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Philip Koopman
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- affiliation: Carnegie Mellon University, Pittsburgh, USA
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2020 – today
- 2024
- [j20]Philip Koopman, William H. Widen:
Safety Ethics for Design and Test of Automated Driving Features. IEEE Des. Test 41(1): 17-24 (2024) - [c63]Casidhe Hutchison, Milda Zizyte, David Guttendorf, Claire Le Goues, Philip Koopman:
Active Learning Omnivariate Decision Trees for Fault Diagnosis in Robotic Systems. DSN-S 2024: 118-124 - [c62]Philip Koopman:
Anatomy of a Robotaxi Crash: Lessons from the Cruise Pedestrian Dragging Mishap. SAFECOMP 2024: 119-133 - [c61]Philip Koopman, William H. Widen:
Redefining Safety for Autonomous Vehicles. SAFECOMP 2024: 300-314 - [i8]Philip Koopman:
Anatomy of a Robotaxi Crash: Lessons from the Cruise Pedestrian Dragging Mishap. CoRR abs/2402.06046 (2024) - [i7]Philip Koopman, William H. Widen:
Redefining Safety for Autonomous Vehicles. CoRR abs/2404.16768 (2024) - [i6]Philip Koopman:
Lessons from the Cruise Robotaxi Pedestrian Dragging Mishap. CoRR abs/2406.05281 (2024) - [i5]Elena Troubitsyna, Ignacio J. Alvarez, Philip Koopman, Mario Trapp:
Methods and Tools for the Engineering and Assurance of Safe Autonomous Systems (Dagstuhl Seminar 24151). Dagstuhl Reports 14(4): 23-41 (2024) - 2023
- [j19]Philip Koopman:
UL 4600: What to Include in an Autonomous Vehicle Safety Case. Computer 56(5): 101-104 (2023) - [c60]Philip Koopman, William H. Widen:
A Reasonable Driver Standard for Automated Vehicle Safety. SAFECOMP Workshops 2023: 355-361 - [i4]Philip Koopman:
Large-Block Modular Addition Checksum Algorithms. CoRR abs/2302.13432 (2023) - [i3]Philip Koopman:
An Improved Modular Addition Checksum Algorithm. CoRR abs/2304.13496 (2023) - 2022
- [c59]Philip Koopman:
Keynote 1: How Safe Is Safe Enough for Autonomous Vehicles? ISSRE Workshops 2022: xxviii - 2021
- [j18]Philip Koopman, Benjamin Kuipers, William H. Widen, Marilyn Wolf:
Ethics, Safety, and Autonomous Vehicles. Computer 54(12): 28-37 (2021) - [j17]Zachary Pezzementi, Trenton Tabor, Jonathan K. Chang, Carter Tiernan, Bill Drozd, Eric M. Sample, Chris Hazard, Michael Wagner, Philip Koopman:
Perception robustness testing at different levels of generality. Field Robotics 1(1): 253-286 (2021) - [c58]Milda Zizyte, Casidhe Hutchison, Raewyn Duvall, Claire Le Goues, Philip Koopman:
The Importance of Safety Invariants in Robustness Testing Autonomy Systems. DSN (Supplements) 2021: 41-44 - 2020
- [c57]Deborah S. Katz, Milda Zizyte, Casidhe Hutchison, David Guttendorf, Patrick E. Lanigan, Eric M. Sample, Philip Koopman, Michael Wagner, Claire Le Goues:
Robustness Inside Out Testing. DSN (Supplements) 2020: 1-4 - [c56]Philip Koopman, Michael Wagner:
Positive Trust Balance for Self-driving Car Deployment. SAFECOMP Workshops 2020: 351-357 - [i2]Philip Koopman, Michael Wagner:
Positive Trust Balance for Self-Driving Car Deployment. CoRR abs/2009.05801 (2020)
2010 – 2019
- 2019
- [c55]Philip Koopman, Frank Fratrik:
How Many Operational Design Domains, Objects, and Events? SafeAI@AAAI 2019 - [c54]Philip Koopman, Beth Osyk, Jack Weast:
Autonomous Vehicles Meet the Physical World: RSS, Variability, Uncertainty, and Proving Safety. SAFECOMP 2019: 245-253 - [c53]Philip Koopman, Uma Ferrell, Frank Fratrik, Michael Wagner:
A Safety Standard Approach for Fully Autonomous Vehicles. SAFECOMP Workshops 2019: 326-332 - [i1]Philip Koopman, Beth Osyk, Jack Weast:
Autonomous Vehicles Meet the Physical World: RSS, Variability, Uncertainty, and Proving Safety (Expanded Version). CoRR abs/1911.01207 (2019) - 2018
- [j16]Philip Koopman:
Righting Wrongs [Letter to the Editor]. IEEE Consumer Electron. Mag. 7(1): 6 (2018) - [c52]Casidhe Hutchison, Milda Zizyte, Patrick E. Lanigan, David Guttendorf, Michael Wagner, Claire Le Goues, Philip Koopman:
Robustness testing of autonomy software. ICSE (SEIP) 2018: 276-285 - [c51]Philip Koopman:
Practical Experience Report: Automotive Safety Practices vs. Accepted Principles. SAFECOMP 2018: 3-11 - [c50]Zachary Pezzementi, Trenton Tabor, Samuel Yim, Jonathan K. Chang, Bill Drozd, David Guttendorf, Michael Wagner, Philip Koopman:
Putting Image Manipulations in Context: Robustness Testing for Safe Perception. SSRR 2018: 1-8 - 2017
- [j15]Philip Koopman, Michael Wagner:
Autonomous Vehicle Safety: An Interdisciplinary Challenge. IEEE Intell. Transp. Syst. Mag. 9(1): 90-96 (2017) - [c49]Philip Koopman:
Challenges in Autonomous Vehicle Validation: Keynote Presentation Abstract. SCAV@CPSWeek 2017: 3 - 2015
- [c48]Paul Vernaza, David Guttendorf, Michael Wagner, Philip Koopman:
Learning product set models of fault triggers in high-dimensional software interfaces. IROS 2015: 3506-3511 - [c47]Aaron Kane, Omar Chowdhury, Anupam Datta, Philip Koopman:
A Case Study on Runtime Monitoring of an Autonomous Research Vehicle (ARV) System. RV 2015: 102-117 - 2014
- [c46]Aaron Kane, Thomas E. Fuhrman, Philip Koopman:
Monitor Based Oracles for Cyber-Physical System Testing: Practical Experience Report. DSN 2014: 148-155 - 2013
- [j14]Philip Koopman, Christopher Szilagyi:
Integrity in Embedded Control Networks. IEEE Secur. Priv. 11(3): 61-63 (2013) - [c45]Aaron Kane, Philip Koopman:
Ride-through for Autonomous Vehicles. CARS@SAFECOMP 2013 - 2012
- [e2]Robert S. Swarz, Philip Koopman, Michel Cukier:
IEEE/IFIP International Conference on Dependable Systems and Networks, DSN 2012, Boston, MA, USA, June 25-28, 2012. IEEE Computer Society 2012, ISBN 978-1-4673-1624-8 [contents] - 2010
- [b1]Philip Koopman:
Better Embedded System Software. Drumnadrochit Press 2010, ISBN 978-0-9844490-0-2, pp. I-XXVI, 1-368 - [j13]Ahmed Abdallah, Eric M. Feron, Graham R. Hellestrand, Philip J. Koopman Jr., Marilyn Wolf:
Hardware/Software Codesign of Aerospace and Automotive Systems. Proc. IEEE 98(4): 584-602 (2010) - [c44]Christopher Szilagyi, Philip Koopman:
Low cost multicast authentication via validity voting in time-triggered embedded control networks. WESS 2010: 10 - [c43]Philip Koopman:
Risk areas in embedded software industry projects. WESE 2010: 5 - [c42]Philip Koopman, Justin Ray:
Mitigating the Effects of Internet Timing Faults Across Embedded Network Gateways. MMB/DFT 2010: 1
2000 – 2009
- 2009
- [j12]Theresa C. Maxino, Philip J. Koopman Jr.:
The Effectiveness of Checksums for Embedded Control Networks. IEEE Trans. Dependable Secur. Comput. 6(1): 59-72 (2009) - [c41]Christopher Szilagyi, Philip Koopman:
Flexible multicast authentication for time-triggered embedded control network applications. DSN 2009: 165-174 - [c40]Justin Ray, Philip Koopman:
Data management mechanisms for embedded system gateways. DSN 2009: 175-184 - [c39]Jennifer Black, Philip Koopman:
System safety as an emergent property in composite systems. DSN 2009: 369-378 - 2008
- [c38]Philip Koopman, Henrique Madeira:
Message from the conference general chair and coordinator. DSN 2008 - [c37]Jennifer Black, Philip Koopman:
Indirect Control Path Analysis and Goal Coverage Strategies for Elaborating System Safety Goals in Composite Systems. PRDC 2008: 184-191 - 2007
- [c36]Philip Koopman:
Reliability, Safety, and Security in Everyday Embedded Systems (Extended Abstract). LADC 2007: 1-2 - 2006
- [c35]Justin Ray, Philip Koopman:
Efficient High Hamming Distance CRCs for Embedded Networks. DSN 2006: 3-12 - 2005
- [j11]Jennifer Morris, Philip Koopman:
Representing design tradeoffs in safety-critical systems. ACM SIGSOFT Softw. Eng. Notes 30(4): 1-5 (2005) - [j10]Philip Koopman, Howie Choset, Rajeev Gandhi, Bruce H. Krogh, Diana Marculescu, Priya Narasimhan, JoAnn M. Paul, Ragunathan Rajkumar, Daniel P. Siewiorek, Asim Smailagic, Peter Steenkiste, Donald E. Thomas, Chenxi Wang:
Undergraduate embedded system education at Carnegie Mellon. ACM Trans. Embed. Comput. Syst. 4(3): 500-528 (2005) - [c34]Michael Paulitsch, Jennifer Morris, Brendan Hall, Kevin Driscoll, Elizabeth Latronico, Philip Koopman:
Coverage and the Use of Cyclic Redundancy Codes in Ultra-Dependable Systems. DSN 2005: 346-355 - [c33]Elizabeth Latronico, Philip Koopman:
Design Time Reliability Analysis of Distributed Fault Tolerance Algorithms. DSN 2005: 486-495 - [c32]Jennifer Morris, Philip Koopman:
Representing design tradeoffs in safety-critical systems. WADS@ICSE 2005: 2:1-2:5 - 2004
- [j9]Philip Koopman:
Embedded System Security. Computer 37(7): 95-97 (2004) - [c31]Philip Koopman, Tridib Chakravarty:
Cyclic Redundancy Code (CRC) Polynomial Selection For Embedded Networks. DSN 2004: 145- - [c30]Elizabeth Latronico, Paul S. Miner, Philip Koopman:
Quantifying the Reliability of Proven SPIDER Group Membership Service Guarantees. DSN 2004: 275-284 - [c29]Charles P. Shelton, Philip Koopman:
Improving System Dependability with Functional Alternatives. DSN 2004: 295- - [c28]Jennifer Morris, Daniel Kroening, Philip Koopman:
Fault Tolerance Tradeoffs in Moving from Decentralized to Centralized Embedded Systems. DSN 2004: 377- - [c27]Christopher Martin, Philip Koopman:
Representing User Workarounds as a Component of System Dependability. PRDC 2004: 353-362 - [c26]Orna Raz, Rebecca B. Buchheit, Mary Shaw, Philip Koopman, Christos Faloutsos:
Automated Assistance for Eliciting User Expectations. SEKE 2004: 80-85 - 2003
- [j8]Philip Koopman, Robert R. Hoffman:
Work-arounds, Make-work, and Kludges. IEEE Intell. Syst. 18(6): 70-75 (2003) - [c25]Charles P. Shelton, Philip Koopman, William Nace:
A Framework for Scalable Analysis and Design of System-wide Graceful Degradation in Distributed Embedded Systems. WORDS 2003: 156-163 - 2002
- [j7]Philip Koopman:
Guest Editor's Introduction: Critical Embedded Automotive Networks. IEEE Micro 22(4): 14-18 (2002) - [c24]John DeVale, Philip Koopman:
Robust Software - No More Excuses. DSN 2002: 145-154 - [c23]Ravishankar K. Iyer, Zbigniew Kalbarczyk, Philip Koopman, Henrique Madeira, Gunter Heiner, Karama Kanoun, Haim Levendel, Brendan Murphy, Lawrence G. Votta, Don Wilson:
Joint Panel - IPDS and Workshop on Dependability Benchmarking. DSN 2002 - [c22]Philip Koopman:
32-Bit Cyclic Redundancy Codes for Internet Applications. DSN 2002: 459-472 - [c21]Philip Koopman, Henrique Madeira:
Workshop on Dependability Benchmarking. DSN 2002: 790-791 - [c20]Charles P. Shelton, Philip Koopman:
Using Architectural Properties to Model and Measure Graceful Degradation. WADS 2002: 267-289 - [c19]Orna Raz, Philip Koopman, Mary Shaw:
Semantic anomaly detection in online data sources. ICSE 2002: 302-312 - [c18]Meredith Beveridge, Philip Koopman:
Jini Meets Embedded Control Networking: A Case Study in Portability Failure. WORDS 2002: 11-18 - [c17]Orna Raz, Philip Koopman, Mary Shaw:
Enabling automatic adaptation in systems with under-specified elements. WOSS 2002: 55-60 - 2001
- [c16]Jiantao Pan, Philip Koopman, Daniel P. Siewiorek, Yennun Huang, Robert Gruber, Mimi Ling Jiang:
Robustness Testing and Hardening of CORBA ORB Implementations. DSN 2001: 141-150 - [c15]John DeVale, Philip Koopman:
Performance Evaluation of Exception Handling in I/O Libraries. DSN 2001: 519 - [c14]Elizabeth Latronico, Philip Koopman:
Representing Embedded System Sequence Diagrams as a Formal Language. UML 2001: 302-316 - 2000
- [j6]Phil Koopman, John DeVale:
The Exception Handling Effectiveness of POSIX Operating Systems. IEEE Trans. Software Eng. 26(9): 837-848 (2000) - [c13]Sharad Malik, D. K. Arvind, Edward A. Lee, Phil Koopman, Alberto L. Sangiovanni-Vincentelli, Wayne H. Wolf:
Embedded systems education (panel abstract). DAC 2000: 519 - [c12]Charles P. Shelton, Philip Koopman, Kobey Devale:
Robustness Testing of the Microsoft Win32 API. DSN 2000: 261-270 - [c11]William Nace, Phil Koopman:
A Product Family Approach to Graceful Degradation. DIPES 2000: 131-140
1990 – 1999
- 1999
- [c10]Philip Koopman, John DeVale:
Comparing the Robustness of POSIX Operating Systems. FTCS 1999: 30-37 - [c9]Carol L. Hoover, Jeffery P. Hansen, Philip Koopman, Sandeep Tamboli:
The Amaranth Framework: Probabilistic, Utility-Based Quality of Service Management for High-Assurance Computing. HASE 1999: 207-216 - [c8]Kimberly Fernsler, Philip Koopman:
Robustness testing of a distributed simulation backplane. ISSRE 1999: 189-198 - [c7]Arjun Cholkar, Philip Koopman:
A widely deployable Web-based network simulation framework using CORBA IDL-based APIs. WSC 1999: 1587-1594 - 1998
- [j5]Philip Koopman:
Using CAD Tools for Embedded System Design: Obstacles Encountered in an Automotive Case Study. Integr. Comput. Aided Eng. 5(1): 85-94 (1998) - [j4]Philip Koopman, Michelle Bayouth:
Orthogonal Capability Building Blocks for Flexible AHS Deployment. J. Intell. Transp. Syst. 4(1-2): 1-19 (1998) - [c6]Nathan P. Kropp, Philip J. Koopman Jr., Daniel P. Siewiorek:
Automated Robustness Testing of Off-the-Shelf Software Components. FTCS 1998: 230-239 - 1997
- [c5]Philip J. Koopman Jr., John Sung, Christopher P. Dingman, Daniel P. Siewiorek, Ted Marz:
Comparing Operating Systems Using Robustness Benchmarks. SRDS 1997: 72-79 - 1996
- [c4]Philip Koopman:
Embedded System Design Issues (The Rest of the Story). ICCD 1996: 310-317 - 1992
- [j3]William F. Keown Jr., Philip J. Koopman Jr., Aaron Collins:
Performance of the HARRIS RTX 2000 Stack Architecture versus the Sun 4 SPARC and the Sun 3 M68020 Architectures. SIGARCH Comput. Archit. News 20(3): 45-52 (1992) - [j2]William F. Keown Jr., Philip J. Koopman Jr., Aaron Collins:
Real-Time Performance of the HARRIS RTX 2000 Stack Architecture Versus the Sun 4 SPARC and the Sun 3 M68020 Architectures With a Proposed Real-Time Performance BenchMark. SIGMETRICS Perform. Evaluation Rev. 19(4): 40-48 (1992) - [j1]Philip J. Koopman Jr., Peter Lee, Daniel P. Siewiorek:
Cache Behavior of Combinator Graph Reduction. ACM Trans. Program. Lang. Syst. 14(2): 265-297 (1992) - 1991
- [c3]Philip J. Koopman Jr.:
Embedded control as a path to Forth acceptance. FORTH 1991: 23-26 - [e1]Philip J. Koopman Jr., Howard Harkness, Paul Snow:
Proceedings of the Second and Third annual Workshops on Forth, FORTH 1990 and 1991, San Antonio, Texas, USA. ACM 1991, ISBN 978-0-89791-462-8 [contents] - 1990
- [c2]Philip J. Koopman Jr., Peter Lee, Daniel P. Siewiorek:
Cache Performance of Combinator Graph Reduction. ICCL 1990: 39-48
1980 – 1989
Coauthor Index
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last updated on 2024-10-09 21:30 CEST by the dblp team
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