3D and 4D Simulations for Landscape Reconstruction and Damage Scenarios. GIS Pilot Applications

The project 3D and 4D Simulations for Landscape Reconstruction and Damage Scenarios: GIS Pilot Applications has been devised with the intention to deal with the demand for research, innovation and applicative methodology on the part of the international programme, requiring concrete results to increase the capacity to know, anticipate and respond to a natural disaster. This project therefore sets out to develop an experimental methodology, a wide geodatabase, a connected performant GIS platform and multifunctional scenarios able to profitably relate the added values deriving from different geotechnologies, aimed at a series of crucial steps regarding landscape reconstruction, event simulation, damage evaluation, emergency management, multi-temporal analysis. The Vesuvius area has been chosen for the pilot application owing to such an impressive number of people and buildings subject to volcanic risk that one could speak in terms of a possible national disaster. The steps of the project move around the following core elements: creation of models that reproduce the territorial and anthropic structure of the past periods, and reconstruction of the urbanized area, with temporal distinctions; three-dimensional representation of the Vesuvius area in terms of infrastructuralresidential aspects; GIS simulation of the expected event; first examination of the healthcareepidemiological consequences; educational proposals. This paper represents a proactive contribution which describes the aims of the project, the steps which constitute a set of specific procedures for the methodology which we are experimenting, and some thoughts regarding the geodatabase useful to “package” illustrative elaborations. Since the involvement of the population and adequate hazard preparedness are very important aspects, some educational and communicational considerations are presented in connection with the use of geotechnologies to promote the knowledge of risk

NON-PARAMETRIC STATISTICAL APPROACH TO CORRECT SATELLITE RAINFALL DATA IN NEAR-REAL-TIME FOR RAIN BASED FLOOD NOWCASTING

Floods resulting from intense rainfall are one of the most disastrous hazards in many regions of the world since they contribute greatly to personal injury and to property damage mainly as a result of their ability to strike with little warning. The possibility to give an alert about a flooding situation at least a few hours before helps greatly to reduce the damage. Therefore, scores of flood forecasting systems have been developed during the past few years mainly at country level and regional level. Flood forecasting systems based only on traditional methods such as return period of flooding situations or extreme rainfall events have failed on most occasions to forecast flooding situations accurately because of changes on territory in recent years by extensive infrastructure development, increased frequency of extreme rainfall events over recent decades, etc. Nowadays, flood nowcasting systems or early warning systems which run on real- time precipitation data are becoming more popular as they give reliable forecasts compared to traditional flood forecasting systems. However, these kinds of systems are often limited to developed countries as they need well distributed gauging station networks or sophisticated surface-based radar systems to collect real-time precipitation data. In most of the developing countries and in some developed countries also, precipitation data from available sparse gauging stations are inadequate for developing representative aerial samples needed by such systems. As satellites are able to provide a global coverage with a continuous temporal availability, currently the possibility of using satellite-based rainfall estimates in flood nowcasting systems is being highly investigated. To contribute to the world's requirement for flood early warning systems, ITHACA developed a global scale flood nowcasting system that runs on near-real-time satellite rainfall estimates. The system was developed in cooperation with United Nations World Food Programme (WFP), to support the preparedness phase of the WFP like humanitarian assistance agencies, mainly in less developed countries. The concept behind this early warning system is identifying critical rainfall events for each hydrological basin on the earth with past rainfall data and using them to identify floodable rainfall events with real time rainfall data. The individuation of critical rainfall events was done with a hydrological analysis using 3B42 rainfall data which is the most accurate product of Tropical Rainfall Measuring Mission (TRMM) Multi-satellite Precipitation Analysis (TMPA) dataset. These critical events have been stored in a database and when a rainfall event is found in real-time which is similar or exceeds the event in the database an alert is issued for the basin area. The most accurate product of TMPA (3B42) is derived by applying bias adjustments to real time rainfall estimates using rain gauge data, thus it is available for end-users 10-15 days after each calendar month. The real time product of TMPA (3B42RT) is released approximately 9 hours after real-time and lacks of such kind of bias adjustments using rain gauge data as rain gauge data are not available in real time. Therefore, to have reliable alerts it is very important to reduce the uncertainty of 3B42RT product before using it in the early warning system. For this purpose, a statistical approach was proposed to make near real- time bias adjustments for the near real time product of TMPA (3B42RT). In this approach the relationship between the bias adjusted rainfall data product (3B42) and the real-time rainfall data product (3B42RT) was analyzed on the basis of drainage basins for the period from January 2003 to December 2007, and correction factors were developed for each basin worldwide to perform near real-time bias adjusted product estimation from the real-time rainfall data product (3B42RT). The accuracy of the product was analyzed by comparing with gauge rainfall data from Bangladesh and it was found that the uncertainty of the product is less even than the most accurate product of TMPA dataset (3B42

GIS4RISKS: Geographic information system for risk Image, safety key. A methodological contribution to optimise the first geodynamic post-event phases and to face emergencies

In this paper we provide a methodological and operative contribution aimed at optimising the first post-event phases in case of seismic and volcanic events, as an advancement of the research conducted for the GIS4RISKS project. Particularly, we underline the importance of setting up a performant GIS platform able to synergistically use and manage data and images deriving from multiple sources to promote a system where refined methodologies and procedures converge for the development of digital representations, calculation models, spatial and multi-temporal analysis, through an integration of geomatic, engineering and geographic approaches. A synthesis of the characteristics of this platform, useful for increasing savability during the emergency phases and to better tackle situations of crisis due to geodynamic events is provided and particular attention is also given to the added value that can be derived from a coordinated use of drones (Unmanned Aerial Vehicles – UAVs), permitting a rapid recovery of detailed information in hostile areas and a rigorous monitoring of the evolution of the situation, avoiding risks for operators on the fiel

TEMPLATES FOR CREATING STANDARDIZED CARTOGRAPHIC PRODUCTSFOR MONTANA COUNTY PRE-DISASTER MITIGATION PLANS

The Montana Critical Infrastructure GIS Committee, on behalf of the Montana Department of Administration, has been involved for several years in concentrated efforts to make various types of map products available to those involved in emergency management throughout the state. As a component of this process, the Committee authorized funding for a project devoted to the development of standardized map products for pre-disaster mitigation (PDM) plans during the spring of 2006, and the research was completed later that year. The requirement for the development of these plans was established by the Disaster Mitigation Act of 2000. In Montana, implementation of this legislation has taken place at the county and Indian reservation levels of government. The scope of the research conducted was divided into several components. First, various goals were established in order to provide a general sequence of events for the work. These began with identifying any cartographic requirements established by law and included decisions regarding the actual map construction and techniques for describing the processes utilized. Similarly, assumptions regarding software and other issues were made. Numerous experts in the areas of natural and man-made hazards, emergency management, and other fields were contacted in order to identify those cartographic products that would be most useful. The overall mapmaking process was established, map templates were constructed, and detailed instructions were compiled for use by others. The results of this research compiled in a report and submitted to the GIS Committee in November of 2006. This thesis represents the further development of the results of that research

Cartography in Croatia 2007–2011 National Report to the ICA 15th General Assembly, Paris, 2011

<p>Croatia has been a member of the International Cartographic Association – ICA since 1995 and one of its obligations has been to submit national reports about its cartographic activities at general assemblies held everyfour years. The bearer of those activities in Croatia is the Croatian Cartographic Society. The State Geodetic Administration recognized the value and importance of those activities and has been financially supporting the work on national report for several years.</p

Cartography in Croatia 2007–2011 National Report to the ICA 15th General Assembly, Paris, 2011

This article stems from setting student projects. It describes in detail the outcome of a project designed to ascertain the views of the public in relation to ancillary relief and what they consider to be a ‘fair’ outcome. The rationale for undertaking student projects has been discussed at length in another article and is therefore only alluded to here. The discussion centres around the law, findings and outcome of the project. Students studying the Family Law course at Sheffield University were required to survey members of the public in order to gather their views on the division of assets on divorce and then to analyse the public’s response in light of the seminal decision of the House of Lords in White v White [2000] UKHL 54; [2001] 1 AC 596