The following publications are possibly variants of this publication:
- Functional Encryption for Turing Machines with Dynamic Bounded Collusion from LWEShweta Agrawal, Monosij Maitra, Narasimha Sai Vempati, Shota Yamada 0001. iacr, 2021:848, 2021. [doi]
- Dynamic Collusion Bounded Functional Encryption from Identity-Based EncryptionRachit Garg 0001, Rishab Goyal, George Lu, Brent Waters. eurocrypt 2022: 736-763 [doi]
- Bounded Functional Encryption for Turing Machines: Adaptive Security from General AssumptionsShweta Agrawal, Fuyuki Kitagawa, Anuja Modi, Ryo Nishimaki, Shota Yamada 0001, Takashi Yamakawa. tcc 2022: 618-647 [doi]
- Bounded Functional Encryption for Turing Machines: Adaptive Security from General AssumptionsShweta Agrawal, Fuyuki Kitagawa, Anuja Modi, Ryo Nishimaki, Shota Yamada 0001, Takashi Yamakawa. iacr, 2022:316, 2022. [doi]
- Functional Encryption for Bounded Collusions, RevisitedShweta Agrawal, Alon Rosen. tcc 2017: 173-205 [doi]
- Online-Offline Functional Encryption for Bounded CollusionsShweta Agrawal, Alon Rosen. iacr, 2016:361, 2016. [doi]
- Dynamic Collusion Functional Encryption and Multi-Authority Attribute-Based EncryptionRachit Garg 0001, Rishab Goyal, George Lu. pkc 2024: 69-104 [doi]