M. Rizwan Mughal scite author profile

Today, the near‐Earth space is facing a paradigm change as the number of new spacecraft is literally skyrocketing. Increasing numbers of small satellites threaten the sustainable use of space, as without removal, space debris will eventually make certain critical orbits unusable. A central factor affecting small spacecraft health and leading to debris is the radiation environment, which is unpredictable due to an incomplete understanding of the near‐Earth radiation environment itself and its variability driven by the solar wind and outer magnetosphere. This paper presents the FORESAIL‐1 nanosatellite mission, having two scientific and one technological objectives. The first scientific objective is to measure the energy and flux of energetic particle loss to the atmosphere with a representative energy and pitch angle resolution over a wide range of magnetic local times. To pave the way to novel model‐in situ data comparisons, we also show preliminary results on precipitating electron fluxes obtained with the new global hybrid‐Vlasov simulation Vlasiator. The second scientific objective of the FORESAIL‐1 mission is to measure energetic neutral atoms of solar origin. The solar energetic neutral atom flux has the potential to contribute importantly to the knowledge of solar eruption energy budget estimations. The technological objective is to demonstrate a satellite deorbiting technology, and for the first time, make an orbit maneuver with a propellantless nanosatellite. FORESAIL‐1 will demonstrate the potential for nanosatellites to make important scientific contributions as well as promote the sustainable utilization of space by using a cost‐efficient deorbiting technology.

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Coulomb drag propulsion experiments of ESTCube-2 and FORESAIL-1

Iakubivskyi

Janhunen

Praks

et al. 2020

Acta Astronautica

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Radiation monitor RADMON aboard Aalto-1 CubeSat: First results

Gieseler

Oleynik

Hietala

et al. 2020

Advances in Space Research

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Design, implementation, and thermal modeling of embedded reconfigurable magnetorquer system for nanosatellites

Ali

Mughal

Ali

et al. 2015

IEEE Trans. Aerosp. Electron. Syst.

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Design of Modular Power Management and Attitude Control Subsystems for a Microsatellite

Ali

Khan

et al. 2018

International Journal of Aerospace Engineering

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The Electric Power System (EPS) and attitude control system (ACS) are the essential components of any satellite. EPS and ACS efficiency and compactness are substantial for the proper operation and performance of the satellite’s entire mission life. So, realizing the significance of EPS and ACS subsystems for any satellite, they have been assimilated and developed in modular forms focusing on efficiency and compactness. The EPS is comprised of three modules called the solar panel module (SPM), power conditioning module (PCM), and power distribution module (PDM) while the ACS has an embedded magnetorquer coil. For compactness and miniaturization purposes, the magnetorquer coil is embedded inside the SPM. The components used are commercial off-the-shelf (COTS) components emphasizing on their power efficiency, small dimensions, and weight. Latch-up protection systems have been designed and analyzed for CMOS-based COTS components, in order to make them suitable for space radioactive environment. The main design features are modularity, redundancy, power efficiency, and to avoid single component failure. The modular development of the EPS and ACS helps to reuse them for future missions, and as a result, the overall budget, development, and testing time and cost are reduced. A specific satellite mission can be achieved by reassembling the required subsystems.

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M. Rizwan Mughal

Aalto-1, multi-payload CubeSat: Design, integration and launch

Plug-and-play design approach to smart harness for modular small satellites

Innovative power management, attitude determination and control tile for CubeSat standard NanoSatellites

FORESAIL‐1 CubeSat Mission to Measure Radiation Belt Losses and Demonstrate Deorbiting

Coulomb drag propulsion experiments of ESTCube-2 and FORESAIL-1

Radiation monitor RADMON aboard Aalto-1 CubeSat: First results

Design, implementation, and thermal modeling of embedded reconfigurable magnetorquer system for nanosatellites

Design of Modular Power Management and Attitude Control Subsystems for a Microsatellite

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