THE HIGH FREQUENCY SURFACE WAVE RADAR SOLUTION FOR VESSEL TRACKING BEYOND THE HORIZON

被引：6

作者：

Nikolic, Dejan ^{[1
]}

Stojkovic, Nikola ^{[1
]}

Petrovic, Pavle ^{[1
]}

Tosic, Nikola ^{[1
]}

Lekic, Nikola ^{[1
]}

Stankovic, Zoran ^{[2
]}

Doncov, Nebojsa ^{[2
]}

机构：

[1] Vlatacom Inst, Belgrade, Serbia

[2] Univ Nis, Fac Elect Engn, Aleksandra Medvedeva 14, Nish 18000, Serbia

来源：

FACTA UNIVERSITATIS-SERIES ELECTRONICS AND ENERGETICS | 2020年 / 33卷 / 01期

关键词：

High Frequency Surface Wave; radar; maritime surveillance; Digital Beamforming; Constant False Alarm Ratio; Frequency Modulated Continuous Wave; SURVEILLANCE;

D O I：

10.2298/FUEE2001037N

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

With maximum range of about 200 nautical miles (approx. 370 km) High Frequency Surface Wave Radars (HFSWR) provide unique capability for vessel detection far beyond the horizon without utilization of any moving platforms. Such uniqueness requires design principles unlike those usually used in microwave radar. In this paper the key concepts of HFSWR based on Frequency Modulated Continuous (FMCW) principles are presented. The paper further describes operating principles with focus on signal processing techniques used to extract desired data. The signal processing describes range and Doppler processing but focus is given to the Digital Beamforming (DBF) and Constant False Alarm Rate (CFAR) models. In order to better present the design process, data obtained from the HFSWR sites operating in the Gulf of Guinea are used.

引用

页码：37 / 59

页数：23

共 35 条

[1] Vessel fusion tracking with a dual-frequency high-frequency surface wave radar and calibrated by an automatic identification system
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Liu Yongxin
Ji Yonggang
Wang Linglin
ACTA OCEANOLOGICA SINICA, 2018, 37 (07) : 131 - 140
[2] Expanding Maritime Domain Awareness Capabilities in the Arctic: High Frequency Radar Vessel-tracking
Roarty, Hugh J.
Smith, Michael
Glenn, Scott M.
Barrick, Donald E.
Whelan, Chad
Page, Ed
Statscewich, Hank
Weingartner, Tom
2013 IEEE RADAR CONFERENCE (RADAR), 2013,
[3] High-Resolution Sea Surface Target Detection Using Bi-Frequency High-Frequency Surface Wave Radar
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Eric, Miljko
Vukmirovic, Nenad
Orlic, Vladimir
REMOTE SENSING, 2024, 16 (18)
[4] Maritime over the Horizon Sensor Integration: High Frequency Surface-Wave-Radar and Automatic Identification System Data Integration Algorithm
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Stojkovic, Nikola
Lekic, Nikola
SENSORS, 2018, 18 (04)
[5] Radar cross-section (RCS) analysis of high frequency surface wave radar targets
Cakir, Gonca
Sevgi, Levent
TURKISH JOURNAL OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCES, 2010, 18 (03) : 457 - 467
[6] Ionospheric effect of HF surface wave over-the-horizon radar
Gao, Huotao
Li, Geyang
Li, Yongxu
Yang, Zijie
Wu, Xiongbin
RADIO SCIENCE, 2006, 41 (06)
[7] VESSEL TARGET MONITORING WITH BISTATIC COMPACT HF SURFACE WAVE RADAR
Ji, Yonggang
Zhang, Jie
Wang, Miming
Meng, Junmin
Yu, Changjun
Li, Ming
Sun, Weifeng
IGARSS 2020 - 2020 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM, 2020, : 296 - 299
[8] Sea clutter suppression method for shipborne high-frequency surface-wave radar
Yi, Chunlei
Ji, Zhenyuan
Xie, Junhao
Sun, Minglei
Li, Yang
IET RADAR SONAR AND NAVIGATION, 2016, 10 (01) : 107 - 113
[9] Performance Evaluation of SeaSonde High-Frequency Radar for Vessel Detection
Roarty, Hugh J.
Lemus, Erick Rivera
Handel, Ethan
Glenn, Scott M.
Barrick, Donald E.
Isaacson, James
MARINE TECHNOLOGY SOCIETY JOURNAL, 2011, 45 (03) : 14 - 24
[10] Improved Frequency Monitoring System for Sky-Wave Over-the-Horizon Radar in Canada
Thayaparan, Thayananthan
Marchioni, Justin
Kelsall, Alison
Riddolls, Ryan
IEEE GEOSCIENCE AND REMOTE SENSING LETTERS, 2020, 17 (04) : 606 - 610

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