NASYP: Online expert tool on the control of major-accident hazards involving dangerous substances

NASYP is an online Geoportal tool being developed in cooperation with state and regional authorities to improve insufficient practices based on implementation of Directive nr. 2003/105/ES on the control of major-accident hazards involving dangerous substances. The tool is applicable for managing the permits, reporting and regular monitoring issues. Furthermore, it’s applicable for a risk assessment and a rapid management of disasters in the initial phase. There’re simple modeling tools included to simulate early stages of the contamination caused by disasters occurred to be used for decision making and effective use of emergency services. In this manner, there’re low atmospheric and surface water pollutions taken into account. For the study area, Liberec region was chosen covering the area of 3,163km2 and containing 533 potentially dangerous objects categorized accordingly to the Directive nr. 2003/105/ES. The model simulations are responding to daily hydrological and meteorological situation, a capability of automated updates from databases operated by the Czech Hydro Meteorological Institute, and communicate with databases of substances operated by the regional authorities. NASYP is suitable especially for the “N†class of the operators defined in the Directive, where because of smaller amounts of stored dangerous substances the safety measures and regular inspections are limited.Spatial data, geoportal, risk management, modelling, Research and Development/Tech Change/Emerging Technologies, Research Methods/ Statistical Methods, Risk and Uncertainty, GA, IN,

INSPIRE Data Specification Document on Natural Risk Zones : Draft Guidlines version 2.0

This document describes the “INSPIRE data specification on Natural Risk Zones – Guidelines” version 2.0 as developed by the Thematic Working Group (TWG) Natural Risk Zones using both natural and a conceptual schema language. This version is now available for the public consultation. Based on the results of the consultation (received comments and the testing reports), the final version 3.0 will be prepared by the TWGs. The data specification is based on a common template used for all data specifications and has been harmonised using the experience from the development of the Annex I data specifications. This document provides guidelines for the implementation of the provisions laid down in the draft Implementing Rule for spatial data sets and services of the INSPIRE Directive. This document includes two executive summaries that provide a quick overview of the INSPIRE data specification process in general, and the content of the data specification on Natural Risk Zones in particular. We highly recommend that managers, decision makers, and all those new to the INSPIRE process and/or information modelling should read these executive summaries first. The UML diagrams (in Chapter 5) offer a rapid way to see the main elements of the specifications and their relationships. The definition of the spatial object types, attributes, and relationships are included in the Feature Catalogue (also in Chapter 5). People having thematic expertise but not familiar with UML can fully understand the content of the data model focusing on the Feature Catalogue. Users might also find the Feature Catalogue especially useful to check if it contains the data necessary for the applications that they run. The technical details are expected to be of prime interest to those organisations that are/will be responsible for implementing INSPIRE within the field of Natural Risk Zones. The technical provisions and the underlying concepts are often illustrated by examples. Smaller examples are within the text of the specification, while longer explanatory examples and descriptions of selected use cases are attached in the annexes. In order to distinguish the INSPIRE spatial data themes from the spatial object types, the INSPIRE spatial data themes are written in italics

Open Data Platform for Data Integration, Visualisation and Map Design

The current trend in the EU is to open access to public sector information which is provided either for free or for marginal cost, and reuse it in various applications. Information technologies enable people to access, process and analyse spatial data from various sources, help to design on-demand maps and provide information for decision makers. However, the provision of data varies across different authorities, and combining heterogeneous data is not an easy task. We present an Open Data Platform that enables people to integrate, harmonise and visualise spatial planning and other data. The platform connects to the approach of real cartography and aims to enable non-cartographers to correctly design maps and gain new information in a user-friendly way based on modern technologies and robust data storage. This chapter mainly tackles the issues of heterogeneous data integration, harmonisation and visualisation. Ongoing research aims to explore new methods of data reuse and cartographic visualisation, following the trends of modern cartography

Open data platform for data integration, visualisation and map design

The current trend in the EU is to open access to public sector information which is provided either for free or for marginal cost, and reuse it in various applications. Information technologies enable people to access, process and analyse spatial data from various sources, help to design on-demand maps and provide information for decision makers. However, the provision of data varies across different authorities, and combining heterogeneous data is not an easy task. We present an Open Data Platform that enables people to integrate, harmonise and visualise spatial planning and other data. The platform connects to the approach of real cartography and aims to enable non-cartographers to correctly design maps and gain new information in a user-friendly way based on modern technologies and robust data storage. This chapter mainly tackles the issues of heterogeneous data integration, harmonisation and visualisation. Ongoing research aims to explore new methods of data reuse and cartographic visualisation, following the trends of modern cartography

NASYP: Online expert tool on the control of major-accident hazards involving dangerous substances

NASYP is an online Geoportal tool being developed in cooperation with state and regional authorities to improve insufficient practices based on implementation of Directive nr. 2003/105/ES on the control of major-accident hazards involving dangerous substances. The tool is applicable for managing the permits, reporting and regular monitoring issues. Furthermore, it’s applicable for a risk assessment and a rapid management of disasters in the initial phase. There’re simple modeling tools included to simulate early stages of the contamination caused by disasters occurred to be used for decision making and effective use of emergency services. In this manner, there’re low atmospheric and surface water pollutions taken into account. For the study area, Liberec region was chosen covering the area of 3,163km2 and containing 533 potentially dangerous objects categorized accordingly to the Directive nr. 2003/105/ES. The model simulations are responding to daily hydrological and meteorological situation, a capability of automated updates from databases operated by the Czech Hydro Meteorological Institute, and communicate with databases of substances operated by the regional authorities. NASYP is suitable especially for the “N” class of the operators defined in the Directive, where because of smaller amounts of stored dangerous substances the safety measures and regular inspections are limited

Towards a cross-domain interoperable framework for natural hazards and disaster risk reduction information

The vast amount of information and data necessary for comprehensive hazard and risk assessment presents many challenges regarding the lack of accessibility, comparability, quality, organisation and dissemination of natural hazards spatial data. In order to mitigate these limitations an interoperable framework has been developed in the framework of the development of legally binding Implementing rules of the EU INSPIRE Directive1* aiming at the establishment of the European Spatial Data Infrastructure. The interoperability framework is described in the Data Specification on Natural risk zones – Technical Guidelines (DS) document2* that was finalized and published on 10.12. 2013. This framework provides means for facilitating access, integration, harmonisation and dissemination of natural hazard data from different domains and sources.JRC.H.3-Forest Resources and Climat