Title :
Flight equipment validation with iSAFT: The EUCLID Fine Guidance Sensor case
Author :
Kollias, Vangelis ; Pogkas, Nikos ; Tavoularis, Antonis ; Tsagkaropoulos, Michalis
Author_Institution :
Teletel S.A., Athens, Greece
Abstract :
iSAFT is an integrated powerful HW/SW environment for the simulation, validation & monitoring of satellite/spacecraft on-board data networks supporting simultaneously a wide range of protocols. This paper presents a study on how iSAFT modules can be used for the validation of demanding spacecraft subsystems such as the EUCLID Fine Guidance Sensor (FGS). Validation of the EUCLID FGS includes the accurate injection of static sky images through SpaceWire and acquisition of the units´ response through another SpaceWire and MIL-STD-1553 channels and, synchronization with the AOCS SCOE which provides quaternion and angular rate for dynamic simulations and remote control of other testbed elements (e.g. OGSE). The paper presents the proposed EGSE HW and SW architectures, their configurations and the performance characteristics which pose very strict requirements on the design of the EGSEs.
Keywords :
aerospace computing; aerospace instrumentation; network interfaces; sensors; software architecture; space vehicles; synchronisation; AOCS SCOE synchronization; EGSE HW-SW architectures; EUCLID FGS; EUCLID attitude and orbit control system; EUCLID fine guidance sensor; HW-SW environment; MIL-STD-1553 channels; SpaceWire; flight equipment validation; iSAFT modules; protocols; remote control; satellite-spacecraft on-board data network; spacecraft subsystems; static sky image injection; testbed elements; unit response acquisition; Analytical models; Data models; Detectors; Load modeling; Monitoring; Protocols; Quaternions; 1553; FGS; FMEA; IRIG; SpaceWire; iSAFT; validation;
Conference_Titel :
SpaceWire Conference (SpaceWire), 2014 International
Conference_Location :
Athens
DOI :
10.1109/SpaceWire.2014.6936278
