Publikationer av Dejiu Chen
Refereegranskade
Artiklar
[1]
P. Su och D. Chen, "Adopting Graph Neural Networks to Analyze Human–Object Interactions for Inferring Activities of Daily Living," Sensors, vol. 24, no. 8, s. 2567-2567, 2024.
[2]
D. Chen, S. Ottikkutti och K. N. Tahmasebi, "Developing a Mechatronics-Twin Framework for Effective Exploration of Operational Behaviors of Prosthetic Sockets," SN Computer Science, vol. 5, no. 2, 2024.
[3]
Z. Zhu et al., "Using a VAE-SOM architecture for anomaly detection of flexible sensors in limb prosthesis," Journal of Industrial Information Integration, vol. 35, 2023.
[4]
D. Chen et al., "Analyzing Dynamic Operational Conditions of Limb Prosthetic Sockets with a Mechatronics-Twin Framework," Applied Sciences, vol. 12, no. 3, s. 986-986, 2022.
[5]
M. Karamousadakis et al., "A Sensor-Based Decision Support System for Transfemoral Socket Rectification," Sensors, vol. 21, no. 11, 2021.
[6]
J. Lu et al., "Model-Based Systems Engineering Tool-Chain for Automated Parameter Value Selection," IEEE Transactions on Systems, Man & Cybernetics. Systems, 2021.
[7]
T. Xin et al., "Probabilistic Inference of Fault Condition of Cyber-Physical Systems Under Uncertainty," IEEE Systems Journal, vol. 14, no. 3, s. 3256-3266, 2020.
[8]
L. Jinzhi et al., "A Service-Oriented Tool-Chain for Model-Based Systems Engineering of Aero-Engines," IEEE Access, vol. 6, s. 50443-50458, 2018.
[9]
K. Mahmood Reza et al., "Module-based Quality System Functionality Evaluation in Production Logistics," Journal of Industrial Engineering and Management, vol. 9, no. 2, s. 310-329, 2016.
[10]
R. Tavakoli Kolagari et al., "Model-Based Analysis and Engineering of Automotive Architectures with EAST-ADL: Revisited," International Journal of Conceptual Structures and Smart Applications (IJCSSA), vol. 3, no. 2, 2015.
[11]
S. Septavera et al., "Enhancing the EAST-ADL Error Model with HiP-HOPS Semantics," Athens Journal of Technology & Engineering, vol. 1, no. 2, s. 119-136, 2014.
[12]
S. Behere, M. Törngren och D. Chen, "A reference architecture for cooperative driving," Journal of systems architecture, vol. 59, no. 10: Part C, s. 1095-1112, 2013.
[13]
D. Chen et al., "An architectural approach to the analysis, verification and validation of software intensive embedded systems," Computing, vol. 95, no. 8, s. 649-688, 2013.
[14]
M. Walker et al., "Automatic Optimisation of System Architectures using EAST-ADL," Journal of Systems and Software, vol. 86, no. 10, s. 2467-2487, 2013.
[15]
D. Chen et al., "Integrated safety and architecture modeling for automotive embedded systems," Elektrotechnik und Informationstechnik, vol. 128, no. 6, s. 196-202, 2011.
[16]
E. Armengaud et al., "Model-based toolchain for the efficient development of safety-relevant automotive embedded systems," SAE technical paper series, 2011.
[17]
M. Biehl, D. Chen och M. Törngren, "Integrating safety analysis into the model-based development toolchain of automotive embedded systems," ACM SIGPLAN Notices, vol. 45, s. 125-131, 2010.
[18]
R. Anthony et al., "Context-Aware Adaptation in DySCAS," Electronic Communications of the EASST, vol. 19, 2009.
[19]
M. Walker et al., "Semi-automatic FMEA supporting complex systems with combinations and sequences of failures," SAE International Journal of Passenger Cars - Mechanical Systems, vol. 2, no. 1, s. 791-802, 2009.
Konferensbidrag
[20]
P. Su, F. Warg och D. Chen, "A Simulation-Aided Approach to Safety Analysis of Learning-Enabled Components in Automated Driving Systems," i 2023 IEEE 26th International Conference on Intelligent Transportation Systems, ITSC 2023, 2023, s. 6152-6157.
[21]
P. Su, Z. Lu och D. Chen, "Combining Self-Organizing Map with Reinforcement Learning for Multivariate Time Series Anomaly Detection," i Proceedings 2023 IEEE International Conference on Systems, Man, and Cybernetics (SMC), 2023.
[22]
P. Su, Z. Lu och D. Chen, "Combining Self-Organizing Map with Reinforcement Learning for Multivariate Time Series Anomaly Detection," i 2023 IEEE International Conference on Systems, Man, and Cybernetics: Improving the Quality of Life, SMC 2023 - Proceedings, 2023, s. 1964-1969.
[23]
P. Su et al., "Enhancing Safety Assurance for Automated Driving Systems by Supporting Operation Simulation and Data Analysis," i Proceeding of the 33rd European Safety and Reliability Conference, 2023.
[24]
O. Mohammed et al., "Multilevel Artificial Intelligence Classification of Faulty Image Data for Enhancing Sensor Reliability," i Proceeding of the 33rd European Safety and Reliability Conference, 2023.
[25]
P. Khound et al., "Performance Index Modeling from Fault Injection Analysis for an Autonomous Lane-Keeping System," i Proceeding of the 33rd European Safety and Reliability Conference, 2023.
[26]
P. Su, T. Fan och D. Chen, "Scheduling Resource to Deploy Monitors in Automated Driving Systems," i Dependable Computer Systems and Networks : Proceedings of the 18th International Conference on Dependability of Computer Systems DepCoS-RELCOMEX, 2023, s. 285-294.
[27]
K. Nazem Tahmasebi och D. Chen, "A Fault Injection Tool for Identifying Faulty Operations of Control Functions in Automated Driving Systems," i New Advances in Dependability of Networks and Systems : Proceedings of the Seventeenth International Conference on Dependability of Computer Systems DepCoS-RELCOMEX, June 27 – July 1, 2022, Wrocław, Poland, 2022.
[28]
D. Chen, S. Ottikkutti och K. N. Tahmasebi, "A Mechatronics-twin Framework based on Stewart Platform for Effective Exploration of Operational Behaviors of Prosthetic Sockets with Amputees," i BIOSTEC - the 16th International Joint Conference on Biomedical Engineering Systems and Technologies. 2022, 2022.
[29]
D. Wang, K. N. Tahmasebi och D. Chen, "Integrated Control of Steering and Braking for Effective Collision Avoidance with Autonomous Emergency Braking in Automated Driving," i Proceedings of the 30th Mediterranean Conference on Control and Automation (MED), 2022.
[30]
Y. Chen et al., "Online Image Sensor Fault Detection for Autonomous Vehicles," i Proceedings : 2022 IEEE 15th International Symposium on Embedded Multicore/Many-Core Systems-on-Chip, MCSoC 2022, 2022, s. 120-127.
[31]
P. Su och D. Chen, "Using Fault Injection for the Training of Functions to Detect Soft Errors of DNNs in Automotive Vehicles," i New Advances in Dependability of Networks and Systems, 2022, s. 308-318.
[32]
Z. Lu et al., "Wearable pressure sensing for lower limb amputees," i BioCAS 2022 : IEEE Biomedical Circuits and Systems Conference: Intelligent Biomedical Systems for a Better Future, Proceedings, 2022, s. 105-109.
[33]
M. Gyllenhammar et al., "Towards an Operational Design Domain That Supports the Safety Argumentation of an Automated Driving System," i Proceeding of the 10th European Congress on Embedded Real Time Software and Systems, 2020.
[34]
T. Xin et al., "Uncertainty Management in Situation Awareness for Cyber-Physical Systems : State of the Art and Challenge," i ACM International Conference Proceeding Series, 2020, s. 424-430.
[35]
M. Becker, Z. Lu och D. Chen, "An adaptive resource provisioning scheme for industrial SDN networks," i IEEE International Conference on Industrial Informatics (INDIN), 2019, s. 877-880.
[36]
M. Törngren et al., "Architecting Safety Supervisors for High Levels of Automated Driving," i Proceeding of the 21st IEEE Int. Conf. on Intelligent Transportation Systems, 2018.
[37]
D. Chen et al., "Design of a Knowledge-Base Strategy for Capability-Aware Treatment of Uncertainties of Automated Driving Systems," i Computer Safety, Reliability, and Security., 2018.
[38]
J. Lu et al., "Empirical-evolution of frameworks supporting co-simulation tool-chain development," i 6th World Conference on Information Systems and Technologies, WorldCIST 2018, 2018, s. 813-828.
[39]
X. Tao, D. Chen och J. Sagarduy, "Signal Feature Analysis for Dynamic Anomaly Detection of Components in Embedded Control Systems," i Contemporary Complex Systems and Their Dependability, 2018, s. 471-481.
[40]
L. Jinzhi et al., "Towards A Service-oriented Framework for MBSE Tool-chain Development," i 2018 13th System of Systems Engineering Conference, SoSE 2018, 2018, s. 568-575.
[41]
M. Becker, Z. Lu och D. Chen, "Towards QoS-Aware Service-Oriented Communication in E/E Automotive Architectures," i Proceedings of the 44th Annual Conference of the IEEE Industrial Electronics Society (IECON), 2018, s. 4096-4101.
[42]
L. Jinzhi et al., "A Tool Integration Language to Formalize Co-simulation Tool-chains for Cyber-physical System (CPS)," i 1st Workshop on Formal Co-Simulation of Cyber-Physical Systems A satellite event of SEFM2017- 15th International conference on Software Engineering and Formal Methods, 2017.
[43]
D. Chen och Z. Lu, "A methodological framework for model-based self-management of services and components in dependable cyber-physical systems," i 12th International Conference on Dependability and Complex Systems, DepCoS-RELCOMEX 2017, 2017, s. 97-105.
[44]
R. Johansson et al., "A strategy for assessing safe use of sensors in autonomous road vehicles," i 36th International Conference on Computer Safety, Reliability, and Security, SAFECOMP 2017, 2017, s. 149-161.
[45]
L. Jinzhi et al., "An Investigation of Functionalities of the Future Toolchain of Aerospace Industry," i 27th Annual INCOSE International Symposium (IS 2017),July 15 – July 20, 2017, Adelaide, Australia, 2017.
[46]
X. Zhang et al., "Architecture exploration for distributed embedded systems : A gap analysis in automotive domain," i 2017 12th IEEE International Symposium on Industrial Embedded Systems, SIES 2017 - Proceedings, 2017.
[47]
D. Chen och Z. Lu, "IMBSA 2017: Model-Based Safety and Assessment," i Model-Based Safety and Assessment - 5th International Symposium, Trento, Italy, September 11–13, 2017, 2017, s. 227-240.
[48]
D. Chen et al., "A Model-Based Approach to Qualified Process Automation for Anomaly Detection and Treatment," i 21st IEEE International Conference on Emerging Technology & Factory Automation, ETFA 2016, 2016.
[49]
L. Jinzhi et al., "A Model-driven and Tool-integration Framework for Whole Vehicle Co-simulation Environments," i 8th European Congress on Embedded Real Time Software and Systems (ERTS 2016), Jan 2016, TOULOUSE, France, 2016.
[50]
X. Zhang et al., "Formulating Customized Specifications for Resource Allocation Problem of Distributed Embedded Systems," i 2016 IEEE/ACM INTERNATIONAL CONFERENCE ON COMPUTER-AIDED DESIGN (ICCAD), 2016.
[51]
D. Chen, "Model-based Contract and Service for Self-managed Components in Cyber-Physical Systems," i SAFECOMP 2016 Workshops, ASSURE, DECSoS, SASSUR, and TIPS, 2016, s. 394.
[52]
D. Chen et al., "A Knowledge-in-the-Loop Approach to Integrated Safety&Security for Cooperative System-of-Systems," i IEEE Seventh International Conference on Intelligent Computing and Information Systems, 2015.
[53]
D. J. Chen et al., "A Virtual Environment for the Management and Development of Cyber-Physical Manufacturing Systems," i IFAC DCDS15, 2015, s. 29-36.
[54]
J. Lu et al., "An Investigation of Model-Based Design Framework for Aero-Engine Control Systems," i Proceedings of the 2015 Chinese Intelligent Systems Conference, 2015, s. 625-638.
[55]
X. Zhang et al., "Design-Space Reduction for Architectural Optimization of Automotive Embedded Systems," i High Performance Computing and Communications (HPCC), 2015 IEEE 7th International Symposium on Cyberspace Safety and Security (CSS), 2015 IEEE 12th International Conferen on Embedded Software and Systems (ICESS), 2015 IEEE 17th International Conference on, 2015, s. 1103-1109.
[56]
D. Chen et al., "Towards an Ontology-Based Approach to Safety Management in Cooperative Intelligent Transportation Systems," i Theory and Engineering of Complex Systems and Dependability : Proceedings of the Tenth International Conference on Dependability and Complex Systems DepCoS-RELCOMEX, June 29 – July 3 2015, Brunów, Poland, 2015, s. 107-115.
[57]
D. Chen, F. Asplund och Ö. Kenneth, "A Systematic approach to Risk Management in ITS Context : Challenges and Research Issues," i Radioelectronic and Computer Systems, 2014, No 5 ( 69 ), 2014.
[58]
X. Zhang et al., "Experience on applying software architecture recovery to automotive embedded systems," i 2014 Software Evolution Week - IEEE Conference on Software Maintenance, Reengineering, and Reverse Engineering, CSMR-WCRE 2014 - Proceedings, 2014, s. 379-382.
[59]
X. Zhang, D. Chen och M. Törngren, "Towards Design Space Exploration through EAST-ADL and AUTOSAR Modeling Frameworks," i First Workshop on Cyber-Physical System Architectures and Design Methodologies, 2014.
[60]
D. Chen et al., "Systems Modeling with EAST-ADL for Fault Tree Analysis through HiP-HOPS," i IFAC Proceedings Volumes : (IFAC-PapersOnline), 2013, s. 91-96.
[61]
T. N. Qureshi, D. Chen och M. Törngren, "A timed automata-based method to analyze EAST-ADL timing constraint specifications," i Modelling Foundations And Applications, 2012, s. 303-318.
[62]
D. Chen, "EAST-ADL : An Architecture-centric Approach to the Design, Analysis, Verification and Validation of Complex Embedded Systems," i Architecture-Driven Semantic Analysis of Embedded Systems, Dagstuhl Reports, Vol. 2, Issue 7, 2012, s. 34-34.
[63]
F. Tagliabo et al., "Dedicated Modeling Support for the Automotive Functional Safety Standard," i IEEE Dependable Computing Systems (DEPCOS’11). Brunow Palace, Poland. June 27- July 1, 2011, 2011.
[64]
T. N. Qureshi et al., "From EAST-ADL to AUTOSAR Software Architecture : A Mapping Scheme," i 5th European Conference on Software Architecture, ECSA 2011 : Software Architecture, 2011, s. 328-335.
[65]
E. Armengaud et al., "Model-based Toolchain for the Efficient Development of Safety-Relevant Automotive Embedded Systems," i SAE Technical Paper : Paper Number: 2011-01-0056, 2011.
[66]
T. N. Qureshi et al., "Towards Harmonizing MultipleArchitecture Description Languages for Real-Time Embedded Systems," i Real-Time in Sweden (RTiS), 2011.
[67]
T. N. Qureshi et al., "Towards the Integration of EAST-ADL and UPPAAL for FormalVerification of EAST-ADL Timing Constraint Specification," i Time Analysis and Model-Based Design, from Functional Models to Distributed Deployments, 2011.
[68]
Y. Papadopoulos et al., "Automatic allocation of safety integrity levels," i Proceedings of the 1st Workshop on Critical Automotive applications : Robustness & Safety, 2010, s. 7-10.
[69]
A. Sandberg et al., "Model-Based Safety Engineering of Interdependent Functions in Automotive Vehicles Using EAST-ADL2," i COMPUTER SAFETY, RELIABILITY, AND SECURITY, 2010.
[70]
D. Chen et al., "Towards Model-Based Engineering of Self-Configuring Embedded Systems," i Model-based engineering of embedded real-time systems, 2010, s. 345-353.
[71]
L. Feng et al., "Verifying System Behaviors in EAST-ADL2 with the SPIN ModelChecker," i IEEE International Conference on Mechatronics and Automation, 2010.
[72]
T. N. Qureshi et al., "Model-Based Development of Middleware forSelf-Configurable Embedded Real Time Systems : Experiences from the DySCAS Project," i Work-in-Progress session at Model-Driven Development for Distributed Real-Time Embedded Systems Summer School (MDD4DRES), Aussois (France), 20-24 April 2009, 2009.
[73]
R. Anthony et al., "A Future Dynamically Reconfigurable Automotive Software System," i Proceedings of the Elektronik im Kraftfahrzeug, 2008.
[74]
R. Anthony et al., "A Middleware Approach to Dynamically Configurable Automotive Embedded Systems," i ISVCS 2008 : The First Annual International ICST Symposium on Vehicular Computing Systems, 2008.
[75]
A. Rettberg et al., "A dynamically reconfigurable automotive control system architecture," i 17th World Congress, International Federation of Automatic Control, IFAC, 2008.
[76]
D. Chen et al., "An Architectural Approach to Autonomics and Self-management of Automotive Embedded Electronic Systems," i 4th European Congress ERTS: Embedded Real Time Software 2008, 2008.
[77]
P. Cuenot et al., "Developing Automotive Products Using the EAST-ADL2, an AUTOSAR Compliant Architecture Description Language," i Proc. 4th European Congress ERTS (EMBEDDED REAL TIME SOFTWARE), 2008.
[78]
C.-J. Sjöstedt et al., "Mapping Simulink to UML in the design of embedded systems:Investigating scenarios and transformations," i OMER4 Post-proceedings, 2008, 2008, s. 137-160.
[79]
D. Chen et al., "Modelling Support for Design of Safety-Critical Automotive Embedded Systems," i 27th International Conference on Computer Safety, Reliability and Security Location: Newcastle upon Tyne, ENGLAND Date: SEP 22-25, 2008, 2008.
[80]
L. Feng, D. Chen och M. Törngren, "Self Configuration of Dependent Tasks for Dynamically Reconfigurable Automotive Embedded Systems," i Proceedings of the IEEE Conference on Decision and Control, 2008, s. 3737-3742.
[81]
F. Törner et al., "Supporting an Automotive Safety Case through Systematic Model Based Development : the EAST-ADL2 Approach," i SAE Technical Paper / Safety-Critical Systems, 2008, 2008.
[82]
J. Shi et al., "Combined usage of UML and Simulink in the Design of Embedded Systems : Investigating Scenarios and Structural and Behavioural Mapping," i On the 4th workshop of ObjectorientedModeling of Embedded Real-time Systems, Paderborn, Germany, Oct. 2007, 2007.
[83]
D. Chen et al., "Developing Dependable Automotive Embedded Systems using the EAST-ADL," i The 37th Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN 2007), 2007.
[84]
C.-J. Sjöstedt et al., "Developing Dependable Automotive Embedded Systemsusing the EAST-ADL; representing continuous timesystems in SysML," i EOOLT 2007 - Proceedings of the 1st International Workshop on Equation-Based Object-Oriented Languages and Tools, In Conjunction with ECOOP 2007, 2007, s. 25-36.
[85]
D. Chen et al., "Developing a Context-aware Architecture in DySCAS," i Workshop on Design and Architectures for Signal and Image Processing (DASIP 2007). Grenoble, France. November 27-29, 2007, 2007.
[86]
P. Cuenot et al., "Managing Complexity of Automotive Electronics Using the EAST-ADL," i 12TH IEEE INTERNATIONAL CONFERENCE ON ENGINEERING COMPLEX COMPUTER SYSTEMS, PROCEEDINGS, 2007, s. 353-358.
[87]
T. N. Qureshi et al., "Simulation Tools for Dynamically Reconfigurable Automotive Embedded Systems - An Evaluation of TrueTime," i Real-Time in Sweden (RTiS 07), 2007.
[88]
P. Cuenot et al., "Towards Improving Dependability by Using an Architecture Description Language," i Architecting Dependable Systems IV, 2007, s. 39-65.
[89]
R. Anthony et al., "Towards a Dynamically Reconfigurable Automotive Control System Architecture," i Embedded System Design: Topics, Techniques and Trends, 2007, s. 71-84.
[90]
J.-G. Persson, C.-J. Sjöstedt och D. Chen, "Automotive Fuel Cell System Simulation, Component and Compressor modeling," i Schraubenmaschinen. Dortmund, Germany. 26 – 27 Sep 2006, 2006.
[91]
D. Chen et al., "Model integration in the development of embedded control systems - A characterization of current research efforts," i 2006 IEEE Conference on Computer-Aided Control System Design, Vols 1 and 2, 2006, s. 283-289.
[92]
M. Törngren, D. Chen och I. Crnkovic, "Component-based vs. model-based development : A comparison in the context of vehicular embedded systems," i EUROMICRO-SEAA 2005 : 31st EUROMICRO Conference on Software Engineering and Advanced Applications, Proceedings, 2005, s. 432-440.
[93]
C.-J. Sjöstedt och D. Chen, "Virtual Component Testing for PEM Fuel Cell Systems:An Efficient, High-Quality and Safe Approach forSuppliers and OEM´s," i 3rd European PEFC Forum, Session B09, 7July, 09:15h, File No. B092, 2005, s. 103-120.
[94]
D. Chen, J. El-Khoury och M. Törngren, "A Modeling Framework for Automotive Embedded Control Systems," i 2004 SAE World Congress, Detroit, MI, USA, 8-11 March 2004, 2004.
[95]
D. Chen och M. Törngren, "A metrics system for quantifying operational coupling in embedded computer control systems," i Proceedings of the 4th ACM international conference on Embedded software, 2004, s. 184-192.
[96]
D. Chen och M. Törngren, "A systematic approach for identifying operational relationships in embedded computer control systems," i PROCEEDINGS OF THE 30TH EUROMICRO CONFERENCE, 2004, s. 32-39.
[97]
O. Larses och D. Chen, "Engineering mechatronics systems: a meta-level description of system and system development based on the Montesquieu system model in an automotive context," i Andra Mekatronikmötet, Göteborg, Sweden, 2003.
[98]
D. Chen och M. Törngren, "Towards A Framework for Architecting Mechatronics Software Systems," i Proceedings of 7th IEEE International Conferenceon Engineering of Complex Computer Systems, 2001, s. 170-179.
[99]
D. Chen och M. Törngren, "System Architecture in a Mechatronics Perspective," i SNART 99 Real-time System Conference, Linköping, Sweden, 1999.
Kapitel i böcker
[100]
S. Tucci-Piergiovanni et al., "Model-Based Analysis andEngineering of AutomotiveArchitectures with EAST-ADL," i Handbook of Research on Embedded Systems Design, Alessandra Bagnato, Leandro Soares Indrusiak, Imran Rafiq Quadri, Matteo Rossi red., Hershey PA, USA : IGI Global, 2014, s. 242-282.
[101]
H. Blom et al., "EAST-ADL : An Architecture Description Language for Automotive Software-Intensive Systems," i Embedded Computing Systems : Applications, Optimization, and Advanced Design, M. Khalgui, O. Mosbahi, & A. Valentini red., Hershey : Information Science Reference, 2013.
[102]
F. Tagliabo et al., "Modelling Support for the Automotive Functional Safety Standard," i Monographs of System Dependability : Problems of Dependability and Modelling, J. Mazurkiewicz el al. red., 1. uppl. : Oficyna Wydawnicza Politechniki Wroclawskiej, 2011.
[103]
R. Anthony et al., "Autonomic Middleware for Automotive Embedded Systems," i Autonomic Communication, Vasilakos, Athanasios V.; Parashar, Manish; Karnouskos, Stamatis; Pedrycz, Witold red., : Springer US, 2009, s. 169-210.
[104]
M. Törngren et al., "Model-based development of automotive embedded systems," i Automotive Embedded Systems Handbook, N. Navet et. al. red., : Taylor & Francis, 2008.
[105]
J. G. Persson, C.-J. Sjöstedt och D.-J. Chen, "Automotive fuel cell system simulation, component and compressor modelling," i Schrauben-maschinen 2006: Kompressoren, Lader, Motoren, Vakuumpumpen = compressors, superchargers, engines, vavuum pumps : Tagung Dortmund, 26 und 27 September 2006, : VDI Gesellschaft Fahrzeug- und Verkehrstechnik, 2006, s. 217-235.
Icke refereegranskade
Artiklar
[106]
D. Chen et al., "Advances in Automotive System Modeling: EAST-ADL," EETimes Europe Automotive, 2013.
[107]
P. Cuenot et al., "Developing Automotive Products Using the EAST-ADL2 : an AUTOSAR Compliant Architecture Description Language," Ingénieurs de l'Automobile (Automobile Engineers), no. 793, 2008.
Konferensbidrag
[108]
Y. F. Yu et al., "Robust Safety Control for Automated Driving Systems with Perception Uncertainties," i Recent Developments in Model-Based and Data-Driven Methods for Advanced Control and Diagnosis : Proceedings The 16th European Workshop on Advanced Control and Diagnosis (ACD 2022), 2023, s. 321-331.
Kapitel i böcker
[109]
M. Törngren et al., "Model-based development of automotive embedded systems," i Automotive Embedded Systems Handbook, : CRC Press, 2017, s. 10-52.
[110]
M. Persson et al., "Architecture Exploration," i CESAR : Cost-efficient Methods and Processes for Safety-relevant Embedded Systems, : Springer, 2013, s. 145-178.
[111]
K.-K. Lau et al., "Component-Based Development," i CESAR : Cost-efficiation Methods and Processes for Safety-relevant Embedded Systems, Ajitha Rajan, Thomas Wahl red., : Springer, 2013, s. 179-212.
Rapporter
[112]
L. Jinzhi et al., "Model-based Systems Engineering Tool-chain toSupport Development of the Internet of Things," , 2019.
[113]
M. Persson et al., "A Multi-Viewpoint Architecture Exploration Methodology for Embedded Systems," , Trita-MMK, 2013:09, 2013.
[114]
[115]
T. N. Qureshi et al., "From EAST-ADL to AUTOSAR Architecture," KTH Royal Institute of Technology, Trita-MMK, 2011:12, 2011.
[116]
M. Persson et al., "DyLite : Design, Implementation and Experiences of a Light-Weight Middleware for Adaptive Embedded Systems," , TRITA-MMK, 2009:06, 2009.
[117]
T. N. Qureshi et al., "Experiences in Simulating a Dynamically Self-Configuring Middleware : A Case Study of DySCAS," Stockholm : KTH Royal Institute of Technology, Trita-MMK, 2009:04, 2009.
[118]
T. N. Qureshi et al., "On Mapping UML™ Models to Simulink® /SimEvents™ : A Case Study of Dynamically Self-Configuring Middleware," Stockholm : KTH, Trita-MMK, 2009:05, 2009.
[119]
D. Chen et al., "DySCAS System Specification - Part II : Specification of DySCAS MiddlewareReference Architecture," , DySCAS (Dynamically Self‐Configuring Automotive Systems), EU FP6 STREP (Grant: 34904), 2008.
[120]
L.-O. Berntsson et al., "EAST-ADL 2.0 Specification," , ATESST (Advancing Traffic Efficiency and Safety through Software Technology), EU FP6 STREP (Grant: 026976)., 2008.
[121]
J. Shi, D. Chen och M. Törngren, "Case Studies on Integratin Simulink, UML and Safety Analysis through Model Transformations," Stockholm : KTH, Trita-MMK, 2007:12, 2007.
[122]
D. Chen et al., "DySCAS System Architecture," , DySCAS (Dynamically Self‐Configuring Automotive Systems), EU FP6 STREP (Grant: 34904), 2007.
[123]
D. Chen, M. Törngren och H. Lönn, "Elicitation of relevant analysis and V&V techniques," , Advancing Traffic Efficiency and Safety through Software Technology (ATESST). EUROPEAN COMMISSION FP6 STREP (Grant: 026976), 2007.
[124]
J. El-khoury, D. Chen och M. Törngren, "A Survey of Modeling Approaches forEmbedded Computer Control Systems," Stockholm : KTH, Trita-MMK, 2003:36, 2003.
[125]
D. Chen och M. Sanfridson, "Introduction to Distributed Real-Time Control," , Trita-MMK, 1998:22, 2000.
[126]
D. Chen, "Architecture for Mechatronics Software Systems : A Survey of Related Concepts," Stockholm : KTH, Trita-MMK, 1999:30, 1999.
Proceedings (redaktörskap)
[127]
"Integrating safety analysis into the model-based development toolchain of automotive embedded systems," , Association for Computing Machinery (ACM), 2010.
Övriga
[128]
T. N. Qureshi, D.-J. Chen och M. Törngren, "Bridging the Gap Between EAST-ADL Behavior Description Annex and UPPAAL to Enhance Tool Support for Verifying Cyber-Physical Systems," (Manuskript).
Senaste synkning med DiVA:
2024-05-06 00:01:10