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Autori principali: Wang, Yuntao, Hu, Qinnan, Li, Zhendong, Su, Zhou, Li, Ruidong, Zou, Xiang, Zhou, Jian
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2310.05180
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author Wang, Yuntao
Hu, Qinnan
Li, Zhendong
Su, Zhou
Li, Ruidong
Zou, Xiang
Zhou, Jian
author_facet Wang, Yuntao
Hu, Qinnan
Li, Zhendong
Su, Zhou
Li, Ruidong
Zou, Xiang
Zhou, Jian
contents Natural or man-made disasters pose significant challenges for delivering critical relief to affected populations due to disruptions in critical infrastructures and logistics networks. Unmanned aerial vehicles (UAVs)-aided disaster relief networks (UDRNs) leverage UAVs to assist existing ground relief networks by swiftly assessing affected areas and timely delivering lifesaving supplies. To meet the growing demands for collaborative, trust-free, and transparent UDRN services, blockchain-based UDRNs emerge as a promising approach through immutable ledgers and distributed smart contracts. However, several efficiency and security challenges hinder the deployment of blockchain-based UDRNs, including the lack of cooperation between smart contracts, lack of dynamic audit for smart contract vulnerabilities, and low forensics robustness against transaction malleability attacks. Towards efficient and secure blockchain-based UDRNs, this paper presents potential solutions: (i) a series of collaborative smart contracts for coordinated relief management, (ii) a dynamic contract audit mechanism to prevent known/unknown contract vulnerabilities; and (iii) a robust transaction forensics strategy with on/off-chain cooperation to resist transaction malleability attacks. Our prototype implementation and experimental results demonstrate the feasibility and effectiveness of our approach. Lastly, we outline key open research issues crucial to advancing this emerging field.
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publishDate 2023
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spellingShingle Blockchain-Envisioned UAV-Aided Disaster Relief Networks: Challenges and Solutions
Wang, Yuntao
Hu, Qinnan
Li, Zhendong
Su, Zhou
Li, Ruidong
Zou, Xiang
Zhou, Jian
Cryptography and Security
Natural or man-made disasters pose significant challenges for delivering critical relief to affected populations due to disruptions in critical infrastructures and logistics networks. Unmanned aerial vehicles (UAVs)-aided disaster relief networks (UDRNs) leverage UAVs to assist existing ground relief networks by swiftly assessing affected areas and timely delivering lifesaving supplies. To meet the growing demands for collaborative, trust-free, and transparent UDRN services, blockchain-based UDRNs emerge as a promising approach through immutable ledgers and distributed smart contracts. However, several efficiency and security challenges hinder the deployment of blockchain-based UDRNs, including the lack of cooperation between smart contracts, lack of dynamic audit for smart contract vulnerabilities, and low forensics robustness against transaction malleability attacks. Towards efficient and secure blockchain-based UDRNs, this paper presents potential solutions: (i) a series of collaborative smart contracts for coordinated relief management, (ii) a dynamic contract audit mechanism to prevent known/unknown contract vulnerabilities; and (iii) a robust transaction forensics strategy with on/off-chain cooperation to resist transaction malleability attacks. Our prototype implementation and experimental results demonstrate the feasibility and effectiveness of our approach. Lastly, we outline key open research issues crucial to advancing this emerging field.
title Blockchain-Envisioned UAV-Aided Disaster Relief Networks: Challenges and Solutions
topic Cryptography and Security
url https://arxiv.org/abs/2310.05180