Research Article
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Year 2023, , 32 - 41, 30.06.2023
https://doi.org/10.53093/mephoj.1290231

Abstract

References

  • Hatır, E., Korkanç, M., Schachner, A., & İnce, İ. (2021). The deep learning method applied to the detection and mapping of stone deterioration in open-air sanctuaries of the Hittite period in Anatolia. Journal of Cultural Heritage, 51, 37-49.
  • Waragai, T., & Hiki, Y. (2019). Influence of microclimate on the directional dependence of sandstone pillar weathering in Angkor Wat temple, Cambodia. Progress in Earth and Planetary Science, 6(1), 1-14.
  • Bonazza, A., Vidorni, G., Natali, I., Ciantelli, C., Giosuè, C., & Tittarelli, F. (2017). Durability assessment to environmental impact of nano-structured consolidants on Carrara marble by field exposure tests. Science of the Total Environment, 575, 23-32.
  • Gulotta, D., Villa, F., Cappitelli, F., & Toniolo, L. (2018). Biofilm colonization of metamorphic lithotypes of a renaissance cathedral exposed to urban atmosphere. Science of the Total Environment, 639, 1480-1490.
  • Winkler, E. (1997). Stone in architecture: properties, durability. Springer Science & Business Media.
  • Bello, M. A., Martin, L., & Martin, A. (1992). Decay and treatment of macael white marble. Studies in conservation, 37(3), 193-200.
  • Sarró, M. I., García, A. M., Rivalta, V. M., Moreno, D. A., & Arroyo, I. (2006). Biodeterioration of the lions fountain at the Alhambra Palace, Granada (Spain). Building and Environment, 41(12), 1811-1820.
  • Sanjurjo-Sánchez, J., & Alves, C. (2012). Decay effects of pollutants on stony materials in the built environment. Environmental Chemistry Letters, 10, 131-143.
  • Germinario, L., Oguchi, C. T., Tamura, Y., Ahn, S., & Ogawa, M. (2020). Taya Caves, a Buddhist marvel hidden in underground Japan: stone properties, deterioration, and environmental setting. Heritage Science, 8(1), 1-20.
  • Ďoubal, J. (2017). The restoration of the Stone Fountain in Kutná Hora: An assessment of the contemporary intervention within the context of repairs throughout history. Studies in Conservation, 62(7), 371-383.
  • Dreesen, R., Nielsen, P., & Lagrou, D. (2007). The staining of blue stone limestones petrographically unraveled. Materials Characterization, 58(11-12), 1070-1081.
  • Zha, J., Wei, S., Wang, C., Li, Z., Cai, Y., & Ma, Q. (2020). Weathering mechanism of red discolorations on Limestone object: a case study from Lingyan Temple, Jinan, Shandong Province, China. Heritage Science, 8(1), 1-12.
  • Germinario, L., Siegesmund, S., Maritan, L., Simon, K., & Mazzoli, C. (2017). Trachyte weathering in the urban built environment related to air quality. Heritage Science, 5(1), 1-17.
  • Gulotta, D., Bontempi, E., Bugini, R., Goidanich, S., & Toniolo, L. (2017). The deterioration of metamorphic serpentinites used in historical architecture under atmospheric conditions. Quarterly Journal of Engineering Geology and Hydrogeology, 50(4), 402-411.
  • Hall, K., & Hall, A. (1996). Weathering by wetting and drying: some experimental results. Earth Surface Processes and Landforms, 21(4), 365-376.
  • Trenhaile, A. (2006). Tidal wetting and drying on shore platforms: an experimental study of surface expansion and contraction. Geomorphology, 76(3-4), 316-331.
  • Mottershead, D. N. (1982). Rapid weathering of greenschist by coastal salt spray, East Prawle, south Devon: a preliminary report. Proceedings of the USSHER Society, 5(3), 347-353.
  • Aly, N., Hamed, A., & Abd El-Al, A. (2020). The impact of hydric swelling on the mechanical behavior of Egyptian Helwan limestone. Periodica Polytechnica Civil Engineering, 64(2), 589-596.
  • Iucolano, F., Colella, A., Liguori, B., & Calcaterra, D. (2019). Suitability of silica nanoparticles for tuff consolidation. Construction and Building Materials, 202, 73-81.
  • Dursun, F., & Topal, T. (2019). Durability assessment of the basalts used in the Diyarbakır City Walls, Turkey. Environmental Earth Sciences, 78(15), 1-24.
  • Noor-E-Khuda, S., & Albermani, F. (2019). Flexural strength of weathered granites under wetting-drying cycles: implications to steel structures. Advanced Steel Construction, 15(3), 225-231.
  • Pozo-Antonio, J., & Alonso-Villar, E. (2020). Stone durabılıty of a surfactant-synthesısed alkosylane consolıdant on granıtes wıth dıfferent mıneralogy and texture. Egyptian Journal of Archaeological and Restoration Studies, 10(2), 153-164.
  • Bustamante Montoro, R., Vazquez, P., Rodríguez Monteverde Cantarell, P., & Monjo Carrió, J. (2020). Adapted ageing tests for the evaluation of alabaster used in the restoration of Bishop’s Palace of Tarazona. Materiales de Construcción, 70(338), e219-e231.
  • Lubera, E. (2014). Frost weathering of selected rocks from the tatra mountains. Quaestiones Geographicae, 33(1), 75-88.
  • De Azcona, M. L., Gonzalez, R. F., & Martin, F. M. (2002). La conservación de los materiales pétreos en la Fuente de Cibeles, Madrid (España) Conservation of the stone in Cibeles Fountain, Madrid (Spain). Materiales de Construcción, 52(265), 65.
  • Karataş, L., Alptekin, A., Kanun, E., & Yakar, M. (2022). Tarihi kârgir yapılarda taş malzeme bozulmalarının İHA fotogrametrisi kullanarak tespiti ve belgelenmesi: Mersin Kanlıdivane ören yeri vaka çalışması. İçel Dergisi, 2(2), 41-49.
  • Mohammed, O., & Yakar, M. (2016). Yersel Fotogrametrik Yöntem ile İbadethanelerin Modellenmesi. Selcuk University Journal of Engineering Sciences, 15(2), 85-95.
  • Yakar, M., & Doğan, Y. (2017). Mersin Silifke Mezgit Kale Anıt Mezarı fotogrametrik rölöve alımı ve üç boyutlu modelleme çalışması. Geomatik, 2(1), 11-17.
  • Alyılmaz, C., Yakar, M., & Yılmaz, H. M. (2010). Drawing of petroglyphs in Mongolia by close range photogrammetry. Scientific Research and Essays, 5(11), 1216-1222.
  • Korumaz, A. G., Dülgerler, O. N., & Yakar, M. (2011). Kültürel mirasin belgelenmesinde dijital yaklaşimlar. Selçuk Üniversitesi Mühendislik, Bilim ve Teknoloji Dergisi, 26(3), 67-83.
  • Yakar, M., Toprak, A. S., Ulvi, A., & Uysal, M. (2015). Konya Beyşehir Bezariye Hanının (Bedesten) İha İle Fotogrametrik Teknik Kullanılarak Üç Boyutlu Modellenmesi. Türkiye Harita Bilimsel Ve Teknik Kurultayı, 25, 28.
  • Alptekin, A., & Yakar, M. (2021). 3D model of Üçayak Ruins obtained from point clouds. Mersin Photogrammetry Journal, 3(2), 37-40.
  • Karataş, L. (2023). 3D Laser Scanning and Photogrammetric Measurements for Documentation of the Facades of Mardin Castle, Türkiye. Advanced LiDAR, 3(1), 10-21.
  • Karataş, L., Alptekin, A., & Yakar, M. (2023). Investigating the limestone quarries as geoheritage sites: Case of Mardin ancient quarry. Open Geosciences, 15(1), 20220473.
  • Alyilmaz, C., Alyilmaz, S., & Yakar, M. (2010). Measurement of petroglyhps (rock of arts) of Qobustan with close range photogrammetry. International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 38(Part 5), 29-32.
  • Unal, M., Yakar, M., & Yildiz, F. (2004, July). Discontinuity surface roughness measurement techniques and the evaluation of digital photogrammetric method. In Proceedings of the 20th international congress for photogrammetry and remote sensing, ISPRS (Vol. 1103, p. 1108).
  • Doğan, Y., & Yakar, M. (2018). GIS and three-dimensional modeling for cultural heritages. International Journal of Engineering and Geosciences, 3(2), 50-55.
  • Korumaz, A. G., Dülgerler, O. N., & Yakar, M. (2011). Kültürel mirasin belgelenmesinde dijital yaklaşimlar. Selçuk Üniversitesi Mühendislik, Bilim ve Teknoloji Dergisi, 26(3), 67-83
  • Kanun, E., Alptekin, A., & Yakar, M. (2021). Cultural heritage modelling using UAV photogrammetric methods: a case study of Kanlıdivane archeological site. Advanced UAV, 1(1), 24-33.
  • Mirdan, O., & Yakar, M. (2017). Tarihi eserlerin İnsansız Hava Aracı ile modellenmesinde karşılaşılan sorunlar. Geomatik, 2(3), 118-125.
  • Karataş, L., & Alptekin, A. (2022). Kagir Yapılardaki Taş Malzeme Bozulmalarının Lidar Tarama Yöntemi ile Belgelenmesi: Geleneksel Silvan Konağı Vaka Çalışması. Türkiye Lidar Dergisi, 4(2), 71-84
  • Alptekin, A., & Yakar, M. (2020). Mersin Akyar Falezi’nin 3B modeli. Türkiye Lidar Dergisi, 2(1), 5-9.
  • Karachaliou, E., Georgiou, E., Psaltis, D., & Stylianidis, E. (2019). UAV for mapping historic buildings: From 3D modelling to BIM. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 42, 397-402.
  • Caprioli, M., Mancini, F., Mazzone, F., Scarano, M., & Trizzino, R. (2015). UAV surveys for representing and document the cultural heritage. In Heritage and Technology, Mind Knowledge Experience, 56, 475-482
  • Karataş, L., Alptekin, A., & Yakar, M. (2022). Detection and documentation of stone material deterioration in historical masonry structures using UAV photogrammetry: A case study of Mersin Aba Mausoleum. Advanced UAV, 2(2), 51-64.
  • Stathopoulou, E. K., Georgopoulos, A., Panagiotopoulos, G., & Kaliampakos, D. (2015). Crowdsourcing Lost Cultural Herıtage. ISPRS Annals of Photogrammetry, Remote Sensing & Spatial Information Sciences, 2(5), 295
  • Ellenberg, A., Kontsos, A., Moon, F., & Bartoli, I. (2016). Bridge related damage quantification using unmanned aerial vehicle imagery. Structural Control and Health Monitoring, 23(9), 1168-1179.
  • Elmeseiry, N., Alshaer, N., & Ismail, T. (2021). A detailed survey and future directions of unmanned aerial vehicles (uavs) with potential applications. Aerospace, 8(12), 363.
  • Khaloo, A., Lattanzi, D., Cunningham, K., Dell’Andrea, R., & Riley, M. (2018). Unmanned aerial vehicle inspection of the Placer River Trail Bridge through image-based 3D modelling. Structure and Infrastructure Engineering, 14(1), 124-136.
  • Kim, H., Lee, J., Ahn, E., Cho, S., Shin, M., & Sim, S. H. (2017). Concrete crack identification using a UAV incorporating hybrid image processing. Sensors, 17(9), 2052.
  • Pepi, C., Gioffrè, M., Comanducci, G., Cavalagli, N., Bonaca, A., & Ubertini, F. (2017). Dynamic characterization of a severely damaged historic masonry bridge. Procedia engineering, 199, 3398-3403.
  • Duque, L., Seo, J., & Wacker, J. (2018). Bridge deterioration quantification protocol using UAV. Journal of Bridge Engineering, 23(10), 04018080.
  • Harrington, J. (2019). In Hurricane Barry's wake, here are the worst floods in American history. https://www.usatoday.com/story/news/weather/2019/07/17/worst-floods-in-american-history/39692839/
  • Alptekin, A., & Yakar, M. (2021). İçel İli jeolojisine ve jeolojik sorunlarına genel bir bakış. İçel Dergisi, 1(1), 27-30.
  • Kanun, E., Alptekin, A., & Yakar, M. (2021). Documentation of cultural heritage by photogrammetric methods: a case study of Aba's Monumental Tomb. Intercontinental Geoinformation Days, 3, 168-171.
  • ICOMOS-ISCS (2008). International Council on Monuments and Sites—International Scientific Committee for Stone Illustrated Glossary on Stone Deterioration Patterns. 2008
  • Karataş, L. (2016). Mardin Kentsel Sit Alanındaki İbadet Yapılarında Malzeme Kullanımı ve Sorunları Üzerine Bir Araştırma (Master’s Thesis, Uludağ University, Fen Bilimleri Enstitüsü, Bursa, 340p).
  • Kusak, L., Unel, F. B., Alptekin, A., Celik, M. O., & Yakar, M. (2021). Apriori association rule and K-means clustering algorithms for interpretation of pre-event landslide areas and landslide inventory mapping. Open Geosciences, 13(1), 1226-1244.
  • Ünel, F. B., Kuşak, L., Çelik, M., Alptekin, A., & Yakar, M. (2020). Kıyı çizgisinin belirlenerek mülkiyet durumunun incelenmesi. Türkiye Arazi Yönetimi Dergisi, 2(1), 33-40.
  • Alptekin, A., & Yakar, M. (2020). Determination of pond volume with using an unmanned aerial vehicle. Mersin Photogrammetry Journal, 2(2), 59-63.
  • Şasi, A., & Yakar, M. (2017). Photogrammetric modelling of sakahane masjid using an unmanned aerial vehicle. Turkish Journal of Engineering, 1(2), 82-87.
  • Kanun, E., Alptekin, A., Karataş, L., & Yakar, M. (2022). The use of UAV photogrammetry in modeling ancient structures: A case study of “Kanytellis”. Advanced UAV, 2(2), 41-50.
  • Yakar, M., Ulvi, A., Yiğit, A. Y., & Alptekin, A. (2022). Discontinuity set extraction from 3D point clouds obtained by UAV Photogrammetry in a rockfall site. Survey Review, 1-13.
  • Karataş, L., Alptekin, A., Karabacak, A., & Yakar, M. (2022). Detection and documentation of stone material deterioration in historical masonry buildings using UAV photogrammetry: A case study of Mersin Sarisih Inn. Mersin Photogrammetry Journal, 4(2), 53-61.
  • Yakar, M., Yılmaz, H. M., & Mutluoğlu, Ö. (2009). Hacim Hesaplamalarında Lazer Tarama ve Yersel Fotogrametrinin Kullanılması. TMMOB Harita ve Kadastro Mühendisleri Odası 12. Türkiye Harita Bilimsel ve Teknik Kurultayı.
  • Yakar, M., Yilmaz, H. M., & Mutluoglu, O. (2014). Performance of Photogrammetric and Terrestrial Laser Scanning Methods in Volume Computing of Excavtion and Filling Areas. Arabian Journal for Science and Engineering, 39(1), 387-394.
  • Doğan, Y., & Yakar, M. (2018). GIS and three-dimensional modeling for cultural heritages. International Journal of Engineering and Geosciences, 3(2), 50-55.
  • Çelik, M. Ö., Alptekin, A., Ünel, F. B., Kuşak, L., & Kanun, E. (2020). The effect of different flight heights on generated digital products: DSM and Orthophoto. Mersin Photogrammetry Journal, 2(1), 1-9.
  • Cárdenes, V., Cnudde, J. P., Wichert, J., Large, D., López-Mungira, A., & Cnudde, V. (2016). Roofing slate standards: A critical review. Construction and Building Materials, 115, 93-104.
  • Waragai, T., & Hiki, Y. (2019). Influence of microclimate on the directional dependence of sandstone pillar weathering in Angkor Wat temple, Cambodia. Progress in Earth and Planetary Science, 6(1), 1-14.
  • Lubelli, B., & Nijland, T. G. (2014). Damage mechanism in Tournai limestone–the case of the tomb of admiral tromp in the old Church of Delft (the Netherlands). Journal of cultural heritage, 15(3), 313-317.

Deterioration analysis of historical village house structure in Mersin Kanlıdivane archaeological area by UAV method

Year 2023, , 32 - 41, 30.06.2023
https://doi.org/10.53093/mephoj.1290231

Abstract

The village house located in the Mersin Kanlıdivane archaeological site is one of the oldest settlements in the ruins, built in the second century. The house is mainly built of a yellowish beige limestone. This stone, which is the main material of the building, shows many deterioration patterns today. The aim of the study is to determine the dominant deterioration pattern of the stones in the village house structure in the Mersin Kanlıdivane archaeological site and to investigate the source of the deterioration. In order to investigate the deterioration patterns in the structure, the images obtained by UAV photogrammetry were interpreted and the types of deterioration were mapped. In the study, it is seen that even the types of material problems based on the smallest detail can be determined based on virtual visual inspection, thanks to UAV photogrammetry, without observing the structure in situ with UAV photogrammetry. The findings obtained in the study shows that the color change and surface loss deterioration on the stone surfaces has reached advanced levels as a result of the structure's exposure to the strong climate-induced sun and water effects for centuries. The results of the study show that the main damage observed on the stone surface of the structure is caused by the erosion by the effect of water. Restoration methods should be tried to stabilize the deterioration and replace the most degraded stones. It is recommended to use water-repellent surface coatings to protect the natural stone, especially against the intense water effect in the building.

References

  • Hatır, E., Korkanç, M., Schachner, A., & İnce, İ. (2021). The deep learning method applied to the detection and mapping of stone deterioration in open-air sanctuaries of the Hittite period in Anatolia. Journal of Cultural Heritage, 51, 37-49.
  • Waragai, T., & Hiki, Y. (2019). Influence of microclimate on the directional dependence of sandstone pillar weathering in Angkor Wat temple, Cambodia. Progress in Earth and Planetary Science, 6(1), 1-14.
  • Bonazza, A., Vidorni, G., Natali, I., Ciantelli, C., Giosuè, C., & Tittarelli, F. (2017). Durability assessment to environmental impact of nano-structured consolidants on Carrara marble by field exposure tests. Science of the Total Environment, 575, 23-32.
  • Gulotta, D., Villa, F., Cappitelli, F., & Toniolo, L. (2018). Biofilm colonization of metamorphic lithotypes of a renaissance cathedral exposed to urban atmosphere. Science of the Total Environment, 639, 1480-1490.
  • Winkler, E. (1997). Stone in architecture: properties, durability. Springer Science & Business Media.
  • Bello, M. A., Martin, L., & Martin, A. (1992). Decay and treatment of macael white marble. Studies in conservation, 37(3), 193-200.
  • Sarró, M. I., García, A. M., Rivalta, V. M., Moreno, D. A., & Arroyo, I. (2006). Biodeterioration of the lions fountain at the Alhambra Palace, Granada (Spain). Building and Environment, 41(12), 1811-1820.
  • Sanjurjo-Sánchez, J., & Alves, C. (2012). Decay effects of pollutants on stony materials in the built environment. Environmental Chemistry Letters, 10, 131-143.
  • Germinario, L., Oguchi, C. T., Tamura, Y., Ahn, S., & Ogawa, M. (2020). Taya Caves, a Buddhist marvel hidden in underground Japan: stone properties, deterioration, and environmental setting. Heritage Science, 8(1), 1-20.
  • Ďoubal, J. (2017). The restoration of the Stone Fountain in Kutná Hora: An assessment of the contemporary intervention within the context of repairs throughout history. Studies in Conservation, 62(7), 371-383.
  • Dreesen, R., Nielsen, P., & Lagrou, D. (2007). The staining of blue stone limestones petrographically unraveled. Materials Characterization, 58(11-12), 1070-1081.
  • Zha, J., Wei, S., Wang, C., Li, Z., Cai, Y., & Ma, Q. (2020). Weathering mechanism of red discolorations on Limestone object: a case study from Lingyan Temple, Jinan, Shandong Province, China. Heritage Science, 8(1), 1-12.
  • Germinario, L., Siegesmund, S., Maritan, L., Simon, K., & Mazzoli, C. (2017). Trachyte weathering in the urban built environment related to air quality. Heritage Science, 5(1), 1-17.
  • Gulotta, D., Bontempi, E., Bugini, R., Goidanich, S., & Toniolo, L. (2017). The deterioration of metamorphic serpentinites used in historical architecture under atmospheric conditions. Quarterly Journal of Engineering Geology and Hydrogeology, 50(4), 402-411.
  • Hall, K., & Hall, A. (1996). Weathering by wetting and drying: some experimental results. Earth Surface Processes and Landforms, 21(4), 365-376.
  • Trenhaile, A. (2006). Tidal wetting and drying on shore platforms: an experimental study of surface expansion and contraction. Geomorphology, 76(3-4), 316-331.
  • Mottershead, D. N. (1982). Rapid weathering of greenschist by coastal salt spray, East Prawle, south Devon: a preliminary report. Proceedings of the USSHER Society, 5(3), 347-353.
  • Aly, N., Hamed, A., & Abd El-Al, A. (2020). The impact of hydric swelling on the mechanical behavior of Egyptian Helwan limestone. Periodica Polytechnica Civil Engineering, 64(2), 589-596.
  • Iucolano, F., Colella, A., Liguori, B., & Calcaterra, D. (2019). Suitability of silica nanoparticles for tuff consolidation. Construction and Building Materials, 202, 73-81.
  • Dursun, F., & Topal, T. (2019). Durability assessment of the basalts used in the Diyarbakır City Walls, Turkey. Environmental Earth Sciences, 78(15), 1-24.
  • Noor-E-Khuda, S., & Albermani, F. (2019). Flexural strength of weathered granites under wetting-drying cycles: implications to steel structures. Advanced Steel Construction, 15(3), 225-231.
  • Pozo-Antonio, J., & Alonso-Villar, E. (2020). Stone durabılıty of a surfactant-synthesısed alkosylane consolıdant on granıtes wıth dıfferent mıneralogy and texture. Egyptian Journal of Archaeological and Restoration Studies, 10(2), 153-164.
  • Bustamante Montoro, R., Vazquez, P., Rodríguez Monteverde Cantarell, P., & Monjo Carrió, J. (2020). Adapted ageing tests for the evaluation of alabaster used in the restoration of Bishop’s Palace of Tarazona. Materiales de Construcción, 70(338), e219-e231.
  • Lubera, E. (2014). Frost weathering of selected rocks from the tatra mountains. Quaestiones Geographicae, 33(1), 75-88.
  • De Azcona, M. L., Gonzalez, R. F., & Martin, F. M. (2002). La conservación de los materiales pétreos en la Fuente de Cibeles, Madrid (España) Conservation of the stone in Cibeles Fountain, Madrid (Spain). Materiales de Construcción, 52(265), 65.
  • Karataş, L., Alptekin, A., Kanun, E., & Yakar, M. (2022). Tarihi kârgir yapılarda taş malzeme bozulmalarının İHA fotogrametrisi kullanarak tespiti ve belgelenmesi: Mersin Kanlıdivane ören yeri vaka çalışması. İçel Dergisi, 2(2), 41-49.
  • Mohammed, O., & Yakar, M. (2016). Yersel Fotogrametrik Yöntem ile İbadethanelerin Modellenmesi. Selcuk University Journal of Engineering Sciences, 15(2), 85-95.
  • Yakar, M., & Doğan, Y. (2017). Mersin Silifke Mezgit Kale Anıt Mezarı fotogrametrik rölöve alımı ve üç boyutlu modelleme çalışması. Geomatik, 2(1), 11-17.
  • Alyılmaz, C., Yakar, M., & Yılmaz, H. M. (2010). Drawing of petroglyphs in Mongolia by close range photogrammetry. Scientific Research and Essays, 5(11), 1216-1222.
  • Korumaz, A. G., Dülgerler, O. N., & Yakar, M. (2011). Kültürel mirasin belgelenmesinde dijital yaklaşimlar. Selçuk Üniversitesi Mühendislik, Bilim ve Teknoloji Dergisi, 26(3), 67-83.
  • Yakar, M., Toprak, A. S., Ulvi, A., & Uysal, M. (2015). Konya Beyşehir Bezariye Hanının (Bedesten) İha İle Fotogrametrik Teknik Kullanılarak Üç Boyutlu Modellenmesi. Türkiye Harita Bilimsel Ve Teknik Kurultayı, 25, 28.
  • Alptekin, A., & Yakar, M. (2021). 3D model of Üçayak Ruins obtained from point clouds. Mersin Photogrammetry Journal, 3(2), 37-40.
  • Karataş, L. (2023). 3D Laser Scanning and Photogrammetric Measurements for Documentation of the Facades of Mardin Castle, Türkiye. Advanced LiDAR, 3(1), 10-21.
  • Karataş, L., Alptekin, A., & Yakar, M. (2023). Investigating the limestone quarries as geoheritage sites: Case of Mardin ancient quarry. Open Geosciences, 15(1), 20220473.
  • Alyilmaz, C., Alyilmaz, S., & Yakar, M. (2010). Measurement of petroglyhps (rock of arts) of Qobustan with close range photogrammetry. International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 38(Part 5), 29-32.
  • Unal, M., Yakar, M., & Yildiz, F. (2004, July). Discontinuity surface roughness measurement techniques and the evaluation of digital photogrammetric method. In Proceedings of the 20th international congress for photogrammetry and remote sensing, ISPRS (Vol. 1103, p. 1108).
  • Doğan, Y., & Yakar, M. (2018). GIS and three-dimensional modeling for cultural heritages. International Journal of Engineering and Geosciences, 3(2), 50-55.
  • Korumaz, A. G., Dülgerler, O. N., & Yakar, M. (2011). Kültürel mirasin belgelenmesinde dijital yaklaşimlar. Selçuk Üniversitesi Mühendislik, Bilim ve Teknoloji Dergisi, 26(3), 67-83
  • Kanun, E., Alptekin, A., & Yakar, M. (2021). Cultural heritage modelling using UAV photogrammetric methods: a case study of Kanlıdivane archeological site. Advanced UAV, 1(1), 24-33.
  • Mirdan, O., & Yakar, M. (2017). Tarihi eserlerin İnsansız Hava Aracı ile modellenmesinde karşılaşılan sorunlar. Geomatik, 2(3), 118-125.
  • Karataş, L., & Alptekin, A. (2022). Kagir Yapılardaki Taş Malzeme Bozulmalarının Lidar Tarama Yöntemi ile Belgelenmesi: Geleneksel Silvan Konağı Vaka Çalışması. Türkiye Lidar Dergisi, 4(2), 71-84
  • Alptekin, A., & Yakar, M. (2020). Mersin Akyar Falezi’nin 3B modeli. Türkiye Lidar Dergisi, 2(1), 5-9.
  • Karachaliou, E., Georgiou, E., Psaltis, D., & Stylianidis, E. (2019). UAV for mapping historic buildings: From 3D modelling to BIM. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 42, 397-402.
  • Caprioli, M., Mancini, F., Mazzone, F., Scarano, M., & Trizzino, R. (2015). UAV surveys for representing and document the cultural heritage. In Heritage and Technology, Mind Knowledge Experience, 56, 475-482
  • Karataş, L., Alptekin, A., & Yakar, M. (2022). Detection and documentation of stone material deterioration in historical masonry structures using UAV photogrammetry: A case study of Mersin Aba Mausoleum. Advanced UAV, 2(2), 51-64.
  • Stathopoulou, E. K., Georgopoulos, A., Panagiotopoulos, G., & Kaliampakos, D. (2015). Crowdsourcing Lost Cultural Herıtage. ISPRS Annals of Photogrammetry, Remote Sensing & Spatial Information Sciences, 2(5), 295
  • Ellenberg, A., Kontsos, A., Moon, F., & Bartoli, I. (2016). Bridge related damage quantification using unmanned aerial vehicle imagery. Structural Control and Health Monitoring, 23(9), 1168-1179.
  • Elmeseiry, N., Alshaer, N., & Ismail, T. (2021). A detailed survey and future directions of unmanned aerial vehicles (uavs) with potential applications. Aerospace, 8(12), 363.
  • Khaloo, A., Lattanzi, D., Cunningham, K., Dell’Andrea, R., & Riley, M. (2018). Unmanned aerial vehicle inspection of the Placer River Trail Bridge through image-based 3D modelling. Structure and Infrastructure Engineering, 14(1), 124-136.
  • Kim, H., Lee, J., Ahn, E., Cho, S., Shin, M., & Sim, S. H. (2017). Concrete crack identification using a UAV incorporating hybrid image processing. Sensors, 17(9), 2052.
  • Pepi, C., Gioffrè, M., Comanducci, G., Cavalagli, N., Bonaca, A., & Ubertini, F. (2017). Dynamic characterization of a severely damaged historic masonry bridge. Procedia engineering, 199, 3398-3403.
  • Duque, L., Seo, J., & Wacker, J. (2018). Bridge deterioration quantification protocol using UAV. Journal of Bridge Engineering, 23(10), 04018080.
  • Harrington, J. (2019). In Hurricane Barry's wake, here are the worst floods in American history. https://www.usatoday.com/story/news/weather/2019/07/17/worst-floods-in-american-history/39692839/
  • Alptekin, A., & Yakar, M. (2021). İçel İli jeolojisine ve jeolojik sorunlarına genel bir bakış. İçel Dergisi, 1(1), 27-30.
  • Kanun, E., Alptekin, A., & Yakar, M. (2021). Documentation of cultural heritage by photogrammetric methods: a case study of Aba's Monumental Tomb. Intercontinental Geoinformation Days, 3, 168-171.
  • ICOMOS-ISCS (2008). International Council on Monuments and Sites—International Scientific Committee for Stone Illustrated Glossary on Stone Deterioration Patterns. 2008
  • Karataş, L. (2016). Mardin Kentsel Sit Alanındaki İbadet Yapılarında Malzeme Kullanımı ve Sorunları Üzerine Bir Araştırma (Master’s Thesis, Uludağ University, Fen Bilimleri Enstitüsü, Bursa, 340p).
  • Kusak, L., Unel, F. B., Alptekin, A., Celik, M. O., & Yakar, M. (2021). Apriori association rule and K-means clustering algorithms for interpretation of pre-event landslide areas and landslide inventory mapping. Open Geosciences, 13(1), 1226-1244.
  • Ünel, F. B., Kuşak, L., Çelik, M., Alptekin, A., & Yakar, M. (2020). Kıyı çizgisinin belirlenerek mülkiyet durumunun incelenmesi. Türkiye Arazi Yönetimi Dergisi, 2(1), 33-40.
  • Alptekin, A., & Yakar, M. (2020). Determination of pond volume with using an unmanned aerial vehicle. Mersin Photogrammetry Journal, 2(2), 59-63.
  • Şasi, A., & Yakar, M. (2017). Photogrammetric modelling of sakahane masjid using an unmanned aerial vehicle. Turkish Journal of Engineering, 1(2), 82-87.
  • Kanun, E., Alptekin, A., Karataş, L., & Yakar, M. (2022). The use of UAV photogrammetry in modeling ancient structures: A case study of “Kanytellis”. Advanced UAV, 2(2), 41-50.
  • Yakar, M., Ulvi, A., Yiğit, A. Y., & Alptekin, A. (2022). Discontinuity set extraction from 3D point clouds obtained by UAV Photogrammetry in a rockfall site. Survey Review, 1-13.
  • Karataş, L., Alptekin, A., Karabacak, A., & Yakar, M. (2022). Detection and documentation of stone material deterioration in historical masonry buildings using UAV photogrammetry: A case study of Mersin Sarisih Inn. Mersin Photogrammetry Journal, 4(2), 53-61.
  • Yakar, M., Yılmaz, H. M., & Mutluoğlu, Ö. (2009). Hacim Hesaplamalarında Lazer Tarama ve Yersel Fotogrametrinin Kullanılması. TMMOB Harita ve Kadastro Mühendisleri Odası 12. Türkiye Harita Bilimsel ve Teknik Kurultayı.
  • Yakar, M., Yilmaz, H. M., & Mutluoglu, O. (2014). Performance of Photogrammetric and Terrestrial Laser Scanning Methods in Volume Computing of Excavtion and Filling Areas. Arabian Journal for Science and Engineering, 39(1), 387-394.
  • Doğan, Y., & Yakar, M. (2018). GIS and three-dimensional modeling for cultural heritages. International Journal of Engineering and Geosciences, 3(2), 50-55.
  • Çelik, M. Ö., Alptekin, A., Ünel, F. B., Kuşak, L., & Kanun, E. (2020). The effect of different flight heights on generated digital products: DSM and Orthophoto. Mersin Photogrammetry Journal, 2(1), 1-9.
  • Cárdenes, V., Cnudde, J. P., Wichert, J., Large, D., López-Mungira, A., & Cnudde, V. (2016). Roofing slate standards: A critical review. Construction and Building Materials, 115, 93-104.
  • Waragai, T., & Hiki, Y. (2019). Influence of microclimate on the directional dependence of sandstone pillar weathering in Angkor Wat temple, Cambodia. Progress in Earth and Planetary Science, 6(1), 1-14.
  • Lubelli, B., & Nijland, T. G. (2014). Damage mechanism in Tournai limestone–the case of the tomb of admiral tromp in the old Church of Delft (the Netherlands). Journal of cultural heritage, 15(3), 313-317.
There are 71 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Articles
Authors

Lale Karataş 0000-0001-8582-4612

Murat Dal 0000-0001-5330-1868

Early Pub Date May 27, 2023
Publication Date June 30, 2023
Published in Issue Year 2023

Cite

APA Karataş, L., & Dal, M. (2023). Deterioration analysis of historical village house structure in Mersin Kanlıdivane archaeological area by UAV method. Mersin Photogrammetry Journal, 5(1), 32-41. https://doi.org/10.53093/mephoj.1290231
AMA Karataş L, Dal M. Deterioration analysis of historical village house structure in Mersin Kanlıdivane archaeological area by UAV method. Mersin Photogrammetry Journal. June 2023;5(1):32-41. doi:10.53093/mephoj.1290231
Chicago Karataş, Lale, and Murat Dal. “Deterioration Analysis of Historical Village House Structure in Mersin Kanlıdivane Archaeological Area by UAV Method”. Mersin Photogrammetry Journal 5, no. 1 (June 2023): 32-41. https://doi.org/10.53093/mephoj.1290231.
EndNote Karataş L, Dal M (June 1, 2023) Deterioration analysis of historical village house structure in Mersin Kanlıdivane archaeological area by UAV method. Mersin Photogrammetry Journal 5 1 32–41.
IEEE L. Karataş and M. Dal, “Deterioration analysis of historical village house structure in Mersin Kanlıdivane archaeological area by UAV method”, Mersin Photogrammetry Journal, vol. 5, no. 1, pp. 32–41, 2023, doi: 10.53093/mephoj.1290231.
ISNAD Karataş, Lale - Dal, Murat. “Deterioration Analysis of Historical Village House Structure in Mersin Kanlıdivane Archaeological Area by UAV Method”. Mersin Photogrammetry Journal 5/1 (June 2023), 32-41. https://doi.org/10.53093/mephoj.1290231.
JAMA Karataş L, Dal M. Deterioration analysis of historical village house structure in Mersin Kanlıdivane archaeological area by UAV method. Mersin Photogrammetry Journal. 2023;5:32–41.
MLA Karataş, Lale and Murat Dal. “Deterioration Analysis of Historical Village House Structure in Mersin Kanlıdivane Archaeological Area by UAV Method”. Mersin Photogrammetry Journal, vol. 5, no. 1, 2023, pp. 32-41, doi:10.53093/mephoj.1290231.
Vancouver Karataş L, Dal M. Deterioration analysis of historical village house structure in Mersin Kanlıdivane archaeological area by UAV method. Mersin Photogrammetry Journal. 2023;5(1):32-41.