Data at a Glance

Description

The Sensory Geophysical Data Record (SGDR) files contain full accuracy altimeter data, with a high precision orbit (accuracy ~1.5 cm). The instruments on Jason-1 make direct observations of the following quantities: altimeter range, significant wave height, ocean radar backscatter cross-section (a measure of wind speed), ionospheric electron content (derived by a simple formula), tropospheric water content, mean sea surface, and position relative to the GPS satellite constellation. The SGDR contain all relevant corrections needed to calculate the sea surface height. It also contains the 20Hz waveforms that are required for retracking. The SGDR is an expert level product, if you do not require the waveforms then the GDR/GPN or GPR will be more suited for your needs.

Product Summary

Platforms

JASON-1

Instruments

TRSR ,

DORIS ,

JASON-1 Microwave Radiometer ,

POSEIDON-2

Spatial Extent

N: 66.15 S: -66.15 E: 180 W: -180

Location

GLOBAL

Coordinate System

CARTESIAN

Granule Spatial Representation

CARTESIAN

Temporal Extent

2002-01-14 to 2012-03-03

Data Partner

Physical Oceanography Distributed Active Archive Center, Jet Propulsion Laboratory, NASA (NASA/JPL/PODAAC)

Concept ID

C1940472420-POCLOUD

Data State

COMPLETE

Number of Files/Granules

92126

Processing Level

Published

2014-03-17

Updated

2017-04-28

Science Keywords

Sea Surface Height ,

Significant Wave Height

Citation

Citation is critically important for dataset documentation and discovery. This dataset is openly shared, without restriction, in accordance with the EOSDIS Data Use and Citation Guidance.

Copy Citation

Select a Citation Style:

JASON-1. (2015). Jason-1 SGDR version E NetCDF [Data set]. NASA Physical Oceanography Distributed Active Archive Center. https://doi.org/10.5067/J1GPS-NC00E Date Accessed: 2026-03-01

Documents

USER'S GUIDE

Jason-1 User Guide

ANOMALIES

DATA CITATION GUIDELINES

Data Use and Citation Guidelines

GENERAL DOCUMENTATION

Jason-1 cycle start list

Dataset Resources

View All Learning Resources View All News & Events

Filters

Waves and Satellites: Effect of El Niño on Big Wave Surfing

Creator: POCLOUD
Keywords: Sea Surface Height,Significant Wave Height

Data in Action

Jan. 25, 2016

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Items

Variables

The table below lists the variables contained within a single granule for this dataset. Variables often contain observed or derived geophysical measurements collected from a variety of sources, including remote sensing instruments on satellite and airborne platforms, field campaigns, in situ measurements, and model outputs. The terms variable, parameter, scientific data set, layer, and band have been used across NASA’s Earth science disciplines; however, variable is the designated nomenclature in NASA’s Common Metadata Repository (CMR). Variable metadata attributes such as Name, Description, Units, Data Type, Fill Value, Valid Range, and Scale Factor allow users to efficiently process and analyze the data. The full range of attributes may not be applicable to all variables. Additional information on variable attributes is typically available in the data, user guide, and/or other product documentation.

For questions on a specific variable, please use the Earthdata Forum.

Name Sort descending	Description	Units	Data Type	Fill Value	Valid Range	Scale Factor
agc_c	AGC is corrected for instrumental errors due to the imperfections of the on-board attenuators	dB	short	32767	N/A	0.01
agc_ku	AGC is corrected for instrumental errors due to the imperfections of the on-board attenuators	dB	short	32767	N/A	0.01
agc_numval_c	number of valid points used to compute C band AGC	count	byte	127	0 to 20	1
agc_numval_ku	number of valid points used to compute Ku band AGC	count	byte	127	0 to 20	1
agc_rms_c	Compression of C-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element	dB	short	32767	N/A	0.01
agc_rms_ku	Compression of Ku-band high rate elements is preceded by a detection of outliers. Only valid high-rate values are used to compute this element	dB	short	32767	N/A	0.01
alt	Altitude of satellite above the reference ellipsoid.	m	float	1.0E+30	N/A	1
alt_20hz	Altitude of satellite above reference ellipsoid	m	float	1.0E+30	N/A	1
alt_echo_type	The altimeter echo type is determined by testing the rms of the high rate range measurements against a threshold as well as the number of valid high rate range measurements against a minimum value	N/A	byte	127	N/A	1
alt_state_flag_band_seq	altimeter state flag: Ku/C band sequencing	N/A	byte	127	N/A	1
alt_state_flag_c_band	altimeter state flag: C bandwidth used	N/A	byte	127	N/A	1
alt_state_flag_c_band_status	altimeter state flag: C band status	N/A	byte	127	N/A	1
alt_state_flag_ku_band_status	altimeter state flag: Ku band status	N/A	byte	127	N/A	1
alt_state_flag_oper	Side A = nominal; Side B = redondancy	N/A	byte	127	N/A	1
atmos_corr_sig0_c	atmospheric attenuation correction on C band backscatter coefficient	dB	short	32767	N/A	0.01
atmos_corr_sig0_ku	atmospheric attenuation correction on Ku band backscatter coefficient	dB	short	32767	N/A	0.01
bathymetry	ocean depth/land elevation	m	int	2147483647	N/A	1
cog_corr	Distance antenna-COG correction on altimeter range	m	short	32767	N/A	0.0001
doppler_corr_c	C band Doppler correction on altimeter range	m	short	32767	N/A	0.0001
doppler_corr_ku	Ku band Doppler correction on altimeter range	m	short	32767	N/A	0.0001
geoid	Computed from the geoid model with a correction to refer the value to the mean tide system i.e. includes the permanent tide (zero frequency). See Jason-1 User Handbook	m	int	2147483647	N/A	0.0001
hf_fluctuations_corr	Provided as a correction to the inverted barometer correction (inv_bar_corr)	m	short	32767	N/A	0.0001
hf_fluctuations_corr_era	Provided as a correction to the inverted barometer correction from ERA_Interim products (inv_bar_corr_era)	m	short	32767	N/A	0.0001
ice_flag	See Jason-1 User Handbook	N/A	byte	127	N/A	1
ice_qual_flag_20hz_ku	ice retracking quality flag	N/A	byte	127	N/A	1
ice_range_20hz_c	Distance antenna-COG (cog_corr), USO drift correction (uso_corr) and internal path correction (internal_path_delay_corr_c) included	m	float	1.0E+30	N/A	1
ice_range_20hz_ku	Distance antenna-COG (cog_corr), USO drift correction (uso_corr) and internal path correction (internal_path_delay_corr_ku) included	m	float	1.0E+30	N/A	1
ice_sig0_20hz_c	AGC instrumental errors correction and internal calibration correction (internal_corr_sig0_c) included	dB	short	32767	N/A	0.01
ice_sig0_20hz_ku	AGC instrumental errors correction and internal calibration correction (internal_corr_sig0_ku) included	dB	short	32767	N/A	0.01
internal_corr_sig0_c	C band internal calibration correction on backscatter coefficient	dB	short	32767	N/A	0.01
internal_corr_sig0_ku	Ku band internal calibration correction on backscatter coefficient	dB	short	32767	N/A	0.01
internal_path_delay_corr_c	Internal calibration correction on the C-band altimeter range, updated to account for reference plane and internal path delay	m	int	2147483647	N/A	0.0001
internal_path_delay_corr_ku	Internal calibration correction on the Ku-band altimeter range, updated to account for reference plane and internal path delay	m	int	2147483647	N/A	0.0001
interp_flag_ocean_tide_sol1	0 = valid interpolation; 1 = failure of interpolation i.e. ocean_tide_sol1 set to default value	N/A	byte	127	N/A	1
interp_flag_ocean_tide_sol2	0 = valid interpolation; 1 = failure of interpolation i.e. ocean_tide_sol2 set to default value	N/A	byte	127	N/A	1
interp_flag_tb	Possible values are: 0 interpolation without gap between JMR data, 1 interpolation with gap between JMR data, 2 extrapolation of JMR data, 3 failure of extrapolation and interpolation	N/A	byte	127	N/A	1
inv_bar_corr	Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook	m	short	32767	N/A	0.0001
inv_bar_corr_era	Courtesy of ECMWF as provider of met data for the atmospheric corrections. Computed at the altimeter time-tag from the interpolation of 2 meteorological fields that surround the altimeter time-tag. See Jason-1 User Handbook	m	short	32767	N/A	0.0001
iono_corr_alt_ku	An ionospheric correction must be added (negative value) to the instrument range to correct this range measurement for ionospheric range delays of the radar pulse. See Jason-1 User Handbook	m	short	32767	N/A	0.0001
iono_corr_gim_ku	An ionospheric correction must be added (negative value) to the instrument range to correct this range measurement for ionospheric range delays of the radar pulse. See Jason-1 User Handbook	m	short	32767	N/A	0.0001
lat	Positive latitude is North latitude, negative latitude is South latitude. See Jason-1 User Handbook.	degrees_north	int	N/A	N/A	1.0E-6
lat_20hz	Positive latitude is North latitude, negative latitude is South latitude. See Jason-1 User Handbook	degrees_north	int	2147483647	N/A	1.0E-6
load_tide_sol1	This value has already been added to the corresponding ocean tide height value recorded in the product (ocean_tide_sol1). See Jason-1 User Handbook	m	short	32767	N/A	0.0001
load_tide_sol2	This value has already been added to the corresponding ocean tide height value recorded in the product (ocean_tide_sol2). See Jason-1 User Handbook	m	short	32767	N/A	0.0001
lon	East longitude relative to Greenwich meridian. See Jason-1 User Handbook.	degrees_east	int	N/A	N/A	1.0E-6
lon_20hz	East longitude relative to Greenwich meridian. See Jason-1 User Handbook	degrees_east	int	2147483647	N/A	1.0E-6
mean_sea_surface	The mean sea surface height is referenced to a 20 years mean. See Jason-1 User Handbook.	m	int	2147483647	N/A	0.0001
mean_sea_surface_err	See Jason-1 User Handbook	m	int	2147483647	N/A	0.0001
mean_topography	The mean dynamic topography is referenced to a 20 years mean. See Jason-1 User Handbook.	m	int	2147483647	N/A	0.0001
mean_topography_err	See Jason-1 User Handbook	m	int	2147483647	N/A	0.0001