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stateflow tool box  (MathWorks Inc)


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    MathWorks Inc stateflow tool box
    FIGURE 11. Statechart or <t>Stateflow</t> model. As above-mentioned and shown in Fig. 11, the statechart model has two discrete states, within which the unoccupied state is by default active, and all the test-cell actuators are set to the default position. However, a transition occurs to the occupied state when it detects that the current time coincide with the regular operating hours of the office building (i.e., the test-cell becomes occupied), and the positions of the actuators used for hybrid ventilation are automatically adjusted in real-time according to the occupants’ set-points (or references) and to the current situation in and around the test-cell. At this lower-level of design, the occupied state appears to be simple as it is one single state. However, at the lowest level of design, this occupied state (i.e., the discrete control system) is much complex as it encompasses two sub-states, which in turn contains several sub-sub-states, as illustrated in Fig. 12.
    Stateflow Tool Box, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 96/100, based on 1702 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/stateflow tool box/product/MathWorks Inc
    Average 96 stars, based on 1702 article reviews
    stateflow tool box - by Bioz Stars, 2026-03
    96/100 stars

    Images

    1) Product Images from "Modeling and Control of Hybrid Ventilation in a Building With Double Skin Façade"

    Article Title: Modeling and Control of Hybrid Ventilation in a Building With Double Skin Façade

    Journal: IEEE Access

    doi: 10.1109/access.2020.3024260

    FIGURE 11. Statechart or Stateflow model. As above-mentioned and shown in Fig. 11, the statechart model has two discrete states, within which the unoccupied state is by default active, and all the test-cell actuators are set to the default position. However, a transition occurs to the occupied state when it detects that the current time coincide with the regular operating hours of the office building (i.e., the test-cell becomes occupied), and the positions of the actuators used for hybrid ventilation are automatically adjusted in real-time according to the occupants’ set-points (or references) and to the current situation in and around the test-cell. At this lower-level of design, the occupied state appears to be simple as it is one single state. However, at the lowest level of design, this occupied state (i.e., the discrete control system) is much complex as it encompasses two sub-states, which in turn contains several sub-sub-states, as illustrated in Fig. 12.
    Figure Legend Snippet: FIGURE 11. Statechart or Stateflow model. As above-mentioned and shown in Fig. 11, the statechart model has two discrete states, within which the unoccupied state is by default active, and all the test-cell actuators are set to the default position. However, a transition occurs to the occupied state when it detects that the current time coincide with the regular operating hours of the office building (i.e., the test-cell becomes occupied), and the positions of the actuators used for hybrid ventilation are automatically adjusted in real-time according to the occupants’ set-points (or references) and to the current situation in and around the test-cell. At this lower-level of design, the occupied state appears to be simple as it is one single state. However, at the lowest level of design, this occupied state (i.e., the discrete control system) is much complex as it encompasses two sub-states, which in turn contains several sub-sub-states, as illustrated in Fig. 12.

    Techniques Used: Control



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    stateflow tool box  (MathWorks Inc)
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    MathWorks Inc stateflow tool box
    FIGURE 11. Statechart or <t>Stateflow</t> model. As above-mentioned and shown in Fig. 11, the statechart model has two discrete states, within which the unoccupied state is by default active, and all the test-cell actuators are set to the default position. However, a transition occurs to the occupied state when it detects that the current time coincide with the regular operating hours of the office building (i.e., the test-cell becomes occupied), and the positions of the actuators used for hybrid ventilation are automatically adjusted in real-time according to the occupants’ set-points (or references) and to the current situation in and around the test-cell. At this lower-level of design, the occupied state appears to be simple as it is one single state. However, at the lowest level of design, this occupied state (i.e., the discrete control system) is much complex as it encompasses two sub-states, which in turn contains several sub-sub-states, as illustrated in Fig. 12.
    Stateflow Tool Box, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/stateflow tool box/product/MathWorks Inc
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    stateflow tool box - by Bioz Stars, 2026-03
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    simulink stateflow tool box  (MathWorks Inc)
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    FIGURE 11. Statechart or <t>Stateflow</t> model. As above-mentioned and shown in Fig. 11, the statechart model has two discrete states, within which the unoccupied state is by default active, and all the test-cell actuators are set to the default position. However, a transition occurs to the occupied state when it detects that the current time coincide with the regular operating hours of the office building (i.e., the test-cell becomes occupied), and the positions of the actuators used for hybrid ventilation are automatically adjusted in real-time according to the occupants’ set-points (or references) and to the current situation in and around the test-cell. At this lower-level of design, the occupied state appears to be simple as it is one single state. However, at the lowest level of design, this occupied state (i.e., the discrete control system) is much complex as it encompasses two sub-states, which in turn contains several sub-sub-states, as illustrated in Fig. 12.
    Simulink Stateflow Tool Box, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 90 stars, based on 1 article reviews
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    Image Search Results


    FIGURE 11. Statechart or Stateflow model. As above-mentioned and shown in Fig. 11, the statechart model has two discrete states, within which the unoccupied state is by default active, and all the test-cell actuators are set to the default position. However, a transition occurs to the occupied state when it detects that the current time coincide with the regular operating hours of the office building (i.e., the test-cell becomes occupied), and the positions of the actuators used for hybrid ventilation are automatically adjusted in real-time according to the occupants’ set-points (or references) and to the current situation in and around the test-cell. At this lower-level of design, the occupied state appears to be simple as it is one single state. However, at the lowest level of design, this occupied state (i.e., the discrete control system) is much complex as it encompasses two sub-states, which in turn contains several sub-sub-states, as illustrated in Fig. 12.

    Journal: IEEE Access

    Article Title: Modeling and Control of Hybrid Ventilation in a Building With Double Skin Façade

    doi: 10.1109/access.2020.3024260

    Figure Lengend Snippet: FIGURE 11. Statechart or Stateflow model. As above-mentioned and shown in Fig. 11, the statechart model has two discrete states, within which the unoccupied state is by default active, and all the test-cell actuators are set to the default position. However, a transition occurs to the occupied state when it detects that the current time coincide with the regular operating hours of the office building (i.e., the test-cell becomes occupied), and the positions of the actuators used for hybrid ventilation are automatically adjusted in real-time according to the occupants’ set-points (or references) and to the current situation in and around the test-cell. At this lower-level of design, the occupied state appears to be simple as it is one single state. However, at the lowest level of design, this occupied state (i.e., the discrete control system) is much complex as it encompasses two sub-states, which in turn contains several sub-sub-states, as illustrated in Fig. 12.

    Article Snippet: While the continuous dynamics are modelled using the Simulink function block parameters, the discrete state events are modelled using the Stateflow tool-box, where two main states, unoccupied and occupied, are considered.

    Techniques: Control