Avionic system modelling
Avionic system modelling
- Author(s): R.J. Bluff
- DOI: 10.1049/cp:19980610
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- Author(s): R.J. Bluff Source: International Conference on Simulation (1998), 1998 p. 11 – 18
- Conference: International Conference on Simulation (1998)
- DOI: 10.1049/cp:19980610
- ISBN: 0 85296 709 8
- Location: York, UK
- Conference date: 30 Sept.-2 Oct. 1998
- Format: PDF
Through the need to reduce the risk of adopting future avionic architectures and standards, a better understanding of the operation of evolving system instances and standards early in the design cycle are required. A flexible means of achieving this aim is to conduct an analysis through the development of an avionic system model based on behavioural and performance simulation. The paper defines a modelling framework for the construction of an Avionic System Model that would provide a means of assessing the hardware and software components and their interaction in a system. The Shlaer-Mellor Object Oriented Analysis (OOA) method (S. Shlaer and J. Mellor, 1992) has been used to define the model. To form an avionic system model, three modelling domains have been defined: behavioural, performance and visualisation. Behavioural models constitute primarily the software components of the system, the performance models analyse the hardware concepts, and visualisation models provide a means of understanding the system's operation. The modelling domains can be applied separately or they can be linked together to form a system model. A developed performance model of the Aeronautical Radio, INC (ARINC) 651 Integrated Modular Architecture (IMA) is described. It is discussed how architecture bottlenecks and system capacity can be derived. An APplication/EXecutive (APEX) is also described. The behavioural analysis of this interface is illustrated and system visualisation concepts are discussed. How the various modelling components can be combined to form an avionic system model is also described.
Inspec keywords: avionics; aerospace computing; data visualisation; object-oriented methods; digital simulation
Subjects: Object-oriented programming; Simulation techniques; Aerospace engineering computing; Graphics techniques
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