Copias de seguridad : Estudio y metodología

El proyecto pretende servir de punto de partida para futuros trabajos de ingeniería del software orientados al sector de las copias de seguridad. Se trata de un estudio de la historia de las copias de respaldo, sus tipos, métodos de gestión y metodología a seguir a la hora de diseñar una política de copias de seguridad en el seno de una organización. El caso práctico desarrolla el diseño de la política de copias de seguridad en una notaría.

Anàlisi bàsic de rutes òptimes a zones de catàstrofe

L'objectiu del projecte és desenvolupar un Sistema d'Informació Geogràfica (SIG) d'ús senzill, amb la finalitat de generar cartografia actualitzada de manera gairebé instantània que serveixi de recolzament a l'ajuda internacional desplegada en un país després d'una catàstrofe natural. La cartografia serà d'Haití, com a exemple de zona afectada per un terratrèmol. Amb el SIG els equips d'emergència podran indicar aquelles vies tallades, per poder tenir cartografia actualitzada. Igualment podran indicar un punt origen i un punt destí i el SIG els indicarà la ruta més curta, tenint en compte les carreteres tallades. El programari utilitzat per desenvolupar el projecte és GeoMedia Professional, Microsoft Access i Microsoft Visual Studio .NET. S'ha generat cartografia d'Haití en format vectorial.

TFC SIG - cobertura sanitaria en zonas de catástrofe

Comando para trabajar con Geomedia Professional 6.1, que extiende la funcionalidad de la herramienta para adaptarla a un escenario en el cual se ayuda a la gestión de la cobertura sanitaria en zonas de catástrofe, en nuestro caso Haití.

Improved earthquake response via simulation and integrated space- and ground-based technologies: the TREMOR proposal

Earthquakes occurring around the world each year cause thousands ofdeaths, millions of dollars in damage to infrastructure, and incalculablehuman suffering. In recent years, satellite technology has been asignificant boon to response efforts following an earthquake and itsafter-effects by providing mobile communications between response teamsand remote sensing of damaged areas to disaster management organizations.In 2007, an international team of students and professionals assembledduring theInternational Space University’s Summer Session Program in Beijing, Chinato examine how satellite and ground-based technology could be betterintegrated to provide an optimised response in the event of an earthquake.The resulting Technology Resources for Earthquake MOnitoring and Response(TREMOR) proposal describes an integrative prototype response system thatwill implement mobile satellite communication hubs providing telephone anddata links between response teams, onsite telemedicine consultation foremergency first-responders, and satellite navigation systems that willlocate and track emergency vehicles and guide search-and-rescue crews. Aprototype earthquake simulation system is also proposed, integratinghistorical data, earthquake precursor data, and local geomatics andinfrastructure information to predict the damage that could occur in theevent of an earthquake. The backbone of these proposals is a comprehensiveeducation and training program to help individuals, communities andgovernments prepare in advance. The TREMOR team recommends thecoordination of these efforts through a centralised, non-governmentalorganization.

Socio-economic benefits of using space technologies to monitor and respond to earthquakes

Earthquakes represent a major hazard for populations around the world, causing frequent loss of life,human suffering and enormous damage to homes, other buildings and infrastructure. The Technology Resources forEarthquake Monitoring and Response (TREMOR) Team of 36 space professionals analysed this problem over thecourse of the International Space University Summer Session Program and published their recommendations in the formof a report. The TREMOR Team proposes a series of space- and ground-based systems to provide improved capabilityto manage earthquakes. The first proposed system is a prototype earthquake early-warning system that improves theexisting knowledge of earthquake precursors and addresses the potential of these phenomena. Thus, the system willat first enable the definitive assessment of whether reliable earthquake early warning is possible through precursormonitoring. Should the answer be affirmative, the system itself would then form the basis of an operational earlywarningsystem. To achieve these goals, the authors propose a multi-variable approach in which the system will combine,integrate and process precursor data from space- and ground-based seismic monitoring systems (already existing andnew proposed systems) and data from a variety of related sources (e.g. historical databases, space weather data, faultmaps). The second proposed system, the prototype earthquake simulation and response system, coordinates the maincomponents of the response phase to reduce the time delays of response operations, increase the level of precisionin the data collected, facilitate communication amongst teams, enhance rescue and aid capabilities and so forth. It isbased in part on an earthquake simulator that will provide pre-event (if early warning is proven feasible) and post-eventdamage assessment and detailed data of the affected areas to corresponding disaster management actors by means of ageographic information system (GIS) interface. This is coupled with proposed mobile satellite communication hubs toprovide links between response teams. Business- and policy-based implementation strategies for these proposals, suchas the establishment of a non-governmental organisation to develop and operate the systems, are included.

Journalistic practice in risk and crisis situations: Significant examples from Spain

In a democratic society, the media are central to the communication of risks and uncertainties to the public. This article presents 10 proposals for improving media coverage in social risk situations. The article focuses on the production logic of the media and its consequences for society. The proposals and the conclusions of this research are supported by an analysis of three Spanish cases: the risk implied by the Tarragona chemical complex (one of the biggest in Europe); the terrorist attacks on 11 March 2004 in Madrid; and the Carmel tunnel disaster in Barcelona on January 2005. The authors are participating in a research project on public perception of risk funded by the Spanish Education Ministry on public perception of risk (2004–2007 and 2007–2010).

Servicios avanzados de seguridad para un sistema de emergencias

La recuperación de un desastre requiere la coordinación e interacción oportuna de todos los servicios de emergencias para poder hacer una valoración conjunta de los datos obtenidos y elaborar una respuesta rápida y efectiva. En el presente trabajo se propone un sistema que permite el acceso, manipulación y transferencia de información sensible y urgente entre el personal de los organismos implicados. Los privilegios sobre los recursos están regulados mediante políticas de seguridad que permiten definir el comportamiento del servicio en función de la sesión o contexto temporal del solicitante. La arquitectura propuesta está basada en tecnología de redes ad hoc para el campo de operaciones, y una plataforma orientadaa servicios en las sedes corporativas.

Habilitation of a city in case with multiple victims = Habilitación de una ciudad en sucesos con múltiples víctimas

Debido a que en España se han dado diferentes accidentes con múltiples víctimas en diferentes puntos del país, se cree conveniente que cada ciudad tenga un plan de gestión de catástrofes con una serie de espacios habilitados para poder responder en caso de un accidente de estas características. El presente artículo tiene como objetivo presentar la habilitación de espacios aplicable en cualquier capital de provincia de España, tomando como ejemplo la ciudad de Girona. Se ha tomado la ciudad de Girona como modelo por presentar infraestructuras viarias, ferroviarias, portuarias y aeroportuarias cada vez más concurridas

Emergency Management in the United States of America

Core capabilities are under the above mission areas as outlined in the National Preparedness Goal. Planning, Public Information and Warning, and Operational Coordination cut across all five mission areas. Without these three cross-cutting capabilities, the other capabilities might not be achieved or could be weakened. Other core capabilities are aligned under a specific mission area, based on where it had the most relevance. Core capabilities alignment: Prevention capabilities focus on things related to preventing an imminent terrorist attack; by imminent, we mean an attack that is about to happen ; Protection capabilities focus on security— making sure things, systems, and people are protected ; Mitigation capabilities focus on risk, resilience and building a culture of preparedness; Response capabilities focus on meeting a community’s immediate needs when disaster strikes and finally, recovery capabilities focus on getting communities back on their feet.