As a further step in the research towards miniaturization of satellite components and sub-systems, the Department of Space Systems Engineering at the Delft University of Technology has recently embarked in the end-to-end engineering of the Delfi-PQ picosatellite platform, designed according to the PocketQube size standard. This new satellite platform, inspired by the success of previous Delfi satellite projects, is seen as a great opportunity for innovativeness and offers great research challenges. Since a consolidated standard for PocketQubes has not been established yet, a significant amount of design freedom can be harnessed despite the small volume available. The miniaturization process required to integrate the core bus forces the team...
Delfi-Next is the second project within the Delfi nanosatellite development program of Delft Univers...
The number of micro and nano satellite projects is expanding. Main focus is on providing these small...
the aim of this thesis is to regard all aspects concerning mass optimization with respect to small s...
As a further step in the research towards miniaturization of satellite components and sub-systems, t...
Delft University of Technology has embarked on PocketQubes to showcase as the next class of miniatur...
This papers gives an insight on different sub topics related to a micro-propulsion subsystem for a Po...
AE faculty at TU Delft is currently developing a PocketQube satellite under the name of Delfi-PQ. Fo...
The format and size specifications of the CubeSat platform require highly miniaturized subsystems, o...
A highly miniaturised reaction wheel was developed for Delft University of Technology’s PocketQube (...
In the last two decades, CubeSats have changed the perception of satellite missions aided by standar...
Since 2008, the MicroThrust (MT) consortium consisting of EPFL, Nanospace, QMUL, SystematIC, and TNO...
PocketQubes represent a new type of cube-shaped platforms with dimensions of 50x50 mm and mass of 25...
PocketQubes are a new form factor of highly miniaturized satellites with a body of one or more cubic...
PocketQubes are a form factor of highly miniaturized satellites with a body of one or more cubic uni...
This paper presents a new approach in satellite platform design. While traditionally the design of ...
Delfi-Next is the second project within the Delfi nanosatellite development program of Delft Univers...
The number of micro and nano satellite projects is expanding. Main focus is on providing these small...
the aim of this thesis is to regard all aspects concerning mass optimization with respect to small s...
As a further step in the research towards miniaturization of satellite components and sub-systems, t...
Delft University of Technology has embarked on PocketQubes to showcase as the next class of miniatur...
This papers gives an insight on different sub topics related to a micro-propulsion subsystem for a Po...
AE faculty at TU Delft is currently developing a PocketQube satellite under the name of Delfi-PQ. Fo...
The format and size specifications of the CubeSat platform require highly miniaturized subsystems, o...
A highly miniaturised reaction wheel was developed for Delft University of Technology’s PocketQube (...
In the last two decades, CubeSats have changed the perception of satellite missions aided by standar...
Since 2008, the MicroThrust (MT) consortium consisting of EPFL, Nanospace, QMUL, SystematIC, and TNO...
PocketQubes represent a new type of cube-shaped platforms with dimensions of 50x50 mm and mass of 25...
PocketQubes are a new form factor of highly miniaturized satellites with a body of one or more cubic...
PocketQubes are a form factor of highly miniaturized satellites with a body of one or more cubic uni...
This paper presents a new approach in satellite platform design. While traditionally the design of ...
Delfi-Next is the second project within the Delfi nanosatellite development program of Delft Univers...
The number of micro and nano satellite projects is expanding. Main focus is on providing these small...
the aim of this thesis is to regard all aspects concerning mass optimization with respect to small s...