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ORCIDPaul S. Rosenbloom
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- affiliation: University of Southern California, Playa Vista, CA, USA
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2020 – today
- 2023
[c59]Paul S. Rosenbloom:
Rethinking the Physical Symbol Systems Hypothesis. AGI 2023: 207-216- [i4]Paul S. Rosenbloom:
Defining and Explorting the Intelligence Space. CoRR abs/2306.06499 (2023) - [i3]Paul S. Rosenbloom:
Rethinking the Physical Symbol Systems Hypothesis. CoRR abs/2306.13150 (2023) - [i2]Paul S. Rosenbloom:
Thoughts on Architecture. CoRR abs/2306.13572 (2023) - 2022
- [c58]Paul S. Rosenbloom:
Thoughts on Architecture. AGI 2022: 364-373 - 2021
- [j30]Andrea Stocco
, Catherine Sibert, Zoe Steine-Hanson, Natalie Koh, John E. Laird, Christian Lebiere, Paul S. Rosenbloom:
Analysis of the human connectome data supports the notion of a "Common Model of Cognition" for human and human-like intelligence across domains. NeuroImage 235: 118035 (2021) - [c57]Catherine Sibert, Holly Sue Hake, John E. Laird, Christian Lebiere, Paul S. Rosenbloom, Andrea Stocco:
The Role of The Basal Ganglia in the Human Cognitive Architecture: A Dynamic Causal Modeling Comparison Across Tasks and Individuals. CogSci 2021 - [i1]Volkan Ustun, Paul S. Rosenbloom, Seyed Sajjadi, Jeremy Nuttal:
Controlling Synthetic Characters in Simulations: A Case for Cognitive Architectures and Sigma. CoRR abs/2101.02231 (2021)
2010 – 2019
- 2019
- [j29]Aaron Adler, Prithviraj Dasgupta, Nick DePalma, Mohammed Eslami, Richard G. Freedman, John E. Laird, Christian Lebiere, Katrin S. Lohan, Ross Mead, Mark Roberts, Paul S. Rosenbloom, Emmanuel Senft, Frank Stein, Tom Williams, Kyle Hollins Wray, Fusun Yaman, Shlomo Zilberstein:
Reports of the 2018 AAAI Fall Symposium. AI Mag. 40(2): 66-72 (2019) - [j28]Paul S. Rosenbloom, Kenneth D. Forbus:
Expanding and Repositioning Cognitive Science. Top. Cogn. Sci. 11(4): 918-927 (2019) - [c56]Paul S. Rosenbloom:
(A)symmetry × (Non)monotonicity: Towards a Deeper Understanding of Key Cognitive Di/Trichotomies and the Common Model of Cognition. CogSci 2019: 3347 - 2018
- [j27]Arjuna Flenner, Marlena R. Fraune, Laura M. Hiatt, Tony Kendall, John E. Laird, Christian Lebiere, Paul S. Rosenbloom, Frank Stein, Elin Anna Topp, Vaibhav V. Unhelkar, Ying Zhao:
Reports of the AAAI 2017 Fall Symposium Series. AI Mag. 39(2): 81-86 (2018) - [c55]Jerald D. Kralik, Jeehang Lee, Paul S. Rosenbloom, Philip C. Jackson Jr., Susan L. Epstein, Oscar J. Romero, Ricardo Sanz, Othalia Larue, Hedda R. Schmidtke, Sang Wan Lee, Keith McGreggor:
Metacognition for a Common Model of Cognition. BICA 2018: 730-739 - [c54]Othalia Larue, Robert West, Paul S. Rosenbloom, Christopher L. Dancy, Alexei V. Samsonovich, Dean Petters, Ion Juvina:
Emotion in the Common Model of Cognition. BICA 2018: 740-746 - [c53]Andrea Stocco, John E. Laird, Christian Lebiere, Paul S. Rosenbloom:
Empirical Evidence from Neuroimaging Data for a Standard Model of the Mind. CogSci 2018 - 2017
- [j26]John E. Laird, Christian Lebiere, Paul S. Rosenbloom:
A Standard Model of the Mind: Toward a Common Computational Framework across Artificial Intelligence, Cognitive Science, Neuroscience, and Robotics. AI Mag. 38(4): 13-26 (2017) - [c52]Paul S. Rosenbloom:
Lessons from Mapping Sigma onto the Standard Model of the Mind: Self-Monitoring, Memory/Learning, and Symbols. AAAI Fall Symposia 2017: 449-454 - 2016
- [j25]Paul S. Rosenbloom, Abram Demski, Volkan Ustun:
The Sigma Cognitive Architecture and System: Towards Functionally Elegant Grand Unification. J. Artif. Gen. Intell. 7(1): 1-103 (2016) - [c51]Paul S. Rosenbloom, Abram Demski, Volkan Ustun:
Rethinking Sigma's Graphical Architecture: An Extension to Neural Networks. AGI 2016: 84-94 - 2015
- [c50]Paul S. Rosenbloom, Jonathan Gratch, Volkan Ustun:
Towards Emotion in Sigma: From Appraisal to Attention. AGI 2015: 142-151 - [c49]Cody Kommers, Volkan Ustun, Abram Demski, Paul S. Rosenbloom:
Hierarchical Reasoning with Distributed Vector Representations. CogSci 2015 - [c48]Volkan Ustun, Paul S. Rosenbloom:
Towards Adaptive, Interactive Virtual Humans in Sigma. IVA 2015: 98-108 - [c47]Volkan Ustun, Paul S. Rosenbloom, Julia Kim, Lingshan Li:
Building high fidelity human behavior models in the Sigma cognitive architecture. WSC 2015: 3124-3125 - 2014
- [j24]Gully Burns, Yolanda Gil, Yan Liu, Natalia Villanueva-Rosales, Sebastian Risi, Joel Lehman, Jeff Clune, Christian Lebiere, Paul S. Rosenbloom, Frank van Harmelen, James A. Hendler, Pascal Hitzler, Krzysztof Janowicz, Samarth Swarup:
Reports on the 2013 AAAI Fall Symposium Series. AI Mag. 35(2): 69-74 (2014) - [j23]Paul S. Rosenbloom:
Ubiquity symposium: The science in computer science: the computing sciences and STEM education. Ubiquity 2014(March): 2:1-2:8 (2014) - [c46]David V. Pynadath, Paul S. Rosenbloom, Stacy C. Marsella:
Reinforcement Learning for Adaptive Theory of Mind in the Sigma Cognitive Architecture. AGI 2014: 143-154 - [c45]Volkan Ustun, Paul S. Rosenbloom, Kenji Sagae, Abram Demski:
Distributed Vector Representations of Words in the Sigma Cognitive Architecture. AGI 2014: 196-207 - [c44]Paul S. Rosenbloom:
Deconstructing Episodic Memory and Learning in Sigma. CogSci 2014 - 2013
- [c43]Christian Lebiere, Paul S. Rosenbloom:
Organizing Committee. AAAI Fall Symposia 2013 - [c42]Christian Lebiere, Paul S. Rosenbloom:
Preface. AAAI Fall Symposia 2013 - [c41]David V. Pynadath, Paul S. Rosenbloom, Stacy C. Marsella, Lingshan Li:
Modeling Two-Player Games in the Sigma Graphical Cognitive Architecture. AGI 2013: 98-108 - 2012
- [j22]Paul S. Rosenbloom:
Computing and Computation. Comput. J. 55(7): 820-824 (2012) - [j21]Paul S. Rosenbloom:
Erratum: Computing and Computation. Comput. J. 55(10): 1266 (2012) - [j20]Paul S. Rosenbloom:
Towards a Conceptual Framework for the Digital Humanities. Digit. Humanit. Q. 6(2) (2012) - [c40]Paul S. Rosenbloom:
Graphical Models for Integrated Intelligent Robot Architectures. AAAI Spring Symposium: Designing Intelligent Robots 2012 - [c39]Paul S. Rosenbloom:
Deconstructing Reinforcement Learning in Sigma. AGI 2012: 262-271 - [c38]Paul S. Rosenbloom:
Extending Mental Imagery in Sigma. AGI 2012: 272-281 - 2011
- [j19]Paul S. Rosenbloom:
Rethinking cognitive architecture via graphical models. Cogn. Syst. Res. 12(2): 198-209 (2011) - [c37]Paul S. Rosenbloom:
Bridging Dichotomies in Cognitive Architectures for Virtual Humans. AAAI Fall Symposium: Advances in Cognitive Systems 2011 - [c36]Paul S. Rosenbloom:
From Memory to Problem Solving: Mechanism Reuse in a Graphical Cognitive Architecture. AGI 2011: 143-152 - [c35]Junda Chen, Abram Demski, Teawon Han, Louis-Philippe Morency, David V. Pynadath, Nicole Rafidi, Paul S. Rosenbloom:
Fusing Symbolic and Decision-Theoretic Problem Solving + Perception in a Graphical Cognitive Architecture. BICA 2011: 64-72 - [c34]Paul S. Rosenbloom:
Mental Imagery in a Graphical Cognitive Architecture. BICA 2011: 314-323 - 2010
- [j18]Paul S. Rosenbloom:
Ubiquity symposium 'What is computation?': Computing and computation. Ubiquity 2010(December): 1 (2010) - [c33]Paul S. Rosenbloom:
An Architectural Approach to Statistical Relational AI. StarAI@AAAI 2010 - [c32]Paul S. Rosenbloom:
Speculations on Leveraging Graphical Models for Architectural Integration of Visual Representation and Reasoning. Visual Representations and Reasoning 2010 - [c31]Paul S. Rosenbloom:
Implementing First-Order Variables in a Graphical Cognitive Architecture. BICA 2010: 119-124
2000 – 2009
- 2009
- [j17]Peter J. Denning, Paul S. Rosenbloom:
The profession of IT - Computing: the fourth great domain of science. Commun. ACM 52(9): 27-29 (2009) - [c30]Paul S. Rosenbloom:
Towards Uniform Implementation of Architectural Diversity. AAAI Fall Symposium: Multi-Representational Architectures for Human-Level Intelligence 2009 - 2006
- [c29]Peter J. Denning, Andrew D. McGettrick, Paul S. Rosenbloom, Larry Snyder:
Re-centering computer science. SIGCSE 2006: 65-66 - 2004
- [j16]Paul S. Rosenbloom:
A New Framework for Computer Science and Engineering. Computer 37(11): 23-28 (2004) - 2003
- [j15]Yigal Arens, Paul S. Rosenbloom:
Responding to the unexpected. Commun. ACM 46(9): 33-35 (2003) - [c28]Paul Scerri, David V. Pynadath, W. Lewis Johnson, Paul S. Rosenbloom, Mei Si, Nathan Schurr, Milind Tambe:
A prototype infrastructure for distributed robot-agent-person teams. AAMAS 2003: 433-440 - 2000
- [j14]Jihie Kim, Paul S. Rosenbloom:
Bounding the cost of learned rules. Artif. Intell. 120(1): 43-80 (2000) - [c27]Randall W. Hill Jr., Jonathan Gratch, Paul S. Rosenbloom:
Flexible group behavior: virtual commanders for synthetic battlespaces. Agents 2000: 31-38
1990 – 1999
- 1997
- [c26]Bonghan Cho, Paul S. Rosenbloom, Milind Tambe:
Efficient Production Match Algorithm and Its Implication for Dynamic Constraint Satisfaction Problems. AAAI/IAAI 1997: 825 - [c25]Randall W. Hill Jr., Johnny Chen, Jonathan Gratch, Paul S. Rosenbloom, Milind Tambe:
Intelligent Agents for the Synthetic Battlefield: A Company of Rotary Wing Aircraft. AAAI/IAAI 1997: 1006-1012 - 1996
- [j13]Andrew R. Golding, Paul S. Rosenbloom:
Improving Accuracy by Combining Rule-Based and Case-Based Reasoning. Artif. Intell. 87(1-2): 215-254 (1996) - [j12]Milind Tambe, Paul S. Rosenbloom:
Event Tracking in a Dynamic Multiagent Environment. Comput. Intell. 12: 499-521 (1996) - [c24]Jihie Kim, Paul S. Rosenbloom:
Learning Efficient Rules by Maintaining the Explanation Structure. AAAI/IAAI, Vol. 1 1996: 763-770 - [c23]Jihie Kim, Paul S. Rosenbloom:
A Transformational Analysis of the EBL Utility Problem. AAAI/IAAI, Vol. 2 1996: 1394 - 1995
- [j11]Milind Tambe, W. Lewis Johnson, Randolph M. Jones, Frank V. Koss, John E. Laird, Paul S. Rosenbloom, Karl Schwamb:
Intelligent Agents for Interactive Simulation Environments. AI Mag. 16(1): 15-39 (1995) - [c22]Milind Tambe, Paul S. Rosenbloom:
Architectures for Agents that Track Other Agents in Multi-Agent Worlds. ATAL 1995: 156-170 - [c21]Milind Tambe, Paul S. Rosenbloom:
RESC: An Approach for Real-time, Dynamic Agent Tracking. IJCAI 1995: 103-111 - [c20]James A. Hendler, Jaime G. Carbonell, Douglas B. Lenat, Riichiro Mizoguchi, Paul S. Rosenbloom:
VERY Large Knowledge Bases - Architecture vs Engineering. IJCAI 1995: 2033-2036 - 1994
- [j10]Milind Tambe, Paul S. Rosenbloom:
Investigating Production System Representations for Non-Combinatorial Match. Artif. Intell. 68(1): 155-199 (1994) - [c19]Milind Tambe, Paul S. Rosenbloom:
Event Tracking for an Intelligent Automated Agent. TIME 1994: 60-68 - 1993
- [j9]Paul S. Rosenbloom, John E. Laird:
On Unified Theories of Cognition: A Response to the Reviews. Artif. Intell. 59(1-2): 389-413 (1993) - [c18]Soowon Lee, Paul S. Rosenbloom:
Granularity in Multi-Method Planning. AAAI 1993: 486-491 - [c17]Milind Tambe, Paul S. Rosenbloom:
On the Masking Effect. AAAI 1993: 526-533 - [c16]Jihie Kim, Paul S. Rosenbloom:
Constraining Learning with Search Control. ICML 1993: 174-181 - 1992
- [j8]John E. Laird, Paul S. Rosenbloom:
In Pursuit of Mind: The Research of Allen Newell. AI Mag. 13(4): 17-45 (1992) - [c15]Milind Tambe, Dirk Kalp, Paul S. Rosenbloom:
An Efficient Algorithm for Production Systems with Linear-Time Match. ICTAI 1992: 36-43 - 1991
- [j7]Paul S. Rosenbloom, John E. Laird, Allen Newell, Robert McCarl:
A Preliminary Analysis of the Soar Architecture as a Basis for General Intelligence. Artif. Intell. 47(1-3): 289-325 (1991) - [j6]John E. Laird, Michael Hucka, Scott B. Huffman, Paul S. Rosenbloom:
An Analysis of Soar as an Integrated Architecture. SIGART Bull. 2(4): 98-103 (1991) - [c14]Andrew R. Golding, Paul S. Rosenbloom:
Improving Rule-Based Systems Through Case-Based Reasoning. AAAI 1991: 22-27 - 1990
- [j5]Milind Tambe, Allen Newell, Paul S. Rosenbloom:
The Problem of Expensive Chunks and its Solution by Restricting Expressiveness. Mach. Learn. 5: 299-348 (1990) - [c13]Milind Tambe, Paul S. Rosenbloom:
A Frameworkfor Investigating Production System Formulations with Polynomially Bounded Match. AAAI 1990: 693-700 - [c12]Paul S. Rosenbloom, Jans Aasman:
Knowledge Level and Inductive Uses of Chunking (EBL). AAAI 1990: 821-827 - [c11]Benjamin D. Smith, Paul S. Rosenbloom:
Incremental Non-Backtracking Focusing: A Polynomially Bounded Generalization Algorithm for Version Spaces. AAAI 1990: 848-853 - [c10]John E. Laird, Paul S. Rosenbloom:
Integrating, Execution, Planning, and Learning in Soar for External Environments. AAAI 1990: 1022-1029
1980 – 1989
- 1989
- [c9]Amy Unruh, Paul S. Rosenbloom:
Abstraction in Problem Solving and Learning. IJCAI 1989: 681-687 - [c8]Milind Tambe, Paul S. Rosenbloom:
Eliminating Expensive Chunks by Restricting Expressiveness. IJCAI 1989: 731-737 - 1988
- [c7]P. Pandurang Nayak, Anoop Gupta, Paul S. Rosenbloom:
Comparison of the Rete and Treat Production Matchers for Soar. AAAI 1988: 693-698 - 1987
- [j4]John E. Laird, Allen Newell, Paul S. Rosenbloom:
SOAR: An Architecture for General Intelligence. Artif. Intell. 33(1): 1-64 (1987) - [c6]Paul S. Rosenbloom, John E. Laird, Allen Newell:
Knowledge Level Learning in Soar. AAAI 1987: 499-504 - [c5]Andrew R. Golding, Paul S. Rosenbloom, John E. Laird:
Learning General Search Control from Outside Guidance. IJCAI 1987: 334-337 - 1986
- [j3]John E. Laird, Paul S. Rosenbloom, Allen Newell:
Chunking in Soar: The Anatomy of a General Learning Mechanism. Mach. Learn. 1(1): 11-46 (1986) - [c4]Paul S. Rosenbloom, John E. Laird:
Mapping Explanation-Based Generalization onto Soar. AAAI 1986: 561-567 - 1985
- [j2]Paul S. Rosenbloom, John E. Laird, John P. McDermott, Allen Newell, Edmund Orciuch:
R1-Soar: An Experiment in Knowledge-Intensive Programming in a Problem-Solving Architecture. IEEE Trans. Pattern Anal. Mach. Intell. 7(5): 561-569 (1985) - [c3]Bonnie E. John, Paul S. Rosenbloom, Allen Newell:
A theory of stimulus-response compatibility applied to human-computer interaction. CHI 1985: 213-219 - 1984
- [c2]John E. Laird, Paul S. Rosenbloom, Allen Newell:
Towards Chunking as a General Learning Mechanism. AAAI 1984: 188-192 - 1982
- [j1]Paul S. Rosenbloom:
A World-Championship-Level Othello Program. Artif. Intell. 19(3): 279-320 (1982) - [c1]Paul S. Rosenbloom, Allen Newell:
Learning by Chunking: Summary of a Task and a Model. AAAI 1982: 255-257
Coauthor Index
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