Sundharam, S. M. (2019). Timing-aware Model Based Design with Application to Automotive Embedded Systems [Doctoral thesis, Unilu - University of Luxembourg]. ORBilu-University of Luxembourg. https://orbilu.uni.lu/handle/10993/40501 |
Sundharam, S. M., Navet, N., Altmeyer, S., & Havet, L. (20 February 2018). A Model-Driven Co-Design Framework for Fusing Control and Scheduling Viewpoints. Sensors, 18 (2), 628. doi:10.3390/s18020628 Peer Reviewed verified by ORBi |
Sundharam, S. M., Fejoz, L., & Navet, N. (2016). Connected Motorized Riders - A Smart Mobility System to Connect Two and Three-wheelers. In Proceedings of 6th Intentional Symposium on Embedded computing & system Design (ISED 2016). Peer reviewed |
Sundharam, S. M., Havet, L., Altmeyer, S., & Navet, N. (2016). A Model-Based Development Environment for Rapid-Prototyping of Latency-Sensitive Automotive Control Software. In Proceedings of 6th Intentional Symposium on Embedded computing & system Design (ISED 2016). Peer reviewed |
Sundharam, S. M. (2016). Short Term Scientific Mission Report on Applying Timing Analysis Metamodel to Co-Simulation Model Based Development Environment. ICT COST Action IC1202, European Cooperation In Science & Research. |
Sundharam, S. M., Altmeyer, S., & Navet, N. (2016). Model Interpretation for an AUTOSAR compliant Engine Control Function. In 7th International Workshop on Analysis Tools and Methodologies for Embedded and Real-time Systems (WATERS). Peer reviewed |
Sundharam, S. M., Altmeyer, S., & Navet, N. (2016). Poster Abstract: An Optimizing Framework for Real-Time Scheduling. In Proceedings of 22nd IEEE Real-Time and Embedded Technology and Applications Symposium (RTAS 2016). Peer reviewed |
Fejoz, L., Navet, N., Sundharam, S. M., & Altmeyer, S. (12 April 2016). Demo: Applications of the CPAL language to model, simulate and program Cyber-Physical Systems [Poster presentation]. Demo Session of 22nd IEEE Real-Time and Embedded Technology and Applications Symposium (RTAS 2016), Vienna, Austria. |
Altmeyer, S., Sundharam, S. M., & Navet, N. (2016). The Case for FIFO Real-Time Scheduling. University of Luxembourg. |