Juan López de Herrera

Effects of tillage on variability in soil penetration resistance in an olive orchard

Spatial variability of soil properties such as soil structure and soil penetrometer resistance (SPR) is relevant for identifying those zones with physical degradation. We used classical statistical and multifractal analyses for characterising the spatial patterns of SPR distributions and compared them at different soil depths to investigate the tillage effect in soil compaction. The study was conducted on an Ochrept dedicated to olive orchards for the last 70 years. Two parallel transects of 64 m were selected as different soil-management plots: conventional tillage and no tillage. Penetrometer resistance readings were carried out at 50-cm intervals within the first 20 cm of soil depth. Two-way analysis of variance (ANOVA) highlighted that tillage system, soil depth and their interaction were statistically significant to explain the variance of SPR data from 5 to 20 cm soil depth. The scaling properties of each SPR profile were characterised by τ(q) function, calculated in the range of moment orders (q) between −5 and +5 taken at 0.5 lag increments. Several parameters were calculated from this: the singularities of strength (α); the Hausdorff dimension (f(α)); entropy dimension (α1); and their multifractal spectrum, i.e. graph α v. f(α). Multifractal scaling was evident and added valuable information to describe the spatial arrangement of depth-dependent penetrometer datasets in all soil layers, which was complementary to the ANOVA results.

VIRTUAL REALITY IMMERSIVE OF GEOMATIC TECHNIQUES LEARNING

A three-dimensional visual immersion system provides a different teaching-learning experience on virtual environments. Through immersive reality, the student realises at the same time each of the details or events that are occurring in the learning process in a 360 degrees scenario. The use of these techniques offers the sensation of presence in scenarios that otherwise, either by distance or difficult access, it would be very difficult to bring to the students. The objective of this work is the elaboration of teaching resources to improve the efficiency in the learning of geomatics techniques taking advantage of these immersive techniques. The teaching resources will consist of the elaboration of situations that can be registered through immersive reality as well as the development of guides of teaching practices. In this way, we have used a Samsung Gear 360 camera to get the different scenario recordings in 360 degrees. Finally, we have done editing tasks where different virtual elements have been added such as text, video, sound, etc. The result is the implementation of an immersive visualization module accessible to students through new technologies, which improves the acquisition of skills in the management of Geomatics instrumentation.

Tutorial 2.0 on Technical Drawing 3D and Visualization

Abstract This article shows the experience of applying technologies based on web 2.0 in an environment of learning at university level. Students are more and more familiar with such tools and learning at the University should be sensitive to this evolution. This tutorial 2.0 is based on two virtual environments that support and improve communication in the teaching-learning process: Moodle as an “institutional adapted” platform, and Site Google as an open platform. The temporary planning has been done with the design of a timeline. The implementation of the tutorial 2.0 has been highly accepted by the students. With respect to the teaching staff, they need permanent updates and the adaptation of web 2.0 tools in the development of the subjects guide.