Richard Hua

Publication Activity (10 Years)

Years Active: 2017-2024
Publications (10 Years): 13

Top Topics

Graph Isomorphism

Partitioned Data

Differential Privacy

Hamiltonian Cycle

Top Venues

IACR Cryptol. ePrint Arch.

Publications

Antigoni Polychroniadou, Gabriele Cipriani, Richard Hua, Tucker Balch
Atlas-X Equity Financing: Unlocking New Methods to Securely Obfuscate Axe Inventory Data Based on Differential Privacy. CoRR (2024)
Antigoni Polychroniadou, Gabriele Cipriani, Richard Hua, Tucker Balch
Atlas-X Equity Financing: Unlocking New Methods to Securely Obfuscate Axe Inventory Data Based on Differential Privacy. IACR Cryptol. ePrint Arch. 2024 (2024)
Antigoni Polychroniadou, Gabriele Cipriani, Richard Hua, Tucker Balch
Atlas-X Equity Financing: Unlocking New Methods to Securely Obfuscate Axe Inventory Data Based on Differential Privacy. AAMAS (2024)
Antigoni Polychroniadou, Gilad Asharov, Benjamin E. Diamond, Tucker Balch, Hans Buehler, Richard Hua, Suwen Gu, Greg Gimler, Manuela Veloso
Prime Match: A Privacy-Preserving Inventory Matching System. IACR Cryptol. ePrint Arch. 2023 (2023)
Antigoni Polychroniadou, Gilad Asharov, Benjamin E. Diamond, Tucker Balch, Hans Buehler, Richard Hua, Suwen Gu, Greg Gimler, Manuela Veloso
Prime Match: A Privacy-Preserving Inventory Matching System. USENIX Security Symposium (2023)
Antigoni Polychroniadou, Gilad Asharov, Benjamin E. Diamond, Tucker Balch, Hans Buehler, Richard Hua, Suwen Gu, Greg Gimler, Manuela Veloso
Prime Match: A Privacy-Preserving Inventory Matching System. CoRR (2023)
Richard Hua, Michael J. Dinneen
Improved QUBO Formulation of the Graph Isomorphism Problem. SN Comput. Sci. 1 (1) (2020)
Cristian S. Calude, Michael J. Dinneen, Richard Hua
Quantum solutions for densest k-subgraph problems. J. Membr. Comput. 2 (1) (2020)
Anuradha Mahasinghe, Richard Hua, Michael J. Dinneen, Rajni Goyal
Solving the Hamiltonian Cycle Problem using a Quantum Computer. ACSW (2019)
Alastair A. Abbott, Cristian S. Calude, Michael J. Dinneen, Richard Hua
A Hybrid Quantum-Classical Paradigm to Mitigate Embedding Costs in Quantum Annealing. CoRR (2018)
Alastair A. Abbott, Cristian S. Calude, Michael J. Dinneen, Richard Hua
A Hybrid Quantum-Classical Paradigm to Mitigate Embedding Costs in Quantum Annealing - Abridged Version. PC@UCNC (2018)
Michael J. Dinneen, Richard Hua
Formulating graph covering problems for adiabatic quantum computers. ACSW (2017)
Cristian S. Calude, Michael J. Dinneen, Richard Hua
QUBO formulations for the graph isomorphism problem and related problems. Theor. Comput. Sci. 701 (2017)