Your search keyword '"D. Wochele"' showing total 1 results

1. Russian–German Astroparticle Data Life Cycle Initiative

Author

Andreas Heiss, Oleg Fedorov, Victoria Tokareva, Yulia Kazarina, Andrey Demichev, D. Kang, E. E. Korosteleva, Dmitry Zhurov, Igor V. Bychkov, Stanislav Polyakov, Dmitriy Kostunin, Alexey O. Shigarov, D. Wochele, Achim Streit, Andrey A. Mikhailov, J. Wochele, Julia Dubenskaya, Evgeny Postnikov, Minh-Duc Nguyen, Andreas Haungs, D. Shipilov, and Alexander Kryukov

Subjects

Big Data, Information Systems and Management, Computer science, meta data, FOS: Physical sciences, open data, 01 natural sciences, cosmic rays, 0103 physical sciences, ddc:530, 010303 astronomy & astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Astroparticle physics, Structure (mathematical logic), data curation, 010308 nuclear & particles physics, Physics, deep learning, Data science, lcsh:Z, Computer Science Applications, lcsh:Bibliography. Library science. Information resources, astroparticle physics, data life cycle management, ddc:004, Astrophysics - Instrumentation and Methods for Astrophysics, Information Systems

Abstract

Data 3(4), 56 (2018). doi:10.3390/data3040056, Modern large-scale astroparticle setups measure high-energy particles, gamma rays, neutrinos, radio waves, and the recently discovered gravitational waves. Ongoing and future experiments are located worldwide. The data acquired have different formats, storage concepts, and publication policies. Such differences are a crucial point in the era of Big Data and of multi-messenger analysis in astroparticle physics. We propose an open science web platform called ASTROPARTICLE.ONLINE which enables us to publish, store, search, select, and analyze astroparticle data. In the first stage of the project, the following components of a full data life cycle concept are under development: describing, storing, and reusing astroparticle data; software to perform multi-messenger analysis using deep learning; and outreach for students, post-graduate students, and others who are interested in astroparticle physics. Here we describe the concepts of the web platform and the first obtained results, including the meta data structure for astroparticle data, data analysis by using convolution neural networks, description of the binary data, and the outreach platform for those interested in astroparticle physics. The KASCADE-Grande and TAIGA cosmic-ray experiments were chosen as pilot examples., Published by MDPI, Basel

Published

2018