TY - GEN
T1 - Decentralized Anonymous Crowdsourcing with Blockchain and Anonymous Payments
AU - Zhu, Hanwei
AU - Chau, Sid Chi Kin
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - Decentralizing crowdsourcing through blockchain technology eliminates the need for trusted third-party intermediaries that may introduce social biases in data aggregation, thereby enhancing transparency and ensuring appropriate rewards for workers. However, open permissionless blockchain platforms typically disclose all transaction data on public ledgers, which compromises the privacy and anonymity of workers and encourages free-riding. Blockchain-based anonymous crowdsourcing systems have recently emerged, offering anonymity but requiring identity registration for workers and a trusted setup for key generation. These systems in general, fail to support anonymous payments, potentially compromising worker identities. In this paper, we integrate anonymous payments into crowdsourcing, eliminating the need for identity registration and trusted setup, thus fostering open and anonymous participation from any worker. Our solution utilizes the decentralized anonymous payment system framework, such as Zerocoin, and includes staking mechanisms for participation in crowdsourcing as well as efficient one-out-of-many zero-knowledge proofs. Additionally, our empirical evaluations reveal that the system incurs moderate and practical gas costs.
AB - Decentralizing crowdsourcing through blockchain technology eliminates the need for trusted third-party intermediaries that may introduce social biases in data aggregation, thereby enhancing transparency and ensuring appropriate rewards for workers. However, open permissionless blockchain platforms typically disclose all transaction data on public ledgers, which compromises the privacy and anonymity of workers and encourages free-riding. Blockchain-based anonymous crowdsourcing systems have recently emerged, offering anonymity but requiring identity registration for workers and a trusted setup for key generation. These systems in general, fail to support anonymous payments, potentially compromising worker identities. In this paper, we integrate anonymous payments into crowdsourcing, eliminating the need for identity registration and trusted setup, thus fostering open and anonymous participation from any worker. Our solution utilizes the decentralized anonymous payment system framework, such as Zerocoin, and includes staking mechanisms for participation in crowdsourcing as well as efficient one-out-of-many zero-knowledge proofs. Additionally, our empirical evaluations reveal that the system incurs moderate and practical gas costs.
KW - Anonymous crowdsourcing
KW - anonymous payments
KW - blockchain
KW - smart contract
KW - zero-knowledge proofs
UR - https://www.scopus.com/pages/publications/85205980692
U2 - 10.1109/AIoT63253.2024.00053
DO - 10.1109/AIoT63253.2024.00053
M3 - Conference Paper
AN - SCOPUS:85205980692
T3 - Proceedings - 2024 IEEE Annual Congress on Artificial Intelligence of Things, AIoT 2024
SP - 239
EP - 245
BT - Proceedings - 2024 IEEE Annual Congress on Artificial Intelligence of Things, AIoT 2024
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2024 IEEE Annual Congress on Artificial Intelligence of Things, AIoT 2024
Y2 - 24 July 2024 through 26 July 2024
ER -