21 resultados para Air-cushion transfer system
em Universidad Politécnica de Madrid
Resumo:
As it is defined in ATM 2000+ Strategy (Eurocontrol 2001), the mission of the Air Traffic Management (ATM) System is: “For all the phases of a flight, the ATM system should facilitate a safe, efficient, and expedite traffic flow, through the provision of adaptable ATM services that can be dimensioned in relation to the requirements of all the users and areas of the European air space. The ATM services should comply with the demand, be compatible, operate under uniform principles, respect the environment and satisfy the national security requirements.” The objective of this paper is to present a methodology designed to evaluate the status of the ATM system in terms of the relationship between the offered capacity and traffic demand, identifying weakness areas and proposing solutions. The first part of the methodology relates to the characterization and evaluation of the current system, while a second part proposes an approach to analyze the possible development limit. As part of the work, general criteria are established to define the framework in which the analysis and diagnostic methodology presented is placed. They are: the use of Air Traffic Control (ATC) sectors as analysis unit, the presence of network effects, the tactical focus, the relative character of the analysis, objectivity and a high level assessment that allows assumptions on the human and Communications, Navigation and Surveillance (CNS) elements, considered as the typical high density air traffic resources. The steps followed by the methodology start with the definition of indicators and metrics, like the nominal criticality or the nominal efficiency of a sector; scenario characterization where the necessary data is collected; network effects analysis to study the relations among the constitutive elements of the ATC system; diagnostic by means of the “System Status Diagram”; analytical study of the ATC system development limit; and finally, formulation of conclusions and proposal for improvement. This methodology was employed by Aena (Spanish Airports Manager and Air Navigation Service Provider) and INECO (Spanish Transport Engineering Company) in the analysis of the Spanish ATM System in the frame of the Spanish airspace capacity sustainability program, although it could be applied elsewhere.
Resumo:
The SESAR (Single European Sky ATM Research) program is an ambitious re-search and development initiative to design the future European air traffic man-agement (ATM) system. The study of the behavior of ATM systems using agent-based modeling and simulation tools can help the development of new methods to improve their performance. This paper presents an overview of existing agent-based approaches in air transportation (paying special attention to the challenges that exist for the design of future ATM systems) and, subsequently, describes a new agent-based approach that we proposed in the CASSIOPEIA project, which was developed according to the goals of the SESAR program. In our approach, we use agent models for different ATM stakeholders, and, in contrast to previous work, our solution models new collaborative decision processes for flow traffic management, it uses an intermediate level of abstraction (useful for simulations at larger scales), and was designed to be a practical tool (open and reusable) for the development of different ATM studies. It was successfully applied in three stud-ies related to the design of future ATM systems in Europe.
Resumo:
This paper describes an agent-based approach for the simulation of air traffic management (ATM) in Europe that was designed to help analyze proposals for future ATM systems. This approach is able to represent new collaborative deci-sion processes for flow traffic management, it uses an intermediate level of ab-straction (useful for simulations at larger scales), and was designed to be a practi-cal tool (open and reusable) for the development of different ATM studies. It was successfully applied in three studies related to the design of future ATM systems in Europe.
Resumo:
The last decade, scientific studies have indicated an association between air pollution to which people are exposed and wide range of adverse health outcomes. We have developed a tool which is based on a model (MM5-CMAQ) running over Europe with 50 km spatial resolution, based on EMEP annual emissions, to produce a short-term forecast of the impact on health. In order to estimate the mortality change (forecasted for the next 24 hours) we have chosen a log-linear (Poisson) regression form to estimate the concentration-response function. The parameters involved in the C-R function have been estimated based on epidemiological studies, which have been published. Finally, we have derived the relationship between concentration change and mortality change from the C-R function which is the final health impact function.
Resumo:
This paper describes the design and application of the Atmospheric Evaluation and Research Integrated model for Spain (AERIS). Currently, AERIS can provide concentration profiles of NO2, O3, SO2, NH3, PM, as a response to emission variations of relevant sectors in Spain. Results are calculated using transfer matrices based on an air quality modelling system (AQMS) composed by the WRF (meteorology), SMOKE (emissions) and CMAQ (atmospheric-chemical processes) models. The AERIS outputs were statistically tested against the conventional AQMS and observations, revealing a good agreement in both cases. At the moment, integrated assessment in AERIS focuses only on the link between emissions and concentrations. The quantification of deposition, impacts (health, ecosystems) and costs will be introduced in the future. In conclusion, the main asset of AERIS is its accuracy in predicting air quality outcomes for different scenarios through a simple yet robust modelling framework, avoiding complex programming and long computing times.
Resumo:
This paper describes a novel deployment of an intelligent user-centered HVAC (Heating, Ventilating and Air Conditioner) control system. The main objective of this system is to optimize user comfort and to reduce energy consumption in office buildings. Existing commercial HVAC control systems work in a fixed and predetermined way. The novelty of the proposed system is that it adapts dynamically to the user and to the building environment. For this purpose the system architecture has been designed under the paradigm of Ambient Intelligence. A prototype of the system proposed has been tested in a real-world environment.
Resumo:
1. Introduction 2. Air Quality Modeling system 3. Emission Inventories 4. Applications and Results 5. Conclusions
Resumo:
We investigated the atomic surface properties of differently prepared silicon and germanium (100) surfaces during metal-organic vapour phase epitaxy/chemical vapour deposition (MOVPE/MOCVD), in particular the impact of the MOVPE ambient, and applied reflectance anisotropy/difference spectroscopy (RAS/RDS) in our MOVPE reactor to in-situ watch and control the preparation on the atomic length scale for subsequent III-V-nucleation. The technological interest in the predominant opto-electronic properties of III-V-compounds drives the research for their heteroepitaxial integration on more abundant and cheaper standard substrates such as Si(100) or Ge(100). In these cases, a general task must be accomplished successfully, i.e. the growth of polar materials on non-polar substrates and, beyond that, very specific variations such as the individual interface formation and the atomic step structure, have to be controlled. Above all, the method of choice to grow industrial relevant high-performance device structures is MOVPE, not normally compatible with surface and interface sensitive characterization tools, which are commonly based on ultrahigh vacuum (UHV) ambients. A dedicated sample transfer system from MOVPE environment to UHV enabled us to benchmark the optical in-situ spectra with results from various surfaces science instruments without considering disruptive contaminants. X-ray photoelectron spectroscopy (XPS) provided direct observation of different terminations such as arsenic and phosphorous and verified oxide removal under various specific process parameters. Absorption lines in Fourier-transform infrared (FTIR) spectra were used to identify specific stretch modes of coupled hydrides and the polarization dependence of the anti-symmetric stretch modes distinguished different dimer orientations. Scanning tunnelling microscopy (STM) studied the atomic arrangement of dimers and steps and tip-induced H-desorption proved the saturation of dangling bonds after preparati- n. In-situ RAS was employed to display details transiently such as the presence of H on the surface at lower temperatures (T <; 800°C) and the absence of Si-H bonds at elevated annealing temperature and also surface terminations. Ge buffer growth by the use of GeH4 enables the preparation of smooth surfaces and leads to a more pronounced amplitude of the features in the spectra which indicates improvements of the surface quality.
Resumo:
Today's motivation for autonomous systems research stems out of the fact that networked environments have reached a level of complexity and heterogeneity that make their control and management by solely human administrators more and more difficult. The optimisation of performance metrics for the air traffic management system, like in other networked system, has become more complex with increasing number of flights, capacity constraints, environmental factors and safety regulations. It is anticipated that a new structure of planning layers and the introduction of higher levels of automation will reduce complexity and will optimise the performance metrics of the air traffic management system. This paper discusses the complexity of optimising air traffic management performance metrics and proposes a way forward based on higher levels of automation.
Resumo:
El presente Trabajo Fin de Máster pretende llevar a cabo el análisis del comportamiento vibratorio de resonadores de membrana, consistentes en un panel delgado y ligero montado a cierta distancia de un elemento constructivo rígido y pesado. Este tipo de sistemas resonantes son empleados habitualmente como absorbentes de media-baja frecuencia en aplicaciones de acondicionamiento acústico de salas. El análisis hará especial hincapié en la influencia del acoplamiento mecánico-acústico entre la placa vibrante (estructura) y el colchón de aire (fluido) encerrado entre la misma y la pared rígida. En primer lugar, realizaremos el análisis modal experimental del resonador objeto de ensayo a partir de las mediciones de su respuesta vibratoria, con el fin de caracterizar su comportamiento en base a sus primeros modos propios acoplados de flexión. El análisis de las señales vibratorias en el dominio de la frecuencia para la identificación de dicho modos se realizará en el entorno de programación MATLAB, haciendo uso de una herramienta propia que implementa los métodos de cálculo y los algoritmos necesarios para tal fin. Asimismo, simularemos el comportamiento del resonador mediante el método de elementos finitos (FEM), utilizando las aplicaciones ANSYS y SYSNOISE, considerando diferentes condiciones frontera en el modelo generado. Los resultados aquí obtenidos serán de utilidad para complementar aquellos obtenidos de forma experimental a la hora de extraer conclusiones prácticas del análisis realizado. SUMMARY. This Master's Thesis intends to carry out the analysis of the vibratory behaviour of resonance absorbers, consisting of a thin and lightweight panel mounted at a distance from a rigid wall. Such systems are commonly used as sound absorption systems for mid-low frequency in room acoustics applications. The analysis will emphasize the influence of mechanical-acoustic coupling between the vibrating plate (structure) and the air cushion (acoustic element) enclosed behind it. First of all, we are performing the experimental modal analysis of the resonance absorber under test from the vibrational response measurements, in order to characterize its behaviour based on its first bending coupled-modes. The analysis of vibration signals in the frequency domain for the identification of such modes will be made in MATLAB programming environment, using a proprietary tool that implements the calculation methods and algorithms needed for this purpose. Furthermore, we are simulating the behaviour of the resonance absorber applying the Finite Element Method (FEM) – using ANSYS and SYSNOISE applications - considering different boundary conditions in the model created. The results from the simulation will be useful to complement those obtained experimentally when drawing practical conclusions from this analysis.
Resumo:
Vicinal Ge(100) is the common substrate for state of the art multi-junction solar cells grown by metal-organic vapor phase epitaxy (MOVPE). While triple junction solar cells based on Ge(100) present efficiencies mayor que 40%, little is known about the microscopic III-V/Ge(100) nucleation and its interface formation. A suitable Ge(100) surface preparation prior to heteroepitaxy is crucial to achieve low defect densities in the III-V epilayers. Formation of single domain surfaces with double layer steps is required to avoid anti-phase domains in the III-V films. The step formation processes in MOVPE environment strongly depends on the major process parameters such as substrate temperature, H2 partial pressure, group V precursors [1], and reactor conditions. Detailed investigation of these processes on the Ge(100) surface by ultrahigh vacuum (UHV) based standard surface science tools are complicated due to the presence of H2 process gas. However, in situ surface characterization by reflection anisotropy spectroscopy (RAS) allowed us to study the MOVPE preparation of Ge(100) surfaces directly in dependence on the relevant process parameters [2, 3, 4]. A contamination free MOVPE to UHV transfer system [5] enabled correlation of the RA spectra to results from UHV-based surface science tools. In this paper, we established the characteristic RA spectra of vicinal Ge(100) surfaces terminated with monohydrides, arsenic and phosphorous. RAS enabled in situ control of oxide removal, H2 interaction and domain formation during MOVPE preparation.
Resumo:
One of the challenges facing the current web is the efficient use of all the available information. The Web 2.0 phenomenon has favored the creation of contents by average users, and thus the amount of information that can be found for diverse topics has grown exponentially in the last years. Initiatives such as linked data are helping to build the Semantic Web, in which a set of standards are proposed for the exchange of data among heterogeneous systems. However, these standards are sometimes not used, and there are still plenty of websites that require naive techniques to discover their contents and services. This paper proposes an integrated framework for content and service discovery and extraction. The framework is divided into several layers where the discovery of contents and services is made in a representational stateless transfer system such as the web. It employs several web mining techniques as well as feature-oriented modeling for the discovery of cross-cutting features in web resources. The framework is used in a scenario of electronic newspapers. An intelligent agent crawls the web for related news, and uses services and visits links automatically according to its goal. This scenario illustrates how the discovery is made at different levels and how the use of semantics helps implement an agent that performs high-level tasks.
Resumo:
El transporte aéreo constituye un sector estratégico para el crecimiento económico de cualquier país. El sistema de gestión de tráfico aéreo ATM tiene como objetivo el movimiento seguro y eficiente de las aeronaves dentro del espacio aéreo y de los aeropuertos, siendo la seguridad, en la fase táctica, gestionada por el servicio de control de la circulación aérea. Mediante los procesos de control el tráfico aéreo es vigilado a través de sensores, regulado y guiado de forma organizada y segura. Es precisamente sobre la vigilancia donde se enfoca el contenido de la tesis, en el desarrollo de nuevos conceptos que proporcionen información de vigilancia de ‘bajo coste’ basados en las señales existentes proporcionadas por la infraestructura actual de radar secundario y por los sistemas de posicionamiento basados en satélite que utiliza la ADS-B. El conocimiento y acceso en tiempo real a las trayectorias de las aeronaves es un elemento de valor añadido no sólo para la provisión de los servicios de control de tránsito aéreo, sino para todos los actores del transporte aéreo o de la investigación, siendo uno de los elementos clave en el concepto operacional de los dos grandes proyectos tecnológicos, SESAR en Europa y NextGen en EE.UU.. En las últimas décadas el control de la circulación aérea en espacios aéreos de media y alta densidad de tráfico se ha basado en tecnologías complejas que requieren importantes infraestructuras como son el radar primario de vigilancia (PSR) y el radar secundario de vigilancia (SSR). La filosofía de los programas SESAR y NextGen siguiendo las directrices de la OACI es la de alejarse de las tecnologías basadas en tierra para evolucionar hacia nuevas tecnologías más dinámicas basadas en satélite como la ADS-B. Pero hasta que la implementación y operación de la ADS-B sea completa, existirá un período de transición que implica la coexistencia de aeronaves equipadas o no con ADS-B. El objetivo de la presente Tesis es determinar las metodologías y algoritmos más adecuados para poder hibridar las dos tecnologías descritas anteriormente, utilizando para ello un receptor de bajo coste con antena estática omnidireccional, que analice todas las señales presentes en el canal que comparten el SSR y ADS-B. Mediante esta hibridación se podrá obtener la posición de cualquier aeronave que transmita respuestas a interrogaciones SSR, en cualquiera de sus modos de trabajo, o directamente mensajes de posición ADS-B. Para desarrollar los algoritmos propuestos, además del hardware correspondiente, se han utilizado las aplicaciones LabVIEW para funciones de adquisición de datos reales, y el software MATLAB® para el desarrollo de algoritmos y análisis de datos. La validación de resultados se ha realizado mediante los propios mensajes de posición ADS-B y a través de las trazas radar proporcionadas por la entidad pública empresarial ENAIRE. La técnica desarrollada es autónoma, y no ha requerido de ninguna otra entrada que no sea la recepción omnidireccional de las señales. Sin embargo para la validación de resultados se ha utilizado información pública de las ubicaciones de la red de estaciones SSR desplegadas sobre territorio español y portugués y trazas radar. Los resultados obtenidos demuestran, que con técnicas basadas en superficies de situación definidas por los tiempos de llegada de las respuestas, es posible determinar con una precisión aceptable la posición de las estaciones SSR y la posición de cualquier aeronave que responda mediante el Modo A a éstas. ABSTRACT Air transport is a strategic sector for the economic growth of any country. The air traffic management system (ATM) aims at the safe and efficient movement of aircraft while operating within the airspace and airports, where safety, in the tactical phase, is managed by the air traffic control services. Through the air traffic control processes, aircraft are monitored by sensors, regulated and guided in an organized and safe manner. It is precisely on surveillance where this thesis is focused, developing new concepts that provide a 'low cost' surveillance information based on existing signals provided by currently secondary radar infrastructure and satellite-based positioning systems used by ADS-B. Having a deeper knowledge and a real-time access to the trajectories of the aircraft, is an element of added value not only for the provision of air traffic control services, but also for all air transport or research actors. This is one of the key elements in the operational concept proposed by the two large scale existing technological projects, SESAR in Europe and NextGen in the US. In recent decades, air traffic control in medium and high traffic density areas has been based on complex technologies requiring major infrastructures, such as the primary surveillance radar (PSR) and secondary surveillance radar (SSR). The philosophy of SESAR and NextGen programs, both following the guidelines of ICAO, is to move away from land-based technologies and evolving into some new and more dynamic satellite-based technologies such as ADS-B. Nevertheless, until the ADS-B implementation and operation is fully achieved, there will be a transitional period where aircraft with and without ADS-B equipment will have to coexist. The main objective of this thesis is to determine those methodologies and algorithms which are considered more appropriate to hybridize those two technologies, by using a low cost omnidirectional receiver, which analyzes all signals on the SSR and ADS-B shared channel. Through this hybridization, it is possible to obtain the position of any aircraft answering the SSR interrogations, in any of its modes of operation, or through the emission of ADS-B messages. To develop the proposed algorithms, LabVIEW application has been used for real-time data acquisition, as well as MATLAB software for algorithm development and data analysis, together with the corresponding hardware. The validation of results was performed using the ADS-B position messages and radar tracks provided by the Public Corporate Entity ENAIRE The developed technique is autonomous, and it does not require any other input other than the omnidirectional signal reception. However, for the validation of results, not only radar records have been used, but also public information regarding the position of SSR stations spread throughout the Spanish and Portuguese territory. The results show that using techniques based in the definition of positioning surfaces defined by the responses’ times of arrival, it is possible to determine with an acceptable level of accuracy both the position of the SSR stations as well as the position of any aircraft which transmits Mode A responses.
Resumo:
Eutectic temperature and composition in the CuO–TiO2 pseudobinary system have been experimentally determined in air by means differential thermal analysis (DTA), thermogravimetry (TG) and hot-stage microscopy (HSM). Samples of the new eutectic composition treated at different temperatures have been characterized by X-ray diffraction (XRD) and X-ray absorption near-edge structural spectroscopy (XANES) to identify phases and to determine the Cu valence state, respectively. The results show that the eutectic temperature in air is higher by 100 °C (∼1000 °C) for a Ti-richer composition (XTiO2=25 mol%) than the one calculated in the literature. The reduction of Cu2+ to Cu+ takes places at about 1030 °C. The existence of Cu2TiO3 and Cu3TiO4 has been confirmed by XRD in the temperature range between 1045 and 1200 °C.
Resumo:
First, this paper describes a future layered Air Traffic Management (ATM) system centred in the execution phase of flights. The layered ATM model is based on the work currently performed by SESAR [1] and takes into account the availability of accurate and updated flight information ?seen by all? across the European airspace. This shared information of each flight will be referred as Reference Business Trajectory (RBT). In the layered ATM system, exchanges of information will involve several actors (human or automatic), which will have varying time horizons, areas of responsibility and tasks. Second, the paper will identify the need to define the negotiation processes required to agree revisions to the RBT in the layered ATM system. Third, the final objective of the paper is to bring to the attention of researchers and engineers the communalities between multi-player games and Collaborative Decision Making processes (CDM) in a layered ATM system
