Atmospheric Drag, Occultation 'N' Ionospheric Scintillation (ADONIS) mission proposal
Sebastian Hettrich, Yann Kempf, Nikolaos Perakis, J\c{e}drzej, G\'orski, Martina Edl, Jaroslav Urb\'ar, Melinda D\'osa, Francesco Gini, Owen, W. Roberts, Stefan Schindler, Maximilian Schemmer, David Steenari, Nina, Jold\v{z}i\'c, Linn-Kristine Glesnes {\O}degaard, David Sarria

TL;DR
The ADONIS mission aims to study the thermosphere and ionosphere dynamics over a solar cycle using a low-cost satellite constellation for real-time data collection and model improvement.
Contribution
This paper presents a novel low-cost satellite constellation concept for comprehensive ionospheric and thermospheric monitoring, leveraging proven instruments for rapid deployment.
Findings
Design of a two-satellite constellation for near real-time ionospheric data
Potential for improved global ionospheric models
Feasibility of using existing space-proven instruments
Abstract
The Atmospheric Drag, Occultation 'N' Ionospheric Scintillation mission (ADONIS) studies the dynamics of the terrestrial thermosphere and ionosphere in dependency of solar events over a full solar cycle in Low Earth Orbit (LEO). The objectives are to investigate satellite drag with in-situ measurements and the ionospheric electron density profiles with radio occultation and scintillation measurements. A constellation of two satellites provides the possibility to gain near real-time data (NRT) about ionospheric conditions over the Arctic region where current coverage is insufficient. The mission shall also provide global high-resolution data to improve assimilative ionospheric models. The low-cost constellation can be launched using a single Vega rocket and most of the instruments are already space-proven allowing for rapid development and good reliability. From July 16 to 25, 2013, the…
Peer Reviews
No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.
Videos
No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.
