Digital 3D Rocks: A Collaborative Benchmark for Learning Rocks Recognition
Civil, petroleum, mining and geological engineers, scientists such as geologists, geophysicist and environmentalist, architects and professionals require knowing the main properties or rocks. Although, field and laboratory tests provide these properties, in some occasions, it is needed, in terms of economy and time, a faster and prior classification. The sense of sight allows us to learn about the surrounding environment, permitting the assimilation of information from the surroundings, and makes up about 70% of objects perception (Schroeder 1996). Therefore, the simple naked-eye recognition of rocks allows their classification, providing precious information about them. Naked-eye recognition of rocks is a mandatory part in civil engineering and architecture professional practice, at least in the preliminary stages of a construction project.
Many authors have published a considerable amount of articles and books on the field of naked-eye recognition of rocks (Goodman 1989;...
KeywordsGeology Remote sensing Computer graphics
This work was partially funded by the University of Alicante (vigrob-157 Project, GRE14-4, GRE15-19 and GRE17-011 Projects), the Spanish Ministry of Economy and Competitiveness (MINECO) and EU FEDER under Projects TIN2014-55413-C2-2-P and TEC2017-85244-C2-1-P. Authors thank Ignacio Pérez-Rey and Leandro Alejano for the description of some samples. Finally, we acknowledge Mrs. Sophie Krzesniak for the English language revision and correction of this manuscript.
AR scanned most of the rocks, programmed the website and wrote and supervised the manuscript. RT described part of the rock specimens, wrote and revised the manuscript along with the website. MC described part of the rock specimens, wrote and revised the manuscript along with the website and created the behavioural datasheet and collected most of the mechanical values of the rock samples. LJ scanned part of the rock specimens and described them, wrote and revised the manuscript along with the website. DB revised all the definitions of the rocks, wrote and revised the manuscript. JLP described part of the rock specimens, wrote and revised the manuscript along with the website.
- Benton J (2014) The magic al growth of an online gigapan repository for geoscience education. In: 2014 GSA annual meeting in Vancouver, BC, CanadaGoogle Scholar
- Deere DU, Miller RP (1966) Engineering classification and index properties for intact rock, Technical report No. AFWL-TR-65-116. https://apps.dtic.mil/docs/citations/AD0646610
- Dunham RJ (1962) Classification of carbonate rocks according to depositional textures. In: Ham WE (ed) Classification of carbonate rocks. AAPG, Tulsa, pp 108–121Google Scholar
- Folk RL (1980) Petrology of sedimentary rocks. Hemphill Publishing Company, AustinGoogle Scholar
- Goodman RE (1989) Introduction to rock mechanics, 2nd edn. Wiley, New YorkGoogle Scholar
- Hudson Institute of Mineralogy (1993) Mineralogy Database - mineral collecting, localities, mineral photos and data. Recuperado 24 de noviembre de 2017. http://www.mindat.org/
- Imperial College London (2013). Imperial College Rock Library [WWW Document]. https://wwwf.imperial.ac.uk/earthscienceandengineering/rocklibrary/glossary.php. Accessed 01 Nov 2017
- Le Maitre RW, Streckeisen AL, Zanettin B, Le Bas MJ, Bonin B, Bateman P, Bellieni G, Dudek A, Efremova S, Keller J, Lameyre J, Sabine PA, Schmid R, Sorensen H, Woolley AR (2002) Igneous rocks: a classification and glossary of terms: recommendations of the international union of geological sciences subcommission on the systematics of igneous rocks, 2nd edn. Cambridge University Press, CambridgeCrossRefGoogle Scholar
- Lee H, Mostegel C, Fraundorfer F, Kieffer DS (Accepted/In press) GigaPan image-based 3D reconstruction for engineering geological investigation. Poster session presented at 66th Geomechanics Colloquium, Salzburg, AustriaGoogle Scholar
- Michna P (1995) Earth science Australia [WWW Document]. http://www.earthsci.org/index.html
- Riquelme A, Cano M, Tomás R, Jordá L, Santamarta Cerezal J (2016) Petrología 3D. In: XIV Jornadas de Redes de Investigación En Docencia Universitaria. Investigación, Innovación y Enseñanza Universitaria: Enfoques Pluridisciplinares. Vicerrectorado de Calidad e Innovación Educativa, Universidad de Alicante, Alicante, Spain, pp 799–812Google Scholar
- Schroeder R (1996) Possible worlds: the social dynamic of virtual reality technology. Westview Press, Inc., BoulderGoogle Scholar
- Tarbuck E, Lutgens F (2015) Earth science, 14th edn. Pearson, Upper Saddle River, New Jersey, USAGoogle Scholar
- The United States Federal Highway Administration (1991) Rock and mineral identification for engineers. US Dept. of Transportation, Federal Highway Administration, WashingtonGoogle Scholar