Design and construction of tunnels in zones subjected to high convergences

The economic development of a region depends on the speed that people and goods can travel. The reduction of people and goods travel time can be achieved by planning smooth road layouts, which are obtained by crossing natural obstacles such as hills, by tunneling at great depths, and allowing the reduction of the road alignment length. The stress state in rock masses at such depths, either because of the overburden or due to the tectonic conditions of the rock mass induces high convergences of the tunnel walls. These high convergence values are incompatible with the supports structural performance installed in the excavation stabilization. In this article it is intended to evaluate and analyze some of the solutions already implemented in several similar geological and geotechnical situations, in order to establish a methodological principle for the design of the tunnels included in a highway section under construction in the region influenced by the Himalayas, in the state of Himachal Pradesh (India) and referenced by "four laning of Kiratpur to Ner Chowk section".

Multiobjective optimization of cold-formed steel columns

The optimal design of cold-formed steel columns is addressed in this paper, with two objectives: maximize the local-global buckling strength and maximize the distortional buckling strength. The design variables of the problem are the angles of orientation of cross-section wall elements the thickness and width of the steel sheet that forms the cross-section are fixed. The elastic local, distortional and global buckling loads are determined using Finite Strip Method (CUFSM) and the strength of cold-formed steel columns (with given length) is calculated using the Direct Strength Method (DSM). The bi-objective optimization problem is solved using the Direct MultiSearch (DMS) method, which does not use any derivatives of the objective functions. Trade-off Pareto optimal fronts are obtained separately for symmetric and anti-symmetric cross-section shapes. The results are analyzed and further discussed, and some interesting conclusions about the individual strengths (local-global and distortional) are found.

Overview of the tuning template for radiography in Europe

HENRE II (Higher Education Network for Radiography in Europe)

O currículo e as necessidades educativas especiais : práticas de adequação curricular no terceiro ciclo

A responsabilidade da construção de uma escola para todos deve ser o grande objectivo de todo e qualquer professor, criando espaços de reflexão conjunta no sentido de serem traçados projectos curriculares diferenciados que dêem resposta a todos os alunos na sua diversidade plural. Assim, a concepção e construção da escola inclusiva implicam mudanças, quer nas atitudes e práticas dos agentes educativos, quer nas estruturas do sistema de ensino ao nível organizacional e da gestão curricular. Neste âmbito, a adequação do currículo às necessidades educativas especiais (NEE) dos alunos torna-se essencial na (re)construção e operacionalização dos diferentes processos curriculares. O trabalho que agora se apresenta foi desenvolvido através de um estudo de caso. Constitui uma tentativa de compreensão das percepções dos professores e das práticas pedagógicas que desenvolvem para efectuar adequações curriculares para alunos com NEE. Centrámo-nos nos professores de um conselho de turma do sétimo ano do terceiro ciclo do ensino básico (3º CEB) que inclui uma aluna com NEE, procurando saber o que pensam sobre o processo de adequação curricular, como o concebem e como o implementam. Como metodologia de recolha dos dados utilizamos as técnicas da entrevista, da análise documental e da observação naturalista. Concluímos que, apesar das dificuldades que expressam e demonstram, os professores assumem a necessidade de implementar adequações curriculares face às NEE dos alunos, como resposta às diferenças e particularidades de cada um, tendo em vista o desenvolvimento de competências essenciais e a conclusão da escolaridade obrigatória. As Adequações Curriculares são percepcionadas como muito vantajosas do ponto de vista da promoção do sucesso educativo para todos os alunos e em particular para os alunos com NEE, proporcionando a estes, acompanhar o currículo mais próximo do que é normal, sentirem-se como “iguais” aos seus colegas, melhorar a sua auto-estima, auto-confiança e motivação ABSTRACT The responsibility of building a school for all must be the ultimate goal of any teacher, creating spaces for joint reflection in order to draw differentiated curricular projects which respond to all students in their plural diversity. Thus, the design and construction of the inclusive school involve changes both in attitudes and practices of the educational agents, and in the structures of the education system regarding the organization and the curriculum management. In this context, the adequacy of the curriculum to students’ special educational needs (SEN) becomes essential in the (re) construction and operationalization of the different curriculum processes. The work now presented was developed through a case study. It attempts to understand the perceptions of teachers and the pedagogical practices they develop to make curricular adjustments for students with SEN. We focused on the teachers of a seventh year class of the third cycle of basic education (3rd CBE) which includes a pupil, a girl, with SEN, trying to find out what they think about the process of adapting the curriculum, how they conceive and implement it. As a methodology of data collection we used different techniques: the interview, the documentary analysis and the naturalistic observation. We concluded that, despite the difficulties that teachers express and demonstrate they assume the need to implement curricular adjustments in relation to pupils with SEN in response to the differences and particularities of each one in order to develop core competencies and to complete compulsory schooling. The Curriculum Adequacies are perceived as very advantageous from the standpoint of promoting educational success for all students and particularly for pupils with SEN, providing the latter the possibility of following the curriculum closer than usual, feeling as "equal" to their schoolmates, improving their self-esteem, self- confidence and motivation.

Design and performance of a novel low-density parity-check code for distributed video coding

Low-density parity-check (LDPC) codes are nowadays one of the hottest topics in coding theory, notably due to their advantages in terms of bit error rate performance and low complexity. In order to exploit the potential of the Wyner-Ziv coding paradigm, practical distributed video coding (DVC) schemes should use powerful error correcting codes with near-capacity performance. In this paper, new ways to design LDPC codes for the DVC paradigm are proposed and studied. The new LDPC solutions rely on merging parity-check nodes, which corresponds to reduce the number of rows in the parity-check matrix. This allows to change gracefully the compression ratio of the source (DCT coefficient bitplane) according to the correlation between the original and the side information. The proposed LDPC codes reach a good performance for a wide range of source correlations and achieve a better RD performance when compared to the popular turbo codes.

Design and evaluation of multi-band RF energy harvesting circuits and antennas for WSNs

Radio frequency (RF) energy harvesting is an emerging technology that will enable to drive the next generation of wireless sensor networks (WSNs) without the need of using batteries. In this paper, we present RF energy harvesting circuits specifically developed for GSM bands (900/1800) and a wearable dual-band antenna suitable for possible implementation within clothes for body worn applications. Besides, we address the development and experimental characterization of three different prototypes of a five-stage Dickson voltage multiplier (with match impedance circuit) responsible for harvesting the RF energy. Different printed circuit board (PCB) fabrication techniques to produce the prototypes result in different values of conversion efficiency. Therefore, we conclude that if the PCB fabrication is achieved by means of a rigorous control in the photo-positive method and chemical bath procedure applied to the PCB it allows for attaining better values for the conversion efficiency. All three prototypes (1, 2 and 3) can power supply the IRIS sensor node for RF received powers of -4 dBm, -6 dBm and -5 dBm, and conversion efficiencies of 20, 32 and 26%, respectively. © 2014 IEEE.

Design and optimization of na ultra wideband and compact microwave antenna for radiometric monitoring of brain temperature

We present the modeling efforts on antenna design and frequency selection to monitor brain temperature during prolonged surgery using noninvasive microwave radiometry. A tapered log-spiral antenna design is chosen for its wideband characteristics that allow higher power collection from deep brain. Parametric analysis with the software HFSS is used to optimize antenna performance for deep brain temperature sensing. Radiometric antenna efficiency (eta) is evaluated in terms of the ratio of power collected from brain to total power received by the antenna. Anatomical information extracted from several adult computed tomography scans is used to establish design parameters for constructing an accurate layered 3-D tissue phantom. This head phantom includes separate brain and scalp regions, with tissue equivalent liquids circulating at independent temperatures on either side of an intact skull. The optimized frequency band is 1.1-1.6 GHz producing an average antenna efficiency of 50.3% from a two turn log-spiral antenna. The entire sensor package is contained in a lightweight and low-profile 2.8 cm diameter by 1.5 cm high assembly that can be held in place over the skin with an electromagnetic interference shielding adhesive patch. The calculated radiometric equivalent brain temperature tracks within 0.4 degrees C of the measured brain phantom temperature when the brain phantom is lowered 10. C and then returned to the original temperature (37 degrees C) over a 4.6-h experiment. The numerical and experimental results demonstrate that the optimized 2.5-cm log-spiral antenna is well suited for the noninvasive radiometric sensing of deep brain temperature.

On a self-start Darrieus wind turbine: blade design and field tests

This paper is about a design of an urban area Darrieus VAWT, having self-start ability due to an innovative profile design named EN0005, avoiding the need of extra components or external electricity feed-in. An approach is presented to study the ability of a blade profile to offer self-start ability. Methodologies applied for the blade body and for profile development are reported. Field tests and main conclusions are presented to persuade for the arrangement of this design. (C) 2015 Elsevier Ltd. All rights reserved.

Matrix converter as unified power flow controller: design and implementation of decoupled direct power controllers

This paper presents the design and implementation of direct power controllers for three-phase matrix converters (MC) operating as Unified Power Flow Controllers (UPFC). Theoretical principles of the decoupled linear power controllers of the MC-UPFC to minimize the cross-coupling between active and reactive power control are established. From the matrix converter based UPFC model with a modified Venturini high frequency PWM modulator, decoupled controllers for the transmission line active (P) and reactive (Q) power direct control are synthesized. Simulation results, obtained from Matlab/Simulink, are presented in order to confirm the proposed approach. Results obtained show decoupled power control, zero error tracking, and fast responses with no overshoot and no steady-state error.