Evaluation of the benefits for mapping faint archaeological features by using an ultra-dense ground-penetrating-radar antenna array

IF 2.1 3区地球科学 0 ARCHAEOLOGY Archaeological Prospection Pub Date : 2022-07-16 DOI:10.1002/arp.1870

Roland Linck, Andreas Stele, Hans-Martin Schuler

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引用次数: 4

Abstract

Modern archaeo-geophysical radar surveys are often executed with multichannel antenna arrays, which allows a much faster survey progress combined with a denser profile spacing. Furthermore, from a methodological point of view, a full 3D dataset is necessary to resolve small targets of a few decimetre diameter. However, only a few test surveys deal with the evaluation of the real improvement in data quality by applying such multichannel arrays. In this paper, a test survey with the IDS Stream-C 600-MHz radar device on a small area covering the Roman Bath of Kempten-Cambodunum is presented. The aim of the study is to figure out whether faint archaeological remains like hypocaust pillars, that is, the pillars of a Roman floor heating system, that are missed by single-channel devices, are detectable in an ultra-dense antenna array. Thus, the same area was simultaneously mapped with both GPR configurations. The results of this case study demonstrate the benefit of such antenna arrays for the archaeological prospection of small subsurface features with a diameter of 25 cm or less. For ground-truthing of the results, a comparison with old excavation maps was executed.

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使用超密集探地雷达天线阵列绘制微弱考古特征的效益评估

现代考古地球物理雷达测量通常使用多通道天线阵列进行，这使得测量进度更快，同时剖面间距更大。此外，从方法学的角度来看，完整的3D数据集对于解决几分米直径的小目标是必要的。然而，只有少数测试调查涉及应用这种多通道阵列对数据质量的实际改进的评估。本文介绍了用IDS Stream - C 600 MHz雷达装置在坎普滕-柬埔寨罗马浴场的小范围内进行的测试测量。这项研究的目的是弄清楚是否可以在超密集的天线阵列中检测到微弱的考古遗迹，如地下柱，即罗马地板供暖系统的柱，这些遗迹被单通道设备错过了。因此，两种探地雷达配置同时映射同一区域。本案例研究的结果表明，这种天线阵列对于直径为25厘米或更小的地下特征的考古勘探具有好处。为了使结果在地面上真实，与旧的挖掘地图进行了比较。

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来源期刊

Archaeological Prospection 地学-地球科学综合

CiteScore

3.90

自引率

11.10%

发文量

审稿时长

>12 weeks

期刊介绍： The scope of the Journal will be international, covering urban, rural and marine environments and the full range of underlying geology. The Journal will contain articles relating to the use of a wide range of propecting techniques, including remote sensing (airborne and satellite), geophysical (e.g. resistivity, magnetometry) and geochemical (e.g. organic markers, soil phosphate). Reports and field evaluations of new techniques will be welcomed. Contributions will be encouraged on the application of relevant software, including G.I.S. analysis, to the data derived from prospection techniques and cartographic analysis of early maps. Reports on integrated site evaluations and follow-up site investigations will be particularly encouraged. The Journal will welcome contributions, in the form of short (field) reports, on the application of prospection techniques in support of comprehensive land-use studies. The Journal will, as appropriate, contain book reviews, conference and meeting reviews, and software evaluation. All papers will be subjected to peer review.