3 resultados para Development Underdevelopment Nation State
Resumo:
Immigration is directly related to citizenship, the nation and the state, revealing as it does the constructed nature of those categories. Here the impact of immigration on Euskal Herria is examined from this perspective, looking first at the processes of migration to it which have produced the make-up of present-day Basque society to a large extent. This is followed by a consideration of the way migratory movements have been viewed by the movement for the development of Euskal Herria into a state, the Basque nationalist movement, since these attitudes have played a fundamental role in defining Basque citizenship. After some observations about multiculturalism, the chapter concludes with a look at how the creation of a Basque state might contribute to this and the issues that will be raised.
Resumo:
The main contribution of this work is to analyze and describe the state of the art performance as regards answer scoring systems from the SemEval- 2013 task, as well as to continue with the development of an answer scoring system (EHU-ALM) developed in the University of the Basque Country. On the overall this master thesis focuses on finding any possible configuration that lets improve the results in the SemEval dataset by using attribute engineering techniques in order to find optimal feature subsets, along with trying different hierarchical configurations in order to analyze its performance against the traditional one versus all approach. Altogether, throughout the work we propose two alternative strategies: on the one hand, to improve the EHU-ALM system without changing the architecture, and, on the other hand, to improve the system adapting it to an hierarchical con- figuration. To build such new models we describe and use distinct attribute engineering, data preprocessing, and machine learning techniques.
Resumo:
Reaching the strong coupling regime of light-matter interaction has led to an impressive development in fundamental quantum physics and applications to quantum information processing. Latests advances in different quantum technologies, like superconducting circuits or semiconductor quantum wells, show that the ultrastrong coupling regime (USC) can also be achieved, where novel physical phenomena and potential computational benefits have been predicted. Nevertheless, the lack of effective decoupling mechanism in this regime has so far hindered control and measurement processes. Here, we propose a method based on parity symmetry conservation that allows for the generation and reconstruction of arbitrary states in the ultrastrong coupling regime of light-matter interactions. Our protocol requires minimal external resources by making use of the coupling between the USC system and an ancillary two-level quantum system.