Periodic Reporting for period 2 - GEO-SAFE (Geospatial based Environment for Optimisation Systems Addressing Fire Emergencies)
Reporting period: 2018-05-01 to 2020-04-30
1.Knowledge creation: 1. Develop tools (e.g. dynamic risk cartography, fire spread, fire suppression, evacuation, etc), to support decision making to enable optimal mitigation, response and deployment of resources during wildfire. 2. Understand how people behave when faced with wildfire and how this impacts evacuation decisions. 3. Understand end-user requirements and provide a means for testing models and methodologies. 4. Understand relevant management processes and develop training tools to facilitate the implementation of proposed management solutions.
2.Sharing of know-how: Creation of a research and development network through secondments and workshops between universities, labs and firefighting organisations in Australia and Europe.
3.Skills development: training of doctoral students and post-doctoral scientists and training of professional staff located in firefighting organisations.
While the frequency and size of wildfires around the world is growing, increasing the threat to human life, property and the environment, much can be achieved through risk reduction and mitigation. GEO-SAFE has demonstrated through developments in risk cartography, decision making models for prevention and mitigation and evacuation planning tools that society is not helpless when faced by the devastating power of wildfire. Using these tools and methods it is possible to take decisive actions to reduce the consequences of wildfires long before the fire starts. However, further financial and intellectual investment is essential to turn these exciting prospects into reality.
In addition, data were collected and analysed on historical wildfires to develop case studies for model testing and scenarios for fuel management, firebreak location, and resource allocation for initial attack and lives and property protection. Data on human response to wildfire and how this affects evacuation decisions were collected.
2. Sharing of know-how: Knowledge exchange was facilitated through the successful delivery of: 222 pm of secondments by European partners involving 17 European and 3 Australian organisations; 33 deliverables; 10 workshops and 1 conference.
3. Dissemination and Communication: A total of 107 journal/conference papers or technical reports, 35 open lectures and 16 presentations at conferences/workshops were delivered. The estimated number of persons reached is: 9735 in the Science Community; 340 in Industry; 6,100 members of the General Public; 750 in the Civil Society category, 635 Policy Makers and 633606 via Social Media.
4. Skills development: 107 researchers and 49 professional staff from 17 organisations have gained knowledge in wildfire issues. 21 PhD students were associated with GEO-SAFE, 17 of which undertook secondments. Of these, 6 have completed their PhDs, 2 have submitted their thesis and 9 are continuing their doctoral studies. All researchers gained invaluable experience and knowledge through close interaction with end-users facilitating a focused targeting of their research, thereby improving impact. The end-users have also developed an understanding of the capabilities of advanced modelling tools and assisted in their development.
A significant long-term GEO-SAFE impact has been the establishment of close contact between wildfire researchers from a wide range of disciplines and end-users of the research, the firefighters and incident commanders from, Australia, France, Italy, Netherlands, Spain, Switzerland, and the UK. Collaboration between these researchers and end-users will continue beyond the life of the project. The knowledge and data produced by GEO-SAFE (107 publications) will also have an impact on the rapidly developing area of wildfire research. The most important long-lasting impact of the GEO-SAFE project is the number of young scientists it has nurtured - 21 doctoral students. These publications, their wide spread dissemination and the next generation of scientists that GEO-SAFE has nurtured will open new lines of research and help to improve life, property and environmental safety into the future.
Economic: Advances in modelling technology achieved by GEO-SAFE will contribute to saving financial resources for public firefighting organisations in Europe and elsewhere and will contribute to reducing losses due to wildfires.
Practitioners and professional services: Contributions are provided to improve management processes, firefighter training programmes and upskilling for wildfire control. This is being achieved through knowledge exchange between firefighters and researchers.
Societal: The scientific knowledge gained and the modelling tool sets developed - once fully exploited via IP in future projects - will ultimately safeguard human lives, the infrastructure, livestock, the natural environment, and other natural resources.