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

Geographic Information Systems and Risk Assessment

This report presents projects developed by the Unit IPSC/SERAC regarding the use of Geographic Information Systems (GIS) for supporting the study of critical infrastructures and the security/defence industry. It also discusses how risk assessment can benefit from geographical representations. Risk assessments have an important spatial component and GIS can be central to risk identification, quantification, and evaluation. Furthermore it presents a wide-ranging description of different GIS techniques and web-technologies, and its potential application to supporting the European Program for Critical Infrastructure Protection, and the mapping of the European Defence industry.JRC.G.6-Sensors, radar technologies and cybersecurit

A Review of Qualitative Comments on a Proposed Master's Degree in Emergency Management

During 2015, a survey was completed by 373 \ respondents representing academics and practitioners \ in Emergency Management. They were asked to \ evaluate the courses for a Master’s degree in \ Emergency Management with a concentration in \ Information Systems. This paper reviews the very \ significant qualitative comments they made about each \ of the various courses and the program as a whole

CBR and MBR techniques: review for an application in the emergencies domain

The purpose of this document is to provide an in-depth analysis of current reasoning engine practice and the integration strategies of Case Based Reasoning and Model Based Reasoning that will be used in the design and development of the RIMSAT system. RIMSAT (Remote Intelligent Management Support and Training) is a European Commission funded project designed to: a.. Provide an innovative, 'intelligent', knowledge based solution aimed at improving the quality of critical decisions b.. Enhance the competencies and responsiveness of individuals and organisations involved in highly complex, safety critical incidents - irrespective of their location. In other words, RIMSAT aims to design and implement a decision support system that using Case Base Reasoning as well as Model Base Reasoning technology is applied in the management of emergency situations. This document is part of a deliverable for RIMSAT project, and although it has been done in close contact with the requirements of the project, it provides an overview wide enough for providing a state of the art in integration strategies between CBR and MBR technologies.Postprint (published version

A Review of Qualitative Comments on a Proposed Master\u27s Degree in Emergency Management

During 2015, a survey was completed by 373 \ respondents representing academics and practitioners \ in Emergency Management. They were asked to \ evaluate the courses for a Master’s degree in \ Emergency Management with a concentration in \ Information Systems. This paper reviews the very \ significant qualitative comments they made about each \ of the various courses and the program as a whole

GISualisation: a tool for visually supporting planning processes

The evaluation of quality of life in cities can be supported by the analysis of data coming from different sources and describing different aspects such as economic, social, environmental, energy, housing or mobility issues. Nevertheless, the analysis of such big amounts of data is difficult so that only expert technicians can access to their inner contents. Furthermore, the outcomes of these analyses are often presented in static outcomes which reproduce the reasoning of technicians who have not expertise in urban studies. Thus, planners and decision-makers have to base their own choices on given outcomes without opportunities for personally investigating the inner contents of data. In order to facilitate the data exploration and readability by non-technicians, a GIS-based visualization tool, namely “GISualisation”, has been realized to give to both planners and actors involved in planning processes, a decision support system useful to visualize the inter-relations between data which describe cities. The tool is a web-based interactive visual tool, which works on geo-referenced dynamic maps, currently created with free Web GIS applications. GISualisation displays data on a map and offers the possibility to select and filter data by single attributes, allowing users to interact readily with large databases and customise the visualisation of information. Thus, the tool offers a simple interface to visualise GIS data on the basis of users’ requests, providing a support for planners and decision-makers to explore data and detect issues of inefficiency, ineffectiveness or critical areas which needs further reasoning on their planning or design. Furthermore, it can be used in collaborative and participatory session so to improve the information sharing among participants. Depending on the case study, the tool can be adapted and customized to visualise different type of data, ensuring user-friendliness and possibility to explore the relationships between data. GISualisation has already been applied in investigating inefficiencies in a public transport system (Pensa, Masala, Arnone, & Rosa, 2013), in studying pedestrian paths in an urban area, in analysing urban population health and in the evaluation of social housing projects. Further developments will include the integration with the interactive Visualisation Tool (InViTo) (Pensa, Masala, & Lami, 2013; Pensa & Masala, 2014) and the possibility to include real-time data feeds. Through GISualisation, data on quality of life can be investigated and visually analysed so to offer a new tool to actors involved in planning process for detecting critical areas and improving the urban planning process

An Investigation Into the Use of Geospatial Technologies as Part of Disaster Management Efforts Related to the Asian Tsunami of 2004

On the 26th of December, 2004, a tsunami impacted the countries surrounding the Indian Ocean, immediately killing over two hundred and eighty thousand people, displacing another million people, and initially causing at least US$10 billion in damage. The response by the international community was swift and massive. Disaster decision-makers who led their organization\u27s responses to the tsunami used geospatial information to support their decision-making efforts with mixed success. When describing their use of geospatial technologies during the response, a select set of disaster decision-makers provided information about how they used geospatial information, they described what worked and what did not work to support their efforts. These disaster decision-makers\u27 revelations include the need for information about the affected persons, the location and status of relief supplies and other resources, and the conditions of the terrain affected by the tsunami. Corroborated by documents produced by governments, academia, nongovernmental and international organizations, these information requirements are the basis for a logical model for a geographic information system that can be used to support a variety of disaster types

UP4DREAM CAPACITY BUILDING PROJECT: UAS BASED MAPPING IN DEVELOPING COUNTRIES

UP4DREAM (UAV Photogrammetry for Developing Resilience and Educational Activities in Malawi) is a cooperative project cofounded by ISPRS between the Polytechnic University of Turin and the United Nations Children Fund (UNICEF) Malawi, with the support of two local Universities (Lilongwe University of Agriculture and Natural Resources, and Mzuzu University), and Agisoft LLC (for the use of their photogrammetry and computer vision software suite). Malawi is a flood-prone landlocked country constantly facing natural and health challenges, which prevent the country's sustainable socio-economic development. Frequent naturals shocks leave vulnerable communities food insecure. Moreover, Malawi suffers from high rates of HIV, as well as it has endemic malaria. The UP4DREAM project focuses on one of the drone project's critical priorities in Malawi (Imagery). It aims to start a capacity-building initiative in line with other mapping missions in developing countries, focusing on the realization and management of large-scale cartography (using GIS - Geographic Information Systems) and on the generation of 3D products based on the UAV-acquired data. The principal aim of UP4DREAM is to ensure that local institutions, universities, researchers, service companies, and manufacturers operating in the humanitarian drone corridor, established by UNICEF in 2017, will have the proper knowledge and understanding of the photogrammetry and spatial information best practices, to perform large-scale aerial data acquisition, processing, share and manage in the most efficient, cost-effective and scientifically rigorous way

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

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