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ORCIDAlexander Feldman
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2020 – today
- 2023
[i6]Ion Matei, Raj Minhas, Johan de Kleer, Alexander Feldman:
AI Enhanced Control Engineering Methods. CoRR abs/2306.05545 (2023)- 2022
- [c26]Erfaun Noorani, Christoforos Somarakis, Raman Goyal
, Alexander Feldman, Shantanu Rane:
Model-Assisted Reinforcement Learning for Online Diagnostics in Stochastic Controlled Systems. ICCA 2022: 338-345 - [c25]Erfaun Noorani, Christoforos Somarakis, Raman Goyal, Alexander Feldman, Shantanu Rane:
Learning-Based Diagnostics for Fault Detection and Isolation in Linear Stochastic Systems. MED 2022: 761-766 - [i5]Alexander Feldman, Johan de Kleer, Ion Matei:
A Quantum Algorithm for Computing All Diagnoses of a Switching Circuit. CoRR abs/2209.05470 (2022) - 2020
- [c24]Alexander Feldman, Ingo Pill, Franz Wotawa, Ion Matei, Johan de Kleer:
Efficient Model-Based Diagnosis of Sequential Circuits. AAAI 2020: 2814-2821 - [c23]Alexander Feldman, Ion Matei, Emil Totev, Johan de Kleer:
Analog Accelerator for Simulation and Diagnostics. AAAI 2020: 13261-13266 - [i4]Ion Matei, Johan de Kleer, Alexander Feldman, Rahul Rai, Souma Chowdhury:
Hybrid modeling: Applications in real-time diagnosis. CoRR abs/2003.02671 (2020)
2010 – 2019
- 2019
- [c22]Ion Matei, Johan de Kleer, Maksym Zhenirovskyy, Alexander Feldman:
Learning constitutive equations of physical components with predefined feasibility conditions. ACC 2019: 922-927 - [i3]Alexander Feldman, Johan de Kleer, Ion Matei:
Design Space Exploration as Quantified Satisfaction. CoRR abs/1905.02303 (2019) - 2018
- [c21]Ion Matei, Alexander Feldman, Johan de Kleer:
Analog Implementation of Optimization Algorithms: A Distributed Optimization View. CDC 2018: 7170-7175 - [c20]Ion Matei, Alexander Feldman, Johan de Kleer:
Model-based diagnosis: A frequency domain view. ICPHM 2018: 1-8 - 2017
- [j4]Roni Stern, Meir Kalech, Shelly Rogov, Alexander Feldman:
How many diagnoses do we need? Artif. Intell. 248: 26-45 (2017) - [c19]Johan de Kleer, Matthew Klenk, Alexander Feldman:
Diagnosing Alternative Facts. DX 2017: 159-168 - 2016
- [c18]Nuno Cardoso, Rui Abreu, Alexander Feldman, Johan de Kleer:
A Framework for Automatic Debugging of Functional and Degradation Failures. ECAI 2016: 569-576 - 2015
- [c17]Roni Tzvi Stern, Meir Kalech, Shelly Rogov, Alexander Feldman:
How Many Diagnoses Do We Need? AAAI 2015: 1618-1624 - [c16]Gregory M. Provan, Alexander Feldman:
A Framework For Assessing Diagnostics Model Fidelity. DX 2015: 127-134 - [c15]Rui Abreu, Daniel G. Bobrow, Hoda Eldardiry, Alexander Feldman, John Hanley, Tomonori Honda, Johan de Kleer, Alexandre Perez, Dave Archer, David Burke:
Diagnosing Advanced Persistent Threats: A Position Paper. DX 2015: 193-200 - 2014
- [j3]Alexander Feldman, Johan de Kleer, Tolga Kurtoglu, Sriram Narasimhan, Scott Poll, David García, Lukas D. Kuhn, Arjan J. C. van Gemund:
The Diagnostic Competitions. AI Mag. 35(2): 49-54 (2014) - [c14]Alexander Feldman, Gregory M. Provan:
Diagnosing Analogue Linear Systems Using Dynamic Topological Reconfiguration. AAAI 2014: 2644-2651 - [i2]Alexander Feldman, Gregory M. Provan, Arjan J. C. van Gemund:
Approximate Model-Based Diagnosis Using Greedy Stochastic Search. CoRR abs/1401.3848 (2014) - [i1]Alexander Feldman, Gregory M. Provan, Arjan J. C. van Gemund:
A Model-Based Active Testing Approach to Sequential Diagnosis. CoRR abs/1401.3850 (2014) - 2013
- [c13]Alexander Feldman, Gregory M. Provan:
Toward an Equation-Oriented Framework for Diagnosis of Complex Systems. EOOLT 2013: 65-74 - [c12]Lior Rokach, Meir Kalech, Gregory M. Provan, Alexander Feldman:
Machine-Learning-Based Circuit Synthesis. IJCAI 2013: 1635-1641 - 2012
- [c11]Roni Tzvi Stern, Meir Kalech, Alexander Feldman, Gregory M. Provan:
Exploring the Duality in Conflict-Directed Model-Based Diagnosis. AAAI 2012: 828-834 - [c10]Alexander Bahr, Alexander Feldman, James Colli-Vignarelli, Stephan Robert, Catherine Dehollain, Alcherio Martinoli:
Modeling and benchmarking Ultra-Wideband localization for mobile robots. ICUWB 2012: 443-447 - 2011
- [c9]Alexander Feldman, Alexander Bahr, James Colli-Vignarelli, Stephan Robert, Catherine Dehollain, Alcherio Martinoli:
Toward the Deployment of an Ultra-Wideband Localization Test Bed. VTC Fall 2011: 1-5 - 2010
- [j2]Alexander Feldman, Gregory M. Provan, Arjan J. C. van Gemund:
Approximate Model-Based Diagnosis Using Greedy Stochastic Search. J. Artif. Intell. Res. 38: 371-413 (2010) - [j1]Alexander Feldman, Gregory M. Provan, Arjan J. C. van Gemund:
A Model-Based Active Testing Approach to Sequential Diagnosis. J. Artif. Intell. Res. 39: 301-334 (2010)
2000 – 2009
- 2009
- [c8]Alexander Feldman, Gregory M. Provan, Arjan J. C. van Gemund:
FRACTAL: Efficient Fault Isolation Using Active Testing. IJCAI 2009: 778-784 - [c7]Alexander Feldman, Gregory M. Provan, Arjan J. C. van Gemund:
Solving Strong-Fault Diagnostic Models by Model Relaxation. IJCAI 2009: 785-790 - [c6]Alexander Feldman, Gregory M. Provan, Johan de Kleer, Lukas D. Kuhn, Arjan J. C. van Gemund:
Automated Redesign with the General Redesign Engine. SARA 2009 - 2008
- [c5]Alexander Feldman, Gregory M. Provan, Arjan J. C. van Gemund:
Computing Minimal Diagnoses by Greedy Stochastic Search. AAAI 2008: 911-918 - [c4]Alexander Feldman, Gregory M. Provan, Arjan J. C. van Gemund:
Computing Observation Vectors for Max-Fault Min-Cardinality Diagnoses. AAAI 2008: 919-924 - [c3]Peter Zoeteweij, Jurryt Pietersma, Rui Abreu, Alexander Feldman, Arjan J. C. van Gemund:
Automated Fault Diagnosis in Embedded Systems. SSIRI 2008: 103-110 - 2007
- [c2]Alexander Feldman, Gregory M. Provan, Arjan J. C. van Gemund:
Approximate Model-Based Diagnosis Using Greedy Stochastic Search. SARA 2007: 139-154 - 2006
- [c1]Alexander Feldman, Arjan J. C. van Gemund:
A Two-Step Hierarchical Algorithm for Model-Based Diagnosis. AAAI 2006: 827-833
Coauthor Index
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