TY - GEN
T1 - Game Theory-Based Rational Secret Sharing Scheme with Quantum Resistant
AU - Song, Jiale
AU - Chi, Cheng
AU - Wu, Faguo
AU - Yin, Zihang
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - Traditional threshold secret sharing scheme provides a mechanism to prevent the over-concentration of secrets while allowing for flexibility through the distribution and reconstruction of sub-secrets. However, this approach often simplifies participant behavior into categories of complete honesty or continuous deceit, neglecting the nuances of rational decision-making. To address this limitation, the rational secret sharing scheme merges threshold secret sharing with game theory, where each participant is considered rational and acts solely in self-interest. Nonetheless, existing schemes encounter challenges such as the prisoner's dilemma and the inability to reconstruct secrets due to the prioritization of individual interests. To mitigate these issues, our proposed scheme integrates a reward and punishment mechanism that balances short-term gains with long-term incentives, effectively deterring malicious behavior among participants. Moreover, traditional solutions based on elliptic curves and bilinear pairs lack resilience against quantum attacks. In response, our solution incorporates lattice-based cryptography to enhance security in the face of quantum threats. Additionally, we introduce an attribute access control tree to empower secret dealers in selecting suitable participants based on attribute restrictions, ensuring a more flexible, convenient, and secure rational secret sharing plan. This comprehensive approach improves participant selection and strengthens security measures in secret sharing scenarios.
AB - Traditional threshold secret sharing scheme provides a mechanism to prevent the over-concentration of secrets while allowing for flexibility through the distribution and reconstruction of sub-secrets. However, this approach often simplifies participant behavior into categories of complete honesty or continuous deceit, neglecting the nuances of rational decision-making. To address this limitation, the rational secret sharing scheme merges threshold secret sharing with game theory, where each participant is considered rational and acts solely in self-interest. Nonetheless, existing schemes encounter challenges such as the prisoner's dilemma and the inability to reconstruct secrets due to the prioritization of individual interests. To mitigate these issues, our proposed scheme integrates a reward and punishment mechanism that balances short-term gains with long-term incentives, effectively deterring malicious behavior among participants. Moreover, traditional solutions based on elliptic curves and bilinear pairs lack resilience against quantum attacks. In response, our solution incorporates lattice-based cryptography to enhance security in the face of quantum threats. Additionally, we introduce an attribute access control tree to empower secret dealers in selecting suitable participants based on attribute restrictions, ensuring a more flexible, convenient, and secure rational secret sharing plan. This comprehensive approach improves participant selection and strengthens security measures in secret sharing scenarios.
KW - Lattice-based
KW - Rational secret sharing
KW - Threshold secret sharing scheme
UR - http://www.scopus.com/inward/record.url?scp=85201307831&partnerID=8YFLogxK
U2 - 10.1109/CSCloud62866.2024.00035
DO - 10.1109/CSCloud62866.2024.00035
M3 - Conference contribution
AN - SCOPUS:85201307831
T3 - Proceedings - 11th IEEE International Conference on Cyber Security and Cloud Computing, CSCloud 2024
SP - 159
EP - 164
BT - Proceedings - 11th IEEE International Conference on Cyber Security and Cloud Computing, CSCloud 2024
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 11th IEEE International Conference on Cyber Security and Cloud Computing, CSCloud 2024
Y2 - 28 June 2024 through 30 June 2024
ER -
