Add to ORKGThe adaptation of the University of Toronto Space Flight Laboratory Generic Nanosatellite Bus (GNB) mechanical design to Earth-observation and communications applications is investigated. The ability of this bus to expand the capabilities of low-cost nanosatellites by accommodating large pre-deployed payload appendages, such as antennas, is demonstrated. In addition, the operational architecture of a cold-gas nanosatellite propulsion system, enabling small satellite constellations and formation flying, is described. Component testing of this system has validated compliance with subsystem requirements. Lastly, the design and development of a multi-mission embedded systems generic firmware is described. This firmware consolidates common and c...
Despite their limited lifespan and reduced cost, nanosatellite missions have proved to be suitable p...
Recent science and technology advancements of micro and nanosatellites have opened possibilities for...
This paper presents the design of the University of Surrey\u27s SNAP-1 nanosatellite which is planne...
The adaptation of the University of Toronto Space Flight Laboratory Generic Nanosatellite Bus (GNB) ...
This thesis describes, in chronological order, the design and implementation of four separate ground...
The Generic Nanosatellite Bus (GNB) is a spacecraft platform designed to accommodate the integration...
The Space Flight Lab (SFL) at the University of Toronto Institute for Aerospace Studies (UTIAS) has ...
Contributions to two nanosatellite missions are discussed. First, the design and development of a te...
ABSTRACT: This paper deals with the design and implementation of a fully capable ground station used...
This thesis describes the assembly and integration procedures, methods and strategies used for the G...
Recent nanosatellite programs and studies of nanosatellites for operational missions have highlighte...
The versatile Generic Nanosatellite Bus (GNB) technology fused with the Canadian Advanced Nanospace ...
The NEMO (Nanosatellite for Earth Monitoring and Observation) bus is the next evolution to the Gener...
Nanosatellites represent an emerging opportunity to pursue a broad set of mission goals, including r...
The proliferation of small satellites has ushered in new challenges in satellite mechanical developm...
Despite their limited lifespan and reduced cost, nanosatellite missions have proved to be suitable p...
Recent science and technology advancements of micro and nanosatellites have opened possibilities for...
This paper presents the design of the University of Surrey\u27s SNAP-1 nanosatellite which is planne...
The adaptation of the University of Toronto Space Flight Laboratory Generic Nanosatellite Bus (GNB) ...
This thesis describes, in chronological order, the design and implementation of four separate ground...
The Generic Nanosatellite Bus (GNB) is a spacecraft platform designed to accommodate the integration...
The Space Flight Lab (SFL) at the University of Toronto Institute for Aerospace Studies (UTIAS) has ...
Contributions to two nanosatellite missions are discussed. First, the design and development of a te...
ABSTRACT: This paper deals with the design and implementation of a fully capable ground station used...
This thesis describes the assembly and integration procedures, methods and strategies used for the G...
Recent nanosatellite programs and studies of nanosatellites for operational missions have highlighte...
The versatile Generic Nanosatellite Bus (GNB) technology fused with the Canadian Advanced Nanospace ...
The NEMO (Nanosatellite for Earth Monitoring and Observation) bus is the next evolution to the Gener...
Nanosatellites represent an emerging opportunity to pursue a broad set of mission goals, including r...
The proliferation of small satellites has ushered in new challenges in satellite mechanical developm...
Despite their limited lifespan and reduced cost, nanosatellite missions have proved to be suitable p...
Recent science and technology advancements of micro and nanosatellites have opened possibilities for...
This paper presents the design of the University of Surrey\u27s SNAP-1 nanosatellite which is planne...