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Utilization of a Future Optical Ground Station for Plane-of-Sky Measurements to Augment DDOR

Closed

Closed

Organisational Unit
Activity Type
Implementation progress
90%
12 May 2021

Duration: 12 months

Objective

This study shall assess the feasibility of performing plane of sky measurements on a spacecraft (S/C) carrying an optical communications terminal, either using the receive telescope of a Deep-Space Optical Ground Station (OGS), or a co-located smaller dedicated telescope with its own sensor, in order to augment Radio Frequency (RF) Delta-Differential One-way Ranging (DDOR) to reduce demands on RF tracking time. Plane of sky (POS) measurements are currently performed using a combination of RF ground stations employing the DDOR technique. Optical measurements have already been used to determine the angular position of a S/C with respect to background stars and achieve a POS measurement. Example: GAIA by Pan-STARRS in 2015. When relying on passive solar illumination of the S/C, it cannot easily be applied if the range much exceeds that of GAIA. The signal from an optical communications terminal will be highly directive, and visible to the OGS even from planetary distances. We propose to measure the angular position of the signal relative to cataloged stars for an accurate plane of sky fix of the S/C. This measurement would essentially come for free every time a communication link is established, while the current DDOR technique is costly in ground station time. The study shall assess the feasibility of such a measurement together with the navigation accuracy that can be achieved for an interplanetary S/C. Several areas to be assessed have already been identified: - availability of a star catalogue in near infrared (NIR) ​- daytime utilization ​- imaging quality of the OGS telescope ​- angular field of view required to image a sufficient number of cataloged stars together with the S/C ​- required magnitude stars ​- required spectral bandwidth and integration time ​- use of a dedicated small, lower-cost telescope with a larger field of view, trading angular resolution for field of view​ ​- cost ​The proposed additional capability must not be a cost driver for the OGS.

Contract number
4000134721
Programme
OSIP Idea Id
I-2019-02705
Related OSIP Campaign
Open Channel
Subcontractors
UNIVERSITY OF ROMA TRE
Main application area
Operations
Budget
100000€
Utilization of a Future Optical Ground Station for Plane-of-Sky Measurements to Augment DDOR