, 23 edges), 'heat' (25 c.), 'natural hazards' (15 c.). Except for 'Plan Familial de Mise en
, This is due to the fact that there are more and longer texts dated between 2015 and 2017. Thanks to this richer structure it is easier to identify relevant clusters and associate each of them with a thematic category: 1. Integrated risk management, subsidiarity and nature-based solutions includes key terms like 'resilient', 'climate evolution', 'climate change, The second graph representation (Fig. 7.3) has a reduced number of nodes (251) and edges (6153)
, The Defence systems, prevention and multi-scale governance cluster with terms such as 'dams', 'low walls', 'embankments', 'regulation', 'prevention', 'classified installations'; organisations and locations such as the 'Regional Environment and Energy Direction
, communication', 'protection', 'security', 'safeguard', 'storage', 'retention sites', 'floodprone areas', 'urban planning and water management master plan', 'flood risk management plan'. are made to common causes ('extreme climate conditions' with 60 edges, 'climate change' with 61 c., 'climate evolution' with 69 c.) or joint solutions ('multiple benefits' with 52 c., 'adaptation strategy' with 54 c., 'urban resilience' with 59 c., 'risk culture' 53 c.) for different kinds of issues such as 'high temperature' 67 c., 'biodiversity' 64 c., 'storms' 59 c., 'diseases' 57 c, 2018.
, Global Environmental Change, vol.16, pp.268-281, 2006.
Expert credibility in climate change, Proceedings National Academy Sciences United States of America, vol.107, pp.12107-12109, 2009. ,
, SEAT TOOLBOX, Socio-Economic Assessment Toolbox Version 3, 297 pp., available at, p.24, 2003.
, Routledge Handbook of Public Communication of Science and Technology, pp.111-129, 2008.
Confronting the coral reef crisis, Nature, vol.429, pp.827-833, 2004. ,
, Navigating Social-ecological Systems: Building Resilience for Complexity and Change, 2003.
Physical and economic bias in climate change research: A scientometric study of IPCC Third Assessment Report, Climatic Change, vol.108, 2011. ,
, Blog du modérateur: blogdumoderateur.com, last access, 2018.
, Broadcast Journalism, Techniques of Radio and Television News, 2008.
Tools and methods for capturing Twitter data during natural disasters, vol.17, 2012. ,
, qldfloods and @QPSMedia: Crisis communication on Twitter in the 2011 South East Queensland floods, ARC Centre of Excellence for Creative Industries and Innovation, vol.58, 2012.
Style in science communication, Public Understanding of Science, vol.22, pp.904-915, 2013. ,
Visual Science Literacy": Images and Public Understanding of Science in the Digital Age, Science Communication, vol.38, pp.812-819, 2016. ,
Regime Shifts in Lake Ecosystems: Pattern and Variation, Ecology Institute, 2003. ,
Coping with collapse: ecological and social dynamics in ecosystem management, BioScience, vol.51, pp.451-457, 2001. ,
From metaphor to measurement: resilience of what to what? Ecosystems, 4, vol.8, pp.765-781, 2001. ,
Highly optimized tolerance: robustness and design in complex systems, Physical Review Letters, vol.84, pp.2529-2532, 2000. ,
, Sensibiliser les Populations Exposées au Risque d'Inondation. Comprendre les Mécanismes du Changement de la Perception, 2011.
Dimensioning of precipitation citizen observatories in an uncertainty-aware context, EGU General Assembly, pp.23-28, 2017. ,
The CASA quantitative precipitation estimation system: a five year validation study, Nat. Hazards Earth Syst. Sci, vol.12, pp.2811-2820, 2012. ,
The Dallas-Fort Worth (DFW) Urban Radar Network: Enhancing Resilience in the Presence of Floods, Tornadoes, Hail and High Winds, EGU General Assembly, pp.2015-14566, 2015. ,
Une représentation collective des enjeux autour du climat. La lettre de l'INSHS, vol.38, pp.39-42, 2015. ,
Bottom-up scientific field detection for dynamical and hierarchical science mapping, methodology and case study, Scientometrics, vol.75, pp.37-50, 2008.,
URL : https://hal.archives-ouvertes.fr/hal-01401791
The impact of an exhibition on risk awareness of the general public in mountainous areas, Int J Disast Risk Re, vol.25, pp.36-59, 2017. ,
Robustness, vulnerability, and adaptive capacity in small-scale social-ecological systems: the Pumpa Irrigation system in Nepal, Ecology and Society, vol.15, 2010. ,
Double Bote Line project report: assessing social impact in double bottom line ventures, The Rockefeller Foundation, 72 pp, 2004. ,
Nature-based Solutions to Address Global Societal Challenges, 2016. ,
, CRI -City Resilience Index: www.cityresilienceindex.org, last access, 2018.
A place-based model for understanding community resilience to natural disasters, Global environmental Change, vol.18, pp.598-606, 2008. ,
Disaster resilience indicators for benchmarking baseline conditions, Journal of Homeland Security and Emergency Management, vol.7, p.51, 2010. ,
DFID: Defining Disaster Resilience: A DFID Approach Paper, Department of International Development, Global Environmental Change, vol.29, pp.65-77, 2014. ,
Tornado warnings in three southern states: a qualitative analysis of public response patterns, Journal of Homeland Security and Emergency Management, vol.9, issue.2, 2012. ,
, DRIEE: Plan de Gestion des Risques d'Inondation, vol.156, 2015.
, , p.27, 2018.
, , 2015.
, , 2016.
Programme d'Actions de Prévention des Inondations de la Seine et de la Marne Franciliennes (PAPI), vol.28, 2014. ,
, Conférence des Parties Prenantes, 2016.
BIBLIOGRAPHY European Commission: Communication from the Commission to the European Parliament, the Council, the Economic and Social Committee of the Regions. Our Life Insurance, our Natural Capital: an EU Biodiversity, Avancement de l'étude d'évaluation de la culture du risque et préconisations pour la mise en oeuvre du PAPI francilien, Atelier PAPI, vol.46, 2011. ,
, Europresse: europresse.com, last access, 2018.
Integrating public engagement into our research, Science in Public Conference, 2015. ,
Resilience: the emergence of a perspective for social-ecological systems analyse, Global Environmental Change, vol.16, pp.253-267, 2006. ,
Resilience thinking: integrating resilience, adaptability and transformability, FP7 SMARTeST Project, vol.15, 2010. ,
From Sensing to Action: Quick and Reliable Access to Information in Cities Vulnerable to Heavy Rain, IEEE Sensors Journal, vol.14, pp.4175-4184, 2014. ,
What is scientific and technological culture and how is it measured? A multidimensional model, Public Underst Sci, vol.9, issue.1, 2000. ,
, Gephi: gephi.org, last access, 2018.
Socio-economic impacts 1: overview and economic impacts, Methods of Environmental Impact Assessment, pp.20-41, 2000. ,
, Google News: news.google.com, last access: 26 September, 2018.
Sentiment analysis and city branding, New Trends in Databases and Information Systems. Advances in Intelligent Systems and Computing, pp.339-349, 2014. ,
Barriers and Bridges to the Renewal of Ecosystems and Institutions, 1995. ,
Ecological resilience: in theory and application, Annual Review of Ecology and Systematics, vol.31, pp.425-439, 2000. ,
, Panarchy: Understanding Transformations in Human and Natural Systems, 2002.
The sinister beauty of global conspiracies, The New York Times, 26.10, 2003. ,
Science Studies: An advanced introduction, 1997. ,
Resilience and stability of ecological systems, Annu. Rev. Ecol. Syst, vol.4, pp.1-23, 1973. ,
Engineering resilience versus ecological resilience, Schools P editor, Engineering within ecological constraints, pp.31-44, 1996. ,
Framing and Frame Changing in Coverage of Major U.S. Natural Disasters, Journalism and Mass Communication Quarterly, vol.89, pp.606-623, 2000. ,
Ingleby A.: London Resilience Partnership Communicating with the Public Framework, Version 1, London Resilience Team, International Journal of Emergency Management, vol.6, 2009. ,
, International Association for Impact Assessment: iaia.org, last access, 2018.
, Guidelines and Principles for Social Impact Assessment: Guidelines and Principles for Social Impact Assessment. Impact Assessment, vol.12, issue.2, pp.107-152, 1994.
, Communication Strategy, RainGain Project, Interreg NWE IVB Program, 2011.
Operationalizing Resilience Against Natural Disaster Risk: Opportunities, Barriers and A Way Forward, 2014. ,
Development and testing of a community flood resilience measurement tool, Nat. Hazards Earth Syst. Sci, vol.17, pp.77-101, 2017. ,
, Coping with uncertainty: a call for a new science-policy forum, vol.32, pp.330-335, 2003.
Applications of topics models to analysis of disaster-related Twitter data, NIPS 2009 Workshop on Applications for Topic Models: Text and Beyond, 2009. ,
, Think Local, Retweet Global: Retweeting by the Geographically-Vulnerable during Hurricane Sandy, CSCW '15, 2015.
Rain sense: Sensors and citizens preparing Amsterdam for future weather, Proceedings of the Amsterdam International Water Week Conference-IWW2015, 2015. ,
, , 2018.
Citizens' Observatories for Situation Awareness in Flooding, Proceedings of the 11th International Conference on Information Systems for Crisis Response and Management (ISCRAM, pp.145-154, 2014. ,
The whole is always smaller than its parts. A digital test of Gabriel Tarde's Monads, British Journal of Sociology, vol.63, pp.591-615, 2012.,
URL : https://hal.archives-ouvertes.fr/hal-01053567
Climate change and urban resilience, Current Opinion in Environmental Sustainability, vol.3, pp.164-168, 2011. ,
, International Encyclopedia of Social and Behavioral Sciences, Section 8.5: Science and Technology Studies, Subsection 85030, Lynch, M, 2015.
Les réseaux techniques face aux inondations ou comment définir des indicateurs de performance de ces réseaux pour évaluer la résilience urbaine, pp.487-502, 2010. ,
Analyzing resilience of urban networks: a preliminary step towards more flood resilient cities, Nat. Hazards Earth Syst. Sci, vol.13, pp.221-230, 2013.,
URL : https://hal.archives-ouvertes.fr/halshs-01209734
Un prototype SIG pour analyser la resilience urbaine : application a la ville de Dublin, VertigO ¬ la revue electronique en sciences de l'environnement, vol.13, 2013. ,
Trends in research on global climate change: A science citation index expanded-based analysis, Global and Planetary Change, vol.77, 2011. ,
Communication. A Handbook for Communicating Environmental, Safety and Health Risks, p.453, 2004. ,
Mapping and Assessment of Ecosystems and their Services. Urban Ecosystems. Publications Office of the European Union, 2016. ,
Mapping and Assessment of Ecosystems and their Services: an Analytical Framework for Ecosystem Condition. Publications office of the European Union, 2018. ,
Raising risk preparedness by flood risk communication, Nat Hazards Earth Syst Sci, vol.15, pp.1577-1595, 2015. ,
, Les risques majeurs à Paris. Document d'Information Communale sur les Risques, vol.58, 2009.
, , vol.64, 2015.
du Développement Durable et de l'Energie / Commissariat général au développement durable / Service Observation et Statistiques (SOeS): GDP measures everything, 2015. ,
Hazardous Weather Prediction and Communication in the Modern Information Environment, Bull. Amer. Meteor. Soc, 2017. ,
Action de diffusion de la culture scientifique sur le risque d'inondations urbaines et évaluation de son impact, Scientific internship report, p.61, 2015. ,
, Jeanine presents the radar, Interreg NEW IVB RainGain, École des Ponts ParisTech, 2015.
Evaluating public communication of science and technology, in: Routledge Handbook of Public Communication of Science and Technology, pp.237-251, 2008. ,
Networks: an Introduction, 2010. ,
Global warming is not a crisis! : Studying climate change scepticism on the Web, NECSUS European Journal of Media Studies, vol.2, pp.83-112, 2013. ,
, Resilience to Major Floods, OECD Reviews of Risk Management Policies, vol.204, 2014.
Direction de la Sécurité Civile, Sous Direction de la Gestion des Risques, Bureau de l'alerte de la planification et de la préparation aux crises, ORSEC -Plan familial de mise en sûreté (PFMS), 2010. ,
Twitter-based information distribution during the 2009 Red River Valley flood Threat, Bul. Am. Soc. Info. Sci. Tech, vol.36, pp.13-17, 2010. ,
Reduction of the flood risk in urban environment. The stakes of science communication, Scientific internship report, LEESU, École des Ponts ParisTech, p.74, 2014. ,
Uncertainty and management of multistate ecosystems: an apparently rational route to collapse, Ecology, vol.84, pp.1403-1411, 2003. ,
, Resilience Alliance: Assessing resilience in social-ecological systems: Workbook for practitioners, Reef resilience Network: www.reefresilience.org, last access: 27, 2010.
Participation and Social Assessment: Tools and Techniques. The World Bank, 1998. ,
, Risques, prévention des risques majeurs : www.risques.gouv.fr, last access, 2018.
Landscaping climate change: A mapping technique for understanding science and technology debates on the World Wide Web, Public Understanding of Science, vol.9, pp.141-163, 2000. ,
The evaluation of risk communication effectiveness, Acta Psychol, vol.81, pp.169-192, 1992. ,
Understanding and managing the complexity of urban systems under climate change, Clim. Policy, vol.7, pp.317-336, 2004. ,
The public and nanotechnology: how citizens make sense of merging technologies, J Nanopart Res, vol.7, pp.659-667, 2005. ,
Adaptation, adaptive capacity and vulnerability, Global Environmental Change, vol.16, pp.282-292, 2006. ,
, Social Analysis at the World Bank, 2018.
, Proceedings of the International Conference on Information Systems for Crisis Response (ISCRAM), pp.2-5, 2010.
Mastering Social Media: An Analysis of Jefferson County's Communications during the 2013 Colorado Floods, Proceedings of the International Conference on Information Systems for Crisis Response and Management (ISCRAM), 2014. ,
, Analyse Intégrée de Résilience Territoriale, pp.27-28, 2015.
, Environmental Methods Review: Retooling Impact Assessment for the New Century, pp.210-218, 1998.
C: Multiscale metrics to assess complex system resilience, Proceedings of ICCSA 2014, pp.225-231, 2014. ,
How the choice of flood damage metrics influences urban flood risk assessment, J. Flood Risk Manage, vol.4, pp.281-287, 2011. ,
Does communicating (Flood) risk affect (Flood) risk perceptions? Results of a quasi-experimental study, Risk Anal, vol.29, pp.1141-1155, 2009. ,
, The Goldman Sachs Foundation and The Rockefeller Foundation: Social Impact Assessment, A Discussion Among Grantmakers, 2003.
, The Rockefeller Foundation and ARUP: City Resilience Framework, vol.22, 2015.
, The Rockefeller Foundation and ARUP: City Resilience Index: Understanding and Measuring City Resilience, The Rockefeller Foundation, ARUP, 47 pp., available at, 2017.
Using sentiment analysis to observe how science is communicated, EGU General Assembly, pp.2016-805, 2016. ,
A methodology to define flood resilience, EGU General Assembly, pp.2012-13902, 2012. ,
Implementation Strategies for FRe Management. SMARTeST Project, pp.76-2013 ,
Internet: turning science communication inside-out?, 2008. ,
Social Experiments in Tokyo Metropolitan Area Convection Study for Extreme Weather Resilient, Cities ,
, General Assembly, pp.2015-7824, 2015.
, Twitter: twitter.com, last access, Tweetoscope: tweetoscope.iscpif.fr, last access, 2018.
, Twitter Advanced Search: twitter.com/search-advanced, 0205.
Building Resilience of Nations and Communities to Disasters United Nations secretariat of the International Strategy for Disaster Reduction, Hyogo Framework for Action, vol.28, p.pp, 2005. ,
United Nations secretariat of the International Strategy for Disaster Reduction, vol.37, 2015. ,
Disaster Resilience Scorecard for Cities: Detailed level assessment ,
Three maps and three misunderstandings: A digital mapping of climate diplomacy, Big Data and Society, vol.1, pp.1-19, 2014.,
URL : https://hal.archives-ouvertes.fr/hal-01672306
Microblogging during two natural hazard events: what Twitter may contribute to situational awareness, CHI '10 Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, pp.1079-1088, 2010. ,
Supplements to "Digital traces of climate risks: assessing the communication impact of Paris resilience strategy, 2019. ,
, Ville de Paris: paris.fr, last access, p.27, 2018.
Microgenetic Evaluation: Studying Learning in Motion, Information Age Publishing, 2015. ,
Thresholds in ecological and social-ecological systems: a developing database, Ecology and Society, vol.9, 2004. ,
206 BIBLIOGRAPHY Wikihydro: wikhydro.developpement-durable.gouv.fr, last access, Ecology and Society, vol.9, issue.2, p.27, 2004. ,
, I didn't know that we can measure rainfall drops in this way. 2. Rainfall water originally comes from the sea. Too much rainfall in the sewer system can cause floods
, Now I'm more interested in the topic
, I didn't know how rainfall can be measured. 7. What weather radars are meant for
, More explanations about the radar
, What has been said about rainfall drops and weather forecasts. 11. What is the profession of meteorology meant to. 12. We can do measurements with simple tools. 13. We can do these experiments at home; when the water evaporates, it is stocked (in the clouds) and it then produces rainfall. 14. I learnt about radars. 15. There are different ways to measure water. 16. Many things, for instance that rainfall drops are very small. 17. How we measure rainfall, How rainfall is formed from vapour that comes from the sea, vol.10
, The existing solutions to reduce flood risk. 10. How floods occur. 11. What x-band waves are meant to. 12. What a radar is meant to and how it works, vol.5