Abstract
This research delves into the intricate realm of documenting historical subterranean galleries, an area relatively understudied due to the inherent challenges of the working environment. Nonetheless, recent advancements in laser data capture techniques and photogrammetric processes have sparked a veritable revolution, resulting in a notable enhancement of both capture efficiency and level of detail achieved. Classical photogrammetry has gradually given way to topographic laser scanners in many documentation projects, which had dominated almost the entire market. However, new digital photogrammetric processing techniques, portable sensors and mobile scanning equipment are introducing a simple and efficient working methodology in the field. Laser devices embedded in tablets and mobile phones are becoming increasingly accurate and powerful, offering the opportunity to explore and evaluate their capabilities in the specific context of underground galleries. The qanat, an ancient method for collecting and transporting water through underground galleries utilizing gravity as the propelling force, serves as an exceptional testing ground for these innovative technologies. These historic constructions, prevalent throughout the Iberian Peninsula, are intricately linked to the founding of certain cities, such as Madrid. The central area presents a peculiar typology of these infrastructures that deserves meticulous documentation and in-depth analysis.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Pascual Sanz, F., Mañero García, A., De José Fernández, J.,Piña Patón, B.: Topografía y fotogrametría de la cueva de Altamira. Catálogo de publicaciones de la Administración General del Estado. Madrid (2002)
English, P.W.: The origin and spread of qanats in the old world. Proc. Am. Philosophical Soc. 112(3), 170–181 (1968)
Goblot, H.: Les qanats: une technique d’acquisition de l’eau. EHESS, Paris (1979)
Asín, J.O.: El nombre “Madrid.” CSIC, Madrid (1959)
Ardemans, T.: Fluencias de la tierra, y curso subterráneo de las aguas. Francisco del Hierro, Madrid (1724)
Fernández Tapia, E.J., Casa Martín, F.D., Bustamante Gutiérrez, I.D.: Los viajes de agua de Alcalá de Henares: Las galerías del centro peninsular. In: (ESTEPA) Estudis del Territori i del Patrimoni (eds.) Las galerías de agua en la región noroccidental de Túnez: patrimonio hidráulico mediterráneo, vol. 2, pp. 159–174. Universidad de Valencia, Departament de Geografía, Valencia (2013)
Guerra Chavarino, E.: Los viajes y las fuentes de Madrid: los viajes-qanat. Ediciones La Librería. Madrid, Madrid (2011)
Pinto Crespo, V., Gil Ruiz, R., Velasco Medina, F.: Los viajes del agua en Madrid durante el antiguo régimen. Fundación Canal, Madrid (2010)
Solesio de la Presa, M.T.: Antiguos viajes de agua de Madrid. Madrid: Instituto Eduardo Torroja de la Construcción y del Cemento. Madrid (1975)
Guerra Chavarino, E.: Los viajes de agua de Madrid. Anales del Instituto de Estudios Madrileños (46), 419–466. Madrid (2006)
Penedo Cobo, E., Moraga Vaz, P., Organista Labrado, E., Izquierdo Zamora, A., Martínez Granero, A. B.: Proyecto de musealización de los restos hallados en la estación de Ópera (Metro de Madrid): reconstrucciones infográficas, escaneo laser 3D y digitalización del patrimonio arqueológico. In: Virtual archaeology review, Vol. 3 n.6, 88–92. (2012)
Fernandez Tapia, E.J., Barrera Vera, J.A., Rodriguez Navarro, P., Carretero Ayuso, M. J.: Capítulo 42. Nuevas tecnologías aplicadas a la investigación de galerías subterráneas históricas de abastecimiento. In: Vidales Barriguete, A., Ferrandez Vega, D., Álvarez Dorado, M. (eds.) Innovación tecnológica y desarrollo sostenible en la edificación. Dykinson, Madrid (2022)
Luetzenburg, G., Kroon, A., Bjork, A.A.: Evaluation of the apple iPhone 12 Pro LiDAR for an application in geosciences. Sci. Rep. 11(1) (2021)
Fernandez, N.S.: Láseres de cavidad vertical y emisión superficial en espectroscopía atómica de alta resolución en la línea D1 del 87Rb. Buenos Aires (2017)
Ikyo, A.B., Marko, I.P., Hild, K., Adams, A.R., Arafin, S., Amann, M., Sweeney, S.J.: Temperature stable mid-infrared GaInAsSb/GaSb Vertical Cavity Surface Emitting Lasers (VCSELs). In: Scientific Reports, 6(1): 19595 (2016)
Vogt, M., Rips, A., Emmelmann, C.: Comparison of iPad Pro’s LiDAR and TrueDepth capabilities with an industrial 3D scanning solution. Technologies 9(2), 25 (2022)
Gollob, C., Ritter, T., Krassnitzer, R., Tockner, A., Nothdurft, A.: Measurement of forest inventory parameters with Apple iPad Pro and Integrated LiDAR technology. Remote sensing 13(16), 3129 (2021)
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2024 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this paper
Cite this paper
Bermudez González, J.L., Fernández Tapia, E.J., Castaño Perea, E.M. (2024). Application of Mobile 3D Data Capture Systems to the Archaeological Documentation of Underground Galleries in the Center of Madrid. In: Hermida González, L., Xavier, J.P., Amado Lorenzo, A., Fernández-Álvarez, Á.J. (eds) Graphic Horizons. EGA 2024. Springer Series in Design and Innovation , vol 43. Springer, Cham. https://doi.org/10.1007/978-3-031-57575-4_43
Download citation
DOI: https://doi.org/10.1007/978-3-031-57575-4_43
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-031-57574-7
Online ISBN: 978-3-031-57575-4
eBook Packages: EngineeringEngineering (R0)