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Measuring and Optimising Convergence and Stability in Terms of System Construction in SystemC

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

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Measuring and Optimising Convergence and Stability in Terms of System Construction in SystemC. / Aref, Ibrahim; Ahmed, Nuredin; Rodriguez-Salazar, Fernando et al.
2010.

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

Harvard

Aref, I, Ahmed, N, Rodriguez-Salazar, F & Elgaid, K 2010, 'Measuring and Optimising Convergence and Stability in Terms of System Construction in SystemC'. https://doi.org/10.1109/ECBS.2010.36

APA

Aref, I., Ahmed, N., Rodriguez-Salazar, F., & Elgaid, K. (2010). Measuring and Optimising Convergence and Stability in Terms of System Construction in SystemC. https://doi.org/10.1109/ECBS.2010.36

Vancouver

Aref I, Ahmed N, Rodriguez-Salazar F, Elgaid K. Measuring and Optimising Convergence and Stability in Terms of System Construction in SystemC. 2010. doi: 10.1109/ECBS.2010.36

Author

Aref, Ibrahim ; Ahmed, Nuredin ; Rodriguez-Salazar, Fernando et al. / Measuring and Optimising Convergence and Stability in Terms of System Construction in SystemC.

Bibtex

@conference{d5cca6feb1f4402a9928dfdf5660227d,
title = "Measuring and Optimising Convergence and Stability in Terms of System Construction in SystemC",
abstract = "The current SystemC modelling language lacks a standard framework that supports the modelling of wireless communication systems. This research investigates how wireless features can be incorporated into existing SystemC design methodology. The components to be investigated in order to achieve this target are divided into three parts: developing a system-level model of a digital wireless communication channel, creating a small library of dedicated elements at system level, and concluding with a case study on flocking behaviour system to validate the wireless extension methodology. In previous works, all these parts were successfully modelled and implemented. In this paper, the integration of communication modelling is introduced into design modelling during the early stages of system development. We use a flocking behaviour system to show how the stability of the system and converging point are measured and optimised in terms of system construction, using some important concepts of graph theory.",
author = "Ibrahim Aref and Nuredin Ahmed and Fernando Rodriguez-Salazar and Khaled Elgaid",
year = "2010",
month = may,
day = "3",
doi = "10.1109/ECBS.2010.36",
language = "English",

}

RIS

TY - CONF

T1 - Measuring and Optimising Convergence and Stability in Terms of System Construction in SystemC

AU - Aref, Ibrahim

AU - Ahmed, Nuredin

AU - Rodriguez-Salazar, Fernando

AU - Elgaid, Khaled

PY - 2010/5/3

Y1 - 2010/5/3

N2 - The current SystemC modelling language lacks a standard framework that supports the modelling of wireless communication systems. This research investigates how wireless features can be incorporated into existing SystemC design methodology. The components to be investigated in order to achieve this target are divided into three parts: developing a system-level model of a digital wireless communication channel, creating a small library of dedicated elements at system level, and concluding with a case study on flocking behaviour system to validate the wireless extension methodology. In previous works, all these parts were successfully modelled and implemented. In this paper, the integration of communication modelling is introduced into design modelling during the early stages of system development. We use a flocking behaviour system to show how the stability of the system and converging point are measured and optimised in terms of system construction, using some important concepts of graph theory.

AB - The current SystemC modelling language lacks a standard framework that supports the modelling of wireless communication systems. This research investigates how wireless features can be incorporated into existing SystemC design methodology. The components to be investigated in order to achieve this target are divided into three parts: developing a system-level model of a digital wireless communication channel, creating a small library of dedicated elements at system level, and concluding with a case study on flocking behaviour system to validate the wireless extension methodology. In previous works, all these parts were successfully modelled and implemented. In this paper, the integration of communication modelling is introduced into design modelling during the early stages of system development. We use a flocking behaviour system to show how the stability of the system and converging point are measured and optimised in terms of system construction, using some important concepts of graph theory.

U2 - 10.1109/ECBS.2010.36

DO - 10.1109/ECBS.2010.36

M3 - Conference paper

ER -