Geoinformation for Disaster and Risk Management - ISPRS

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Conclusion The LC PDGNSS NRTP approach described above demonstrates today's possibilities in monitoring tasks with cost-effective satellite methods. The achievable data quality using LC PDGNSS equipment is characterized briefly. Finally, the assignment of a flexible database solution meets the compulsory requirement of interoperable data exchange. It becomes apparent that while results obtained so far are already very satisfactorily, there is a further need for intensive research and development. Our main work actually concentrates on improving accuracy and reliability of the system, and as well on investigation of suitable “cheap” GNSS sensors. Of course the developed system can also be embedded for location finding in any widespread multifunctional GSN and is not restricted to landslide monitoring. Acknowledgement The project “alpEWAS” is supported by a grant of the German Ministry of Economy and Technology within the Geotechnology Program. 70
Tunnel Monitoring and Alarming Controlled by a Project Information System Introduction S Klaus Chmelina Geodata ZT GmbH, Hütteldorferstraße 85, A-1150 Vienna, Austria, klaus.chmelina@geodata.at, www.geodata.com Severe disasters happen quite often in underground construction projects such as at urban tunnel sites (see Fig. 1). After such man-made disasters we always ask the same questions: Could we have been warned? Could this have been avoided? In order to ensure tunnel construction projects are safe and better managed, Kronos has been developed and has already been successfully applied in a number of projects. Kronos is an integrated information system allowing for the acquisition, checking, storage, analysis, visualisation, reporting, and finally a warning system for tunnel project data. Its particular advantage is that, compared to existing solutions, all safety-relevant data produced on site (e.g. monitoring data) is integrated into one single data management system and utilized by most modern and efficient alarm functions. This makes possible the automatic execution of complex monitoring and alarm processes including thousands of data sources such as online monitoring sensors and tunnelling machines. The system is described briefly and two major European tunnel construction sites are presented as examples of its use to monitor and provide alarms on impending disasters. Figure 1: Recent tunnel collapses, from upper left to lower right: Sao Paolo 2007 Cologne 2009 Hangzhou 2008 Munich 1994 Lausanne 2005 Singapore 2004 71
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Joint Board of Geospatial Informati
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Preface Each year, disasters arisin
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Introduction National governments,
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Chapter 6, 7, 8 and 9 demonstrate s
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Table of Contents Preface by UN Off
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TIntroduction Global Disaster Alert
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Three ingredients for success Multi
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Example 2009 Typhoons in South-East
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NIntroduction Flood Mapping in Supp
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The aforementioned data belongs to
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Dissemination Dissemination process
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Detection and Monitoring of Wildfir
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Active Fire Products with Fire Radi
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In-Orbit Verification of On-board F
Page 34 and 35: Up-to-date thematic and baseline sp
Page 36 and 37: 22 Data Details Relevance to disast
Page 39 and 40: The Benefit of High Resolution Aeri
Page 41 and 42: Delays, due to security clearance a
Page 43 and 44: Determination of the benefit of use
Page 45 and 46: Earthquake damage assessment using
Page 47 and 48: Available remotely sensed data Time
Page 49 and 50: priority. The updated large scale r
Page 51: Discussion and conclusions The Hait
Page 54 and 55: The characteristics of the earthqua
Page 56 and 57: Image acquisition Within two hours
Page 58 and 59: Map making All the map products wer
Page 60 and 61: Dust, smoke, and human health There
Page 62 and 63: Improvements in model performance w
Page 64 and 65: Daily PM2.5 concentrations from Apr
Page 66 and 67: Refugees and IDPs live in widely va
Page 68 and 69: processing chains to finally derive
Page 70 and 71: Environmental impact assessment The
Page 72 and 73: (Grimm et al., 2008; Kerle and Alke
Page 74 and 75: Command and information chain The c
Page 76 and 77: Accomplishments and limitations The
Page 78 and 79: Satellite based positioning techniq
Page 80 and 81: Communication component Widespread
Page 82 and 83: 68 Figure 6: Variations of the hori
Page 86 and 87: Kronos Kronos is an information sys
Page 88 and 89: Kronos at Thessaloniki Metro Projec
Page 91 and 92: AIntroduction Volcanic Risk Managem
Page 93 and 94: Mt. Etna 2006 eruption Mt. Etna (33
Page 95: Conclusions A Web-GIS developed sep
Page 98 and 99: and donor countries. For SAIs of af
Page 100 and 101: Check for compliance with risk regu
Page 103 and 104: Population Estimation for Megacitie
Page 105 and 106: Tiered conceptual framework for pop
Page 107 and 108: Remote sensing and advanced technol
Page 109 and 110: GIS for Emergency Management DIntro
Page 111 and 112: Case Study: GIS Enhances China Reli
Page 113 and 114: REFERENCES Adams, B.J., Huyck, C.K.
Page 115 and 116: Kranz O., Lang S., Tiede D., Zeug G
Page 117 and 118: Support from Space: The United Nati
Page 119 and 120: What UN-SPIDER is doing - Its Tools
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Page 123 and 124: The Knowledge Base provides guides
Page 125 and 126: An exemplary case: The African Sub-
Page 127 and 128: The pilot project is envisaged to c
Page 129 and 130: Global Spatial Data Infrastructure
Page 131 and 132: GSDI Aspirations The GSDI Associati
Page 133 and 134: TWhat is Geodesy? The International
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Global Navigation Satellite Systems
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The International Cartographic Asso
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Understanding between the United Na
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The International Federation of Sur
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FIG approach to natural disaster pr
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T The Map Trade Association (IMTA)
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Hurricane Katrina Hurricane Katrina
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The International Society for Photo
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Activities of the ISPRS WG IV/8: 3D
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JBGIS Members and Sponsors 139
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IMPORTANT EXTERNAL PARTNERSHIPS The
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