The Future 100 generations of risk assessment, resilience and early warning systems for weather/climate related hazards for the benefit of humanity

سال انتشار: 1392
نوع سند: مقاله کنفرانسی
زبان: انگلیسی
مشاهده: 546

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شناسه ملی سند علمی:

ICEHH02_325

تاریخ نمایه سازی: 13 آبان 1393

چکیده مقاله:

Facts, myths and the perspectives of weather/climate remains mystical to people who fail to observe the environment in the rhyths of nature. Weather and climate represents an enormous threat for the next generation. The paper examines the challenges in risk assessment, climate change and green systems CCGS and formulates a series of recommendations for the global community in fostering our understanding of the risks of climate change and deploying new green systems and technology that can mitigate and allows us to response more effectively. Better dehumidification controls climate in a way thereby serving energy as well. Environmental factors of light, relative humidity, temperature, wind speed, rain, fog etc need to be examined and monitored daily as the global climate system is changing and the world continue to experience widespread challenges that can wipe out accumulated gains of development efforts. The research portrays a practical and tested reality on the next generation of semi-closed Green house in the less developed and Developed countries. A sixty seconds i.e one minute DVD Film make the case for risk assessment and early warning systems for weather/climate related hazards and how the communities are coping more significant. The films was initiated, design, and developed by Tomukum Chia, Cameroon, in collaboration with the United Nations International Strategy for Disaster Reduction, Switzerland and Rockhopper Television crew, United Kingdom to resilience farmers for the adverse effect of climate change. It addresses the organizational aspects to be dealt with if a serious climatic threat was to occur. Unplanned growth both in urban and non urban areas calls for an adequate risk assessment and early warning systems. The paper highlights the needs to utilize disaster risk assessment information and EWS in planning for effective resilience mechanism. It explains the fact hat DRR is spatial in nature and Geographic Information Systems GIS play an active role in DR assessment and EWS management. There is need also to create awareness among the disaster management professionals, regarding the importance of GIS usage. The research not only reveals what spatial data is and how it is collected but also emphasize on the use of such spatial data during pre-and post-disaster management such as early warning, hazards, vulnerability and risk assessment, damage assessment and in the design of disaster reduction measures. The research ultimately hopes that scientific advancement can be utilize for better DRR practices. The aims and purpose of the research is to articulate a vision for the scientific exploration of weather/climate related hazards to ignite the next but future steps forgenerations. The compelling scientific and cultural imperatives that guide this vision provide a logical systematic, evolutional, and evolutional architecture for human expansion into the solar system. This architecture represents a new approach leading to ultimately to our clear understanding of weather/climate having made a look at the Galileo’s telescope 400 years ago and the world is more than a billion years old. The research reports shall examines some of the principal international policy implications that must be dealt with if the world is to act in a timely, unified and effective way in handling the real threat to come. The research relates the effects of space missions in LEO and GEO should be incorporated in handling risk assessment and EWS because in a case of a risk of high energy collisions may only have a very limited way to improve or deter the effects of the collision and the removal of large potential colliders does not seem practically feasible today. Collision avoidance is possible only with large catalogued debris. Additionally, there shall be no generation of operational debris, there shall be no risk of explosion following end of mission and any spacecraft or upper stage left in orbit shall be passivated and two orbital regions shall be protected, low earth region up to 2000km and Geostationary Earth orbit. Finally, there must be a clear motto as a long term strategy above 100 future generations with no orbital debris creation within these two protected regions. This maybe replaced in the coming decade/century by no long lived orbital debris creation within the two protected regions. Micro climatic islands are evidence of mans passive nature and in the creation of hazardous situations. Our mission on the future 100 generations is a mission whose time has come and the paper offers access to an exciting and refreshing frontier of new knowledge and dreams. The Time has come to supersede the present haphazard approach to comprehensive strategic weather/climate studies with a formal international structure to plan for future advance studies that prepare the next and future generation’s semi-closed greenhouse which is a sustainable innovation that offers both financial and productive benefit and allows greenhouse dehumidification.

نویسندگان

IAA IGMASS

action and new development in ACP Countrie