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A Novel Multilayered RFID Tagged Cargo Integrity Assurance Scheme.

Ming Hour Yang1, Jia Ning Luo2, Shao Yong Lu3

  • 1Chung Yuan Christian University, Chung Pei Road, Chung Li District, Taoyuan 32023, Taiwan. mhyang@cycu.edu.tw.

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Summary

This study introduces a new method for generating multilayered offline grouping proofs using mobile radio frequency identification (RFID) to enhance cargo security and prevent theft. The improved system ensures proof integrity and speeds up dispute resolution in logistics.

Keywords:
anonymityconcurrency attacksmulti-session attacksmultilayered grouping proofradio-frequency identificationsupply chain management

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Area of Science:

  • Logistics and Supply Chain Management
  • Information Technology Security
  • Wireless Communication Technologies

Background:

  • Mobile radio frequency identification (RFID) grouping proofs are crucial for cargo integrity but face limitations.
  • Conventional methods struggle with specific tag grouping, accuracy due to scan times, and practical logistics application.
  • Existing systems are vulnerable to attacks and inefficient in dispute resolution.

Purpose of the Study:

  • To propose a novel method for generating multilayered offline grouping proofs for mobile RFID systems.
  • To address the limitations of conventional grouping proofs in terms of specificity, accuracy, and security.
  • To enhance the efficiency and reliability of cargo integrity verification in the logistics industry.

Main Methods:

  • Development of a multilayered offline grouping proof generation method for mobile RFID.
  • Implementation of tag anonymity features within the proposed system.
  • Integration of automatic authentication for receipt and pick proofs to resolve disputes.
  • Incorporation of security measures against replay, multi-session, and concurrency attacks.

Main Results:

  • The proposed method efficiently generates offline grouping proofs involving multiple supply chain parties.
  • Experimental results demonstrate superior performance compared to existing grouping proof methods.
  • The system effectively ensures tag anonymity and protects against various security threats.
  • Automated proof authentication expedites dispute resolution between recipients and transporters.

Conclusions:

  • The developed multilayered offline grouping proof method offers a significant advancement for mobile RFID in logistics.
  • This approach enhances cargo security, improves operational efficiency, and strengthens trust in supply chains.
  • The method provides a robust solution for verifying cargo integrity and mitigating theft risks.