Visualising the aspect-dependent radar cross section of seabirds over a tidal energy test site using a commercial marine radar system

D.L. McCann, P.S. Bell
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引用次数: 7

Abstract

The long-term monitoring of seabirds around proposed marine renewable energy (MRE) sites is vital to assess the large-scale and long-term environmental impacts of MRE installations. Marine radar could be a valuable tool to augment traditional seabird surveys but the problem of aspect dependency of the generic radar cross section (RCS) of live birds in flight must be understood before radar data is correctly interpreted. A marine radar multiple target tracking algorithm (‘GANNET’) was applied to data from an un-calibrated, horizontally polarised, 10 kW X-band marine radar sited at the European Marine Energy Centre (EMEC) tidal renewable energy test site, Scotland U.K. From 24 days of data over 1.84 million target readings were recorded. For each target reading the radar aspect angle (bearing of radar beam incident on target), range and non-dimensional echo magnitude were derived allowing a view to be generated of the variation of echo magnitude with aspect angle for all tracked targets. The resulting polar diagram shows a significant change in echo magnitude with range between side-on and head/tail-on aspects indicating a large contribution of the RCS from the wings of birds in flight. The species-unspecific detectability of seabirds, especially at long range, is found to be strongly dependent on aspect angle. This has direct implications for the use of marine radar equipment for avian monitoring at proposed and active marine energy sites and must be taken into account if data from these radars are to be used to augment traditional bird abundance and area use surveys conducted by human observers.

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使用商用海洋雷达系统在潮汐能测试场地上可视化海鸟的仰角相关雷达横截面
对拟议的海洋可再生能源(MRE)站点周围的海鸟进行长期监测对于评估MRE设施的大规模和长期环境影响至关重要。海洋雷达可以作为传统海鸟调查的重要工具,但在正确解释雷达数据之前,必须了解飞行中活鸟的一般雷达截面(RCS)的方向依赖性问题。在英国苏格兰的欧洲海洋能源中心(EMEC)潮汐可再生能源试验场,将一种海洋雷达多目标跟踪算法(GANNET)应用于未经校准的水平极化10 kW x波段海洋雷达的数据。从24天的数据中记录了超过184万个目标读数。对于每一个读取雷达俯仰角(雷达波束入射目标的方位)的目标,导出距离和无量纲回波幅度,从而得到所有被跟踪目标回波幅度随俯仰角的变化情况。由此得到的极坐标图显示了回声强度的显著变化,其范围在侧面和头部/尾部朝向之间,表明鸟类在飞行中翅膀对RCS的贡献很大。发现海鸟的非物种可探测性,特别是远距离可探测性,强烈依赖于俯仰角。这直接影响到在拟议的和现有的海洋能源场址使用海洋雷达设备进行鸟类监测,如果要使用这些雷达的数据来增加传统的鸟类数量和由人类观察员进行的地区使用调查,就必须考虑到这一点。
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