التسميات

آخر المواضيع

الجمعة، 2 فبراير 2018

On the LiDAR contribution for the archaeological and geomorphological study of a deserted medieval village in Southern Italy‏


On the LiDAR contribution for the archaeological and geomorphological study of a deserted medieval village in Southern Italy‏

Rosa Lasaponara1, Rosa Coluzzi1, Fabrizio T Gizzi2 and Nicola Masini2

1 Istituto di Metodologie per l’Analisi Ambientale, IMAA-CNR, C da S Loja 85050 Tito Scalo (PZ), Italy 2 Istituto Beni Archeologici e Monumentali, IBAM-CNR, C da S Loja, 85050 Tito Scalo (PZ), Italy






JOURNAL OF GEOPHYSICS AND ENGINEERING - J. Geophys. Eng. 7 (2010) 155–163

Abstract 

  Airborne laser scanning (ALS) is an optical measurement technique for obtaining high-precision information about the Earth’s surface including basic terrain mapping (digital terrain model, bathymetry, corridor mapping), vegetation cover (forest assessment and inventory) and coastal and urban areas. Recent studies examined the possibility of using ALS in archaeological investigations to identify earthworks, although the ability of ALS measurements in this context has not yet been studied in detail. This paper focuses on the potential of the latest generation of airborne ALS for the detection and the spatial characterization of micro-topographic relief linked to archaeological and geomorphological features. The investigations were carried out near Monteserico, an archaeological area in the Basilicata region (Southern Italy) which is characterized by complex topographical and morphological features. The study emphasizes that the DTM-LiDAR data are a powerful instrument for detecting surface discontinuities relevant for investigating geomorphological processes and cultural features. The LiDAR survey allowed us to identify the urban shape of a medieval village, by capturing the small differences in height produced by surface and shallow archaeological remains (the so-called shadow marks) which were not visible from ground or from optical dataset. In this way, surface reliefs and small elevation changes, linked to geomorphological and archaeological features, have been surveyed with great detail. 

Keywords: remote sensing archaeology, airborne laser scanning, full-waveform, geomorphology, Monteserico


5. Conclusion 

  Results from our analyses pointed out that the DTM-LiDAR data are a powerful instrument for detecting macro- and micro-elevation changes, which are generally very critical to evaluate. The DTM obtained from LiDAR provided a sound basis for geomorphological interpretation, useful to detect surface discontinuities (e.g. breaklines, lineaments) and forms as well as to identify surface features relevant for geomorphological processes of the study area. Moreover, the high resolution of LiDAR-based DTM allowed us to identify and to record small differences in height on the ground produced by surface and shallow archaeological remains (the so-called shadow marks) which were not visible from the optical multitemporal dataset. On the other side, ALS provides a detailed digital surface model which can efficiently enable the identification of archaeological sites and features, which leave traces in relief, but cannot detect buried structures without surviving in (micro-) relief. Buried structures without surviving in (micro-) relief cannot be detected by ALS, but can be successfully emphasized by using multispectral satellite images. In the current case under investigation, the availability of a multitemporal dataset, made up of aerial and VHR satellite images, allowed us to assess changes occurred over the years in the land use and land division as well as in the permanence and ‘visibility’ of archaeological features. This pointed out the importance of the data integration and the multitemporal analysis for documentation and preservation purposes. The approach we adopted for data processing can be fruitfully applied to improve a wide range of applications in remote sensing, geodesy, geophysics and geodynamics, such as semi-automatic reconnaissance of surface anomalies or discontinuities significant for geological applications and multitemporal change detection analyses, identification of low-relief terrain, identification, characterization, and mapping and monitoring of landslides.


References 

Anselin L 1995 Local indicators of spatial association LISA Geograph. Anal. 27 93–115 

Axelsson P 2000 DEM generation from laser scanner data using adaptive TIN models Int. Arch. Photogramm. Remote Sens. 33 B4 pp 711–011 

Azzaroli A, Perno U and Radina B 1968 Note illustrative della Carta Geologica d’Italia: Foglio 188 ‘Gravina di Puglia’ Serv. Geol. Ital. 57 

Barnes I 2003 Aerial remote-sensing techniques used in the management of archaeological monuments on the British Army’s Salisbury Plain Training Area (Wiltshire, UK) Archaeological Prospection 10 83–91 

Challis K 2006 Airborne laser altimetry in alluviated landscapes Archaeological Prospection 13 103–27 

Corns A and Shaw R 2008 High resolution LiDAR for the recording of archaeological monuments & landscapes Advances in Remote Sensing for Archaeology and Cultural Heritage Management ed R Lasaponara and N Masini (Aracne: Rome) pp 99–102 

Criello R, Sodo M and Cossalter L 2008 Ricerche recenti in area mediobradanica L’insediamento di Monteserico nella prima eta del ferro Prima delle Colonie Organizzazione ` territoriale e produzioni ceramiche specializzate in Basilicata e in Calabria settentrionale ionica nella prima eta del ferro ` ed M Battelli, C De Faveri and M Osanna (Osanna: Venosa) pp 309–38 

Crutchley S 2008 Ancient and modern: combining different remote sensing techniques to interpret historic landscapes Advances in Remote Sensing for Archaeology and Cultural Heritage Management ed R Lasaponara and N Masini (Aracne: Rome) pp 103–6 

Devereux B J, Amable G S, Crow P and Cliff A D 2005 The potential of airborne lidar for detection of archaeological features under woodland canopies Antiquity 79 648–60 

Doneus M, Briese C, Fera M and Janner M 2008 Archaeological prospection of forested areas using full-waveform airborne laser scanning J. Archaeological Sci. 35 882–93 

Getis A and Ord J K 1994 The analysis of spatial association by use of distance statistics Geograph. Anal. 24 189–206 

Lasaponara R and Masini N 2005 QuickBird-based analysis for the spatial characterization of archaeological sites: case study of the Monte Serico Medioeval village Geophys. Res. Lett. 32 L12313 

Lazzari M and Pieri M 2002 Modello stratigrafico-deposizionale della successione regressiva infrapleistocenica della Fossa Bradanica nell’area compresa tra Lavello, Genzano e Spinazzola Mem. Soc. Geol. Ital. 57 231–7 

Masini N 1995 Note storico-topografiche e fotointerpretazione aerea per la ricostruzione della ‘forma urbis’ del sito medievale di Monte Serico Tarsia 16 45–64 

Masini N 1998 La fotointerpretazione aerea finalizzata allo studio morfologico dei siti urbani e fortificati medioevali della Basilicata ‘Castra ipsa possunt et debent reparari’ Indagini conoscitive e metodologie di restauro delle strutture castellane normanno-sveve vol I ed C D Fonseca (Rome: Edizioni De Luca) pp 205–50 

Ricchetti G 1981 Contributo alla conoscenza strutturale della Fossa Bradanica e delle Murge Boll. Soc. Geol. Ital. 99 431–6 

Shell C and Roughley C 2004 Exploring the Loughcrew landscape: a new airborne approach Archaeology Irel. 18/2 22–25 

Qian S and Chen D 1996 Joint Time–Frequency Analysis Methods and Applications (Englewood Cliffs, NJ: Prentice-Hall)


Full Text




ليست هناك تعليقات:

إرسال تعليق

آخرالمواضيع






جيومورفولوجية سهل السندي - رقية أحمد محمد أمين العاني

إتصل بنا

الاسم

بريد إلكتروني *

رسالة *

Related Posts Plugin for WordPress, Blogger...

آية من كتاب الله

الطقس في مدينتي طبرق ومكة المكرمة

الطقس, 12 أيلول
طقس مدينة طبرق
+26

مرتفع: +31° منخفض: +22°

رطوبة: 65%

رياح: ESE - 14 KPH

طقس مدينة مكة
+37

مرتفع: +44° منخفض: +29°

رطوبة: 43%

رياح: WNW - 3 KPH

تنويه : حقوق الطبع والنشر


تنويه : حقوق الطبع والنشر :

هذا الموقع لا يخزن أية ملفات على الخادم ولا يقوم بالمسح الضوئ لهذه الكتب.نحن فقط مؤشر لموفري وصلة المحتوي التي توفرها المواقع والمنتديات الأخرى . يرجى الاتصال لموفري المحتوى على حذف محتويات حقوق الطبع والبريد الإلكترونيإذا كان أي منا، سنقوم بإزالة الروابط ذات الصلة أو محتوياته على الفور.

الاتصال على البريد الإلكتروني : هنا أو من هنا