A hybrid method for surface current estimation using X-band nautical radar

This work deals with the sea state monitoring starting from marine radar images collected on a moving ship. For such a topic, one of the key factors affecting the reliability of the reconstruction procedure is the determination of the equivalent surface current that also accounts for the speed of the moving ship. Here, we propose a method able to evaluate also high values of the sea surface current. The reliability of the proposed procedure is shown by a numerical analysis with synthetic data. Finally, we present some preliminary results with measurements collected on a moving ship.

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X-Band Radar for the Monitoring of Sea Waves and Currents: A Comparison between Medium and Short Radar Pulses

10.5194/gi-2016-42 ◽

2017 ◽

Cited By ~ 1

Author(s):

Giovanni Ludeno ◽

Francesco Raffa ◽

Francesco Soldovieri ◽

Francesco Serafino

Keyword(s):

Surface Current ◽

Parameters Estimation ◽

Sea Waves ◽

State Monitoring ◽

Sea State ◽

Experimental Campaign ◽

X Band ◽

Waves And Currents ◽

Marine Radar ◽

Good Agreement

Abstract. This letter presents the monitoring results of the sea waves and the surface currents obtained by analyzing data acquired by a X-band marine radar in two different operative conditions, namely the short and medium pulse modes. In particular, we investigated the feasibility to use a medium radar pulse for sea state monitoring by comparing the performance in both the radar modes. The comparison was carried out by means of an experimental campaign and we observed a good agreement for surface current and sea state parameters estimation.

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Broadband Frequency Scanning Spoof Surface Plasmon Polariton Design with Highly Confined Endfire Radiations

Scientific Reports ◽

10.1038/s41598-019-56720-4 ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Abhishek Kandwal ◽

Jingzhen Li ◽

Tobore Igbe ◽

Yuhang Liu ◽

Sinan Li ◽

...

Keyword(s):

Surface Plasmon ◽

Surface Plasmon Polariton ◽

Target Location ◽

Surface Current ◽

Travelling Wave ◽

Dispersion Engineering ◽

Frequency Scanning ◽

X Band ◽

Plasmon Polariton ◽

Broadband Frequency

AbstractThis paper proposes a compact broadband frequency scanning spoof surface plasmon polariton (SSPP) based design for efficient endfire radiations with high field confinement. Through the dispersion engineering, highly confined field distribution has been obtained in the operating frequency region. The proposed SSPP antenna has achieved a continuous through endfire scanning in the X-band at other operating frequencies which is in general difficult to obtain for SSPP based antennas. In the proposed design methodology, the swore-shaped surface plasmon antenna has both edges corrugated with an array of rectangular grooves which effectively confines the electromagnetic field into a slow travelling wave. The surface impedances along both edges were engineered to be different at operating frequencies as to force the surface current to preferentially flow along either edge of the antenna to a different extent. The design with overall dimensions of (55 × 30) mm2 has achieved a broadband of 4 GHz with high peak measured gain of 9.8 dBi and peak efficiency of about 95 percent in the X-band. The antenna has been further tested experimentally for scanning application of target location also.

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Near-Surface Current Mapping by Shipboard Marine X-Band Radar: A Validation

Journal of Atmospheric and Oceanic Technology ◽

10.1175/jtech-d-17-0154.1 ◽

2018 ◽

Vol 35 (5) ◽

pp. 1077-1090 ◽

Cited By ~ 23

Author(s):

Björn Lund ◽

Brian K. Haus ◽

Jochen Horstmann ◽

Hans C. Graber ◽

Ruben Carrasco ◽

...

Keyword(s):

Mississippi River ◽

Oil Spills ◽

Surface Current ◽

Current Profile ◽

Near Surface ◽

Sea Surface Roughness ◽

X Band ◽

Effective Depth ◽

The Mean ◽

Potential Impact

AbstractThe Lagrangian Submesoscale Experiment (LASER) involved the deployment of ~1000 biodegradable GPS-tracked Consortium for Advanced Research on Transport of Hydrocarbon in the Environment (CARTHE) drifters to measure submesoscale upper-ocean currents and their potential impact on oil spills. The experiment was conducted from January to February 2016 in the Gulf of Mexico (GoM) near the mouth of the Mississippi River, an area characterized by strong submesoscale currents. A Helmholtz-Zentrum Geesthacht (HZG) marine X-band radar (MR) on board the R/V F. G. Walton Smith was used to locate fronts and eddies by their sea surface roughness signatures. The MR data were further processed to yield near-surface current maps at ~500-m resolution up to a maximum range of ~3 km. This study employs the drifter measurements to perform the first comprehensive validation of MR near-surface current maps. For a total of 4130 MR–drifter pairs, the root-mean-square error for the current speed is 4 cm and that for the current direction is 12°. The MR samples currents at a greater effective depth than the CARTHE drifters (1–5 m vs ~0.4 m). The mean MR–drifter differences are consistent with a wave- and wind-driven vertical current profile that weakens with increasing depth and rotates clockwise from the wind direction (by 0.7% of the wind speed and 15°). The technique presented here has great potential in observational oceanography, as it allows research vessels to map the horizontal flow structure, complementing the vertical profiles measured by ADCP.

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