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Autores principales: Brito, Eduardo, Castillo, Fernando, Kamm, Liina, Hadachi, Amnir, Norbisrath, Ulrich
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2508.14230
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author Brito, Eduardo
Castillo, Fernando
Kamm, Liina
Hadachi, Amnir
Norbisrath, Ulrich
author_facet Brito, Eduardo
Castillo, Fernando
Kamm, Liina
Hadachi, Amnir
Norbisrath, Ulrich
contents Digital societies increasingly rely on trustworthy proofs of physical presence for services such as supply-chain tracking, e-voting, ride-sharing, and location-based rewards. Yet, traditional localization methods often lack cryptographic guarantees of where and when an entity was present, leaving them vulnerable to spoofing, replay, or collusion attacks. In response, research on Proof-of-Location (PoL) has emerged, with recent approaches combining distance bounding, distributed consensus, and privacy-enhancing techniques to enable verifiable, tamper-resistant location claims. As the design space for PoL systems grows in complexity, this paper provides a unified framework to help practitioners navigate diverse application needs. We first propose a taxonomy identifying four core domains: (1) cryptographic guarantees, (2) spatio-temporal synchronization, (3) trust and witness models, and (4) interaction and overhead. Building on this, we introduce a methodology to map application-specific requirements onto appropriate PoL architectures. We illustrate this process through three use cases (retail e-coupons, supply chain auditing, and physical e-voting), each showing how different constraints shape protocol choices. Overall, this work offers a structured approach to building secure, scalable, and interoperable PoL systems.
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spellingShingle A Taxonomy and Methodology for Proof-of-Location Systems
Brito, Eduardo
Castillo, Fernando
Kamm, Liina
Hadachi, Amnir
Norbisrath, Ulrich
Cryptography and Security
Digital societies increasingly rely on trustworthy proofs of physical presence for services such as supply-chain tracking, e-voting, ride-sharing, and location-based rewards. Yet, traditional localization methods often lack cryptographic guarantees of where and when an entity was present, leaving them vulnerable to spoofing, replay, or collusion attacks. In response, research on Proof-of-Location (PoL) has emerged, with recent approaches combining distance bounding, distributed consensus, and privacy-enhancing techniques to enable verifiable, tamper-resistant location claims. As the design space for PoL systems grows in complexity, this paper provides a unified framework to help practitioners navigate diverse application needs. We first propose a taxonomy identifying four core domains: (1) cryptographic guarantees, (2) spatio-temporal synchronization, (3) trust and witness models, and (4) interaction and overhead. Building on this, we introduce a methodology to map application-specific requirements onto appropriate PoL architectures. We illustrate this process through three use cases (retail e-coupons, supply chain auditing, and physical e-voting), each showing how different constraints shape protocol choices. Overall, this work offers a structured approach to building secure, scalable, and interoperable PoL systems.
title A Taxonomy and Methodology for Proof-of-Location Systems
topic Cryptography and Security
url https://arxiv.org/abs/2508.14230