Jump to content

Behavior of coupled DEVS

From Wikipedia, the free encyclopedia
(Redirected from Behavior of Coupled DEVS)

In theoretical computer science, DEVS is closed under coupling [Zeigper84] [ZPK00]. In other words, given a coupled DEVS model , its behavior is described as an atomic DEVS model . For a given coupled DEVS , once we have an equivalent atomic DEVS , behavior of can be referred to behavior of atomic DEVS which is based on Timed Event System.

Similar to behavior of atomic DEVS, behavior of the Coupled DEVS class is described depending on definition of the total state set and its handling as follows.

View1: Total states = states * elapsed times

[edit]

Given a coupled DEVS model , its behavior is described as an atomic DEVS model

where

  • and are the input event set and the output event set, respectively.
  • is the partial state set where is the total state set of component (Refer to View1 of Behavior of DEVS), where is the set of non-negative real numbers.
  • is the initial state set where is the total initial state of component .
  • is the time advance function, where is the set of non-negative real numbers plus infinity. Given ,


  • is the external state function. Given a total state where , and input event , the next state is given by

where

Given the partial state , let denote the set of imminent components. The firing component which triggers the internal state transition and an output event is determined by

  • is the internal state function. Given a partial state , the next state is given by

where

  • is the output function. Given a partial state ,

View2: Total states = states * lifespan * elapsed times

[edit]

Given a coupled DEVS model , its behavior is described as an atomic DEVS model

where

  • and are the input event set and the output event set, respectively.
  • is the partial state set where is the total state set of component (Refer to View2 of Behavior of DEVS).
  • is the initial state set where is the total initial state of component .
  • is the time advance function. Given ,


  • is the external state function. Given a total state where , and input event , the next state is given by

where

and

Given the partial state , let denote the set of imminent components. The firing component which triggers the internal state transition and an output event is determined by

  • is the internal state function. Given a partial state , the next state is given by

where

  • is the output function. Given a partial state ,

Time passage

[edit]

Since in a coupled DEVS model with non-empty sub-components, i.e., , the number of clocks which trace their elapsed times are multiple, so time passage of the model is noticeable.

For View1

Given a total state where

If unit event segment is the null event segment, i.e. , the state trajectory in terms of Timed Event System is

For View2

Given a total state where

If unit event segment is the null event segment, i.e. , the state trajectory in terms of Timed Event System is

Remarks

[edit]
  1. The behavior of a couple DEVS network whose all sub-components are deterministic DEVS models can be non-deterministic if is non-deterministic.

See also

[edit]

References

[edit]
  • [Zeigler84] Bernard Zeigler (1984). Multifacetted Modeling and Discrete Event Simulation. Academic Press, London; Orlando. ISBN 978-0-12-778450-2.
  • [ZKP00] Bernard Zeigler; Tag Gon Kim; Herbert Praehofer (2000). Theory of Modeling and Simulation (second ed.). Academic Press, New York. ISBN 978-0-12-778455-7.