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Christopher A. Wood
Person information
- affiliation: Apple, USA
- affiliation (former): University of California, Irvine, Department of Computer Science
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2020 – today
- 2024
- [i33]Martin Thomson, Christopher A. Wood:
Oblivious HTTP. RFC 9458: 1-40 (2024) - [i32]Alex Davidson, Jana Iyengar, Christopher A. Wood:
The Privacy Pass Architecture. RFC 9576: 1-25 (2024) - [i31]Tommy Pauly, Steven Valdez, Christopher A. Wood:
The Privacy Pass HTTP Authentication Scheme. RFC 9577: 1-25 (2024) - [i30]Sofía Celi, Alex Davidson, Steven Valdez, Christopher A. Wood:
Privacy Pass Issuance Protocols. RFC 9578: 1-36 (2024) - [i29]Deirdre Connolly, Chelsea Komlo, Ian Goldberg, Christopher A. Wood:
The Flexible Round-Optimized Schnorr Threshold (FROST) Protocol for Two-Round Schnorr Signatures. RFC 9591: 1-47 (2024) - [i28]Mirja Kühlewind, Tommy Pauly, Christopher A. Wood:
Partitioning as an Architecture for Privacy. RFC 9614: 1-23 (2024) - 2023
- [j7]Christopher A. Wood:
Hot Topics in Security and Privacy Standardization at the IETF and Beyond. IEEE Secur. Priv. 21(2): 57-62 (2023) - [j6]Sandra Siby, Ludovic Barman, Christopher A. Wood, Marwan Fayed, Nick Sullivan, Carmela Troncoso:
Evaluating practical QUIC website fingerprinting defenses for the masses. Proc. Priv. Enhancing Technol. 2023(4): 79-95 (2023) - [c29]Christopher A. Wood:
Not-So-Low Hanging Fruit: Security and Privacy Research Opportunities for IETF Protocols. ANRW 2023: 41-43 - [i27]Edward Eaton, Tancrède Lepoint, Christopher A. Wood:
Security Analysis of Signature Schemes with Key Blinding. IACR Cryptol. ePrint Arch. 2023: 380 (2023) - [i26]Guru-Vamsi Policharla, Bas Westerbaan, Armando Faz-Hernández, Christopher A. Wood:
Post-Quantum Privacy Pass via Post-Quantum Anonymous Credentials. IACR Cryptol. ePrint Arch. 2023: 414 (2023) - [i25]Armando Faz-Hernández, Sam Scott, Nick Sullivan, Riad S. Wahby, Christopher A. Wood:
Hashing to Elliptic Curves. RFC 9380: 1-145 (2023) - [i24]Tim Taubert, Christopher A. Wood:
SPAKE2+, an Augmented Password-Authenticated Key Exchange (PAKE) Protocol. RFC 9383: 1-25 (2023) - [i23]Tommy Pauly, Eric Kinnear, Christopher A. Wood, Patrick McManus, Tommy Jensen:
Discovery of Designated Resolvers. RFC 9462: 1-16 (2023) - [i22]Frank Denis, Frederic Jacobs, Christopher A. Wood:
RSA Blind Signatures. RFC 9474: 1-27 (2023) - [i21]Alex Davidson, Armando Faz-Hernández, Nick Sullivan, Christopher A. Wood:
Oblivious Pseudorandom Functions (OPRFs) Using Prime-Order Groups. RFC 9497: 1-61 (2023) - 2022
- [c28]Karthikeyan Bhargavan, Vincent Cheval, Christopher A. Wood:
A Symbolic Analysis of Privacy for TLS 1.3 with Encrypted Client Hello. CCS 2022: 365-379 - [c27]Nirvan Tyagi, Sofía Celi, Thomas Ristenpart, Nick Sullivan, Stefano Tessaro, Christopher A. Wood:
A Fast and Simple Partially Oblivious PRF, with Applications. EUROCRYPT (2) 2022: 674-705 - [c26]Sudheesh Singanamalla, Muhammad Talha Paracha, Suleman Ahmad, Jonathan Hoyland, Luke Valenta, Yevgen Safronov, Peter Wu, Andrew Galloni, Kurtis Heimerl, Nick Sullivan, Christopher A. Wood, Marwan Fayed:
Respect the ORIGIN!: a best-case evaluation of connection coalescing in the wild. IMC 2022: 664-678 - [c25]Bijeeta Pal, Mazharul Islam, Marina Sanusi Bohuk, Nick Sullivan, Luke Valenta, Tara Whalen, Christopher A. Wood, Thomas Ristenpart, Rahul Chatterjee:
Might I Get Pwned: A Second Generation Compromised Credential Checking Service. USENIX Security Symposium 2022: 1831-1848 - [i20]Ludovic Barman, Sandra Siby, Christopher A. Wood, Marwan Fayed, Nick Sullivan, Carmela Troncoso:
This is not the padding you are looking for! On the ineffectiveness of QUIC PADDING against website fingerprinting. CoRR abs/2203.07806 (2022) - [i19]Tommy Pauly, David Schinazi, Christopher A. Wood:
TLS Ticket Requests. RFC 9149: 1-8 (2022) - [i18]Richard L. Barnes, Karthikeyan Bhargavan, Benjamin Lipp, Christopher A. Wood:
Hybrid Public Key Encryption. RFC 9180: 1-107 (2022) - [i17]Eric Kinnear, Patrick McManus, Tommy Pauly, Tanya Verma, Christopher A. Wood:
Oblivious DNS over HTTPS. RFC 9230: 1-19 (2022) - [i16]Russ Housley, Jonathan Hoyland, Mohit Sethi, Christopher A. Wood:
Guidance for External Pre-Shared Key (PSK) Usage in TLS. RFC 9257: 1-13 (2022) - [i15]David Benjamin, Christopher A. Wood:
Importing External Pre-Shared Keys (PSKs) for TLS 1.3. RFC 9258: 1-11 (2022) - [i14]Martin Thomson, Christopher A. Wood:
Binary Representation of HTTP Messages. RFC 9292: 1-16 (2022) - 2021
- [j5]Sudheesh Singanamalla, Suphanat Chunhapanya, Jonathan Hoyland, Marek Vavrusa, Tanya Verma, Peter Wu, Marwan Fayed, Kurtis Heimerl, Nick Sullivan, Christopher A. Wood:
Oblivious DNS over HTTPS (ODoH): A Practical Privacy Enhancement to DNS. Proc. Priv. Enhancing Technol. 2021(4): 575-592 (2021) - [c24]Sofía Celi, Armando Faz-Hernández, Nick Sullivan, Goutam Tamvada, Luke Valenta, Thom Wiggers, Bas Westerbaan, Christopher A. Wood:
Implementing and Measuring KEMTLS. LATINCRYPT 2021: 88-107 - [c23]Marwan Fayed, Lorenz Bauer, Vasileios Giotsas, Sami Kerola, Marek Majkowski, Pavel Odintsov, Jakub Sitnicki, Taejoong Chung, Dave Levin, Alan Mislove, Christopher A. Wood, Nick Sullivan:
The ties that un-bind: decoupling IP from web services and sockets for robust addressing agility at CDN-scale. SIGCOMM 2021: 433-446 - [i13]Nirvan Tyagi, Sofía Celi, Thomas Ristenpart, Nick Sullivan, Stefano Tessaro, Christopher A. Wood:
A Fast and Simple Partially Oblivious PRF, with Applications. IACR Cryptol. ePrint Arch. 2021: 864 (2021) - [i12]Sofía Celi, Armando Faz-Hernández, Nick Sullivan, Goutam Tamvada, Luke Valenta, Thom Wiggers, Bas Westerbaan, Christopher A. Wood:
Implementing and Measuring KEMTLS. IACR Cryptol. ePrint Arch. 2021: 1019 (2021) - 2020
- [i11]Sudheesh Singanamalla, Suphanat Chunhapanya, Marek Vavrusa, Tanya Verma, Peter Wu, Marwan Fayed, Kurtis Heimerl, Nick Sullivan, Christopher A. Wood:
Oblivious DNS over HTTPS (ODoH): A Practical Privacy Enhancement to DNS. CoRR abs/2011.10121 (2020) - [i10]Bastiaan Wissingh, Christopher A. Wood, Alexander Afanasyev, Lixia Zhang, David Oran, Christian F. Tschudin:
Information-Centric Networking (ICN): Content-Centric Networking (CCNx) and Named Data Networking (NDN) Terminology. RFC 8793: 1-17 (2020) - [i9]Theresa Enghardt, Tommy Pauly, Colin Perkins, Kyle Rose, Christopher A. Wood:
A Survey of the Interaction between Security Protocols and Transport Services. RFC 8922: 1-19 (2020) - [i8]Cas Cremers, Luke Garratt, Stanislav Smyshlyaev, Nick Sullivan, Christopher A. Wood:
Randomness Improvements for Security Protocols. RFC 8937: 1-9 (2020)
2010 – 2019
- 2019
- [j4]Gergely Ács, Mauro Conti, Paolo Gasti, Cesar Ghali, Gene Tsudik, Christopher A. Wood:
Privacy-Aware Caching in Information-Centric Networking. IEEE Trans. Dependable Secur. Comput. 16(2): 313-328 (2019) - [i7]Marc Mosko, Ignacio Solis, Christopher A. Wood:
Content-Centric Networking (CCNx) Semantics. RFC 8569: 1-40 (2019) - [i6]Marc Mosko, Ignacio Solis, Christopher A. Wood:
Content-Centric Networking (CCNx) Messages in TLV Format. RFC 8609: 1-46 (2019) - 2017
- [b1]Christopher A. Wood:
Security and Privacy Challenges in Content-Centric Networks. University of California, Irvine, USA, 2017 - [j3]Edith C. H. Ngai, Börje Ohlman, Gene Tsudik, Ersin Uzun, Matthias Wählisch, Christopher A. Wood:
Can We Make a Cake and Eat it Too? A Discussion of ICN Security and Privacy. Comput. Commun. Rev. 47(1): 49-54 (2017) - [c22]Cesar Ghali, Gene Tsudik, Christopher A. Wood:
When encryption is not enough: privacy attacks in content-centric networking. ICN 2017: 1-10 - [c21]Marc Mosko, Christopher A. Wood:
Secure off-path replication in content-centric networks. ICC 2017: 1-7 - [c20]Cesar Ghali, Gene Tsudik, Ersin Uzun, Christopher A. Wood:
Closing the Floodgate with Stateless Content-Centric Networking. ICCCN 2017: 1-10 - [c19]Cesar Ghali, Gene Tsudik, Christopher A. Wood:
Mitigating On-Path Adversaries in Content-Centric Networks. LCN 2017: 27-34 - [c18]Ivan Oliveira Nunes, Gene Tsudik, Christopher A. Wood:
Namespace Tunnels in Content-Centric Networks. LCN 2017: 35-42 - [c17]Marc Mosko, Ersin Uzun, Christopher A. Wood:
Mobile sessions in content-centric networks. Networking 2017: 1-9 - [c16]Christopher A. Wood:
Protecting the long tail: Transparent packet security in content-centric networks. Networking 2017: 1-9 - [i5]Marc Mosko, Ignacio Solis, Christopher A. Wood:
Content-Centric Networking - Architectural Overview and Protocol Description. CoRR abs/1706.07165 (2017) - 2016
- [c15]Cesar Ghali, Gene Tsudik, Christopher A. Wood:
Network Names in Content-Centric Networking. ICN 2016: 132-141 - [c14]Gene Tsudik, Ersin Uzun, Christopher A. Wood:
AC3N: Anonymous communication in Content-Centric Networking. CCNC 2016: 988-991 - [c13]Christian F. Tschudin, Ersin Uzun, Christopher A. Wood:
Trust in Information-Centric Networking: From Theory to Practice. ICCCN 2016: 1-9 - [c12]Cesar Ghali, Gene Tsudik, Christopher A. Wood:
BEAD: Best effort autonomous deletion in content-centric networking. Networking 2016: 180-188 - [c11]Cesar Ghali, Gene Tsudik, Christopher A. Wood, Edmund Yeh:
Practical accounting in content-centric networking. NOMS 2016: 436-444 - [c10]Cesar Ghali, Gene Tsudik, Christopher A. Wood:
(The Futility of) Data Privacy in Content-Centric Networking. WPES@CCS 2016: 143-152 - 2015
- [j2]Christopher A. Wood, Jobby Jacob:
A complete L(2, 1) span characterization for small trees. AKCE Int. J. Graphs Comb. 12(1): 26-31 (2015) - [c9]Cesar Ghali, Marc A. Schlosberg, Gene Tsudik, Christopher A. Wood:
Interest-Based Access Control for Content Centric Networks. ICN 2015: 147-156 - [c8]Marc Mosko, Glenn Scott, Ignacio Solis, Christopher A. Wood:
Secure Name Configuration and Prefix Registration. ICN 2015: 197-198 - [c7]Glenn Scott, Christopher A. Wood:
A Network-Agnostic Data Framework and API for CCN. ICN 2015: 199-200 - [c6]Marc Mosko, Christopher A. Wood:
Secure Fragmentation for Content Centric Networking. MASS 2015: 506-512 - [c5]Christopher A. Wood, Stanislaw P. Radziszowski, Marcin Lukowiak:
Constructing large S-boxes with area minimized implementations. MILCOM 2015: 49-54 - [c4]Cesar Ghali, Ashok Narayanan, David Oran, Gene Tsudik, Christopher A. Wood:
Secure Fragmentation for Content-Centric Networks. NCA 2015: 47-56 - [c3]Jun Kurihara, Ersin Uzun, Christopher A. Wood:
An encryption-based access control framework for content-centric networking. Networking 2015: 1-9 - [i4]Cesar Ghali, Marc A. Schlosberg, Gene Tsudik, Christopher A. Wood:
Interest-Based Access Control for Content Centric Networks (extended version). CoRR abs/1505.06258 (2015) - [i3]Cesar Ghali, Gene Tsudik, Christopher A. Wood, Edmund Yeh:
Practical Accounting in Content-Centric Networking (extended version). CoRR abs/1510.01852 (2015) - [i2]Cesar Ghali, Gene Tsudik, Christopher A. Wood:
BEAD: Best Effort Autonomous Deletion in Content-Centric Networking. CoRR abs/1512.07311 (2015) - [i1]Cesar Ghali, Gene Tsudik, Ersin Uzun, Christopher A. Wood:
Living in a PIT-less World: A Case Against Stateful Forwarding in Content-Centric Networking. CoRR abs/1512.07755 (2015) - 2014
- [j1]Marcin Lukowiak, Stanislaw P. Radziszowski, James R. Vallino, Christopher A. Wood:
Cybersecurity Education: Bridging the Gap Between Hardware and Software Domains. ACM Trans. Comput. Educ. 14(1): 2:1-2:20 (2014) - [c2]Sam Skalicky, Sonia López, Marcin Lukowiak, Christopher A. Wood:
Mission control: A performance metric and analysis of control logic for pipelined architectures on FPGAs. ReConFig 2014: 1-6 - 2013
- [c1]Sam Skalicky, Christopher A. Wood, Marcin Lukowiak, Matthew Ryan:
High level synthesis: Where are we? A case study on matrix multiplication. ReConFig 2013: 1-7
Coauthor Index
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last updated on 2024-12-10 20:49 CET by the dblp team
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