Disaster Risk Assessment System (Q3943051): Difference between revisions
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In addition to intervention and response, prevention, including a detailed, scientific mapping, assessment and management of risks, is increasingly important in disaster management. Risk assessment is particularly important in the case of natural disasters, as the threats posed by climate change have become increasingly unpredictable and intensified in recent decades. The climate of the Carpathian Basin is increasingly characterised by weather extremes and high-intensity weather events taking place within a short period of time. The number of hot days, drought years and heatwaves has increased. Over the last 30 years, the area has been increasingly affected by flood-like rainfall, the resulting extreme floods, storms, orcans and tornadoes. New, more intense climate events are a growing burden in managing disasters, both in terms of material and human resources management. It is therefore important to support investments in reducing specific disaster-related risk factors and increasing capacity in the field of management. In addition, a complex and detailed digital risk rating system (based on the current national risk assessment to prepare the risk chart) is needed to enable municipalities and disaster management bodies to prepare themselves properly and quickly and to take effective action. The main objective of the development project is to create a preventive and complex risk assessment system/network, an opportunity for all organisational elements involved in the disaster management system to better prepare for natural disasters caused by climate change. 1. Project MATERIES A) Establishing a harmonised, centralised and integrated risk assessment methodology at all Budapest and county disaster management directorates, as well as horizontal and vertical organizational elements of defence management, and setting up a compatible geospatial background (software/hardware) based on the basis of the existing geospatial system, which assists in disaster management decision support (before the occurrence of the disaster), the preparation plans, and provides a basis for spatial planning. The results are shared both inside and outside the organisation, with the necessary technical background. The system optimises resource management and dynamically modells changes in conditions (social, meteorological, climate, economic, institutional changes). B) Area identification and localisation of disaster risks, determination of the level of risks by type of hazard. c) Establish a single, transparent, interoperable, interactive, on-line risk, emergency and impact map catalogue covering the whole national territory. D) Establishing a higher level of disaster management through the use of geospatial decision support system, ensuring the efficient operation of the core activities in terms of costs and resources. e) Creating a climate change adaptation mechanism that is based on disaster management but can also be used for other policy decisions. The results of the project (methodology and map analysis) will be shared, they can be incorporated into the daily work of other public administrations in addition to disaster management organisations, so their application can have a positive impact on spatial and settlement development, economic activities, critical infrastructure protection, the operation of public institutions, public information and disaster management activities at local level well before the occurrence of natural disasters. (f) Based on the further development of the existing standards governing the risk assessment method. g) Developing a spatial information system infrastructure based on detailed spatial data (purchase of hardware and software, (h) Developing a Web Geospatial Analysis Module (or developing a central analytical module with the possibility to publish the results on the web). Preparation of dynamic municipal risk maps, identification of the level of risk per hazard type. j) Knowledge sharing, training for prospective end-users (direct target groups); K) Maintain protection practices for some priority settlements. (English) | |||||||||||||||
| Property / summary: In addition to intervention and response, prevention, including a detailed, scientific mapping, assessment and management of risks, is increasingly important in disaster management. Risk assessment is particularly important in the case of natural disasters, as the threats posed by climate change have become increasingly unpredictable and intensified in recent decades. The climate of the Carpathian Basin is increasingly characterised by weather extremes and high-intensity weather events taking place within a short period of time. The number of hot days, drought years and heatwaves has increased. Over the last 30 years, the area has been increasingly affected by flood-like rainfall, the resulting extreme floods, storms, orcans and tornadoes. New, more intense climate events are a growing burden in managing disasters, both in terms of material and human resources management. It is therefore important to support investments in reducing specific disaster-related risk factors and increasing capacity in the field of management. In addition, a complex and detailed digital risk rating system (based on the current national risk assessment to prepare the risk chart) is needed to enable municipalities and disaster management bodies to prepare themselves properly and quickly and to take effective action. The main objective of the development project is to create a preventive and complex risk assessment system/network, an opportunity for all organisational elements involved in the disaster management system to better prepare for natural disasters caused by climate change. 1. Project MATERIES A) Establishing a harmonised, centralised and integrated risk assessment methodology at all Budapest and county disaster management directorates, as well as horizontal and vertical organizational elements of defence management, and setting up a compatible geospatial background (software/hardware) based on the basis of the existing geospatial system, which assists in disaster management decision support (before the occurrence of the disaster), the preparation plans, and provides a basis for spatial planning. The results are shared both inside and outside the organisation, with the necessary technical background. The system optimises resource management and dynamically modells changes in conditions (social, meteorological, climate, economic, institutional changes). B) Area identification and localisation of disaster risks, determination of the level of risks by type of hazard. c) Establish a single, transparent, interoperable, interactive, on-line risk, emergency and impact map catalogue covering the whole national territory. D) Establishing a higher level of disaster management through the use of geospatial decision support system, ensuring the efficient operation of the core activities in terms of costs and resources. e) Creating a climate change adaptation mechanism that is based on disaster management but can also be used for other policy decisions. The results of the project (methodology and map analysis) will be shared, they can be incorporated into the daily work of other public administrations in addition to disaster management organisations, so their application can have a positive impact on spatial and settlement development, economic activities, critical infrastructure protection, the operation of public institutions, public information and disaster management activities at local level well before the occurrence of natural disasters. (f) Based on the further development of the existing standards governing the risk assessment method. g) Developing a spatial information system infrastructure based on detailed spatial data (purchase of hardware and software, (h) Developing a Web Geospatial Analysis Module (or developing a central analytical module with the possibility to publish the results on the web). Preparation of dynamic municipal risk maps, identification of the level of risk per hazard type. j) Knowledge sharing, training for prospective end-users (direct target groups); K) Maintain protection practices for some priority settlements. (English) / rank | |||||||||||||||
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| Property / summary: In addition to intervention and response, prevention, including a detailed, scientific mapping, assessment and management of risks, is increasingly important in disaster management. Risk assessment is particularly important in the case of natural disasters, as the threats posed by climate change have become increasingly unpredictable and intensified in recent decades. The climate of the Carpathian Basin is increasingly characterised by weather extremes and high-intensity weather events taking place within a short period of time. The number of hot days, drought years and heatwaves has increased. Over the last 30 years, the area has been increasingly affected by flood-like rainfall, the resulting extreme floods, storms, orcans and tornadoes. New, more intense climate events are a growing burden in managing disasters, both in terms of material and human resources management. It is therefore important to support investments in reducing specific disaster-related risk factors and increasing capacity in the field of management. In addition, a complex and detailed digital risk rating system (based on the current national risk assessment to prepare the risk chart) is needed to enable municipalities and disaster management bodies to prepare themselves properly and quickly and to take effective action. The main objective of the development project is to create a preventive and complex risk assessment system/network, an opportunity for all organisational elements involved in the disaster management system to better prepare for natural disasters caused by climate change. 1. Project MATERIES A) Establishing a harmonised, centralised and integrated risk assessment methodology at all Budapest and county disaster management directorates, as well as horizontal and vertical organizational elements of defence management, and setting up a compatible geospatial background (software/hardware) based on the basis of the existing geospatial system, which assists in disaster management decision support (before the occurrence of the disaster), the preparation plans, and provides a basis for spatial planning. The results are shared both inside and outside the organisation, with the necessary technical background. The system optimises resource management and dynamically modells changes in conditions (social, meteorological, climate, economic, institutional changes). B) Area identification and localisation of disaster risks, determination of the level of risks by type of hazard. c) Establish a single, transparent, interoperable, interactive, on-line risk, emergency and impact map catalogue covering the whole national territory. D) Establishing a higher level of disaster management through the use of geospatial decision support system, ensuring the efficient operation of the core activities in terms of costs and resources. e) Creating a climate change adaptation mechanism that is based on disaster management but can also be used for other policy decisions. The results of the project (methodology and map analysis) will be shared, they can be incorporated into the daily work of other public administrations in addition to disaster management organisations, so their application can have a positive impact on spatial and settlement development, economic activities, critical infrastructure protection, the operation of public institutions, public information and disaster management activities at local level well before the occurrence of natural disasters. (f) Based on the further development of the existing standards governing the risk assessment method. g) Developing a spatial information system infrastructure based on detailed spatial data (purchase of hardware and software, (h) Developing a Web Geospatial Analysis Module (or developing a central analytical module with the possibility to publish the results on the web). Preparation of dynamic municipal risk maps, identification of the level of risk per hazard type. j) Knowledge sharing, training for prospective end-users (direct target groups); K) Maintain protection practices for some priority settlements. (English) / qualifier | |||||||||||||||
point in time: 9 February 2022
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Revision as of 10:13, 9 February 2022
Project Q3943051 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Disaster Risk Assessment System |
Project Q3943051 in Hungary |
Statements
2,900,000,000 forint
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9,326,487.341 Euro
0.0027336256 Euro
15 December 2021
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3,411,764,705.882 forint
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85.0 percent
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15 June 2016
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30 June 2022
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BELÜGYMINISZTÉRIUM ORSZÁGOS KATASZTRÓFAVÉDELMI FŐIGAZGATÓSÁG
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47°29'30.62"N, 18°58'44.15"E
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A katasztrófavédelem munkájában a beavatkozás és elhárítás mellett egyre nagyobb szerepet kap a megelőzés, azon belül a kockázatok részletes, tudományos feltérképezése, felmérése és kezelése. A kockázatok értékelése különösen fontos a természeti katasztrófák esetében mivel az éghajlatváltozás okozta veszélyek egyre kiszámíthatatlanabbá és intenzívebbé váltak az utóbbi évtizedekben. A Kárpát-medence éghajlatát egyre inkább jellemzik az időjárási szélsőségek, a rövid időn belül lezajló, nagy intenzitású időjárási események. Megnőtt a forró napok-, az aszályos évek és a hőhullámok száma. A térséget az utóbbi 30 évben egyre nagyobb mértékben sújtják az özönvízszerű esőzések, az ezek következtében kialakuló extrém árvizek, viharok, orkánok, akár tornádók is. Az új, intenzívebb éghajlati jelenségek az anyagi és emberi erőforrások kezelése szempontjából is egyre súlyosbodó terhet jelentenek a katasztrófák kezelésében. Ezért fontos a katasztrófákhoz kapcsolódó egyedi kockázati tényezők csökkentését, illetve a kezelés területén a kapacitások növelését célzó beruházások támogatása. Ezen túlmenően olyan összetett és részletesen kidolgozott (a kockázati diagram elkészítését célzó jelenlegi nemzeti kockázatértékelésen alapuló) kockázatértékelő digitális rendszerre van szükség, amely révén a települések és a katasztrófavédelmi szervek megfelelően és gyorsan fel tudnak készülni, és hatékony intézkedéseket tudnak hozni. A fejlesztési projekt fő célja egy megelőző és összetett kockázatértékelési rendszer/hálózat létrehozása, amely lehetőség a katasztrófavédelem rendszerében résztvevő valamennyi szervezeti elem számára a klímaváltozás okozta természeti katasztrófákra való hatékonyabb felkészüléshez. 1. PROJEKT FŐBB CÉLJAI a) Minden fővárosi és megyei katasztrófavédelmi igazgatóságon, valamint a védelmi igazgatás horizontális és vertikális szervezeti elemeinél egységesen kialakított, központosított és integrált kockázatértékelési módszertan, és a meglévő térinformatikai rendszer bázisán nyugvó, azzal kompatibilis térinformatikai háttér (szoftver/hardver) felállítása, amely segítséget nyújt a katasztrófavédelmi döntéstámogatásban (a katasztrófa bekövetkezése előtt), a felkészülési tervek kidolgozásában, támpontot biztosít a területi tervezésben. Az eredmények megosztása valósul meg a szervezeten belül és kívül is, az ahhoz szükséges technikai háttér kialakításával. A rendszer optimalizálja az erőforrás-gazdálkodást és dinamikusan modellezi a körülményekben lezajló változásokat (társadalmi, meteorológiai, éghajlati, gazdasági, intézményi változások). b) Katasztrófakockázatok területi azonosítása és lokalizálása, a kockázatok szintjének meghatározása veszélytípusonként. c) Az egész ország területét lefedő egységes, átlátható, átjárható, interaktív, on-line kockázati, veszélyhelyzeti és hatástérkép katalógustár kialakítása. d) Magasabb színvonalú katasztrófavédelem létrehozása a térinformatikai döntéstámogatási rendszer alkalmazásával, az alaptevékenységek költség- és erőforrás hatékony működésének biztosítása. e) Éghajlatváltozás alkalmazkodási mechanizmus kialakítása, amely katasztrófavédelmi központú, de felhasználható más szakpolitikai döntésekhez is. A projekt eredményei (módszertan és térképi elemzések) megosztásra kerülnek, azokat a katasztrófavédelmi szervezeteken kívül más, államigazgatási szervek is beépíthetik napi munkájukba, így alkalmazásuk kedvező hatással lehet a terület- és településfejlesztésre, a gazdasági tevékenységekre, a kritikus infrastruktúra védelemre, a közintézmények működésére, a lakosságtájékoztatásra és a helyi szintű katasztrófavédelemi tevékenységre, jóval a természeti katasztrófák bekövetkezése előtt. f) A kockázatértékelési módszert szabályozó hatályos normák továbbfejlesztésének megalapozása. g) Részletes téradatokra épülő térinformatikai rendszer-infrastruktúra kiépítése (hardverek és szoftverek beszerzése, a meglévő térinformatikai rendszerrel összhangban). h) Webes térinformatikai elemző-modul fejlesztése (vagy központi elemző modul fejlesztése az eredmények webes publikálási lehetőségével). i) Kockázatértékelés elvégzése az ország teljes területére, különös tekintettel a klímaváltozással érintett kockázati területek, illetve azokon belül a kockázati tényezőkre. Dinamikus települési szintű kockázati térképek elkészítése, veszélytípusonként a kockázati szint meghatározása. j) Tudásmegosztás, képzés a leendő végfelhasználók (közvetlen célcsoportok) részére; k) Védelmi gyakorlatok megtartása néhány kiemelt jelentőségű település esetében. (Hungarian)
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In addition to intervention and response, prevention, including a detailed, scientific mapping, assessment and management of risks, is increasingly important in disaster management. Risk assessment is particularly important in the case of natural disasters, as the threats posed by climate change have become increasingly unpredictable and intensified in recent decades. The climate of the Carpathian Basin is increasingly characterised by weather extremes and high-intensity weather events taking place within a short period of time. The number of hot days, drought years and heatwaves has increased. Over the last 30 years, the area has been increasingly affected by flood-like rainfall, the resulting extreme floods, storms, orcans and tornadoes. New, more intense climate events are a growing burden in managing disasters, both in terms of material and human resources management. It is therefore important to support investments in reducing specific disaster-related risk factors and increasing capacity in the field of management. In addition, a complex and detailed digital risk rating system (based on the current national risk assessment to prepare the risk chart) is needed to enable municipalities and disaster management bodies to prepare themselves properly and quickly and to take effective action. The main objective of the development project is to create a preventive and complex risk assessment system/network, an opportunity for all organisational elements involved in the disaster management system to better prepare for natural disasters caused by climate change. 1. Project MATERIES A) Establishing a harmonised, centralised and integrated risk assessment methodology at all Budapest and county disaster management directorates, as well as horizontal and vertical organizational elements of defence management, and setting up a compatible geospatial background (software/hardware) based on the basis of the existing geospatial system, which assists in disaster management decision support (before the occurrence of the disaster), the preparation plans, and provides a basis for spatial planning. The results are shared both inside and outside the organisation, with the necessary technical background. The system optimises resource management and dynamically modells changes in conditions (social, meteorological, climate, economic, institutional changes). B) Area identification and localisation of disaster risks, determination of the level of risks by type of hazard. c) Establish a single, transparent, interoperable, interactive, on-line risk, emergency and impact map catalogue covering the whole national territory. D) Establishing a higher level of disaster management through the use of geospatial decision support system, ensuring the efficient operation of the core activities in terms of costs and resources. e) Creating a climate change adaptation mechanism that is based on disaster management but can also be used for other policy decisions. The results of the project (methodology and map analysis) will be shared, they can be incorporated into the daily work of other public administrations in addition to disaster management organisations, so their application can have a positive impact on spatial and settlement development, economic activities, critical infrastructure protection, the operation of public institutions, public information and disaster management activities at local level well before the occurrence of natural disasters. (f) Based on the further development of the existing standards governing the risk assessment method. g) Developing a spatial information system infrastructure based on detailed spatial data (purchase of hardware and software, (h) Developing a Web Geospatial Analysis Module (or developing a central analytical module with the possibility to publish the results on the web). Preparation of dynamic municipal risk maps, identification of the level of risk per hazard type. j) Knowledge sharing, training for prospective end-users (direct target groups); K) Maintain protection practices for some priority settlements. (English)
9 February 2022
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Budapest, Budapest
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Identifiers
KEHOP-1.1.0-15-2016-00003
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