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Mattias Nyberg
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2020 – today
- 2024
- [j20]Anton Hampus, Mattias Nyberg:
Formally verifying decompositions of stochastic specifications. Int. J. Softw. Tools Technol. Transf. 26(2): 207-228 (2024) - [c44]Gustav Ung, Jesper Amilon, Dilian Gurov, Christian Lidström, Mattias Nyberg, Karl Palmskog:
Post-Hoc Formal Verification of Automotive Software with Informal Requirements: An Experience Report. RE 2024: 287-298 - 2023
- [c43]Anton Hampus, Mattias Nyberg:
Verifying Refinement of Probabilistic Contracts Using Timed Automata. TASE 2023: 95-113 - 2022
- [c42]Anton Hampus, Mattias Nyberg:
Formally Verifying Decompositions of Stochastic Specifications. FMICS 2022: 193-210 - [c41]Stefan Kaalen, Anton Hampus, Mattias Nyberg, Olle Mattsson:
A Stochastic Extension of Stateflow. ICPE 2022: 211-222 - [c40]Predrag Filipovikj, Gustav Ung, Dilian Gurov, Mattias Nyberg:
Bounded Invariant Checking for Stateflow. FMAS/ASYDE@SEFM 2022: 38-52 - 2021
- [j19]Damir Nesic, Mattias Nyberg, Barbara Gallina:
Product-line assurance cases from contract-based design. J. Syst. Softw. 176: 110922 (2021) - [c39]Stefan Kaalen, Mattias Nyberg, Olle Mattsson:
Transient Analysis of Hierarchical Semi-Markov Process Models with Tool Support in Stateflow. QEST 2021: 105-126 - [i1]Predrag Filipovikj, Dilian Gurov, Mattias Nyberg:
Bounded Invariant Checking for Stateflow Programs. CoRR abs/2103.06248 (2021) - 2020
- [c38]Stefan Kaalen, Mattias Nyberg:
Branching Transitions for Semi-Markov Processes with Application to Safety-Critical Systems. IMBSA 2020: 68-82 - [c37]Mattias Nyberg, Jonas Westman, Dilian Gurov:
Formally Proving Compositionality in Industrial Systems with Informal Specifications. ISoLA (3) 2020: 348-365
2010 – 2019
- 2019
- [j18]Jad El-khoury, Andrii Berezovskyi, Mattias Nyberg:
An industrial evaluation of data access techniques for the interoperability of engineering software tools. J. Ind. Inf. Integr. 15: 58-68 (2019) - [j17]Didem Gürdür, Jad El-khoury, Mattias Nyberg:
Methodology for linked enterprise data quality assessment through information visualizations. J. Ind. Inf. Integr. 15: 191-200 (2019) - [j16]Jonas Westman, Mattias Nyberg:
Providing tool support for specifying safety-critical systems by enforcing syntactic contract conditions. Requir. Eng. 24(2): 231-256 (2019) - [c36]Stefan Kaalen, Mattias Nyberg, Carl Bondesson:
Tool-Supported Dependability Analysis of Semi-Markov Processes with Application to Autonomous Driving. ICSRS 2019: 126-135 - [c35]Damir Nesic, Jad El-khoury, Jonas Westman, Mattias Nyberg:
Building a Web-Based Federated Toolchain: Lessons Learned From a Four-Year Industrial Project. iiWAS 2019: 512-521 - [c34]Christian Lidström, Carl Bondesson, Mattias Nyberg, Jonas Westman:
Improved Pattern for ISO 26262 ASIL Decomposition with Dependent Requirements. QRS Companion 2019: 28-35 - [c33]Damir Nesic, Mattias Nyberg, Barbara Gallina:
Constructing product-line safety cases from contract-based specifications. SAC 2019: 2022-2031 - [c32]Damir Nesic, Mattias Nyberg:
Modular Safety Cases for Product Lines Based on Assume-Guarantee Contracts. SAFECOMP Workshops 2019: 28-40 - 2018
- [j15]Jonas Westman, Mattias Nyberg:
Conditions of contracts for separating responsibilities in heterogeneous systems. Formal Methods Syst. Des. 52(2): 147-192 (2018) - [c31]Damir Nesic, Mattias Nyberg:
Verifying Contract-Based Specifications of Product Lines using Description Logic. Description Logics 2018 - [c30]Jonas Westman, Mattias Nyberg:
Preserving Contract Satisfiability Under Non-monotonic Composition. FORTE 2018: 181-195 - [c29]Mattias Nyberg, Dilian Gurov, Christian Lidström, Andreas Rasmusson, Jonas Westman:
Formal Verification in Automotive Industry: Enablers and Obstacles. ISoLA (4) 2018: 139-158 - [c28]Subramani Palanisamy Harisubramanyabalaji, Shafiq ur Réhman, Mattias Nyberg, Joakim Gustavsson:
Improving Image Classification Robustness Using Predictive Data Augmentation. SAFECOMP Workshops 2018: 548-561 - 2017
- [j14]Jonas Westman, Mattias Nyberg, Joakim Gustavsson, Dilian Gurov:
Formal architecture modeling of sequential non-recursive C programs. Sci. Comput. Program. 146: 2-27 (2017) - [c27]Dilian Gurov, Christian Lidström, Mattias Nyberg, Jonas Westman:
Deductive Functional Verification of Safety-Critical Embedded C-Code: An Experience Report. FMICS-AVoCS 2017: 3-18 - [c26]Barbara Gallina, Mattias Nyberg:
Pioneering the Creation of ISO 26262-Compliant OSLC-Based Safety Cases. ISSRE Workshops 2017: 325-330 - [c25]Damir Nesic, Mattias Nyberg:
Applying Multi-level Modeling to Data Integration in Product Line Engineering. MoDELS (Satellite Events) 2017: 235-242 - [c24]Predrag Filipovikj, Guillermo Rodríguez-Navas, Mattias Nyberg, Cristina Seceleanu:
SMT-based consistency analysis of industrial systems requirements. SAC 2017: 1272-1279 - [c23]Damir Nesic, Mattias Nyberg, Barbara Gallina:
Modeling Product-Line Legacy Assets using Multi-Level Theory. SPLC (B) 2017: 89-96 - 2016
- [c22]Predrag Filipovikj, Trevor Jagerfield, Mattias Nyberg, Guillermo Rodríguez-Navas, Cristina Cerschi Seceleanu:
Integrating Pattern-Based Formal Requirements Specification in an Industrial Tool-Chain. COMPSAC Workshops 2016: 167-173 - [c21]Jonas Westman, Mattias Nyberg, Oscar Thydén:
CPS Specifier - A Specification Tool for Safety-Critical Cyber-Physical Systems. CyPhy 2016: 116-125 - [c20]Barbara Gallina, Kathyayani Padira, Mattias Nyberg:
Towards an ISO 26262-compliant OSLC-based Tool Chain Enabling Continuous Self-Assessment. QUATIC 2016: 199-204 - [c19]Damir Nesic, Mattias Nyberg:
Multi-view modeling and automated analysis of product line variability in systems engineering. SPLC 2016: 287-296 - 2015
- [c18]Mattias Nyberg, Jonas Westman:
Failure Propagation Modeling Based on Contracts Theory. EDCC 2015: 108-119 - [c17]Jonas Westman, Mattias Nyberg:
Formal Architecture Modeling of Sequential C-Programs. FACS 2015: 312-329 - [c16]Jonas Westman, Mattias Nyberg:
Extending Contract theory with Safety Integrity Levels. HASE 2015: 85-92 - 2014
- [j13]Lena Rogovchenko-Buffoni, Andrea Tundis, Muhammed Zoheb Hossain, Mattias Nyberg, Peter Fritzson:
An integrated toolchain for model based functional safety analysis. J. Comput. Sci. 5(3): 408-414 (2014) - [c15]Xinhai Zhang, Magnus Persson, Mattias Nyberg, Behrooz Mokhtari, Anton Einarson, Henrik Linder, Jonas Westman, De-Jiu Chen, Martin Törngren:
Experience on applying software architecture recovery to automotive embedded systems. CSMR-WCRE 2014: 379-382 - [c14]Guillermo Rodríguez-Navas, Cristina Cerschi Seceleanu, Hans Hansson, Mattias Nyberg, Oscar Ljungkrantz, Henrik Lönn:
Automated Specification and Verification of Functional Safety in Heavy-Vehicles: the VeriSpec Approach. DAC 2014: 95:1-95:4 - [c13]Jonas Westman, Mattias Nyberg:
Environment-Centric Contracts for Design of Cyber-Physical Systems. MoDELS 2014: 218-234 - [c12]Predrag Filipovikj, Mattias Nyberg, Guillermo Rodríguez-Navas:
Reassessing the pattern-based approach for formalizing requirements in the automotive domain. RE 2014: 444-450 - 2013
- [j12]Carl Svärd, Mattias Nyberg, Erik Frisk:
Realizability Constrained Selection of Residual Generators for Fault Diagnosis With an Automotive Engine Application. IEEE Trans. Syst. Man Cybern. Syst. 43(6): 1354-1369 (2013) - [c11]Mafijul Md. Islam, Behrooz Sangchoolie, Fatemeh Ayatolahi, Daniel Skarin, Jonny Vinter, Fredrik Törner, Andreas Käck, Mattias Nyberg, Emília Villani, Johan Haraldsson, Patrik Isaksson, Johan Karlsson:
Towards Benchmarking of Functional Safety in the Automotive Industry. EWDC 2013: 111-125 - [c10]Barbara Gallina, Antonio Gallucci, Kristina Lundqvist, Mattias Nyberg:
VROOM & cC: a Method to Build Safety Cases for ISO 26262-compliant Product Lines. SASSUR@SAFECOMP 2013 - [c9]Jonas Westman, Mattias Nyberg:
A Reference Example on the Specification of Safety Requirements using ISO 26262. DECS@SAFECOMP 2013 - [c8]Jonas Westman, Mattias Nyberg, Martin Törngren:
Structuring Safety Requirements in ISO 26262 Using Contract Theory. SAFECOMP 2013: 166-177 - 2012
- [j11]Anna Pernestål, Mattias Nyberg, Håkan Warnquist:
Modeling and inference for troubleshooting with interventions applied to a heavy truck auxiliary braking system. Eng. Appl. Artif. Intell. 25(4): 705-719 (2012) - [c7]Raghad Dardar, Barbara Gallina, Andreas Johnsen, Kristina Lundqvist, Mattias Nyberg:
Industrial Experiences of Building a Safety Case in Compliance with ISO 26262. ISSRE Workshops 2012: 349-354 - 2011
- [j10]Mattias Nyberg:
A Generalized Minimal Hitting-Set Algorithm to Handle Diagnosis With Behavioral Modes. IEEE Trans. Syst. Man Cybern. Part A 41(1): 137-148 (2011) - [j9]Jonas Biteus, Erik Frisk, Mattias Nyberg:
Distributed Diagnosis Using a Condensed Representation of Diagnoses With Application to an Automotive Vehicle. IEEE Trans. Syst. Man Cybern. Part A 41(6): 1262-1267 (2011) - [c6]Carl Svärd, Mattias Nyberg, Erik Frisk, Mattias Krysander:
A data-driven and probabilistic approach to residual evaluation for fault diagnosis. CDC/ECC 2011: 95-102 - 2010
- [j8]Carl Svärd, Mattias Nyberg:
Residual Generators for Fault Diagnosis Using Computation Sequences With Mixed Causality Applied to Automotive Systems. IEEE Trans. Syst. Man Cybern. Part A 40(6): 1310-1328 (2010)
2000 – 2009
- 2009
- [j7]Jonas Biteus, Mattias Nyberg, Erik Frisk, Jan Åslund:
Determining the fault status of a component and its readiness, with a distributed automotive application. Eng. Appl. Artif. Intell. 22(3): 363-373 (2009) - 2008
- [j6]Jonas Biteus, Mattias Nyberg, Erik Frisk:
An algorithm for computing the diagnoses with minimal cardinality in a distributed system. Eng. Appl. Artif. Intell. 21(2): 269-276 (2008) - [j5]Mattias Krysander, Jan Åslund, Mattias Nyberg:
An Efficient Algorithm for Finding Minimal Overconstrained Subsystems for Model-Based Diagnosis. IEEE Trans. Syst. Man Cybern. Part A 38(1): 197-206 (2008) - [c5]Håkan Warnquist, Mattias Nyberg, Petter Säby:
Troubleshooting when Action Costs are Dependent with Application to a Truck Engine. SCAI 2008: 68-75 - [c4]Anna Pernestål, Mattias Nyberg:
Bayesian Inference Under Probability Constraints. SCAI 2008: 151-156 - [c3]Hannes Wettig, Anna Pernestål, Tomi Silander, Mattias Nyberg:
A Bayesian approach to learning in fault isolation. BMA 2008 - 2006
- [j4]Mattias Nyberg, Erik Frisk:
Residual Generation for Fault Diagnosis of Systems Described by Linear Differential-Algebraic Equations. IEEE Trans. Autom. Control. 51(12): 1995-2000 (2006) - 2002
- [j3]Mattias Nyberg:
Model-based diagnosis of an automotive engine using several types of fault models. IEEE Trans. Control. Syst. Technol. 10(5): 679-689 (2002) - 2001
- [j2]Erik Frisk, Mattias Nyberg:
A minimal polynomial basis solution to residual generation for fault diagnosis in linear systems. Autom. 37(9): 1417-1424 (2001) - 2000
- [j1]Mattias Nyberg, Lars Nielsen:
A universal Chow-Willsky scheme and detectability criteria. IEEE Trans. Autom. Control. 45(1): 152-156 (2000)
1990 – 1999
- 1999
- [c2]Mattias Nyberg:
Framework and method for model based diagnosis with application to an automotive engine. ECC 1999: 1872-1877 - [c1]Erik Frisk, Mattias Nyberg:
Using minimal polynomial bases for fault diagnosis. ECC 1999: 4161-4166
Coauthor Index
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last updated on 2024-09-06 00:41 CEST by the dblp team
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