The technology of today has come to a stage where state-of-the-art systems Radar, Lidar, Satellites, Seismometers, magnetometers, and related devices equipped with multi-probe sensors and now with Artificial Intelligence (AI), offer wide application potentialities for application-oriented research like providing hazard warning on cyclone, flood, drought, thunderstorm, and worst weather situations of unprecedented snowfall and hailstorms. The knowledge of the earth's crust and lithosphere, and the consequent role of earthquake preparatory processes on the atmosphere helped scientists to provide a few predictive features of an impending earthquake. With all these advancements, there is a need to disseminate such knowledge to Society and to have feedback interactions for fruitful implementations of the research outputs.

The Conference thus covers the following disciplines:

• Remote sensing: State-of-the-art systems and application potentials in hazard monitoring, prediction, safety guidance, and reliable Hazard-predictive approaches and success. Here the conference invites deliberations on designs of sophisticated Remote sensing systems like Radarm (Doppler, ST. MST; Lidar (MPL, to femto sec Doppler Lidar); Satellites of all classes and their application potentialities.
• Artificial Intelligence: Application in today's research for reliable future humanosphere.
• Earthquake monitoring: Prediction, and sources of growth and reliability in prediction.
• Coupling Focus Themes: Model computation in natural hazards and Risk, Space-Weather relation dynamics between lithosphere-troposphere-ionosphere Magnetosphere during Earthquake and Geomagnetic storms and their prediction.
• Weather: Rare cases, worst weather situations, and Climate modifications cause and consequences: Pollution, greenhouse effects, and Coupling dynamics between Ocean- Land Atmosphere and Topography.
• Data analyses: State-of-the-art signal and image processing approaches, machine learning, Neural Networks and cloud computations. Statistical methods, approaches, and applications in events prediction, and reliability.
• Innovative design of systems/devices: On Research Fundamental, Public benefit/Utility. Hazard monitoring as an educational kit.

Final Aims

The cyclones, floods, drought climate change through anthropogenic sources, and earthquakes have made the entire global environment hazardous, and even with all technical advances, there are serious disastrous and loss of lives as witnessed in recent events (Flood Cyclones storms and earthquakes in India and places with no past history). The conference aims to bring forth the sophisticated technology utilized for monitoring, predicting, and nowcasting events and emphasizes AI which has tremendously taken a successful position in these issues. The knowledge dissemination and interactions between participants and resource persons in all the above aspects from the design of sophisticated systems like Radar (Doppler. ST MST); Lidar, and Satellite (of all classes) to applications like in Space and Atmospheric Science, Area on Remote Sensing Applications Climate and pollution (anthropogenic), for successful implementations both Global and National interests. New ideas from young minds are welcome for which a session is devoted.

We must emphasize here that the conference takes into consideration of interests of the Indian Space Research Organisation (ISRO) in all the above aspects from the design of sophisticated systems to applications like Space and Atmospheric Science, Area on Remote Sensing Applications Climate and pollution (especially anthropogenic) to make the conference a practical success.