Miguel Ángel Conejo-Martín scite author profile

Miguel Ángel Conejo-Martín

5Publications

7Citation Statements Received

46Citation Statements Given

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Affiliations

Universidad Politécnica de Madrid

Publications

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Assessment of underground wine cellars using geographic information technologies

et al. 2014

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Geographic information technologies (GIT) are essential to many fields of research, such as the preservation and dissemination of knowledge of cultural heritage buildings, a category which includes traditional underground wine cellars. This paper presents a methodology based on research carried out on this type of rural heritage building. The data were acquired using the following sensors: EDM, total station, close range photogrammetry and laser scanning, and subsequently processed with a specific software which was verified for each case, in order to obtain a satisfactory graphic representation of these underground wine cellars. Two key aspects of this work are the accuracy of the data processing and the visualisation of these traditional constructions. The methodology includes an application for geovisualising these traditional constructions on mobile devices in order to contribute to raising awareness of this unique heritage.

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Characterization of Cavities Using the GPR, LIDAR and GNSS Techniques

Conejo-Martín

Tejedor

Lapazaran

et al. 2014

Pure Appl. Geophys.

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The study of the many types of natural and manmade cavities in different parts of the world is important to the fields of geology, geophysics, engineering, architectures, agriculture, heritages and landscape. Ground-penetrating radar (GPR) is a noninvasive geodetection and geolocation technique suitable for accurately determining buried structures. This technique requires knowing the propagation velocity of electromagnetic waves (EM velocity) in the medium. We propose a method for calibrating the EM velocity using the integration of laser imaging detection and ranging (LIDAR) and GPR techniques using the Global Navigation Satellite System (GNSS) as support for geolocation. Once the EM velocity is known and the GPR profiles have been properly processed and migrated, they will also show the hidden cavities and the old hidden structures from the cellar. In this article, we present a complete study of the joint use of the GPR, LIDAR and GNSS techniques in the characterization of cavities. We apply this methodology to study underground cavities in a group of wine cellars located in Atauta (Soria, Spain). The results serve to identify construction elements that form the cavity and group of cavities or cellars. The described methodology could be applied to other shallow underground structures with surface connection, where LIDAR and GPR profiles could be joined, as, for example, in archaeological cavities, sewerage systems, drainpipes, etc.

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Virtual Reality Immersive of Geomatic Techniques Learning

Romero¹,

Martín²,

Tejedor³

et al. 2018

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Characterization of Underground Cellars in the Duero Basin by GNSS, LIDAR and GPR Techniques

Conejo-Martín

Tejedor

Pérez-Martín

et al. 2013

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Tutorial 2.0 on Technical Drawing 3D and Visualization

Herrera

Tejedor

Pérez-Martín

et al. 2013

Procedia Computer Science

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