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\title{Application multivariate analysis and visualization tools in ADEI for studies of the high-energy phenomena in atmosphere}
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\author{S Chilingaryan$^1$, A Chilingarian$^2$, H Gemmeke$^1$ A Kopmann$^1$, A Reymers$^2$, N Tan Jerome$^1$}
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\author{A Chilingarian$^1$, S Chilingaryan$^2$, H Gemmeke$^2$ A Kopmann$^2$, A Reymers$^1$}
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To make transformational scientific progress in Space science and geophysics, the Sun, heliosphere, magnetosphere and different layers of the atmosphere must be studied as a coupled system.
Presented paper describes how information on complicated physical processes on Sun, in heliosphere, magnetosphere and atmosphere can be made immediate assessable for researchers via advanced multivariate visualization system with simple statistical analysis package. Research aimed on studies of the high-energy phenomena in atmosphere and the atmospheric discharge is of special importance. The problem of how lightning is initiated inside thunderclouds is not only one of the biggest unsolved problems in lightning physics; it is also probably one of the biggest mysteries in the atmospheric sciences. The relationship between thundercloud electrification, lightning activity, wideband radio emission and particle fluxes have not been yet unambiguously established. One of most intriguing opportunities opening by observation of the high-energy processes in the atmosphere is their relation to lightning initiation. Investigations of the accelerated structures in the geospace plasmas can as well shed light on particle acceleration to much higher energy in the similar structures of space plasmas in the most distant objects in the universe.