Emir Saltuk Kümbeti Fotogrametrik Rölöve Çalişmasi Ve  3Boyutlu Modellenmesi

Yakar, Murat; Kabadayı, Adem; Yi̇ği̇t, Abdurahman Yasi̇n; Çıkıkcı, Kader; Kaya, Yunus; Catin, Sultan Seda

doi:10.29128/geomatik.294073

Cited by 32 publications

(23 citation statements)

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“…The capacity of a laser scanner to deflect the laser beam in horizontal and vertical directions is given as the viewing angle in the technical information. In order to create a 3D model of an object, it may be necessary to use more than one scanning station with different viewing angles (Yakar et al, 2016).…”

Section: Methodsmentioning

confidence: 99%

Usability of terrestrial laser technique in forest management planning

ORUÇ

Öztürk

2021

Turkey Lidar Journal

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Forest management plan TLS Point cloud 3D modelStudies in forestry in Turkey have great importance between humanity and life. In this direction, many forestry studies are carried out. The purpose of these studies is to protect forest areas and to ensure their continuity. The forestry organization continues to work urgently in line with this purpose. As a result of the researches, it is seen that old methods are lacking in time and cost in the forest management plan and many forestry studies. Nowadays, researches have been made on the use of the old methods, the use of terrestrial laser technology, which is seen as costly but actually offers positive opportunities at a low cost in line with the purpose to be used. In this study, how the methods used in forest management plans can contribute to the forestry sector with terrestrial laser scanning, which is one of today's technologies, and the sensitivity of devices and software that can be used in this direction are scrutinized. The data obtained as a result of the study were compared with the old methods and the usability of the terrestrial laser scanning method was examined.

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Section: Methodsmentioning

confidence: 99%

Usability of terrestrial laser technique in forest management planning

ORUÇ

Öztürk

2021

Turkey Lidar Journal

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“…The photogrammetry technique is a science that reveals reliable information about physical objects and the environment through processes of recording, measuring, and interpreting photographic images and patterns of recorded radiant electromagnetic energy [Kasser and Egels, 2002;Schenk, 2005;Rinaudo et al, 2012;Yakar et al, 2016]. Photogrammetry is a powerful and useful tool that geoscientists use to better understand the environment's geometry and detect topographic changes over time [Mikhail et al, 2001;Luhmann et al, 2006;Linder, 2009;Kabadayı et al, 2020;.…”

Section: Introductionmentioning

confidence: 99%

Using UAV Photogrammetric Technique for Monitoring, Change Detection, and Analysis of Archeological Excavation Sites

Ulvi̇

2022

J. Comput. Cult. Herit.

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The shrinkage of the sensors installed in unmanned aerial vehicles and the increase in data quality have provided great advantages to UAV users, especially in analysis and interpretation works. Archaeologists, in particular, can take full advantage of new opportunities to research and identify objects and artifacts, using remote sensing methods, by studying the past at excavation sites using modern technologies such as UAVs. These methods enable researchers to discover objects on the ground with the help of sensors. This study includes the UAV monitoring, documentation, and analyses of the excavation works that took place in 2014 (phase 1), 2017 (phase 2- phase 3), and 2020 (phase 4) at the Ancient Theatre of Uzuncaburç built in the Roman Empire. For this purpose, photos were taken with the UAV for each phase, and measurements were made from the excavation site's points with precision gauges (total-station and GNSS). 3D point cloud, orthophoto map, Digital Elevation Model (DEM) map, and 3D models of each phase were produced with the taken pictures. Since UAV photogrammetry was used in this study, each excavation phase was recorded precisely. This, unlike classical documentation techniques, enabled the deformations in the excavation areas to be revealed. The 3D position accuracy calculated for the control point (ChP) used in the four excavation phases ranges from 5.8 mm to 33.5 mm. The most important feature of this study is the sensitive examination of the changes in the excavation area for many years with the UAV photogrammetry technique. At the end of the study, the excavation phases and the determination of the deformation points in the excavation area were recorded digitally.

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“…Kültürel miras sayılabilecek küçük nesneleri veya büyük yapıları belgelemek için birçok yöntem kullanılmıştır. Ancak literatürdeki çalışmalar incelendiğinde fotoğraf çekmenin diğer yöntemlere göre daha kolay olduğu görülmektedir [6].…”

Section: Introductionunclassified

Diyarbakır Mardin Kapı’nın Yersel Fotogrametri Yöntemiyle 3B Belgelenmesi

Şenol

ORMAN

2022

Türkiye Fotogrametri Dergisi

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Diyarbakır, Bereketli Hilal bölgesinin Yukarı Mezopotamya kısmında kalan ve 9 bin yıllık bir geçmişe sahip Türkiye’nin önemli arkeolojik ve turistik şehirlerinden biridir. Bu nedenle kültürel mirasın oldukça yoğun olduğu bu bölgedeki eserlerin kayıt altına alınması ve belgelenmesi oldukça önemlidir. Gelişen teknoloji ile birlikte tarihi eserlerin belgelenmesi ve gelecek nesillere aktarılması kolaylaşmıştır. Bu doğrultuda gelişen teknolojinin sunduğu önemli araçlardan biri olan fotogrametri tekniği ile tarihi eserler kolay ve doğru bir şekilde kayıt altına alınabilmektedir. Bu yöntem ile tarihi eserin detaylı bir modeli oluşturularak dijital ortamda kayıt altına alınabilmektedir. Bu çalışmada Diyarbakır merkezinde bulunan ve eski Diyarbakır merkezini çevreleyen Diyarbakır Surlarının bir kapısı olan Mardin Kapının nokta bulutu ve 3B modeli yersel fotogrametri yöntemi ile üretilmiş ve belgelenmiştir. Çalışma sonucunda önemli arkeolojik ve kültürel eserlerin belgelenmesinin ve gelecek nesillere aktarılmasının öneminden bahsedilmiştir.

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Emir Saltuk Kümbeti Fotogrametrik Rölöve Çalişmasi Ve 3Boyutlu Modellenmesi

Cited by 32 publications

References 0 publications

Usability of terrestrial laser technique in forest management planning

Usability of terrestrial laser technique in forest management planning

Using UAV Photogrammetric Technique for Monitoring, Change Detection, and Analysis of Archeological Excavation Sites

Diyarbakır Mardin Kapı’nın Yersel Fotogrametri Yöntemiyle 3B Belgelenmesi

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