Douglas B. P. Real-Time UML, developing Efficient Objects for Embedded Systems, Addison Wesley, Reading, MA, 1998.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....mode, stop watch mode, timer mode, or alarm mode. At a second level each of these modes breaks down into a normal mode or setup mode . House security system, which normally have two main modes: unarmed and armed. VCR which have a normal and a programming mode . Pacemaker case study used in [76] as four different modes: an idle mode, an AVI mode, a self inhibited mode, and self triggered mode One of the characteristics of a mode oriented component is that the component stays in its current mode until a specific mode toggling event, or message, is sent by a user. Mode toggling scenarios ....

....that can be executed while being in the mode. The internal state machines of the two modes are not illustrated here. explicitModeToggling state modeN mode3 mode2 . toModeN toMode3 toMode2 FIGURE 97. TV VCR remote control with sequential toggling The pacemaker component developed in [76] is an example of mode oriented behavior with explicit mode toggling. This example is illustrated in Figure 98 FIGURE 98. Mode oriented behavior with explicit mode toggling . Reduce the number of scenarios to address at once by partitioning the overall set of scenarios into subsets that can be ....

B.R. Douglas. Real-Time UML, Developing Efficient Objects for Embedded Systems. Addison-Wesley, 1998.

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Douglas B. P. Real-Time UML, developing Efficient Objects for Embedded Systems, Addison Wesley, Reading, MA, 1998.

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Real-Time UML, developing efficient objects for embedded systems, Bruce Powel Douglass, Addison-Wesley, 1998, ISBN 0-201-32579-9, http://www.ilogix.com

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