Since the beginning of the third millennium, we have entered the Information Age, an era dominated by vast volumes of data and information generated by our modern societies. This era has critical implications for research, the progress of which now relies on large cutting-edge research experiments. The data collected by these experiments will be complex to handle, such that novel computational methods are needed to extract and analyze their information content. My research focuses on developing such methods in the context of upcoming large astrophysics and particle physics experiments. In this interdisciplinary thesis, I first present the implementation of a new computational tool building upon recent mathematical morphology techniques, the...
Modern large-scale astroparticle setups measure high-energy particles, gamma rays, neutrinos, radio ...
The antiproton experiment PANDA at FAIR is designed to bring hadron physics to a new level in terms ...
Astroinformatics is a new discipline at the cross-road of astronomy, advanced statistics and compute...
Since the beginning of the third millennium, we have entered the Information Age, an era dominated b...
The Astroparticle Physics is a discipline where scientists from both the astrophysics and the partic...
Particle based model simulations are widely used in scientific visualization. In cosmology, particle...
The big data revolution has overturned well-established ap-proaches to data analysis and intensified...
Gamma-ray astronomy is the astronomical observation of the most energetic photons produced by violen...
Challenges faced by researchers in multi-messenger astroparticle physics include: computing-intensiv...
The German-Russian Astroparticle Data Life Cycle Initiative (GRADLCI) aims to develop a data life cy...
During my PhD studies, I collaborated in an exciting project between astronomeers and computer scien...
With new catalogues arriving such as the Gaia DR1, containing more than a billion objects, new metho...
Modern large-scale astroparticle setups measure high-energy particles, gamma rays, neutrinos, radio ...
The antiproton experiment PANDA at FAIR is designed to bring hadron physics to a new level in terms ...
Astroinformatics is a new discipline at the cross-road of astronomy, advanced statistics and compute...
Since the beginning of the third millennium, we have entered the Information Age, an era dominated b...
The Astroparticle Physics is a discipline where scientists from both the astrophysics and the partic...
Particle based model simulations are widely used in scientific visualization. In cosmology, particle...
The big data revolution has overturned well-established ap-proaches to data analysis and intensified...
Gamma-ray astronomy is the astronomical observation of the most energetic photons produced by violen...
Challenges faced by researchers in multi-messenger astroparticle physics include: computing-intensiv...
The German-Russian Astroparticle Data Life Cycle Initiative (GRADLCI) aims to develop a data life cy...
During my PhD studies, I collaborated in an exciting project between astronomeers and computer scien...
With new catalogues arriving such as the Gaia DR1, containing more than a billion objects, new metho...
Modern large-scale astroparticle setups measure high-energy particles, gamma rays, neutrinos, radio ...
The antiproton experiment PANDA at FAIR is designed to bring hadron physics to a new level in terms ...
Astroinformatics is a new discipline at the cross-road of astronomy, advanced statistics and compute...