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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
CoRR
IACR Cryptol. ePrint Arch.
ACSW
PC@UCNC
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Publications
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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)