psilva.bib

@inproceedings{SILVA_INFORUM_2012,
  author = {Silva, P. and Marau, R. and Almeida, L.},
  title = {Experimental validation of temporal isolation among dynamic communication channels},
  booktitle = {3rd Simposium de Inform\'{a}tica (INForum'2012) Poster Session},
  year = {2012},
  editor = {},
  volume = {},
  series = {},
  pages = {},
  address = {Lisbon, Portugal},
  month = {September},
  organization = {},
  publisher = {},
  doi = {},
  issn = {},
  isbn = {},
  keywords = {Real-Time communications, FTT-SE},
  note = {},
  key = {},
  abstract = {}
}

@inproceedings{MARAU_WFCS_2012,
  author = {Marau, R. and Behnam, M. and Iqbal, Z. and Silva, P. and Almeida, L. and Portugal, P.},
  title = {Controlling multi-switch networks for prompt reconfiguration},
  booktitle = {9th IEEE International Workshop on Factory Communication Systems (WFCS'2012) Proceedings},
  year = {2012},
  editor = {},
  volume = {},
  series = {},
  pages = {233--242},
  address = {Lemgo, Germany},
  month = {May},
  organization = {},
  publisher = {},
  doi = {10.1109/WFCS.2012.6242571},
  issn = {},
  isbn = {978-1-4673-0693-5},
  keywords = {Real-Time communications, FTT, Ethernet, FTT-SE},
  note = {},
  key = {},
  abstract = {Recent trends in distributed embedded systems, such as those found in avionics and trains, have shown an increase in the amount and heterogeneity of the information that needs to be exchanged, together with a growing importance of supporting dynamic reconfiguration and adaptive behaviors. In this paper we focus on Ethernet technologies with real-time reconfiguration support and we address the case of middle-size networking infrastructures with a few switches. We use the FTT-SE protocol with the needed adaptations to support dynamic heterogeneous real-time transactions in multi-hop networks. The paper presents a worst-case response-time analysis that provides timeliness guarantees, improving the results obtained with another previous analysis, decreasing the needed network capacity for guaranteed schedulability by 25% on average. Practical experiments and simulation results validate the proposed approach and analysis}
}

@inproceedings{SILVA_DCOSS_2012,
  author = {Silva, P. and Silva, L. and Marau, R. and Almeida, L.},
  title = {Demonstrating Real-Time Reconfiguration of Video Sensing Service-Oriented Applications},
  booktitle = {8th IEEE International Conference on Distributed Computing in Sensor Systems (DCOSS'2012) Demos session},
  year = {2012},
  editor = {},
  volume = {},
  series = {},
  pages = {295--296},
  address = {Hangzhou, China},
  month = {May},
  organization = {},
  publisher = {},
  doi = {10.1109/DCOSS.2012.59},
  issn = {},
  isbn = {978-1-4673-1693-4},
  keywords = {Real-Time communications, FTT, Ethernet, FTT-SE, iLAND, Middleware},
  note = {},
  key = {},
  abstract = {Growing interest in facilitating the construction of real-time applications from reusable components and their run-time reconfiguration is motivating the use of Service-Oriented approaches in the real-time domain. The iLAND ARTEMIS project researches such direction, aiming at providing an SO middleware that supports dynamic reconfiguration, namely addition and removal of services and QoS-based hot swap of service implementations. In this demonstration we exhibit a few simple video sensing applications that illustrate the desired prompt reconfigurations without significant glitches and within bounded time as required for real-time applications}
}

@inproceedings{BEHNAM_WCTT_2011,
  author = {Behnam, M. and Iqbal, Z. and Silva, P. and Marau, R. and Almeida, L. and Portugal, P.},
  title = {Engineering and Analyzing Multi-Switch Networks with Single Point of Control},
  booktitle = {1st International Workshop on Worst-case Traversal Time (WCTT'2011) Proceedings},
  year = {2011},
  editor = {},
  volume = {},
  series = {},
  pages = {},
  address = {Vienna, Austria},
  month = {November},
  organization = {},
  publisher = {},
  doi = {},
  issn = {},
  isbn = {},
  keywords = {Real-Time communications, FTT, FTT-SE, Ethernet, Embedded systems},
  note = {},
  key = {},
  abstract = {Recent trends in distributed embedded systems have shown an increase in the amount and heterogeneity of the information that needs to be exchanged, together with a growing importance of supporting dynamic reconfiguration and adaptive behaviors. In this paper we focus on Ethernet technology and we address the case of middle-size networking infrastructure with a few switches. We use the FTT-SE protocol to support dynamic heterogeneous real-time transactions with temporal isolation and we propose the needed scheduling adaptations to support multi-hop network configurations. The paper also includes a companion worst-case response-time analysis that allows verifying the timeliness of the system}
}