Complex network approaches to nonlinear time series analysis

The Universidad Complutense de Madrid (UCM) survey is a long-term project aimed at finding and analyzing star-forming galaxies detected by their Hα emission in Schmidt objective-prism plates The instrumental setup limits the volume of the universe surveyed to a redshift z ≲ 0045 So far we have discovered several hundred emission-line galaxies (ELGs) undergoing star formation at a wide range of levels Analyzing a complete sample of ELGs from the UCM survey, we have computed the Hα luminosity function for the star-forming galaxies in the surveyed volume of the universe A Schechter function provides a good fit to the H_α luminosity function with the following parameters: α = -13 ± 02, L^*(H_α) = 10^4215±008 ergs s^-1, and φ^* = 10^-32±02 Mpc^3 for H_0 = 50 km s^-1 Mpc^-1 Integrating over the full range of luminosities, we obtain an H_α luminosity density of 10^391±02 ergs s^-1 Mpc^-3 Using the H_α emission as a star formation rate (SFR) estimator, this translates into a SFR density for the local universe of 0013_−0005^+0007 M_☉ yr^-1 Mpc^-3 in star-forming galaxies with EW(H_α + [N_II]) > 10 A and z lesssim 0045 for a Scalo initial mass function This is the first observational determination of this quantity, which will provide a direct test of current galaxy formation and evolution models

/pdf/the-current-star-formation-rate-of-the-local-universe-43op0axkjw.pdf

The Current Star Formation Rate of the Local Universe

https://scholarlypublications.universiteitleiden.nl/access/item%3A3076634/view

A review of project-based learning in higher education : Student outcomes and measures

Implementing and operationalising integrative approaches to sustainability in higher education: the role of project-oriented learning

Higher education is a principal agent for addressing the sustainable development goals proposed by the 2030 Agenda, because of its key mission of knowledge generation, teaching and social innovation for sustainability. In order to achieve this, higher education needs to integrate transversally the values of sustainability in the way of developing the field of management, as well as research, university life and, of course, teaching. This paper focuses on teaching, and more specifically on the didactic strategies considered most relevant for training in sustainability competencies in college students, according to the guidelines commonly accepted by the international academic community. Through collaborative work among experts from six Spanish universities taking part in the EDINSOST project (education and social innovation for sustainability), funded by the Spanish R&D+i Program, in this paper the role of five active learning strategies (service learning, problem-based learning, project-oriented learning, simulation games and case studies) in education for sustainability are reviewed, and a systematic approach of their implementation in higher education settings is presented. The results provide a synthesis of their objectives, foundations, and stages of application (planning, implementation, and learning assessment), which can be used as valuable guidelines for teachers.

https://www.mdpi.com/2071-1050/11/7/2086/pdf

Didactic Strategies to Promote Competencies in Sustainability

Project Based Learning experiences in the space engineering education at Technical University of Madrid

http://oa.upm.es/15599/1/INVE_MEM_2012_129526.pdf

An interpolation tool for aerodynamic mesh deformation problems based on octree decomposition

SUMMARY
In loosely-coupled aeroelastic computation, the aerodynamic and elastomechanical models are based on different grids and eventually a simplified structural model, like a shell or stick, is considered. CFD tools are applied over the aerodynamic grid, whereas CSM tools are over the structural one. The meshes are usually non-conforming; thus, three-dimensional and non-intrusive interpolation procedures are necessary to transfer structural deformations to the aerodynamic surface grid and aerodynamic loads to the structure. For that purpose, an interpolator based on radial basis functions has been developed. This tool does not require grid connectivities and can be applied to any three-dimensional data.

We have developed two strategies to deal with two special cases of interest. The first is when the structure is represented by a beam model and there is not a proper structural mesh close to the aerodynamic surface. The second is when managing a full configuration aircraft and the problem has been split into some small blocks in such a way that there are aerodynamic nodes belonging to more than one block. Copyright © 2014 John Wiley & Sons, Ltd.

A radial basis function algorithm for simplified fluid-structure data transfer

We examine the connectivity fluctuations across networks obtained when the horizontal visibility (HV) algorithm is used on trajectories generated by nonlinear circle maps at the quasiperiodic transition to chaos. The resultant HV graph is highly anomalous as the degrees fluctuate at all scales with amplitude that increases with the size of the network. We determine families of Pesin-like identities between entropy growth rates and generalized graph-theoretical Lyapunov exponents. An irrational winding number with pure periodic continued fraction characterizes each family. We illustrate our results for the so-called golden, silver, and bronze numbers.

/pdf/quasiperiodic-graphs-at-the-onset-of-chaos-3avwlbch7m.pdf

M. Cordero-Gracia

Papers

Project Based Learning experiences in the space engineering education at Technical University of Madrid

An interpolation tool for aerodynamic mesh deformation problems based on octree decomposition

A radial basis function algorithm for simplified fluid-structure data transfer

Quasiperiodic graphs at the onset of chaos

An adjoint-truncation error based approach for goal-oriented mesh adaptation