Application of high-definition topography to the diagnosis of the geometric condition of building elements

Authors

  • Ernesto Emilio Aguilar Leyva Universidad de Holguín. Cuba
  • Anabel Reyes Ramírez Universidad de Holguín. Cuba
  • Luis Enrique Acosta Gonzales Universidad de Holguín. Cuba

DOI:

https://doi.org/10.51896/rilco.v7i28.1052

Keywords:

Topography of high definition, I diagnose geometric, constructive elements

Abstract

The dimensional control of works constitutes one from the most important stages to carry out during the execution of a constructive project. All time that the same one offers elements that can be good for the opportune taking of decisions regarding the behavior of an object and the detection of deformations, so much constructive as having caused by the exploitation of the same one. In a same way the I diagnose geometric of an element, it allows to certify that the same one fulfills the requirements as for form and dimensions he/she refers, regarding the theoretical pattern of this, captured in the work projects. From the employment of instruments optic mechanics, to the new era geoespacial, the contribution of the topography has been reflected in the obtaining of models of Ace more robust and detailed Built. Among the novelties that the technological development has toasted to the topography he/she is the technology HDS (High Definition Survey), which has been able to offer risings with a high grade of fidelity, so much of objects as of constructive locations. The present investigation approaches the topic of the diagnosis of the geometric state of constructive elements with technology employment HDS. He/she is carried out an analysis of the current state of the techniques employees for the creation of models of Ace Built, as well as the results of the works are shown carried out to a case of real study.  

References

Cabrejas-Herrero, P. (2020). Control dimensional de aeronaves con sistemas láser escáner UNIVERSITAT POLITÈCNICA DE VALÈNCIA].

Hernández-Peña, L., & González-Abreut, D. (2019). IMPLEMENTACIÓN DE LA TECNOLOGÍA ESCÁNER LÁSER TERRESTRE PARA LA CONSERVACIÓN DEL PATRIMONIO CONSTRUIDO. IV Convención Internacional de Agrimensura.

Nieto-Tolosa, M., & Nieto-Martínez, M. (2013). Aportaciones del Modelado Paramétrico a la Toma de Decisiones: Dos Estudios de Caso desde el Proyecto de Arquitectura. Sigradi, I.

Susta, C., Nigro, P., Mandagaran, M., & Rodríguez-Barros, D. (2022). PATRIMONIO DIGITAL Y MODELOS PARAMÉTRICOS TRIDIMENSIONALES. Sigradi, V.

Tamayo -Rodríguez, M. (2023). APLICACIÓN DE LA TECNOLOGÍA DE VEHÍCULOS AÉREOS NO TRIPULADOS (VANT) EN EL CONTROL DIMENSIONAL DE UNA ESTRUCTURA Universidad de Holguín "Oscar Lucero Moya"].

Technodigit. (2021). Centro de Ayuda del Software 3DReshaper.

Troyano-Moreno, M. (2023). Implementation of the BIM Methodology for the diagnosis and pathology activities of construction in CEMOSA. CMMoST.

Leica Geosystem (2020). Manual de Usuario Estación HDS Leica P40.

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Published

2025-12-08

How to Cite

Aguilar Leyva, E. E., Reyes Ramírez, A., & Acosta Gonzales, L. E. (2025). Application of high-definition topography to the diagnosis of the geometric condition of building elements. Revista De Investigación Latinoamericana En Competitividad Organizacional, 7(28), 104–119. https://doi.org/10.51896/rilco.v7i28.1052

Issue

Vol. 7 No. 28 (2025): November

Section

Artículos

License

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial 4.0.

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