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David A. Naumann
Person information
- affiliation: Stevens Institute of Technology, NJ, USA
Other persons with a similar name
- J. David Naumann (aka: Justus D. Naumann) — University of Minnesota, Carlson School of Management, Minneapolis, MN, USA
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2020 – today
- 2024
- [c61]Ramana Nagasamudram, Lennart Beringer, Ken Birman, Mae Milano, David A. Naumann:
Verifying a C Implementation of Derecho's Coordination Mechanism Using VST and Coq. NFM 2024: 99-117 - 2023
- [j25]Frederico Ramos, Nuno Sabino, Pedro Adão, David A. Naumann, José Fragoso Santos:
Toward Tool-Independent Summaries for Symbolic Execution (Artifact). Dagstuhl Artifacts Ser. 9(2): 07:1-07:4 (2023) - [j24]Stefano Calzavara, David A. Naumann:
Special issue: 35th IEEE Computer Security Symposium - CSF 2022. J. Comput. Secur. 31(5): 419-420 (2023) - [j23]Timos Antonopoulos, Eric Koskinen, Ton Chanh Le, Ramana Nagasamudram, David A. Naumann, Minh Ngo:
An Algebra of Alignment for Relational Verification. Proc. ACM Program. Lang. 7(POPL): 573-603 (2023) - [c60]Toby Murray, Mukesh Tiwari, Gidon Ernst, David A. Naumann:
Assume but Verify: Deductive Verification of Leaked Information in Concurrent Applications. CCS 2023: 1746-1760 - [c59]Frederico Ramos, Nuno Sabino, Pedro Adão, David A. Naumann, José Fragoso Santos:
Toward Tool-Independent Summaries for Symbolic Execution. ECOOP 2023: 24:1-24:29 - [c58]Ramana Nagasamudram, Anindya Banerjee, David A. Naumann:
The WhyRel Prototype for Modular Relational Verification of Pointer Programs. TACAS (2) 2023: 133-151 - [i19]Ramana Nagasamudram, Anindya Banerjee, David A. Naumann:
The WhyRel Prototype for Relational Verification. CoRR abs/2303.14314 (2023) - [i18]Ramana Nagasamudram, Anindya Banerjee, David A. Naumann:
Alignment complete relational Hoare logics for some and all. CoRR abs/2307.10045 (2023) - [i17]Toby Murray, Mukesh Tiwari, Gidon Ernst, David A. Naumann:
Assume but Verify: Deductive Verification of Leaked Information in Concurrent Applications (Extended Version). CoRR abs/2309.03442 (2023) - 2022
- [j22]Anindya Banerjee, Ramana Nagasamudram, David A. Naumann, Mohammad Nikouei:
A Relational Program Logic with Data Abstraction and Dynamic Framing. ACM Trans. Program. Lang. Syst. 44(4): 25:1-25:136 (2022) - [i16]Timos Antonopoulos, Eric Koskinen, Ton Chanh Le, Ramana Nagasamudram, David A. Naumann, Minh Ngo:
An algebra of alignment for relational verification. CoRR abs/2202.04278 (2022) - [i15]Anindya Banerjee, Ramana Nagasamudram, David A. Naumann:
Making Relational Hoare Logic Alignment Complete. CoRR abs/2212.10338 (2022) - 2021
- [c57]Ramana Nagasamudram, David A. Naumann:
Alignment Completeness for Relational Hoare Logics. LICS 2021: 1-13 - [i14]Ramana Nagasamudram, David A. Naumann:
Alignment Completeness for Relational Hoare Logics. CoRR abs/2101.11730 (2021) - 2020
- [c56]Minh Ngo, David A. Naumann, Tamara Rezk:
Type-Based Declassification for Free. ICFEM 2020: 181-197 - [c55]David A. Naumann:
Thirty-Seven Years of Relational Hoare Logic: Remarks on Its Principles and History. ISoLA (2) 2020: 93-116 - [c54]Andrew W. Appel, David A. Naumann:
Verified sequential Malloc/Free. ISMM 2020: 48-59 - [i13]David A. Naumann:
Thirty-seven years of relational Hoare logic: remarks on its principles and history. CoRR abs/2007.06421 (2020)
2010 – 2019
- 2019
- [c53]David A. Naumann, Minh Ngo:
Whither Specifications as Programs. UTP 2019: 39-61 - [i12]Minh Ngo, David A. Naumann, Tamara Rezk:
Typed-based Relaxed Noninterference for Free. CoRR abs/1905.00922 (2019) - [i11]David A. Naumann:
Whither Programs as Specifications. CoRR abs/1906.03557 (2019) - [i10]Anindya Banerjee, Ramana Nagasamudram, David A. Naumann, Mohammad Nikouei:
Data Abstraction and Relational Program Logic. CoRR abs/1910.14560 (2019) - 2018
- [j21]Anindya Banerjee, David A. Naumann, Mohammad Nikouei:
A Logical Analysis of Framing for Specifications with Pure Method Calls. ACM Trans. Program. Lang. Syst. 40(2): 6:1-6:90 (2018) - [c52]Andrey Chudnov, David A. Naumann:
Assuming You Know: Epistemic Semantics of Relational Annotations for Expressive Flow Policies. CSF 2018: 189-203 - 2017
- [c51]Mounir Assaf, David A. Naumann, Julien Signoles, Eric Totel, Frédéric Tronel:
Hypercollecting semantics and its application to static analysis of information flow. POPL 2017: 874-887 - [c50]Gary T. Leavens, David A. Naumann:
An Illustrated Guide to the Model Theory of Supertype Abstraction and Behavioral Subtyping. SETSS 2017: 39-88 - [c49]Julian Sexton, Andrey Chudnov, David A. Naumann:
Spartan Jester: End-to-End Information Flow Control for Hybrid Android Applications. IEEE Symposium on Security and Privacy Workshops 2017: 157-162 - 2016
- [j20]David A. Naumann:
Towards patterns for heaps and imperative lambdas. J. Log. Algebraic Methods Program. 85(5): 1038-1056 (2016) - [c48]Mounir Assaf, David A. Naumann:
Calculational Design of Information Flow Monitors. CSF 2016: 210-224 - [c47]Anindya Banerjee, David A. Naumann, Mohammad Nikouei:
Relational Logic with Framing and Hypotheses. FSTTCS 2016: 11:1-11:16 - [c46]Gary T. Leavens, David A. Naumann, Hridesh Rajan, Tomoyuki Aotani:
Specifying and Verifying Advanced Control Features. ISoLA (2) 2016: 80-96 - [i9]Mounir Assaf, David A. Naumann:
Calculational Design of Information Flow Monitors (extended version). CoRR abs/1605.02778 (2016) - [i8]Mounir Assaf, David A. Naumann, Julien Signoles, Eric Totel, Frédéric Tronel:
Hypercollecting Semantics and its Application to Static Analysis of Information Flow. CoRR abs/1608.01654 (2016) - [i7]Anindya Banerjee, David A. Naumann, Mohammad Nikouei:
Relational Logic with Framing and Hypotheses: Technical Report. CoRR abs/1611.08992 (2016) - 2015
- [j19]Gary T. Leavens, David A. Naumann:
Behavioral Subtyping, Specification Inheritance, and Modular Reasoning. ACM Trans. Program. Lang. Syst. 37(4): 13:1-13:88 (2015) - [c45]Andrey Chudnov, David A. Naumann:
Inlined Information Flow Monitoring for JavaScript. CCS 2015: 629-643 - [e4]David A. Naumann:
Unifying Theories of Programming - 5th International Symposium, UTP 2014, Singapore, May 13, 2014, Revised Selected Papers. Lecture Notes in Computer Science 8963, Springer 2015, ISBN 978-3-319-14805-2 [contents] - [i6]David A. Naumann:
Towards Patterns for Heaps and Imperative Lambdas. CoRR abs/1510.05527 (2015) - 2014
- [j18]François Dupressoir, Andrew D. Gordon, Jan Jürjens, David A. Naumann:
Guiding a general-purpose C verifier to prove cryptographic protocols. J. Comput. Secur. 22(5): 823-866 (2014) - [c44]Andrey Chudnov, George Kuan, David A. Naumann:
Information Flow Monitoring as Abstract Interpretation for Relational Logic. CSF 2014: 48-62 - [c43]Anindya Banerjee, David A. Naumann:
A Logical Analysis of Framing for Specifications with Pure Method Calls. VSTTE 2014: 3-20 - 2013
- [j17]Anindya Banerjee, David A. Naumann, Stan Rosenberg:
Local Reasoning for Global Invariants, Part I: Region Logic. J. ACM 60(3): 18:1-18:56 (2013) - [j16]Anindya Banerjee, David A. Naumann:
Local Reasoning for Global Invariants, Part II: Dynamic Boundaries. J. ACM 60(3): 19:1-19:73 (2013) - [c42]Giovanny Lucero, David A. Naumann, Augusto Sampaio:
Laws of Programming for References. APLAS 2013: 124-139 - [c41]Chunyu Tang, David A. Naumann, Susanne Wetzel:
Analysis of Authentication and Key Establishment in Inter-generational Mobile Telephony. HPCC/EUC 2013: 1605-1614 - [c40]Anindya Banerjee, David A. Naumann:
A Simple Semantics and Static Analysis for Stack Inspection. Festschrift for Dave Schmidt 2013: 284-308 - [p1]Anindya Banerjee, David A. Naumann:
State Based Encapsulation for Modular Reasoning about Behavior-Preserving Refactorings. Aliasing in Object-Oriented Programming 2013: 319-365 - [i5]François Dupressoir, Andrew D. Gordon, Jan Jürjens, David A. Naumann:
Guiding a General-Purpose C Verifier to Prove Cryptographic Protocols. CoRR abs/1312.6532 (2013) - [i4]Chunyu Tang, David A. Naumann, Susanne Wetzel:
Analysis of authentication and key establishment in inter-generational mobile telephony. IACR Cryptol. ePrint Arch. 2013: 227 (2013) - 2012
- [j15]David A. Naumann, Augusto Sampaio, Leila Silva:
Refactoring and representation independence for class hierarchies. Theor. Comput. Sci. 433: 60-97 (2012) - [c39]Stan Rosenberg, Anindya Banerjee, David A. Naumann:
Decision Procedures for Region Logic. VMCAI 2012: 379-395 - [e3]Rohit Gheyi, David A. Naumann:
Formal Methods: Foundations and Applications - 15th Brazilian Symposium, SBMF 2012, Natal, Brazil, September 23-28, 2012. Proceedings. Lecture Notes in Computer Science 7498, Springer 2012, ISBN 978-3-642-33295-1 [contents] - 2011
- [c38]François Dupressoir, Andrew D. Gordon, Jan Jürjens, David A. Naumann:
Guiding a General-Purpose C Verifier to Prove Cryptographic Protocols. CSF 2011: 3-17 - [c37]Chunyu Tang, David A. Naumann, Susanne Wetzel:
Symbolic Analysis for Security of Roaming Protocols in Mobile Networks - [Extended Abstract]. SecureComm 2011: 480-490 - 2010
- [c36]Andrey Chudnov, David A. Naumann:
Information Flow Monitor Inlining. CSF 2010: 200-214 - [c35]Leila Silva, David A. Naumann, Augusto Sampaio:
Refactoring and representation independence for class hierarchies: extended abstract. FTfJP@ECOOP 2010: 8:1-8:7 - [c34]David A. Naumann, Anindya Banerjee:
Dynamic Boundaries: Information Hiding by Second Order Framing with First Order Assertions. ESOP 2010: 2-22 - [c33]Stan Rosenberg, Anindya Banerjee, David A. Naumann:
Local Reasoning and Dynamic Framing for the Composite Pattern and Its Clients. VSTTE 2010: 183-198
2000 – 2009
- 2009
- [e2]Stephen Chong, David A. Naumann:
Proceedings of the 2009 Workshop on Programming Languages and Analysis for Security, PLAS 2009, Dublin, Ireland, 15-21 June, 2009. ACM 2009, ISBN 978-1-60558-645-8 [contents] - 2008
- [c32]Anindya Banerjee, David A. Naumann, Stan Rosenberg:
Regional Logic for Local Reasoning about Global Invariants. ECOOP 2008: 387-411 - [c31]Anindya Banerjee, David A. Naumann, Stan Rosenberg:
Expressive Declassification Policies and Modular Static Enforcement. SP 2008: 339-353 - [c30]Anindya Banerjee, Michael Barnett, David A. Naumann:
Boogie Meets Regions: A Verification Experience Report. VSTTE 2008: 177-191 - 2007
- [j14]David A. Naumann:
On assertion-based encapsulation for object invariants and simulations. Formal Aspects Comput. 19(2): 205-224 (2007) - [j13]David A. Naumann:
Observational purity and encapsulation. Theor. Comput. Sci. 376(3): 205-224 (2007) - [c29]Steve M. Shaner, Gary T. Leavens, David A. Naumann:
Modular verification of higher-order methods with mandatory calls specified by model programs. OOPSLA 2007: 351-368 - [c28]Anindya Banerjee, David A. Naumann, Stan Rosenberg:
Towards a logical account of declassification. PLAS 2007: 61-66 - [c27]Marco Pistoia, Anindya Banerjee, David A. Naumann:
Beyond Stack Inspection: A Unified Access-Control and Information-Flow Security Model. S&P 2007: 149-163 - 2006
- [j12]David A. Naumann, Michael Barnett:
Towards imperative modules: Reasoning about invariants and sharing of mutable state. Theor. Comput. Sci. 365(1-2): 143-168 (2006) - [c26]Alejandro Russo, John Hughes, David A. Naumann, Andrei Sabelfeld:
Closing Internal Timing Channels by Transformation. ASIAN 2006: 120-135 - [c25]David A. Naumann:
From Coupling Relations to Mated Invariants for Checking Information Flow. ESORICS 2006: 279-296 - [c24]Michael Barnett, David A. Naumann, Wolfram Schulte, Qi Sun:
Allowing State Changes in Specifications. ETRICS 2006: 321-336 - [c23]Gilles Barthe, Tamara Rezk, David A. Naumann:
Deriving an Information Flow Checker and Certifying Compiler for Java. S&P 2006: 230-242 - [c22]Michael Johnson, David A. Naumann, John Power:
Category Theoretic Models of Data Refinement. MFCSIT 2006: 21-38 - 2005
- [j11]Anindya Banerjee, David A. Naumann:
Ownership confinement ensures representation independence for object-oriented programs. J. ACM 52(6): 894-960 (2005) - [j10]Anindya Banerjee, David A. Naumann:
Stack-based access control and secure information flow. J. Funct. Program. 15(2): 131-177 (2005) - [c21]Anindya Banerjee, David A. Naumann:
State Based Ownership, Reentrance, and Encapsulation. ECOOP 2005: 387-411 - [c20]David A. Naumann:
Observational Purity and Encapsulation. FASE 2005: 190-204 - [c19]David A. Naumann:
Verifying a Secure Information Flow Analyzer. TPHOLs 2005: 211-226 - [c18]David A. Naumann:
Modular Reasoning in Object-Oriented Programming. VSTTE 2005: 105-115 - [e1]Anindya Banerjee, Heiko Mantel, David A. Naumann, Andrei Sabelfeld:
Language-Based Security, 5.-10. October 2003. Dagstuhl Seminar Proceedings 03411, IBFI, Schloss Dagstuhl, Germany 2005 [contents] - 2004
- [c17]Anindya Banerjee, David A. Naumann:
History-Based Access Control and Secure Information Flow. CASSIS 2004: 27-48 - [c16]David A. Naumann:
Assertion-Based Encapsulation, Object Invariants and Simulations. FMCO 2004: 251-273 - [c15]David A. Naumann, Michael Barnett:
Towards Imperative Modules: Reasoning about Invariants and Sharing of Mutable State. LICS 2004: 313-323 - [c14]Michael Barnett, David A. Naumann:
Friends Need a Bit More: Maintaining Invariants Over Shared State. MPC 2004: 54-84 - [c13]Qi Sun, Anindya Banerjee, David A. Naumann:
Modular and Constraint-Based Information Flow Inference for an Object-Oriented Language. SAS 2004: 84-99 - 2003
- [c12]Anindya Banerjee, David A. Naumann:
Using Access Control for Secure Information Flow in a Java-like Language. CSFW 2003: 155-169 - [c11]Dennis Hromin, Michael Chladil, Natalie Vanatta, David A. Naumann, Susanne Wetzel, Farooq Anjum, Ravi Jain:
CodeBLUE: a Bluetooth interactive dance club system. GLOBECOM 2003: 2814-2818 - [i3]Anindya Banerjee, Heiko Mantel, David A. Naumann, Andrei Sabelfeld:
03411 Final Report - Language Based Security. Language Based Security 2003 - [i2]Anindya Banerjee, Heiko Mantel, David A. Naumann, Andrei Sabelfeld:
03411 Abstracts Collection - Language Based Security. Language Based Security 2003 - 2002
- [j9]David A. Naumann:
Soundness of data refinement for a higher-order imperative language. Theor. Comput. Sci. 278(1-2): 271-301 (2002) - [c10]Anindya Banerjee, David A. Naumann:
Secure Information Flow and Pointer Confinement in a Java-like Language. CSFW 2002: 253- - [c9]Ana Cavalcanti, David A. Naumann:
Forward Simulation for Data Refinement of Classes. FME 2002: 471-490 - [c8]Anindya Banerjee, David A. Naumann:
Representation independence, confinement and access control [extended abstract]. POPL 2002: 166-177 - [i1]Anindya Banerjee, David A. Naumann:
Ownership Confinement Ensures Representation Independence for Object-Oriented Programs. CoRR cs.PL/0212003 (2002) - 2001
- [j8]David A. Naumann:
Calculating sharp adaptation rules. Inf. Process. Lett. 77(2-4): 201-208 (2001) - [j7]David A. Naumann:
Predicate transformer semantics of a higher-order imperative language with record subtyping. Sci. Comput. Program. 41(1): 1-51 (2001) - [c7]David A. Naumann:
Ideal Models for Pointwise Relational and State-Free Imperative Programming. PPDP 2001: 4-15 - 2000
- [j6]Ana Cavalcanti, David A. Naumann:
A Weakest Precondition Semantics for Refinement of Object-Oriented Programs. IEEE Trans. Software Eng. 26(8): 713-728 (2000)
1990 – 1999
- 1999
- [c6]Ana Cavalcanti, David A. Naumann:
A Weakest Precondition Semantics for an Object-Oriented Language of Refinement. World Congress on Formal Methods 1999: 1439-1459 - 1998
- [j5]David A. Naumann:
A Categorical Model for Higher Order Imperative Programming. Math. Struct. Comput. Sci. 8(4): 351-399 (1998) - [c5]David A. Naumann:
Beyond Fun: Order and Membership in Polytypic Imperative Programming. MPC 1998: 286-314 - [c4]David A. Naumann:
Towards squiggly refinement algebra. PROCOMET 1998: 346-365 - 1995
- [j4]David A. Naumann:
Data Refinement, Call by Value and Higher Order Programs. Formal Aspects Comput. 7(6): 651-662 (1995) - [j3]David A. Naumann:
Predicate Transformers and Higher-Order Programs. Theor. Comput. Sci. 150(1): 111-159 (1995) - 1994
- [j2]David A. Naumann:
A Recursion Theorem for Predicate Transformers on Inductive Data Types. Inf. Process. Lett. 50(6): 329-336 (1994) - [c3]David A. Naumann:
On the Essence of Oberon. Programming Languages and System Architectures 1994: 313-327 - [c2]David A. Naumann:
Predicate Transformer Semantics of an Oberon-Like Language. PROCOMET 1994: 467-487 - [c1]Richard T. Denman, David A. Naumann, Walter Potter, Gary Richter:
Derivation of programs for freshmen. SIGCSE 1994: 116-120 - 1991
- [j1]Raymond T. Yeh, David A. Naumann, Roland T. Mittermeir, Reinhard A. Schlemmer, William S. Gilmore, George E. Sumrall, John T. Lebaron:
A Commonsense Management Model. IEEE Softw. 8(6): 23-33 (1991)
Coauthor Index
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last updated on 2024-10-07 21:20 CEST by the dblp team
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