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Use of Future LEO Mega-Constellations to Improve the Space Situational Awareness (SSA) Via a GNSS-Based Passive Multistatic Radar (G-PMR) Service

Running

Running

Organisational Unit
Activity Type
15 January 2025

Duration: 12 months

Objective

The unsustainable increment of space debris in LEO orbit, [RD-01]-[RD-05], is growing the risk of a Kessler syndrome that might have a catastrophic impact on all existing LEO constellations. Therefore, to improve the Space Situational Awareness (SSA), this study aims at proving that future LEO mega-constellations, essentially designed to provide COM and PNT services, may also be used to monitor space debris via the integration of a GNSS-Based Passive Multistatic Radar (G-PMR) like service. This idea dips its roots in previous works, [RD-06]-[RD-09], in which it was assessed the theoretical feasibility of using GNSS ground receivers as passive radar for space debris monitoring. In very brief: - PROs are: MEO GNSS satellites provide a full coverage of LEO region along with a wide availability of well-known positioning signals, and a good satellite clock stability, that make them an ideal source to track LEO debris. - CONs are: the very poor level of scattered GNSS signals received on ground as well as the uncontrolled dynamic of debris make their detection and tracking very challenging. According to [RD-10], the above limitations can be at least partially mitigated if the G-PMR is, for instance, installed on a CubeSat, because of: - the proximity to debris orbital layer, - low relative velocity between illuminator and receiver, - reduced atmospheric loss. From this encouraging perspective, the development of a new LEO mega-constellation equipped with a G-PMR service might be a quite unique opportunity to boost space debris monitoring by also exploiting some additional advantages, e.g.: - use of known LEO PNT/COM signals, e.g., irradiated by antenna side-lobes or higher orbit LEO sat., as high-power signal-of-opportunity to detect and track debris, - a cooperative approach fostered by the network of LEO sat. composing the constellation, - use of new enabling technologies (e.g., analog/digital BF, Machine Learning, cloud computing, etc.) to detect, track, and classify debris.

Contract number
4000146571
Programme
OSIP Idea Id
I-2023-10801
Related OSIP Campaign
Open Discovery Ideas Channel
Main application area
Generic for multiple space applications
Budget
100000€
Use of Future LEO Mega-Constellations to Improve the Space Situational Awareness (SSA) Via a GNSS-Based Passive Multistatic Radar (G-PMR) Service