Structural health monitoring network system with wireless communications inside closed aerospace structures

Structural Health Monitoring (SHM) requires integrated "all in one" electronic devices capable of performing analysis of structural integrity and on-board damage detection in aircraft?s structures. PAMELA III (Phased Array Monitoring for Enhanced Life Assessment, version III) SHM embedded system is an example of this device type. This equipment is capable of generating excitation signals to be applied to an array of integrated piezoelectric Phased Array (PhA) transducers stuck to aircraft structure, acquiring the response signals, and carrying out the advanced signal processing to obtain SHM maps. PAMELA III is connected with a host computer in order to receive the configuration parameters and sending the obtained SHM maps, alarms and so on. This host can communicate with PAMELA III through an Ethernet interface. To avoid the use of wires where necessary, it is possible to add Wi-Fi capabilities to PAMELA III, connecting a Wi-Fi node working as a bridge, and to establish a wireless communication between PAMELA III and the host. However, in a real aircraft scenario, several PAMELA III devices must work together inside closed structures. In this situation, it is not possible for all PAMELA III devices to establish a wireless communication directly with the host, due to the signal attenuation caused by the different obstacles of the aircraft structure. To provide communication among all PAMELA III devices and the host, a wireless mesh network (WMN) system has been implemented inside a closed aluminum wingbox. In a WMN, as long as a node is connected to at least one other node, it will have full connectivity to the entire network because each mesh node forwards packets to other nodes in the network as required. Mesh protocols automatically determine the best route through the network and can dynamically reconfigure the network if a link drops out. The advantages and disadvantages on the use of a wireless mesh network system inside closed aerospace structures are discussed.

Integrated phased array transducer for on-board structural health monitoring

Permanently bonded onto a structure, an integrated Phased Array (PhA II) transducer that can provide reliable electromechanical connection with corresponding sophisticated miniaturized ?all in one? SHM electronic device installed directly above it, without need for any interface cabling, during all aerospace structure lifecycle phases and for a huge variety of real harsh service environments of structures to be monitored is presented. This integrated PhA II transducer [1], as a key component of the PAMELA SHM? (Phased Array Monitoring for Enhanced Life Assessment) system, has two principal tasks at the same time, reliably transceive elastic waves in real aerospace service environments and serves as a reliable sole carrier or support for associated integrated on-board SHM electronic device attached above. The PhA II transducer successfully accomplished both required task throughout extensive test campaigns which included low to high temperature tests, temperature cycling, mechanical loading, combined thermo- mechanical loading and vibration resistance, etc. both with and without SHM device attached above due to RTCA DO-160F.

Integrated electronic system for ultrasonic structural health monitoring

A fully integrated on-board electronic system that can perform in-situ structural health monitoring (SHM) of aircraft?s structures using specifically designed equipment for SHM based on guided wave ultrasonic method or Lamb waves? method is introduced. This equipment is called Phased Array Monitoring for Enhanced Life Assessment (PAMELA III) and is an essential part of overall PAMELA SHM? system. PAMELA III can generate any kind of excitation signals, acquire the response signals that propagate throughout the structure being tested, and perform the signal processing for damage detection directly on the structure without need to send the huge amount of raw signals but only the final SHM maps. It monitors the structure by means of an array of integrated Phased Array (PhA) transducers preferably bonded onto the host structure. The PAMELA III hardware for SHM mapping has been designed, built and subjected to laboratory tests, using aluminum and CFRP structures. The 12 channel system has been designed to be low weight (265 grams only), to have a small form factor, to be directly mounted above the integrated PhA transducers without need for cables and to be EMI protected so that the equipment can be taken on board an aircraft to perform required SHM analyses by use of embedded SHM algorithms. Moreover, the autonomous, automatic and on real-time working procedure makes it suitable for the avionic field, sending the corresponding alerts, maps and reports to external equipment.

Hacia un Plano de Directrices Territoriales y Urbanísticas como instrumento esencial para la Habitabilidad Básica

La habitabilidad precaria (HaP) constituye hoy el primer problema mundial del urbanismo, la ordenación del territorio y varias otras disciplinas, como la arquitectura y varias ingenierías que, en conjunto, estructuran e impulsan el sector de la construcción mundial que se centra en atender el alojamiento humano en su diversidad de funciones. En la Conferencia Habitat II, celebrada en 1996 en Estambul, ante el desmesurado crecimiento cuantitativo de la HaP mundial, se planteó la prioridad de prevenir el problema de los nuevos asentamientos precarios: “paliar los problemas relacionados con los asentamientos humanos espontáneos mediante programas y políticas que se anticipen a los asentamientos no planeados”1, sin embargo, tras casi veinte años, aún no existe una herramienta sustantiva y específica que facilite a los políticos responsables de gestionar el desarrollo urbano en ciudades con bajos recursos de países en desarrollo, tomar decisiones que transformen de la forma más eficiente posible el fenómeno de la proliferación de asentamientos informales en una oportunidad de progreso y prosperidad para sus ciudades. La presente tesis parte de la convicción, que trata de fundamentar objetivamente a lo largo del desarrollo de su documentación, de que dicha herramienta fundamental ha de buscarse, a partir de la teoría Habitabilidad Básica, como un soporte esencial con el que reconducir los futuros procesos de ocupación espontánea periurbana. El propósito de la investigación se concreta en caracterizar, y conocer la óptima aplicabilidad, de un instrumento operativo elemental que ayude en la toma de decisiones estratégicas de las autoridades responsables sobre la mejor ubicación de los asentamientos que, hasta la existencia y aplicabilidad de este instrumento, se consideran espontáneos. Asentamientos espontáneos éstos que, en condiciones normales quedarían sujetos durante años a la precariedad mientras que por medio de tal instrumento abandonarían su génesis espontánea para acceder a través de planificación elemental a condiciones de Habitabilidad Básica. La materialización concreta de esta herramienta sería un plano sintético de directrices de ordenación territorial y urbana denominado Plano de Elección del Sitio (PES). Diseñado como un Modelo Teórico Elemental, su aplicación estaría preferentemente orientada a ciudades pequeñas de países en desarrollo que presenten escaso nivel institucional, limitada capacidad económica y técnica, así como ausencia o ineficacia en su planeamiento. A través de un proceso de investigación basado en: la mencionada teoría de la Habitabilidad Básica, la literatura científica de la materia y las experiencias de casos recientes de planificación urbana mediante la aplicación de sistemas de información del suelo, se propone una caracterización y aplicabilidad preliminar de la herramienta. Tras analizar pormenorizadamente sus fortalezas y debilidades y contando con la participación de un grupo de expertos independientes, el trabajo concluye con una nueva caracterización de la herramienta y la reformulación de la hipótesis inicial. ABSTRACT Nowadays, the precarious habitability (PHa) is the main problem of urbanism around the world, land-use planning and several other disciplines such as architecture and different engineering studies that, as a whole, structure and boost the global construction sector which focuses on meeting the Human accommodation in its functional diversity. In the Habitat II Conference in Istanbul in 1996, in light of the excessive quantitative growth of the global PHa, the priority of preventing the problem of new squatter settlements was raised: "to alleviate the problems related to spontaneous human settlements through programs and policies that anticipate unplanned settlements"2, however, after nearly twenty years, there is still no substantive and specific tool to facilitate policy makers to manage urban development for towns with low-income in developing countries, taking decisions that transform as efficiently as possible the phenomenon of the proliferation of informal settlements into an opportunity for progress and prosperity for their cities. This thesis is based on the conviction, which tries to objectively substantiate along the development of its documentation, that this fundamental tool has to be sought from the Basic Habitability theory as an essential support to redirect the future processes of peri-urban spontaneous occupation. The purpose of the research is carried out to characterize, and know the optimum applicability of a basic operational tool to assist in the strategic decisions making of the responsible authorities on the best location of settlements that, until the existence and applicability of this instrument, are considered spontaneous. Spontaneous settlements which, under normal conditions would be subject to the precariousness for years while under that instrument they would abandon their spontaneous genesis for accessing by elemental planning to the Basic Habitability. The concretionary materialization of this tool would be a synthetic guidelines plan of territorial and urban planning called Site Election Plan (SEP). Designed as a Elementary Theoretical Model, its application would preferably be oriented for small towns in developing countries that represent a low institutional, economic and technical limited capacity, as well as the absence or ineffectiveness in their planning. Throughout a research process based on: the aforementioned theory of Basic Habitability, the scientific literature of the subject and the experiences of recent cases of urban planning through the application of soil information systems, characterization and preliminary applicability of the tool is proposed. After attentively analyzing their strengths and weaknesses and with the participation of a group of independent experts, the paper concludes with a new characterization of the tool and the reformulation of the initial hypothesis.