Toward Space-Based Public Key Systems: Enabling Secure Space Communications through In-Orbit Trust Services
Rehana Yasmin, Paulo Esteves-Verissimo, Ali Shoker
TLDR
This paper proposes space-based Public Key Infrastructure architectures to enable secure, low-latency communication and trust services for the New Space era.
Key contributions
- Proposes space-based PKI architectures to move certificate management and validation into orbit.
- Introduces two schemes: space-ground integrated PKI and fully autonomous in-space PKI.
- Analyzes deployment trade-offs in scalability, security, cost, and operational complexity.
- Provides a baseline latency analysis illustrating in-orbit trust management performance.
Why it matters
The New Space era demands secure, real-time coordination among numerous satellites. Ground-based PKI is insufficient due to latency and bottlenecks. This paper offers a crucial solution by shifting trust services into space, enabling scalable and autonomous secure communications for future missions.
Original Abstract
The New Space era has led to a rapid increase in satellites operated by independent entities in near-Earth orbit. This shift enables richer space services but also requires secure, near-real-time coordination, making efficient authentication of space assets critical for next-generation missions. Traditional ground-dependent Public Key Infrastructure (PKI) suffers from latency and operational bottlenecks that limit scalability and availability in dynamic space environments. This paper proposes architectural designs for space-based PKI that shift certificate management and validation from ground infrastructure into space, reducing reliance on ground stations while enabling interoperability and cross-entity collaboration. Two deployment schemes are introduced: a space-ground integrated PKI with in-orbit validation authorities, and a fully autonomous space-based PKI with in-space issuance and validation. We analyze deployment trade-offs in scalability, availability, security, cost, and operational complexity in multi-operator environments. A baseline latency analysis is provided to illustrate performance implications of in-orbit trust management.
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