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ORCIDBrian Logan 0001
Brian S. Logan 0001
Person information
- affiliation: University of Aberdeen, Department of Computing Science, United Kingdom
- affiliation: Utrecht University, The Netherlands
- affiliation: University of Nottingham, School of Computer Science, United Kingdom
Other persons with the same name
- Brian Logan 0002 — Salford University, UK
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2020 – today
- 2024
[j41]Jan de Mooij, Tabea S. Sonnenschein, Marco Pellegrino, Mehdi Dastani, Dick Ettema, Brian Logan, Judith Anne Verstegen:
GenSynthPop: generating a spatially explicit synthetic population of individuals and households from aggregated data. Auton. Agents Multi Agent Syst. 38(2): 48 (2024)- [c133]Giovanni Varricchione
, Natasha Alechina, Mehdi Dastani, Giuseppe De Giacomo, Brian Logan, Giuseppe Perelli:
Pure-Past Action Masking. AAAI 2024: 21646-21655 - [c132]Giovanni Varricchione, Natasha Alechina, Mehdi Dastani, Brian Logan:
Maximally Permissive Reward Machines. ECAI 2024: 1181-1188 - [c131]Yuan Yao, Natasha Alechina, Brian Logan:
Intention Progression with Temporally Extended Goals. IJCAI 2024: 292-301 - [e4]Daniela Briola, Rafael C. Cardoso, Brian Logan:
Engineering Multi-Agent Systems - 12th International Workshop, EMAS 2024, Auckland, New Zealand, May 6-7, 2024, Revised Selected Papers. Lecture Notes in Computer Science 15152, Springer 2024, ISBN 978-3-031-71151-0 [contents] - [i10]Giovanni Varricchione, Natasha Alechina, Mehdi Dastani, Brian Logan:
Maximally Permissive Reward Machines. CoRR abs/2408.08059 (2024) - 2023
- [j40]Heshan Du, Natasha Alechina, Amin Farjudian, Brian Logan, Can Zhou, Anthony G. Cohn:
A Logic of East and West. J. Artif. Intell. Res. 76: 527-565 (2023) - [j39]Jan de Mooij, Parantapa Bhattacharya, Davide Dell'Anna, Mehdi Dastani, Brian Logan, Samarth Swarup:
A framework for modeling human behavior in large-scale agent-based epidemic simulations. Simul. 99(12): 1183-1211 (2023) - [c130]Di Wu, Yuan Yao, Natasha Alechina, Brian Logan, John Thangarajah:
Intention Progression with Maintenance Goals. AAMAS 2023: 2400-2402 - [c129]Maksim Gladyshev, Natasha Alechina, Mehdi Dastani, Dragan Doder, Brian Logan:
Dynamic Causality. ECAI 2023: 867-874 - [c128]Giovanni Varricchione, Natasha Alechina, Mehdi Dastani, Brian Logan:
Synthesising Reward Machines for Cooperative Multi-Agent Reinforcement Learning. EUMAS 2023: 328-344 - [c127]Michael Dann, Yuan Yao, Natasha Alechina, Brian Logan, Felipe Meneguzzi, John Thangarajah:
Multi-Agent Intention Recognition and Progression. IJCAI 2023: 91-99 - [c126]Nima Motamed, Natasha Alechina, Mehdi Dastani, Dragan Doder, Brian Logan:
Probabilistic Temporal Logic for Reasoning about Bounded Policies. IJCAI 2023: 3296-3303 - [c125]Davide Dell'Anna, Natasha Alechina, Fabiano Dalpiaz, Mehdi Dastani, Brian Logan:
Data-Driven Revision of Conditional Norms in Multi-Agent Systems (Extended Abstract). IJCAI 2023: 6868-6872 - 2022
- [j38]Giuseppe De Giacomo, Paolo Felli, Brian Logan, Fabio Patrizi, Sebastian Sardiña:
Situation calculus for controller synthesis in manufacturing systems with first-order state representation. Artif. Intell. 302: 103598 (2022) - [j37]Rafael C. Cardoso, Brian Logan, Felipe Meneguzzi, Nir Oren, Bruno Yun:
Resilience, reliability, and coordination in autonomous multi-agent systems. AI Commun. 35(4): 339-356 (2022) - [j36]Davide Dell'Anna, Natasha Alechina, Fabiano Dalpiaz, Mehdi Dastani, Brian Logan:
Data-Driven Revision of Conditional Norms in Multi-Agent Systems. J. Artif. Intell. Res. 75: 1549-1593 (2022) - [c124]Davide Dell'Anna, Natasha Alechina, Fabiano Dalpiaz, Mehdi Dastani, Maarten Löffler, Brian Logan:
The Complexity of Norm Synthesis and Revision. COINE 2022: 38-53 - [c123]Michael Dann, Yuan Yao, Natasha Alechina, Brian Logan, John Thangarajah:
Multi-Agent Intention Progression with Reward Machines. IJCAI 2022: 215-222 - [c122]Giuseppe De Giacomo, Paolo Felli, Brian Logan, Fabio Patrizi, Sebastian Sardiña:
Situation Calculus for Controller Synthesis in Manufacturing Systems with First-Order State Representation (Extended Abstract). IJCAI 2022: 5722-5726 - [c121]Natasha Alechina, Giuseppe De Giacomo, Brian Logan, Giuseppe Perelli:
Automatic Synthesis of Dynamic Norms for Multi-Agent Systems. KR 2022 - [e3]Natasha Alechina, Matteo Baldoni, Brian Logan:
Engineering Multi-Agent Systems - 9th International Workshop, EMAS 2021, Virtual Event, May 3-4, 2021, Revised Selected Papers. Lecture Notes in Computer Science 13190, Springer 2022, ISBN 978-3-030-97456-5 [contents] - 2021
- [j35]Jürgen Dix, Brian Logan, Michael Winikoff:
Preface to the Special Issue on engineering reliable multi-agent systems. Auton. Agents Multi Agent Syst. 35(2): 37 (2021) - [c120]Yuan Yao, Natasha Alechina, Brian Logan, John Thangarajah:
Intention Progression using Quantitative Summary Information. AAMAS 2021: 1416-1424 - [c119]Rafael H. Bordini, Amal El Fallah Seghrouchni, Koen V. Hindriks, Brian Logan, Alessandro Ricci:
Agent Programming in the Cognitive Era. AAMAS 2021: 1718-1720 - [c118]Parantapa Bhattacharya, A. Jan de Mooij, Davide Dell'Anna, Mehdi Dastani, Brian Logan, Samarth Swarup:
PanSim + Sim-2APL: A Framework for Large-Scale Distributed Simulation with Complex Agents. EMAS@AAMAS 2021: 1-21 - [c117]Michael Dann, Yuan Yao, Brian Logan, John Thangarajah:
Multi-Agent Intention Progression with Black-Box Agents. IJCAI 2021: 132-138 - [c116]Jan de Mooij, Davide Dell'Anna, Parantapa Bhattacharya, Mehdi Dastani, Brian Logan, Samarth Swarup:
Using Agent-Based Simulation to Investigate Behavioural Interventions in a Pandemic using Mobility Data. AMPM@JURIX 2021 - [c115]Jan de Mooij, Davide Dell'Anna, Parantapa Bhattacharya, Mehdi Dastani, Brian Logan, Samarth Swarup:
Quantifying the Effects of Norms on COVID-19 Cases Using an Agent-Based Simulation. MABS 2021: 99-112 - [d2]Jan de Mooij, Davide Dell'Anna, Parantapa Bhattacharya, Mehdi Dastani, Brian Logan, Samarth Swarup:
Large-scale Data-driven Agent-based Simulation of Covid-19. Zenodo, 2021
- [d1]Jan de Mooij, Davide Dell'Anna, Parantapa Bhattacharya, Mehdi Dastani, Brian Logan, Samarth Swarup:
Sim-2APL - A Practical Agent Programming Language for Simulation. Zenodo, 2021 - [i9]Davide Dell'Anna, Natasha Alechina, Brian Logan, Maarten Löffler, Fabiano Dalpiaz, Mehdi Dastani:
The Complexity of Data-Driven Norm Synthesis and Revision. CoRR abs/2112.02626 (2021) - 2020
- [j34]Rafael H. Bordini, Amal El Fallah Seghrouchni, Koen V. Hindriks, Brian Logan, Alessandro Ricci:
Agent programming in the cognitive era. Auton. Agents Multi Agent Syst. 34(2): 37 (2020) - [j33]Ahmed M. Rady, Joel E. Fischer, Stuart Reeves, Brian Logan, Nicholas James Watson:
The Effect of Light Intensity, Sensor Height, and Spectral Pre-Processing Methods When Using NIR Spectroscopy to Identify Different Allergen-Containing Powdered Foods. Sensors 20(1): 230 (2020) - [c114]Natasha Alechina, Stéphane Demri, Brian Logan:
Parameterised Resource-Bounded ATL. AAAI 2020: 7040-7046 - [c113]Michael Dann, John Thangarajah, Yuan Yao, Brian Logan:
Intention-Aware Multiagent Scheduling. AAMAS 2020: 285-293 - [c112]Natasha Alechina, Brian Logan:
State of the Art in Logics for Verification of Resource-Bounded Multi-Agent Systems. Fields of Logic and Computation III 2020: 9-29 - [c111]Joe Collenette, Brian Logan:
Multi-agent Control of Industrial Robot Vacuum Cleaners. EMAS@AAMAS 2020: 87-99 - [c110]Simon Castle-Green, Alexi Dewfall, Brian Logan:
The Intention Progression Competition. EMAS@AAMAS 2020: 144-151 - [c109]Yuan Yao, Natasha Alechina, Brian Logan, John Thangarajah:
Intention Progression under Uncertainty. IJCAI 2020: 10-16 - [c108]Lavindra de Silva, Felipe Meneguzzi, Brian Logan:
BDI Agent Architectures: A Survey. IJCAI 2020: 4914-4921 - [i8]Natasha Alechina, Joseph Y. Halpern, Brian Logan:
Causality, Responsibility and Blame in Team Plans. CoRR abs/2005.10297 (2020)
2010 – 2019
- 2019
- [j32]Lavindra de Silva, Paolo Felli, David Sanderson, Jack C. Chaplin, Brian Logan, Svetan M. Ratchev:
Synthesising process controllers from formal models of transformable assembly systems. Robotics Comput. Integr. Manuf. 58: 130-144 (2019) - [c107]Natasha Alechina, Tomás Brázdil, Giuseppe De Giacomo, Paolo Felli, Brian Logan, Moshe Y. Vardi:
Unbounded Orchestrations of Transducers for Manufacturing. AAAI 2019: 2646-2653 - [c106]Natasha Alechina, Mehdi Dastani, Brian Logan:
Decidable Model Checking with Uniform Strategies. AAMAS 2019: 170-178 - [c105]Vahid Yazdanpanah, Mehdi Dastani, Wojciech Jamroga, Natasha Alechina, Brian Logan:
Strategic Responsibility Under Imperfect Information. AAMAS 2019: 592-600 - [c104]Kwabena Amponsah, Sameh Zakhary, Darren Robinson, Paul Nathanail, Brian Logan, Peer-Olaf Siebers:
Distributed building energy simulation with the HLA. SummerSim 2019: 19:1-19:12 - [i7]Jürgen Dix, Brian Logan, Michael Winikoff:
Engineering Reliable Multiagent Systems (Dagstuhl Seminar 19112). Dagstuhl Reports 9(3): 52-63 (2019) - 2018
- [j31]Natasha Alechina, Brian Logan, Mehdi Dastani:
Modeling Norm Specification and Verification in Multiagent Systems. FLAP 5(2): 457-490 (2018) - [j30]Sam Leask, Brian Logan:
Programming Agent Deliberation Using Procedural Reflection. Fundam. Informaticae 158(1-3): 93-120 (2018) - [j29]Brian Logan:
An agent programming manifesto. Int. J. Agent Oriented Softw. Eng. 6(2): 187-210 (2018) - [j28]Natasha Alechina, Joseph Y. Halpern, Ian A. Kash, Brian Logan:
Incentive-Compatible Mechanisms for Norm Monitoring in Open Multi-Agent Systems. J. Artif. Intell. Res. 62: 433-458 (2018) - [j27]Hoang Nga Nguyen, Natasha Alechina, Brian Logan, Abdur Rakib:
Alternating-time temporal logic with resource bounds. J. Log. Comput. 28(4): 631-663 (2018) - [j26]Natasha Alechina, Fenrong Liu, Brian Logan:
Efficient minimal preference change. J. Log. Comput. 28(8): 1715-1733 (2018) - [j25]Natasha Alechina, Nils Bulling, Stéphane Demri, Brian Logan:
On the complexity of resource-bounded logics. Theor. Comput. Sci. 750: 69-100 (2018) - [c103]Giuseppe De Giacomo, Moshe Y. Vardi, Paolo Felli, Natasha Alechina, Brian Logan:
Synthesis of Orchestrations of Transducers for Manufacturing. AAAI 2018: 6161-6168 - [c102]Paolo Felli, Lavindra de Silva, Brian Logan, Svetan M. Ratchev:
Composite Capabilities for Cloud Manufacturing. AAMAS 2018: 1809-1811 - [c101]Natasha Alechina, Brian Logan:
Resource Logics with a Diminishing Resource. AAMAS 2018: 1847-1849 - [c100]Lavindra de Silva, Felipe Meneguzzi, Brian Logan:
An Operational Semantics for a Fragment of PRS. IJCAI 2018: 195-202 - [c99]Natasha Alechina, Joseph Y. Halpern, Ian A. Kash, Brian Logan:
Incentive-Compatible Mechanisms for Norm Monitoring in Open Multi-Agent Systems (Extended Abstract). IJCAI 2018: 5543-5547 - [i6]Natasha Alechina, Brian Logan:
Resource Logics with a Diminishing Resource. CoRR abs/1806.11559 (2018) - [i5]Giuseppe De Giacomo, Brian Logan, Paolo Felli, Fabio Patrizi, Sebastian Sardiña:
Situation Calculus for Synthesis of Manufacturing Controllers. CoRR abs/1807.04561 (2018) - 2017
- [j24]Natasha Alechina, Nils Bulling, Brian Logan, Hoang Nga Nguyen:
The virtues of idleness: A decidable fragment of resource agent logic. Artif. Intell. 245: 56-85 (2017) - [j23]Natasha Alechina, Brian Logan, Hoang Nga Nguyen, Franco Raimondi:
Model-checking for Resource-Bounded ATL with production and consumption of resources. J. Comput. Syst. Sci. 88: 126-144 (2017) - [j22]Natasha Alechina, Wiebe van der Hoek, Brian Logan:
Fair decomposition of group obligations. J. Log. Comput. 27(7): 2043-2062 (2017) - [c98]Natasha Alechina, Joseph Y. Halpern, Ian A. Kash, Brian Logan:
Incentivising Monitoring in Open Normative Systems. AAAI 2017: 305-311 - [c97]Dhirendra Singh, Lin Padgham, Brian Logan:
Integrating BDI Agents with Agent-Based Simulation Platforms: (JAAMAS Extended Abstract). AAMAS 2017: 249-250 - [c96]Brian Logan, John Thangarajah, Neil Yorke-Smith:
Progressing Intention Progression: A Call for a Goal-Plan Tree Contest. AAMAS 2017: 768-772 - [c95]Natasha Alechina, Joseph Y. Halpern, Brian Logan:
Causality, Responsibility and Blame in Team Plans. AAMAS 2017: 1091-1099 - [c94]Lavindra de Silva, Paolo Felli, Jack C. Chaplin, Brian Logan, David Sanderson, Svetan M. Ratchev:
Synthesising Industry-Standard Manufacturing Process Controllers. AAMAS 2017: 1811-1813 - [c93]Paolo Felli, Lavindra de Silva, Brian Logan, Svetan M. Ratchev:
Process Plan Controllers for Non-Deterministic Manufacturing Systems. IJCAI 2017: 1023-1030 - 2016
- [j21]Dhirendra Singh, Lin Padgham, Brian Logan:
Integrating BDI Agents with Agent-Based Simulation Platforms. Auton. Agents Multi Agent Syst. 30(6): 1050-1071 (2016) - [c92]Yuan Yao, Brian Logan, John Thangarajah:
Robust Execution of BDI Agent Programs by Exploiting Synergies Between Intentions. AAAI 2016: 2558-2565 - [c91]Yuan Yao, Lavindra de Silva, Brian Logan:
Reasoning About the Executability of Goal-Plan Trees. EMAS@AAMAS 2016: 176-191 - [c90]Yuan Yao, Brian Logan:
Action-Level Intention Selection for BDI Agents. AAMAS 2016: 1227-1236 - [c89]Natasha Alechina, Joseph Y. Halpern, Ian A. Kash, Brian Logan:
Decentralised Norm Monitoring in Open Multi-Agent Systems: (Extended Abstract). AAMAS 2016: 1399-1400 - [c88]Natasha Alechina, Brian Logan:
Verifying Systems of Resource-Bounded Agents. CiE 2016: 3-12 - [c87]Lavindra de Silva, Paolo Felli, Jack C. Chaplin, Brian Logan, David Sanderson, Svetan M. Ratchev:
Realisability of Production Recipes. ECAI 2016: 1449-1457 - [c86]Yuan Yao, Brian Logan, John Thangarajah:
Intention Selection with Deadlines. ECAI 2016: 1700-1701 - [c85]Natasha Alechina, Mehdi Dastani, Brian Logan:
Verifying Existence of Resource-Bounded Coalition Uniform Strategies. IJCAI 2016: 24-30 - [c84]Paolo Felli, Brian Logan, Sebastian Sardiña:
Parallel Behavior Composition for Manufacturing. IJCAI 2016: 271-278 - [c83]Natasha Alechina, Nils Bulling, Stéphane Demri, Brian Logan:
On the Complexity of Resource-Bounded Logics. RP 2016: 36-50 - [i4]Natasha Alechina, Joseph Y. Halpern, Ian A. Kash, Brian Logan:
Decentralised Norm Monitoring in Open Multi-Agent Systems. CoRR abs/1602.06731 (2016) - [i3]Natasha Alechina, Mehdi Dastani, Brian Logan:
Expressibility of norms in temporal logic. CoRR abs/1608.06787 (2016) - 2015
- [c82]Heshan Du, Hai H. Nguyen, Natasha Alechina, Brian Logan, Michael Jackson, John Goodwin:
Using Qualitative Spatial Logic for Validating Crowd-Sourced Geospatial Data. AAAI 2015: 3948-3953 - [c81]Brian Logan:
A Future for Agent Programming. EMAS@AAMAS 2015: 3-17 - [c80]Jiaqi Li, Felipe Meneguzzi, Moser Silva Fagundes, Brian Logan:
Reinforcement Learning of Normative Monitoring Intensities. COIN@AAMAS/IJCAI 2015: 209-223 - [c79]Natasha Alechina, Nils Bulling, Mehdi Dastani, Brian Logan:
Practical Run-Time Norm Enforcement with Bounded Lookahead. AAMAS 2015: 443-451 - [c78]Natasha Alechina, Brian Logan, Hoang Nga Nguyen, Franco Raimondi, Leonardo Mostarda:
Symbolic Model-checking for Resource-Bounded ATL. AAMAS 2015: 1809-1810 - [c77]Natasha Alechina, Brian Logan, Hoang Nga Nguyen, Franco Raimondi:
Symbolic Model Checking for One-Resource RB+-ATL. IJCAI 2015: 1069-1075 - [c76]Natasha Alechina, Nils Bulling, Brian Logan, Hoang Nga Nguyen:
On the Boundary of (Un)decidability: Decidable Model-Checking for a Fragment of Resource Agent Logic. IJCAI 2015: 1494-1501 - [c75]Sam Leask, Brian Logan:
Programming Deliberation Strategies in Meta-APL. PRIMA 2015: 433-448 - [i2]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Franco Raimondi:
Technical Report: Model-Checking for Resource-Bounded ATL with Production and Consumption of Resources. CoRR abs/1504.06766 (2015) - 2014
- [c74]Natasha Alechina, Mehdi Dastani, Brian Logan:
Norm approximation for imperfect monitors. AAMAS 2014: 117-124 - [c73]Thu Trang Doan, Yuan Yao, Natasha Alechina, Brian Logan:
Verifying heterogeneous multi-agent programs. AAMAS 2014: 149-156 - [c72]Felipe Meneguzzi, Brian Logan, Moser Silva Fagundes:
Norm monitoring with asymmetric information. AAMAS 2014: 1523-1524 - [c71]Jeehang Lee, Julian A. Padget, Brian Logan, Daniela Dybalova, Natasha Alechina:
Run-time norm compliance in BDI agents. AAMAS 2014: 1581-1582 - [c70]Natasha Alechina, Wiebe van der Hoek, Brian Logan:
Fair Allocation of Group Tasks According to Social Norms. CLIMA 2014: 19-34 - [c69]Jeehang Lee, Julian A. Padget, Brian Logan, Daniela Dybalova, Natasha Alechina:
N-Jason: Run-Time Norm Compliance in AgentSpeak(L). EMAS@AAMAS 2014: 367-387 - [c68]Natasha Alechina, Brian Logan, Hoang Nga Nguyen, Franco Raimondi:
Decidable Model-Checking for a Resource Logic with Production of Resources. ECAI 2014: 9-14 - [c67]Yuan Yao, Brian Logan, John Thangarajah:
SP-MCTS-based Intention Scheduling for BDI Agents. ECAI 2014: 1133-1134 - 2013
- [c66]Natasha Alechina, Tristan M. Behrens, Mehdi Dastani, Koen V. Hindriks, Jomi Fred Hübner, Brian Logan, Hai H. Nguyen, Marc van Zee:
Multi-Cycle Query Caching in Agent Programming. AAAI 2013: 32-38 - [c65]Daniela Dybalova, Bas Testerink, Mehdi Dastani, Brian Logan:
A Framework for Programming Norm-Aware Multi-agent Systems. COIN@AAMAS/PRIMA 2013: 364-380 - [c64]Natasha Alechina, Mehdi Dastani, Brian Logan:
Reasoning about Normative Update. IJCAI 2013: 20-26 - [c63]Xiaofan Liu, Natasha Alechina, Brian Logan:
Expressing User Access Authorization Exceptions in Conventional Role-Based Access Control. ISPEC 2013: 233-247 - [c62]Natasha Alechina, Fenrong Liu, Brian Logan:
Minimal Preference Change. LORI 2013: 15-26 - [p1]Natasha Alechina, Nick Bassiliades, Mehdi Dastani, Marina De Vos, Brian Logan, Sergio Mera, Andreasa Morris-Martin, Fernando Schapachnik:
Computational Models for Normative Multi-Agent Systems. Normative Multi-Agent Systems 2013: 71-92 - [e2]Mehdi Dastani, Jomi Fred Hübner, Brian Logan:
Programming Multi-Agent Systems - 10th International Workshop, ProMAS 2012, Valencia, Spain, June 5, 2012, Revised Selected Papers. Lecture Notes in Computer Science 7837, Springer 2013, ISBN 978-3-642-38699-2 [contents] - 2012
- [j20]John A. Fozard, Michael Lees, John R. King, Brian S. Logan:
Inhibition of quorum sensing in a computational biofilm simulation. Biosyst. 109(2): 105-114 (2012) - [c61]Natasha Alechina, Mehdi Dastani, Brian Logan:
Programming norm-aware agents. AAMAS 2012: 1057-1064 - [c60]Julian Zappala, Natasha Alechina, Brian Logan:
Consensus games. AAMAS 2012: 1309-1310 - [c59]Hai H. Nguyen, Natasha Alechina, Brian Logan:
Axiom Pinpointing Using an Assumption-Based Truth Maintenance System. Description Logics 2012 - [c58]Natasha Alechina, Tristan M. Behrens, Koen V. Hindriks, Brian Logan:
Query Caching in Agent Programming Languages. ProMAS 2012: 123-137 - [i1]Jürgen Dix, Koen V. Hindriks, Brian Logan, Wayne Wobcke:
Engineering Multi-Agent Systems (Dagstuhl Seminar 12342). Dagstuhl Reports 2(8): 74-98 (2012) - 2011
- [j19]Natasha Alechina, Mehdi Dastani, Brian Logan, John-Jules Ch. Meyer:
Reasoning about agent deliberation. Auton. Agents Multi Agent Syst. 22(2): 356-381 (2011) - [j18]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Abdur Rakib:
Logic for coalitions with bounded resources. J. Log. Comput. 21(6): 907-937 (2011) - [j17]Natasha Alechina, Mehdi Dastani, Brian Logan, John-Jules Ch. Meyer:
Reasoning about plan revision in BDI agent programs. Theor. Comput. Sci. 412(44): 6115-6134 (2011) - [c57]Konstantin Vikhorev, Natasha Alechina, Brian Logan:
Agent programming with priorities and deadlines. AAMAS 2011: 397-404 - 2010
- [j16]Julian Zappala, Brian Logan:
Effects of resource availability on consensus decision making in primates. Comput. Math. Organ. Theory 16(4): 400-415 (2010) - [j15]Natasha Alechina, Brian Logan:
Belief ascription under bounded resources. Synth. 173(2): 179-197 (2010) - [c56]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Abdur Rakib:
Resource-bounded alternating-time temporal logic. AAMAS 2010: 481-488 - [c55]Neil Madden, Brian Logan:
User evaluation of virtual reporting agents. FDG 2010: 5:1-5:8 - [c54]Xiaofan Liu, Natasha Alechina, Brian Logan:
Syntax and Semantics for Business Rules. KES (4) 2010: 41-50 - [c53]Natasha Alechina, Brian Logan:
Computationally Grounded Account of Belief and Awareness for AI Agents. MALLOW 2010 - [c52]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Abdur Rakib:
Automated Verification of Resource Requirements in Multi-Agent Systems Using Abstraction. MoChArt 2010: 69-84 - [c51]Daniel Kiss, Neil Madden, Brian Logan:
Atomic Intentions in Jason +. ProMAS 2010: 79-95
2000 – 2009
- 2009
- [j14]Michael Lees, Brian S. Logan, Georgios Theodoropoulos:
Analysing probabilistically constrained optimism. Concurr. Comput. Pract. Exp. 21(11): 1467-1482 (2009) - [j13]Thomas Chesney, Iain Coyne, Brian Logan, Neil Madden:
Griefing in virtual worlds: causes, casualties and coping strategies. Inf. Syst. J. 19(6): 525-548 (2009) - [j12]Natasha Alechina, Brian Logan:
A Logic of Situated Resource-Bounded Agents. J. Log. Lang. Inf. 18(1): 79-95 (2009) - [j11]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Abdur Rakib:
Verifying time, memory and communication bounds in systems of reasoning agents. Synth. 169(2): 385-403 (2009) - [c50]Doan Thu Trang, Brian Logan, Natasha Alechina:
Verifying Dribble Agents. DALT 2009: 244-261 - [c49]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Abdur Rakib:
A Logic for Coalitions with Bounded Resources. IJCAI 2009: 659-664 - [c48]Konstantin Vikhorev, Natasha Alechina, Brian Logan:
The ARTS Real-Time Agent Architecture. LADS 2009: 1-15 - [c47]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Abdur Rakib:
Expressing Properties of Coalitional Ability under Resource Bounds. LORI 2009: 1-14 - [c46]Konstantin Vikhorev, Natasha Alechina, Brian Logan:
The ARTS Real-Time Agent Architecture. MALLOW 2009 - [c45]Neil Madden, Brian Logan:
Modularity and Compositionality in Jason. PROMAS 2009: 237-253 - 2008
- [j10]Dan Chen, Roland Ewald, Georgios K. Theodoropoulos, Rob Minson, Ton Oguara, Michael Lees, Brian S. Logan, Adelinde M. Uhrmacher:
Data access in distributed simulations of multi-agent systems. J. Syst. Softw. 81(12): 2345-2360 (2008) - [j9]Michael Lees, Brian S. Logan, Georgios Theodoropoulos:
Using Access Patterns to Analyze the Performance of Optimistic Synchronization Algorithms in Simulations of MAS. Simul. 84(10-11): 481-492 (2008) - [j8]Natasha Alechina, Mark Jago, Brian Logan:
Preference-based belief revision for rule-based agents. Synth. 165(2): 159-177 (2008) - [c44]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Abdur Rakib:
Verifying time, memory and communication bounds in systems of reasoning agents. AAMAS (2) 2008: 736-743 - [c43]Natasha Alechina, Brian Logan, Mehdi Dastani, John-Jules Ch. Meyer:
Reasoning about agent execution strategies. AAMAS (3) 2008: 1455-1458 - [c42]Alexandre Albore, Natasha Alechina, Piergiorgio Bertoli, Chiara Ghidini, Brian Logan:
Bounded-Resource Reasoning as (Strong or Classical) Planning. CLIMA 2008: 77-96 - [c41]Natasha Alechina, Mehdi Dastani, Brian Logan, John-Jules Ch. Meyer:
Reasoning about Agent Deliberation. KR 2008: 16-26 - [c40]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Abdur Rakib:
Reasoning about Other Agents' Beliefs under Bounded Resources. KRAMAS 2008: 1-15 - [c39]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Abdur Rakib:
Verifying Time and Communication Costs of Rule-Based Reasoners. MoChArt 2008: 1-14 - [c38]Natasha Alechina, Brian Logan, Nguyen Hoang Nga, Abdur Rakib:
Verifying Resource Requirements for Distributed Rule-Based Systems. RuleML 2008: 31-38 - 2007
- [j7]Michael Lees, Brian S. Logan, John R. King:
BacGrid: simulations of bacteria using the grid. BMC Syst. Biol. 1(S-1): S5 (2007) - [j6]Michael Lees, Brian S. Logan, Georgios Theodoropoulos:
Distributed simulation of agent-based systems with HLA. ACM Trans. Model. Comput. Simul. 17(3): 11 (2007) - [c37]Natasha Alechina, Mehdi Dastani, Brian Logan, John-Jules Ch. Meyer:
A Logic of Agent Programs. AAAI 2007: 795-800 - [c36]Neil Madden, Brian Logan:
Collaborative Narrative Generation in Persistent Virtual Environments. AAAI Fall Symposium: Intelligent Narrative Technologies 2007: 71-78 - [c35]Thomas Chesney, Iain Coyne, Brian Logan, Neil Madden:
A Design for Researching Virtual Worlds - Opportunities and Limitations. ECIS 2007: 1380-1387 - [c34]Michael Lees, Brian S. Logan, John King:
Multiscale models of bacterial populations. WSC 2007: 881-890 - 2006
- [j5]Michael Lees, Brian S. Logan, Georgios K. Theodoropoulos:
Agents, games and HLA. Simul. Model. Pract. Theory 14(6): 752-767 (2006) - [c33]Alexandre Albore, Natasha Alechina, Piergiorgio Bertoli, Chiara Ghidini, Brian Logan, Luciano Serafini:
Model-Checking Memory Requirements of Resource-Bounded Reasoners. AAAI 2006: 213-218 - [c32]Natasha Alechina, Mark Jago, Piergiorgio Bertoli, Brian Logan, Chiara Ghidini, Luciano Serafini:
Verifying space and time requirements for resource-bounded agents. AAMAS 2006: 217-219 - [c31]Dan Fielding, Brian Logan, Steve Benford:
Balancing the needs of players and spectators in agent-based commentary systems. AAMAS 2006: 996-998 - [c30]Natasha Alechina, Rafael H. Bordini, Jomi Fred Hübner, Mark Jago, Brian Logan:
Belief revision for AgentSpeak agents. AAMAS 2006: 1288-1290 - [c29]Georgios Theodoropoulos, Yi Zhang, Dan Chen, Rob Minson, Stephen John Turner, Wentong Cai, Yong Xie, Brian Logan:
Large Scale Distributed Simulation on the Grid. CCGRID 2006: 63 - [c28]Natasha Alechina, Rafael H. Bordini, Jomi Fred Hübner, Mark Jago, Brian Logan:
Automating Belief Revision for AgentSpeak. DALT 2006: 61-77 - [c27]Michael Lees, Brian S. Logan, Dan Chen, Ton Oguara, Georgios Theodoropoulos:
Analysing Probabilistically Constrained Optimism. DS-RT 2006: 201-208 - [c26]Natasha Alechina, Mark Jago, Brian Logan:
Modal Logics for Communicating Rule-Based Agents. ECAI 2006: 322-326 - [c25]Natasha Alechina, Piergiorgio Bertoli, Chiara Ghidini, Mark Jago, Brian Logan, Luciano Serafini:
Verifying Space and Time Requirements for Resource-Bounded Agents. MoChArt 2006: 19-34 - [c24]Roland Ewald, Dan Chen, Georgios K. Theodoropoulos, Michael Lees, Brian S. Logan, Ton Oguara, Adelinde M. Uhrmacher:
Performance Analysis of Shared Data Access Algorithms for Distributed Simulation of Multi-Agent Systems. PADS 2006: 29-36 - [c23]Michael Lees, Brian S. Logan, Dan Chen, Ton Oguara, Georgios Theodoropoulos:
Analysing the Performance of Optimistic Synchronisation Algorithms in Simulations of Multi-Agent Systems. PADS 2006: 37-44 - 2005
- [c22]Natasha Alechina, Mark Jago, Brian Logan:
Resource-Bounded Belief Revision and Contraction. DALT 2005: 141-154 - [c21]Michael Lees, Brian S. Logan, Dan Chen, Ton Oguara, Georgios Theodoropoulos:
Decision-Theoretic Throttling for Optimistic Simulations of Multi-Agent Systems. DS-RT 2005: 171-178 - [c20]Ton Oguara, Dan Chen, Georgios Theodoropoulos, Brian S. Logan, Michael Lees:
An Adaptive Load Management Mechanism for Distributed Simulation of Multi-agent Systems. DS-RT 2005: 179-186 - [c19]Natasha Alechina, Brian Logan:
Verifying Bounds on Deliberation Time in Multi-Agent Systems. EUMAS 2005: 25-34 - [c18]Neil Madden, Brian Logan:
It's About Time. IJCAI 2005: 1511-1512 - [c17]Ella Tallyn, Boriana Koleva, Brian Logan, Dan Fielding, Steve Benford, Giulia Gelmini-Hornsby, Neil Madden:
Embodied Reporting Agents as an Approach to Creating Narratives from Live Virtual Worlds. International Conference on Virtual Storytelling 2005: 179-188 - [e1]Paul Davidsson, Brian Logan, Keiki Takadama:
Multi-Agent and Multi-Agent-Based Simulation, Joint Workshop MABS 2004, New York, NY, USA, July 19, 2004, Revised Selected Papers. Lecture Notes in Computer Science 3415, Springer 2005, ISBN 3-540-25262-2 [contents] - 2004
- [c16]Dan Fielding, Mike Fraser, Brian Logan, Steve Benford:
Extending game participation with embodied reporting agents. Advances in Computer Entertainment Technology 2004: 100-108 - [c15]Natasha Alechina, Brian Logan, Mark Whitsey:
A Complete and Decidable Logic for Resource-Bounded Agents. AAMAS 2004: 606-613 - [c14]Dan Fielding, Mike Fraser, Brian Logan, Steve Benford:
Reporters, Editors and Presenters: Using Embodied Agents to Report on Online Computer Games. AAMAS 2004: 1530-1531 - [c13]Michael Lees, Brian S. Logan, Rob Minson, Ton Oguara, Georgios Theodoropoulos:
Modelling Environments for Distributed Simulation. E4MAS 2004: 150-167 - [c12]Cyril Schoreels, Brian Logan, Jonathan M. Garibaldi:
Agent based Genetic Algorithm Employing Financial Technical Analysis for Making Trading Decisions Using Historical Equity Market Data. IAT 2004: 421-424 - [c11]Michael Lees, Brian S. Logan, Ton Oguara, Georgios Theodoropoulos:
HLA_AGENT: Distributed Simulation of Agent-Based Systems with HLA. International Conference on Computational Science 2004: 881-888 - [c10]Natasha Alechina, Brian Logan, Mark Whitsey:
Modelling Communicating Agents in Timed Reasoning Logics. JELIA 2004: 95-107 - [c9]Michael Lees, Brian S. Logan, Rob Minson, Ton Oguara, Georgios Theodoropoulos:
Distributed Simulation of MAS. MABS 2004: 25-36 - 2003
- [c8]Elizabeth Sara Gordon, Brian Logan:
A goal processing architecture for game agents. AAMAS 2003: 998-999 - 2002
- [c7]Natasha Alechina, Brian Logan:
Ascribing beliefs to resource bounded agents. AAMAS 2002: 881-888 - 2001
- [j4]Natasha Alechina, Brian Logan:
State Space Search with Prioritised Soft Constraints. Appl. Intell. 14(3): 263-272 (2001) - [j3]Brian S. Logan, Georgios Theodoropoulos:
The distributed simulation of multiagent systems. Proc. IEEE 89(2): 174-185 (2001) - [c6]Natasha Alechina, Brian Logan:
Logical Omniscience and the Cost of Deliberation. LPAR 2001: 100-109 - 2000
- [c5]Matthias Scheutz, Aaron Sloman, Brian Logan:
Emotional States and Realistic Agent Behaviour. GAME-ON 2000: 81-
1990 – 1999
- 1999
- [j2]Aaron Sloman, Brian Logan:
Building Cognitively Rich Agents Using the SIM_AGENT Toolkit. Commun. ACM 42(3): 71-77 (1999) - 1998
- [c4]Brian Logan, Natasha Alechina:
A* with Bounded Costs. AAAI/IAAI 1998: 444-449 - [c3]Aaron Sloman, Brian Logan:
Cognition and Affect: Architectures and Tools. Agents 1998: 471-472 - 1994
- [c2]Brian Logan, Steven Reece, Karen Sparck Jones:
Modelling Information Retrieval Agents with Belief Revision. SIGIR 1994: 91-100 - 1992
- [c1]Brian Logan, David Corne, Tim Smithers:
The Edinburgh Designer System: An Architecture for Solving Ill-Structured Problems. ECAI 1992: 282-286 - 1990
- [j1]Tim Smithers, Alistair Conkie, Jim Doheny, Brian Logan, Karl Millington, Ming Xi Tang:
Design as intelligent behaviour: An AI in design research programme. Artif. Intell. Eng. 5(2): 78-109 (1990)
Coauthor Index
[c133] [c132] [c131] [i10] [j40] [c130] [c129] [c128] [c127] [c126] [c125] [j36] [c124] [c123] [c121] [e3] [c120] [i9] [c114] [c112] [c109] [i8] [c107] [c106] [c105] [j31] [j28] [j27] [j26] [j25] [c103] [c101] [c99] [i6] [j24] [j23] [j22] [c98] [c95] [c89] [c88] [c85] [c83] [i4] [i3] [c82] [c79] [c78] [c77] [c76] [i2] [c74] [c73] [c71] [c70] [c69] [c68] [c66] [c64] [c63] [c62] [p1] [c61] [c60] [c59] [c58] [j19] [j18] [j17] [c57] [j15] [c56] [c54] [c53] [c52] [j12] [j11] [c50] [c49] [c48] [c47] [c46] [j8] [c44] [c43] [c42] [c41] [c40] [c39] [c38] [c37] [c33] [c32] [c30] [c28] [c26] [c25] [c22] [c19] [c15] [c10] [c7] [j4] [c6] [c4]
Nguyen Hoang Nga
aka: Hoang Nga Nguyen
aka: Hoang Nga Nguyen
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