Scholar
Khoa Nguyen
Google Scholar ID: RQ9tJVIAAAAJ
University of Wollongong, Australia
Citations & Impact
Citations
1,510
H-index
23
i10-index
33
Publications
20
Co-authors
33
list available
Contact
Publications
Resume (English only)
Academic Achievements
- November 2025: A paper on lattice-based traceable signatures has been accepted for publication in Computer Standards & Interfaces.
- October 2025: Awarded the 'EMCR Best Performance in Research 2025' by SCIT.
- October 2025: A paper on publicly verifiable secret sharing in the standard model has been accepted for publication in Computer Standards & Interfaces.
- October 2025: A paper introducing the concept of many-time linkable ring signatures by student Nam Tran won the Best Paper Award at ProvSec 2025!
- August 2025: A paper on lattice-based group signatures in the standard model by student Nam Tran has been accepted to ASIACRYPT 2025.
- June 2024: A paper on fully dynamic group encryption was accepted for publication in Theoretical Computer Science.
- December 2023: A paper that revisits Stern's zero-knowledge framework and provides the first construction of (fully-dynamic) attribute-based signatures for circuits from codes was accepted to PKC 2024.
- November 2023: Awarded a '2023 Research Excellence Award' by SCIT.
- Served on the Program Committees of multiple international conferences such as ASIACRYPT, ProvSec, etc.
- Invited to give keynote talks and invited talks at various international conferences.
Research Experience
- Currently a Senior Lecturer at the School of Computing and Information Technology (SCIT), University of Wollongong (UOW), Australia. Previously worked at NTU, Singapore.
Education
- Received PhD from Nanyang Technological University (NTU), Singapore in 2014, and worked as a Gopalakrishnan-NTU Presidential Postdoctoral Fellow and then as a Senior Research Fellow.
Background
- Senior Lecturer with research interests in cryptography and information security. Currently, particularly interested in the designs and analyses of privacy-preserving and/or quantum-safe cryptographic protocols.
