors in the measurements and the retrievals are
expected to change with the operating mode of the instrument. While
profiles may safely be combined (e.g. gridded) from within any single
data mode, or from data modes representing the same instrument
operating mode, systematic differences may occur between profiles
from data modes representing different instrument modes.
In some cases these differences may be instrumental. One obvious
example is if the pressure of one of the PMC cells is changed: this
changes the retrieval weighting functions, and therefore the relative
influences of the a priori (climatology) and the measurements in the
retrieved product. A PMC for one channel may have a knock-on effect
on other species; e.g. the CO2 PMCs are used for temperature and
pressure determination, so affect all retrieved products. Hence a
change of pressure in the CH4 PMC could affect N2O retrievals and
vice-versa since the spectra of the two gases overlap and the
retrievals are interlinked.
None.
Data files are checked to ensure that they are properly
transferred and translated from their original VAX/VMS format at the
UARS CDHF to the DAAC's UNIX format. No additional data checks are
performed by the DAAC.
The data files exist as UNIX stream files at the DAAC. Binary data
are IEEE formatted. The binary data files should be read on 32 bit
machines running UNIX operating systems. This is especially important
for fields which are IEEE floating point values, such as the profile
data and quality values. If you are going to use a non 32-bit and/or
non-UNIX machine, then you will need to write your own conversion
routines to read the data files.
File record length information is only listed in the ASCII metadata
files (*META extension) which accompany the data and parameter
files.
None at this time.
Suggested uses of the data include the following:
- To determine the thermal structure of the middle atmosphere and
its fluctuations in space and time,
- To investigate the photochemistry of nitrogen-containing
species,
- To study the water vapor budget,
- To investigate the role of volcanic and polar stratospheric
aerosol in stratospheric chemistry.
None.
Anticipated uses of these data are in the fields of understanding
unperturbed atmospheric chemistry and dynamics, tracking global change
and long term atmospheric trends, predicting atmospheric response to
chemical or energetic perturbations, environmental and agricultural
planning, weather forecasting, atmospheric energy input and loss studies,
and radiation budgets.
Future reprocessing of the data are possible.
Simple read/dump programs are available for reading the ISAMS level
3A data files. The read programs are available in both Fortran and C
languages. These programs simply print the file contents to the
screen.
The *META and *PROD files (see the Data
Granularity section) must be kept in the same directory, because
the programs require the *META file as the input parameter in order to
read the *PROD file. The *META file is necessary because it contains
file record length information, which is not in the *PROD files.
If you are using the Fortran READ programs you may need to change
the OPEN statement. Some machines read 4 byte words, while other
machines read 1 byte. If the program isn't working correctly, you
should try changing RECL=RECSIZ/4 to RECL=RECSIZ.
Contact science@eosdata.gsfc.nasa.gov for problems
with the read/dump software.
To compile the programs, just type:
f77 FILE_NAME.F -o FILE_NAME (Fortran programs)
or
cc file_name.c -o file_name (C programs)
Below are examples showing how to run the programs:
$ READUMP_L3AT_DATA (Fortran program)
PLEASE ENTER META DATA FILE NAME BELOW:
ISAMS_L3AT_SH2O_D0001.V0003_C01_META
or
$ readump_l3at_data ISAMS_L3AT_SH2O_D0001.V0003_C01_META (C program)
- Name:
- Help Desk
- Addresses:
- NASA Goddard Space Flight Center
- Code 610.2
- Greenbelt, MD 20771
- Telephone Numbers:
- Phone: 1-301-614-5224
- FAX: 1-301-614-5268
- Electronic Mail Address:
- daacuso@daac.gsfc.nasa.gov
The UARS ISAMS data are archived at the GSFC DAAC, and can be
identified by the attributes listed below.
Data Set = UARS
Data Product = ISAMS L3AL DAILY LAT ORDERED
ISAMS L3AT DAILY TIME ORDERED
The ISAMS level 3A data files can be obtained from the Goddard DAAC
by several mechanisms. These include the following:
-
The DAAC Web-Based Archive
Interface provides a means for searching and ordering
data. To search the data holdings and place an order, go to the
DAAC Home Page located at "/index.shtml", and click on the "Search
and Order" icon. Next, pick the "Data Set" link, and from there
choose "UARS".
-
Earth
Observing System Data Gateway (EDG). You can place
orders for the UARS data through the Earth Observing System (EOS)
Data Gateway. From here you can also order data products from other
data centers. The web address for the EDG is
"http://eos.gsfc.nasa.gov/imswelcome/".
- DAAC Help
Desk. Data can also be obtained by contacting the GSFC
DAAC Help Desk listed above.
Data can be ordered electronically (FTP).
The DAAC currently supports ISAMS level 3AL and 3AT data
products.
The ISAMS level 3A data are available. See the section above on Procedures for Obtaining Data for specific information.
For more information on ISAMS, please refer to the ISAMS Home Page.
Reber, C. A., C. E. Trevathan, R. J. McNeal, and M. R. Luther, The
Upper Atmosphere Research Satellite (UARS) Mission, J. Geophys. Res.
98, D6, 10643-10647, 1993.
Taylor, F. W., et al, Remote Sensing of Atmospheric Structure and
Composition by Pressure Modulator Radiometry From Space: The ISAMS
Experiment on UARS, J. Geophys. Res. 98, D6, 10799-10814, 1993.
An extensive list of journal
articles are available on the ISAMS Documentation Page.
ISAMS
level 2 SFDU, NURSIS01.
ISAMS level 3A SFDU, NURSIS11.
ISAMS Product Quality Summary
Horne, C., UARS
Granule Level File (*META) Description, July 1994.
- DATA PRODUCT
-
A collection of parameters packaged with associated ancillary and
labeling data. Uniformly processed and formatted. Typically uniform
temporal and spatial resolution. ISAMS level 3A data products include
ISAMS_L3AL_DAILY and ISAMS_L3AT_DAILY. The ISAMS data product class
is divided into data product subclasses according to measured
parameters.
- DATA SET
-
A logically meaningful grouping or collection of similar or related
data. Data having mostly similar characteristics (source or class of
source, processing level and algorithms, etc.) ISAMS is a subset of
the UARS data set.
- GRANULE
-
A Granule is the smallest aggregation of data which is independently
managed.
- PARAMETER
- A measurable or derived variable represented by the data (e.g. air
temperature, snow depth, relative humidity). At the Goddard DAAC,
parameters are grouped into a Parameter General category, which is
broken down into Parameter Specific.
| CDHF |
Central Data Handling Facility |
| CH4 |
methane |
| CO |
carbon monoxide |
| DAAC |
Distributed Active Archive Center |
| DCF |
Data Capture Facility |
| EOS |
Earth Observing System |
| FOV |
field of view |
| GSFC |
Goddard Space Flight Center |
| H2O |
water vapor |
| HNO3 |
nitric acid |
| IMS |
Information Management System |
| ISAMS |
Improved Stratospheric and Mesospheric Sounder |
| K |
Kelvin |
| km |
kilometer |
| LOS |
line of sight |
| m |
meter |
| mb |
millibar |
| NASA |
National Aeronautics and Space Administration |
| NO |
nitric oxide |
| NO2 |
nitrogen dioxide |
| N2O |
nitrous oxide |
| N2O5 |
dinitrogen pentoxide |
| O3 |
ozone |
| PI |
Principal Investigator |
| ppmv |
parts per million by volume |
| RAC |
Remote Analysis Computer |
| SFDU |
Standard Formatted Data Units |
| TDRSS |
Tracking and Data Relay Satellite System |
| UARS |
Upper Atmosphere Research Satellite |
| USO |
User Services Office |
-
- 3 March 1998
-
-
-
-
-
-
http://disc.sci.gsfc.nasa.gov/guides/GSFC/guide/uars_isams_l3a_dataset.gd.shtml
 UARS Project
|
Atmos Composition
