Date (Creation)

2023-07-24

Date (Revision)

2023-07-24

Date (Publication)

2023-07-24

Date (released)

2023-07-24

Edition

1.0

Unique resource identifier

https://doi.org/10.5285/40c2f86b-1a02-4106-934a-42769682df66

Codespace

doi

Unique resource identifier

GB/NERC/BAS/PDC/01766

Codespace

https://data.bas.ac.uk/

Unique resource identifier

NE/L013444/1

Codespace

award

Unique resource identifier

NE/L013770/1

Codespace

award

Other citation details

Please cite this item as: Arenas Pingarron, A., Brisbourne, A., Corr, H., Jordan, T., Robinson, C., Martin, C., Nicholls, K., & Smith, A. (2023). Ice-sounding airborne synthetic aperture radar depth profiles from Recovery Ice Stream 2016/17 and Rutford Ice Stream 2019/20 to test the RGB-Doppler-Decomposition method. (Version 1.0) [Data set]. NERC EDS UK Polar Data Centre. https://doi.org/10.5285/40c2f86b-1a02-4106-934a-42769682df66

Credit

No credit.

Status

Completed

Point of contact

Organisation name	Individual name	Electronic mail address	Role
British Antarctic Survey	Arenas Pingarron, Alvaro		Author
British Antarctic Survey	Brisbourne, Alex		Author
British Antarctic Survey	Corr, Hugh		Author
British Antarctic Survey	Jordan, Tom		Author
British Antarctic Survey	Robinson, Carl		Author
British Antarctic Survey	Martin, Carlos		Author
British Antarctic Survey	Nicholls, Keith		Author
British Antarctic Survey	Smith, Andrew		Author
NERC EDS UK Polar Data Centre		PDCServiceDesk@bas.ac.uk	Point of contact

Maintenance and update frequency

As needed

Maintenance note

Completed

Global Change Master Directory (GCMD) Science Keywords

• EARTH SCIENCE > Cryosphere > Glaciers/Ice Sheets
• EARTH SCIENCE > Spectral/Engineering > Radar

Theme

• Antarctic

• Recovery Ice Stream

• Rutford Ice Stream

• Synthetic Aperture Radar

• aerogeophysics

• ice thickness

Place

• Antarctica, Filchner Ice Shelf, Recovery Glacier Antarctica

• Antarctica, Ronne Ice Shelf, Rutford Ice Stream Antarctica

GEMET - INSPIRE themes, version 1.0

• Elevation

Access constraints

Other restrictions

Other constraints

no limitations to public access

Access constraints

Other restrictions

Other constraints

no limitations

Use constraints

License

Other constraints

Open Government Licence v3.0

Use constraints

Other restrictions

Other constraints

This data is governed by the NERC Data Policy: https://www.ukri.org/who-we-are/nerc/our-policies-and-standards/nerc-data-policy/

Use constraints

Other restrictions

Other constraints

. Further by downloading this data the user acknowledges that they agree with the NERC data policy (), and the following conditions:

1. To cite the data in any publication.

2. The user recognizes the limitations of data. Use of the data is at the users' own risk, and there is no warranty as to the quality or accuracy of any data, or the fitness of the data for your intended use. The data are not necessarily fully quality assured and cannot be expected to be free from measurement uncertainty, systematic biases, or errors of interpretation or analysis, and may include inaccuracies in error margins quoted with the data.

Use constraints

Other restrictions

Other constraints

No restrictions apply.

Unique resource identifier

doi

Codespace

doi

Association Type

Cross reference

Unique resource identifier

doi

Codespace

doi

Association Type

Cross reference

Unique resource identifier

url

Codespace

url

Association Type

Larger work citation

Unique resource identifier

url

Codespace

url

Association Type

Larger work citation

Unique resource identifier

url

Codespace

url

Association Type

Cross reference

Unique resource identifier

doi

Codespace

doi

Association Type

Cross reference

Unique resource identifier

doi

Codespace

doi

Association Type

Cross reference

Unique resource identifier

doi

Codespace

doi

Association Type

Cross reference

Unique resource identifier

url

Codespace

url

Association Type

dependency

Unique resource identifier

url

Codespace

url

Association Type

dependency

Unique resource identifier

url

Codespace

url

Association Type

dependency

Unique resource identifier

url

Codespace

url

Association Type

dependency

Spatial representation type

Text, table

Language

English

Character set

UTF8

Topic category

• Geoscientific information

Begin date

2017-01-01

End date

2017-01-01

Supplemental Information

It is recommended that careful attention be paid to the contents of any data, and that the author be contacted with any questions regarding appropriate use. If you find any errors or omissions, please report them to polardatacentre@bas.ac.uk.

Title

European Petroleum Survey Group (EPSG) Geodetic Parameter Registry

Date (Publication)

2008-11-12

Cited responsible party

Organisation name	Individual name	Electronic mail address	Role
European Petroleum Survey Group		EPSGadministrator@iogp.org	Publisher

Unique resource identifier

urn:ogc:def:crs:EPSG::3031

Version

6.18.3

Hierarchy level

Dataset

Statement

Methodology:

The raw data was collected by the airborne Synthetic Aperture Radar (SAR) PASIN2. It is 150-MHz coherent pulsed radar, transmitting chirped pulses with linear frequency sweep, with 13 MHz bandwidth and effective pulse repetition frequency 125 Hz. On board of a De Havilland DHC-6 Twin Otter aircraft ("VP-FBL"), in ice-sounding flights the nominal speed is 60 m/s, and the terrain clearance (height above closest surface) is 300 m. PASIN2 has 12 antenna elements: 8 underwing folded-dipoles switching between transmit (TX) and receive (RX) modes, and 4 printed-dipoles being RX-only attached to the fuselage belly. The data processing is performed off-line, with a full workflow consisting of: 1) channel calibration; 2) 2D SAR imaging, based on pulse-compression for range dimension, and back-projection for along-track dimension; 3) Direction of Arrival estimation (DoA) of the remaining across-track angle, based on the non-linear MUSIC algorithm, by using several SAR images from different transmitters or receivers; and 4) 3D-mapping from the three dimensions of range, along-track and across-track angle, by correcting the real depths and across-track distances, regarding the case of incorrectly assumed vertical DoA of a single SAR image. In the here presented dataset are included two basic SAR products (without either DoA or 3D-mapping), each from a nominal surveying flight above two ice streams:

- an only range-focussed image (without along-track focussing) above the Recovery Ice Stream, flying across-flow above a subglacial channel in the Filchner Ice Shelf, as part of the FISS project in season 2016/17, Flight F11. This component of the data set was included to show that the RGB Doppler Decomposition can also be applied to range-compressed data without SAR focussing, and an application to interpret subglacial channels imagery.

- a full-focussed (range and along-track) SAR image above the Rutford Ice Stream, flying across flow in the grounded ice from the ice stream center to near its margin, as part of the BEAMISH project in season 2019/20, Flight T04. This component of the data set was included to show the ice-column imaging capabilities, including ice surface, shallow and deep ice, and bedrock.

The two SAR product outputs (one per flight section) are formatted as NetCDF (Network Common Data Format) files (.nc) for data sharing. They contain standard data and its associated metadata, including units, conventions, intervals and human-readable descriptions, among others. NetCDF file content can be explored and plotted with software such as the free stand-alone Panoply, and the content can be read and created using available interfaces in C, C++, Java, Fortran, Python, IDL, MATLAB, and R, among others. The most import global variables in the here presented netCDF files are:

SAR image coordinates:

- 'profile': dimension variable 'profile_id', with the index of the profile within the SAR image, as an integer starting at 0.

- 'radialDepthGrid': dimension variable, with the depth grid in the SAR image as the vertical location below (positive) and above (negative) surface, units 'meters', positive 'down', axis 'z'.

- 'pulse': Index of the transmitted pulse within the effective PRF of each waveform (after pulse stacking) of the whole data take (not of the SAR image), and its increment is the subsampling factor to get the SAR-image PRF from the effective PRF of each waveform, or vice versa; dimension 'profile'. To obtain the PRF of each waveform during the data take from the SAR-image PRF:

waveform PRF [Hz] = diff('pulse') x SAR-image PRF [Hz]

- 'pulseTime': time at the transmitted pulse within the effective PRF of each waveform (after pulse stacking) of the whole data take (not of the SAR image), and its increment (in seconds) is the inverse of the SAR-image PRF; units 'number of days from January 0, year 0000'; dimens...(25)

Data collection:

PASIN2 (Polarimetric Airborne Scientific INstrument, mark 2) radar; Matlab R2020b software. The parameter files used for processing are in the open repository https://github.com/antarctica/sar-rgb-spectral-decomposition

Instrument

The data were collected with the British Antarctic Survey (BAS) PASIN2 (Polarimetric Airborne Scientific INstrument, mark 2), an airborne Synthetic Aperture Radar (SAR) at 150 MHz (wavelength = 2 m in vacuum) and 13 MHz bandwidth, designed for deep ice sounding and basal 3d-mapping mounted on the BAS Twin Otter "VP-FBL" aircraft. It can be operated as part of a geophysical suite with additional radars, sensors for magnetic and gravity field detection, lidar and a camera. Accurate time and positional data are obtained via geodetic GPS.

Antennas

PASIN2 has 12 antenna elements: 8 underwing-antennas switching between transmit (TX) and receive (RX) modes, and 4 pod-antennas being RX-only. The 8 TX/RX elements are folded dipoles of length 0.39wavelength, 4 at each side (port and starboard) and separated by 0.8wavelength. The 4 RX-only are end-loaded printed dipoles within a radome attached to the fuselage, with a separation of 0.5wavelength, and are referred as belly. The 12 elements are independent receivers, whereas the 4 elements in port and starboard arrays are each driven, hence achieving 24 phase centers (2TX, 12RX), non-unique. The wings, with a slope (dihedral) of σ = 3.5 degrees, behave as plane reflectors for port and starboard elements, directing the TX pattern of each array towards different directions. The antenna orientation is always within a horizontal plane, never vertical. The convention for naming the orientations is H for along-wing, and V for along-track (if a photograph of the antennas was taking above the aircraft, in the two-dimensional photograph H would have a horizontal orientation, and V vertical). The polarization must be manually changed before taking off, in port and starboard. In this dataset, the antenna polarizations for transmission and reception were always H (along-wing).

Transmitter configuration

The transmission method was time-division multiplexing with a system pulse repetition frequency (SPRF) of 15.625 kHz, and a (full cycle) receiving window of 64 us (microseconds). In the data take of this dataset, the number of pre-programmed alternating transmitted waveforms was 5, including TX side and pulse type. The transmitted signals were generated with an arbitrary waveform generator (AWG), directly tuning the carrier frequency to 150 MHz. The AWG has two independent outputs, for port and starboard, and each divides into four towards separated low pass filters, high-power amplifiers and the antenna elements. In the here presented dataset:

- Recovery Ice Stream (FISS project, season 2016/17, Flight F11) from port array transmissions.

- Rutford Ice Stream (BEAMISH project, season 2019/20, Flight T04): from starboard array transmissions.

Waveforms

The transmitted pulses were chirps with linear frequency modulation. The bandwidth is limited to 13 MHz, with duration of 1 us (microseconds) or 4 us. To filter common interference and ADC offsets, the 4us-pulses were transmitted in 2 different waveforms: one shifted 180degrees relative to the other (0-pi modulation). The cycle of 5 waveforms was: 1) port-4us-0degrees; 2) starborad-4us-0degrees; 3) port-4us-180degrees; 4) starboard-4us-180degrees; and 5) port-1us-0degrees. In the off-line processing, received signals from both 0degrees and 180degrees waveforms are subtracted, cancelling the common sources and increasing the SNR by 3 dB, with a coherence interval of 128 us, or 7.7 mm for an aircraft speed 60 m/s. In the here presented dataset:

- Recovery Ice Stream (FISS project, season 2016/17, Flight F11) from port array transmissions with 4us waveforms (0 and 180degrees).

- Rutford Ice Stream (BEAMISH project, season 2019/20...(13)

Data quality:

The image above Recovery Ice Stream (season 2016/17, Flight F11):

- processing level: only to range-processing, thus without SAR (along-track) focussing of any kind;

- sampling of the output (back-projection) grid: 6.48 meters/pixel in range, and 16 milliseconds/pixel (62.5 Hz) in along-track;

- lightspeed in ice: Ci = 168.3751 meters/microsecond;

- spectral bandwidth: Bw = 13 MHz in pulse (range), and Dw = 50 Hz in Doppler (along-track);

- average aircraft speed: V = 60.92 m/s;

- processed along-track beamwidth (antenna aperture): 2 x arcsin(wavelength x (Dw/2) / (2 x V)) = 48.46 degrees in air, and 26.66 degrees in ice after refraction with refractive index 1.78;

- resolution (if without spectrum windowing): Ci/(2 x Bw) = 6.476 meters in range, and incremented with depth in along-track (because no SAR focusing).

The image above Rutford Ice Stream (season 2019/20, Flight T04):

- processing level: SAR focussing by back-projection;

- sampling of the output (back-projection) grid: 6.48 meters/pixel in range, and 16 milliseconds/pixel (62.5 Hz) in along-track;

- lightspeed in ice: Ci = 168.3751 meters/microsecond;

- spectral bandwidth: Bw = 13 MHz in pulse (range), and Dw = 30 Hz in Doppler (along-track);

- average aircraft speed: V = 55.18 m/s;

- processed along-track beamwidth (antenna aperture): 2 x arcsin(wavelength x (Dw/2) / (2 x V)) = 31.55 degrees in air, and 17.57 degrees in ice after refraction with refractive index 1.78;

- resolution (if without spectrum windowing): Ci/(2 x Bw) = 6.476 meters in range, and V/Dw = 1.84 meters in along-track.

The amplitude and relative phase of the antenna patterns in transmission (as an array of 4 antennas) and reception (as 12 single and independent antennas), were assessed with calibration flights above the sea surface. The patterns are assumed as invariant along each session, if the antenna configuration remains.

The transmitted radar pulses are not calibrated, as parameter drifts are not expected to affect the quality.

Metadata

File identifier

40c2f86b-1a02-4106-934a-42769682df66 XML

Metadata language

English

Character set

UTF8

Hierarchy level

Dataset

Hierarchy level name

dataset

Date stamp

2023-07-24

Metadata standard name

ISO 19115 Geographic Information - Metadata

Metadata standard version

ISO 19115:2003(E)

Metadata author

Organisation name	Individual name	Electronic mail address	Role
NERC EDS UK Polar Data Centre		polardatacentre@bas.ac.uk	Point of contact