1. 1-out-of-n Signatures from a Variety of Keys
2. Man Ho Allen Au , Guomin Yang , Willy Susilo , and Yunmei Zhang . 2014. (Strong) multidesignated verifiers signatures secure against rogue key attack. Concurrency and Computation: Practice and Experience 26 ( 2014 ). Man Ho Allen Au, Guomin Yang, Willy Susilo, and Yunmei Zhang. 2014. (Strong) multidesignated verifiers signatures secure against rogue key attack. Concurrency and Computation: Practice and Experience 26 (2014).
3. Pourandokht Behrouz , Panagiotis Grontas , Vangelis Konstantakatos , Aris Pagourtzis , and Marianna Spyrakou . 2022. Designated-Verifier Linkable Ring Signatures . In Information Security and Cryptology – ICISC 2021 . 51–70. Pourandokht Behrouz, Panagiotis Grontas, Vangelis Konstantakatos, Aris Pagourtzis, and Marianna Spyrakou. 2022. Designated-Verifier Linkable Ring Signatures. In Information Security and Cryptology – ICISC 2021. 51–70.
4. Adam Bender , Jonathan Katz , and Ruggero Morselli . 2006 . Ring Signatures: Stronger Definitions, and Constructions Without Random Oracles. In Theory of Cryptography. 60–79. Adam Bender, Jonathan Katz, and Ruggero Morselli. 2006. Ring Signatures: Stronger Definitions, and Constructions Without Random Oracles. In Theory of Cryptography. 60–79.
5. Dan Boneh , Craig Gentry , Ben Lynn , and Hovav Shacham . 2003. Aggregate and Verifiably Encrypted Signatures from Bilinear Maps(EUROCRYPT’03) . Springer-Verlag , 416–432. Dan Boneh, Craig Gentry, Ben Lynn, and Hovav Shacham. 2003. Aggregate and Verifiably Encrypted Signatures from Bilinear Maps(EUROCRYPT’03). Springer-Verlag, 416–432.