R. Esser and J. W. Janneck, "Moses: A tool suite for visual modeling of discrete-event systems," in Proc. Symp. Human-Centric Comput. (HCC '01), 2001, pp. 272--279.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....from MathWorks, LabVIEW from National Instruments, SPW from Cadence, Cocentric studio from Synopsys, and ROOM (Real time Object Oriented Modeling [26] from Rational Software. In the academic community, active objects and actors [1] 2] port based objects [28] hybrid I O automata [23] Moses [11], Polis [4] Ptolemy and Ptolemy II [8] all emphasize actor orientation. An important issue to be answered by actor oriented frameworks is the interaction styles among actors. This also differentiates many actor oriented modeling paradigms. For example, ROOM and Agha s actor suggest that actors ....

R. Esser, J.W. Janneck, "Moses - a tool suite for visual modeling of discrete-event systems," Proceedings of Symposium on Visual/Multimedia Approaches to Programming and Software Engineering Stresa, Italy, September, 2001

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R. Esser and J. W. Janneck, "Moses: A tool suite for visual modeling of discrete-event systems," in Proc. Symp. Human-Centric Comput. (HCC '01), 2001, pp. 272--279.

....differential equations with discrete automata [5] The charts (pronounced: star charts) formalism combines finite state machines with a variety of concurrent models of computation [32] New languages and tools emerge to support heterogeneous modeling approaches. The Moses framework [19] is being developed to support various event based models, like Petri nets, data flow and discrete event models. The El Greco system [13] supports a cyclo static dataflow (CSDF) model of computation [11] which allows hierarchical combination of state machine based control logic and dataflow ....

Robert Esser and Jorn W. Janneck. Moses: A tool suite for visual modeling of discrete-event systems. In Symposia on Human-Centric Computing (HCC '01), pages 272--279. IEEE Computer Society, September 2001.

....from describing the way it is simulated, i.e. the way parameters are chosen and results are collected. There are a number of meta modeling frameworks that would support a sufficiently expressive higher order modeling language to be designed e.g. Dome [7] GME [8] Ptolemy [3] or Moses [6]. Most modeling frameworks either focus on the visual syntax (as in the case of Dome and GME) providing little or no support for formalized definition of model semantics, or are primarily designed to support the creation of first order models (as e.g. Ptolemy) In contrast, Moses is built on a ....

Robert Esser and J orn W. Janneck. Moses: A tool suite for visual modeling of discrete-event systems. In Symposia on Human-Centric Computing (HCC '01), pages 272--279. IEEE Computer Society, September 2001.

....to the same length. In this work we are interested in exploring a more general approach which does not a priori constrain the kinds of component interactions, or the ways in which they are combined with each other. Examples of this kind of modeling environment would be Ptolemy [DHK 01] Moses [EJ01] and Metropolis [GSV02] We assume that models are hierarchically structured, such that parts modeled in di#erent models of computation are nested within each other. This way of structuring heterogeneous models is called hierarchical heterogeneity and has been studied extensively in the Ptolemy ....

Robert Esser and Jorn W. Janneck. Moses: A tool suite for visual modeling of discrete-event systems. In Symposia on Human-Centric Computing (HCC '01), pages 272--279. IEEE Computer Society, September 2001.

....differential equations with discrete automata [4] The charts (pronounced: star charts) formalism combines finite state machines with a variety of concurrent models of computation [29] New languages and tools emerge to support heterogeneous modeling approaches. The Moses framework [17] is being developed to support various event based models, like Petri nets, data flow and discrete event models. The El Greco system [12] now called SystemStudio) supports a generalized form of the cyclo static dataflow (CSDF) model of computation [9] and allows hierarchical combination of state ....

Robert Esser and J orn W. Janneck. Moses: A tool suite for visual modeling of discrete-event systems. In Symposia on Human-Centric Computing (HCC '01), pages 272--279. IEEE Computer Society, September 2001.

....13 16) and updating the state according to the standard Petri net definition (lines 19 26) Figure 7. The graph editor showing a Petri net model containing syntax errors. 6 Editing pictures A graph type definition is used to configure tools in the Moses tool suite, e.g. the Moses graph editor [9]. The graph editor provides general purpose graph manipulation functionality such as vertex and edge insertion and deletion and layout. It extracts the types of the vertices and edges from the graph type, as well as their appearance and attributes, and of course the syntax rules (see below) An ....

Robert Esser and Jorn W. Janneck. Moses -- a tool suite for visual modeling of discrete-event systems. In Symposium on Visual/Multimedia Approaches to Programming and Software Engineering, HCC'01, 2001.

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Robert Esser and Jrn W. Janneck. Moses: A tool suite for visual modeling of discreteevent systems. In Symposia on Human-Centric Computing, pages 272--279. IEEE Computer Society, September 2001.

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