Training of Crisis Mappers and Map Production from Multi-sensor Data: Vernazza Case Study (Cinque Terre National Park, Italy)

This aim of paper is to presents the development of a multidisciplinary project carried out by the cooperation between Politecnico di Torino and ITHACA (Information Technology for Humanitarian Assistance, Cooperation and Action). The goal of the project was the training in geospatial data acquiring and processing for students attending Architecture and Engineering Courses, in order to start up a team of "volunteer mappers". Indeed, the project is aimed to document the environmental and built heritage subject to disaster; the purpose is to improve the capabilities of the actors involved in the activities connected in geospatial data collection, integration and sharing. The proposed area for testing the training activities is the Cinque Terre National Park, registered in the World Heritage List since 1997. The area was affected by flood on the 25th of October 2011. According to other international experiences, the group is expected to be active after emergencies in order to upgrade maps, using data acquired by typical geomatic methods and techniques such as terrestrial and aerial Lidar, close-range and aerial photogrammetry, topographic and GNSS instruments etc.; or by non conventional systems and instruments such us UAV, mobile mapping etc. The ultimate goal is to implement a WebGIS platform to share all the data collected with local authorities and the Civil Protectio

Enhancing Geospatial Preparedness for Disaster Management through the work of development organisations

A thesis submitted in partial fulfillment of the requirements for the degree of Doctor in Information Management, specialization in Geographic Information SystemsDepending on the complexity of a disaster and the local capacities, international organizations and multidisciplinary response teams might be involved in the response. Geographic Information Systems (GIS) are used for coordination and information sharing. However, geospatial preparedness is necessary: reliable up to date geodata, tools, and people with the knowledge to use those tools. In least-developed countries the lack of geospatial preparedness, particularly geospatial pre-disaster information, hinders disaster response. In those places, the United Nations Office for the Coordination of Humanitarian Affairs creates a framework for cooperation with the Coordinated Data Scramble Initiative where Information Management Officers (IMOs) from different organisations are supported by volunteers and technical communities to provide ad-hoc datasets and infrastructure to use GIS. Nevertheless, long-term solutions are needed. Before the disaster, Non-Governmental Organizations (NGOs) might already be using GIS to implement development projects. Based on the theoretical concept of disaster management and development as a learning circle, this investigation proposes the engagement of development NGOS working in disaster-prone areas to enhance geospatial preparedness. The research was based on a multi-method approach including the study of the body of literature, authoritative reports, and repositories and databases, monitorization of the tools used during responses to real emergencies, and semi-structured interviews to IMOs. Finally, the study concluded with an online survey with a worldwide sample of more than 200 development NGOs. The result show that disaster response requires reliable and up to date geodata which is not always the case. Humanitarian missions often rely on OpenStreetMap as a source of information to overcome this limitation. Therefore, improving OpenStreetMap would improve geospatial preparedness. Many development NGOs use digital geographic information, mostly open-data. They could indeed improve geospatial preparedness allowing community empowerment while conveying relevant pre-disaster datasets to the humanitarian missions. This bottom-up approach would allow for the inclusion of information relevant to the community in the disaster response decision-making process. There is, however, a limitation; most of these development NGOs are not familiar with the platform used by the humanitarian community (i.e., OpenStreetMap). Therefore, the sustainability of this synergic approach requires further harmonization between development and humanitarian organizations working for the wellbeing of the same communitie

Decision Support System for smart urban management: resilience against natural phenomena and aerial environmental assessment

A new concept of Decision Support System (DSS) is presented. It is able to account for and support all phases of the risk analysis process: event forecast, prediction of reliable and accurate damage scenarios, estimate of their impact on Critical Infrastructures (CI), estimate of the possible consequences. It also provides an estimate of the consequences in terms of service degradation and of impact on citizens, on urban area and on production activities, essential for the mitigation of the adverse events. It can be used in two different modes, either in an operational mode (on a 24/7 basis) or in a simulation mode to produce risk analysis, setting up synthetic natural hazards and assessing the resulting chain of events (damages, impacts and consequences). Among the various possible external data sources an aerial, drone based one is presented. The system may capture both thermal and visual images of CI, processing them into 3D models or collect chemical pollutants concentrations for the monitoring of dangerous air quality due to catastrophic events such as volcano eruptions or large fires. The obtained models and the chemical data can be easily displayed within the framework of the DSS

Crowdsourced validation and updating of dynamic features in OpenStreetMap an analysis of shelter mapping after the 2015 Nepal earthquake

The paper presents results from a validation process of OpenStreetMap (OSM) rapid mapping activities using crowdsourcing technology in the aftermath of the Gorkha earthquake 2015 in Nepal. We present a framework and tool to iteratively validate and update OSM objects. Two main objectives are addressed: first, analyzing the accuracy of the volunteered geographic information (VGI) generated by the OSM community; second, investigating the spatio-temporal dynamics of spontaneous shelter camps in Kathmandu. Results from three independent validation iterations show that only 10 % of the OSM objects are false positives (no shelter camps). Unexpectedly, previous mapping experience only had a minor influence on mapping accuracy. The results further show that it is critical to monitor the temporal dynamics. Out of 4,893 identified shelter camps, 54% were already empty/closed six days after the first mapping. So far, updating geographical features during humanitarian crisis is not properly addressed by the existing crowdsourcing approaches

Development of an open-source mobile application for emergency data collection

This Master degree project identified disasters and emergencies as a global humanitarian and technological challenge. Emergency management organizations' need for access to accurate and up-to-date information about the emergency situation, to help respond to, recover from and mitigate the effects of disasters and emergencies, presents a challenge to the field of Geomatics. Today the use of remote sensing technologies presents an increasing number of solutions. There are types of spatial data, however, e.g. submerged, non-visual or otherwise hidden features that still require emergency field personnel and volunteers to interpret and record. By utilizing the increasing ubiquity and computational power of modern smartphones, in order to reach a large number of potential users and volunteers, a mobile application for emergency field data collection was developed. It was developed as a component of a system that, in order to be as collaborative, adaptable and accessible as possible, also to resource-poor organizations, was, with a minor exception, completely open-source licensed. Field trials were held that, due to low participation, could not conclusively evaluate the application and its general applicability to emergency field data collection. They did, however, provide an adequate proof-of-concept and showed that it was possible to apply the application and the implemented system to a specific emergency field data collection task. The system has great collaborative potential, achieved through openness, mobility, standards compliance, multi-source capability and adaptability. Its administrators are given a high degree of control that lets them adapt the system to suit the current users and situation and its flexibility make it widely applicable, not only for emergency management. From literature, the field trials and the experience gained while developing and using the application, some ideas for improving the application and the system were discussed and some future research topics were suggested.Under och efter katastrofer och nödsituationer samlas många olika organisationer för att hjälpa de drabbade. Det kan vara t.ex. polis, brandkår, sjukvård, eller elbolag som måste reparera ledningsnät. Vid större katastrofer kan myndigheter och internationella hjälporganisationer också behöva komma till undsättning. För att dessa organisationer ska kunna hjälpa till på ett effektivt sätt måste de ha tillgång till uppdaterad och korrekt information om krisläget. En stor del av den här informationen är kopplad till en specifik plats; den är geografisk. Idag får organisationer som jobbar med krishantering mycket av sin geografiska information från satelliter och flygbilder, men en del typer av information kan inte ses med satellit. Dessa kan vara t.ex. ledningar som ligger begravda under markytan eller mänskliga skador och behov. Därför behövs också någon form av system som personal och volontärer i fält kan använda för att rapportera till krisledningscentraler på ett effektivt sätt. Många sådana system har historiskt sett varit dyra att skaffa eftersom de krävt avancerade datorprogram och dyr teknisk utrustning till personalen i fält. Eftersom de dessutom många gånger varit svåra att använda har det varit svårt för krishanterings-organisationer att få ihop tillräckligt många personer att hjälpa till. Det här projektet syftade till att utveckla en mobil-app, d.v.s. ett program till moderna mobiltelefoner (s.k. smartphones). Målet med appen var att alla som äger en smartphone av rätt typ skulle kunna bidra till att samla viktig geografisk information till krisledningscentralen. Genom att låta appen vara en del av ett system som är helt gratis att använda och med öppen källkod, kan även organisationer med små resurser och lite pengar använda den. Tack vare att så många redan äger smartphones som de dessutom redan är vana vid att använda kan det bli lättare att få fler att kunna medverka. Utvecklingen av appen lyckades och hela systemet är gratis att använda och utgivet – nästan – helt med öppen källkod. Appen testades, men av för få deltagare för att kunna dra några definitiva slutsatser om systemet är lämpligt att använda för krishantering. Dock visade appen och systemet god potential under testerna och att det var möjligt att använda appen för att samla information i en katastrofsituation

Geospatial methods and tools for natural risk management and communications

In the last decade, real-time access to data and the use of high-resolution spatial information have provided scientists and engineers with valuable information to help them understand risk. At the same time, there has been a rapid growth of novel and cutting-edge information and communication technologies for the collection, analysis and dissemination of data, re-inventing the way in which risk management is carried out throughout its cycle (risk identification and reduction, preparedness, disaster relief and recovery). The applications of those geospatial technologies are expected to enable better mitigation of, and adaptation to, the disastrous impact of natural hazards. The description of risks may particularly benefit from the integrated use of new algorithms and monitoring techniques. The ability of new tools to carry out intensive analyses over huge datasets makes it possible to perform future risk assessments, keeping abreast of temporal and spatial changes in hazard, exposure, and vulnerability. The present special issue aims to describe the state-of-the-art of natural risk assessment, management, and communication using new geospatial models and Earth Observation (EO)architecture. More specifically, we have collected a number of contributions dealing with: (1) applications of EO data and machine learning techniques for hazard, vulnerability and risk mapping; (2) natural hazards monitoring and forecasting geospatial systems; (3) modeling of spatiotemporal resource optimization for emergency management in the post-disaster phase; and (4) development of tools and platforms for risk projection assessment and communication of inherent uncertainties

Integrated HBIM-GIS Models for Multi-Scale Seismic Vulnerability Assessment of Historical Buildings

The complexity of historical urban centres progressively needs a strategic improvement in methods and the scale of knowledge concerning the vulnerability aspect of seismic risk. A geographical multi-scale point of view is increasingly preferred in the scientific literature and in Italian regulation policies, that considers systemic behaviors of damage and vulnerability assessment from an urban perspective according to the scale of the data, rather than single building damage analysis. In this sense, a geospatial data sciences approach can contribute towards generating, integrating, and making virtuous relations between urban databases and emergency-related data, in order to constitute a multi-scale 3D database supporting strategies for conservation and risk assessment scenarios. The proposed approach developed a vulnerability-oriented GIS/HBIM integration in an urban 3D geodatabase, based on multi-scale data derived from urban cartography and emergency mapping 3D data. Integrated geometric and semantic information related to historical masonry buildings (specifically the churches) and structural data about architectural elements and damage were integrated in the approach. This contribution aimed to answer the research question supporting levels of knowledge required by directives and vulnerability assessment studies, both about the generative workflow phase, the role of HBIM models in GIS environments and toward user-oriented webGIS solutions for sharing and public use fruition, exploiting the database for expert operators involved in heritage preservation

Risk Data Hub – web platform to facilitate management of disaster risks

The management of disaster risks of different kinds (manmade, natural) is ruled at European level by a number of policies covering various sectors (e.g. environmental, industrial, civil protection, security, health), scales (EU wide, regional, national) and operational actions (preparedness, prevention, response and recovery). A range of research and technological developments, are motivated to support the implementation of these policies and actions across various scales reaching local level. However, the effectiveness of Disaster Risk Management (DRM) depends greatly on the efficiency of managing relevant information. Complex forms of decision-making needs technological support for achieving DRM objective of reducing risk. Disaster Risk Management Knowledge Centre (DRMKC) is currently developing a web-based geographical information system (WebGIS) aiming to support the implementation of international actions for DRM from global or regional level to local-national level. With this study, we present the DRMKC Risk Data Hub, a tool that improves the access and share of curated EU-wide disaster risk information relevant for DRM related actions. We also identify the key characteristics of a WebGiS platform needed to address in the most efficient way aspects of disaster risk management. Risk Data Hub acts as a knowledge hub, links policy and practice through geospatial technology and mapping, combines top-down strategies with bottom-up methodological approaches and sets the bases for science-based information for DRM polices. Currently, Risk Data Hub structures the information into three modules that covers the Exposure Analysis – as one of the main drivers of risk, Historic Events – as an EU-wide loss and damage database and Risk Analysis module - as collection of good or existing practices.JRC.E.1-Disaster Risk Managemen

Training of Crisis Mappers and Map Production from Multi-sensor Data: Vernazza Case Study (Cinque Terre National Park, Italy)

This aim of paper is to presents the development of a multidisciplinary project carried out by the cooperation between Politecnico di Torino and ITHACA (Information Technology for Humanitarian Assistance, Cooperation and Action). The goal of the project was the training in geospatial data acquiring and processing for students attending Architecture and Engineering Courses, in order to start up a team of “volunteer mappers”. Indeed, the project is aimed to document the environmental and built heritage subject to disaster; the purpose is to improve the capabilities of the actors involved in the activities connected in geospatial data collection, integration and sharing. The proposed area for testing the training activities is the Cinque Terre National Park, registered in the World Heritage List since 1997. The area was affected by flood on the 25th of October 2011. According to other international experiences, the group is expected to be active after emergencies in order to upgrade maps, using data acquired by typical geomatic methods and techniques such as terrestrial and aerial Lidar, close-range and aerial photogrammetry, topographic and GNSS instruments etc.; or by non conventional systems and instruments such us UAV, mobile mapping etc. The ultimate goal is to implement a WebGIS platform to share all the data collected with local authorities and the Civil Protection