Review



v4.8 foundational blocks  (MathWorks Inc)


Bioz Verified Symbol MathWorks Inc is a verified supplier  
  • Logo
  • About
  • News
  • Press Release
  • Team
  • Advisors
  • Partners
  • Contact
  • Bioz Stars
  • Bioz vStars
    • 90
      Buy from Supplier

    Structured Review

    MathWorks Inc v4.8 foundational blocks
    Circuit diagram for the standard splitter. The control module contains a pulse-wave generator with a period appropriate to the respiration rate. It delivers three square signals to control the inspiration, expiration and voltage to the circuit. The R ETT resistors correspond to the endotracheal tubing. R Ex and R Ix correspond to the inflow and outflow tubing resistance. The patient module consists of a resistor (R Lx ) to model upper airway resistance, and a capacitor C Lx , to model the compliance of the lungs and chest wall. Grey boxes outline the splitter (i) and patient submodule (ii). The text ‘sensor’ on the patient blocks indicate that the respective signals are connected to appropriate <t>Simscape</t> sensor blocks, namely current and voltage sensors, to allow for these signals to be logged during simulation.
    V4.8 Foundational Blocks, 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
    https://www.bioz.com/result/v4.8 foundational blocks/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    v4.8 foundational blocks - by Bioz Stars, 2026-03
    90/100 stars

    Images

    1) Product Images from "A simulated single ventilator/dual patient ventilation strategy for acute respiratory distress syndrome during the COVID-19 pandemic"

    Article Title: A simulated single ventilator/dual patient ventilation strategy for acute respiratory distress syndrome during the COVID-19 pandemic

    Journal: Royal Society Open Science

    doi: 10.1098/rsos.200585

    Circuit diagram for the standard splitter. The control module contains a pulse-wave generator with a period appropriate to the respiration rate. It delivers three square signals to control the inspiration, expiration and voltage to the circuit. The R ETT resistors correspond to the endotracheal tubing. R Ex and R Ix correspond to the inflow and outflow tubing resistance. The patient module consists of a resistor (R Lx ) to model upper airway resistance, and a capacitor C Lx , to model the compliance of the lungs and chest wall. Grey boxes outline the splitter (i) and patient submodule (ii). The text ‘sensor’ on the patient blocks indicate that the respective signals are connected to appropriate Simscape sensor blocks, namely current and voltage sensors, to allow for these signals to be logged during simulation.
    Figure Legend Snippet: Circuit diagram for the standard splitter. The control module contains a pulse-wave generator with a period appropriate to the respiration rate. It delivers three square signals to control the inspiration, expiration and voltage to the circuit. The R ETT resistors correspond to the endotracheal tubing. R Ex and R Ix correspond to the inflow and outflow tubing resistance. The patient module consists of a resistor (R Lx ) to model upper airway resistance, and a capacitor C Lx , to model the compliance of the lungs and chest wall. Grey boxes outline the splitter (i) and patient submodule (ii). The text ‘sensor’ on the patient blocks indicate that the respective signals are connected to appropriate Simscape sensor blocks, namely current and voltage sensors, to allow for these signals to be logged during simulation.

    Techniques Used: Control



    Similar Products

    v4.8 foundational blocks  (MathWorks Inc)
    90
    MathWorks Inc v4.8 foundational blocks
    Circuit diagram for the standard splitter. The control module contains a pulse-wave generator with a period appropriate to the respiration rate. It delivers three square signals to control the inspiration, expiration and voltage to the circuit. The R ETT resistors correspond to the endotracheal tubing. R Ex and R Ix correspond to the inflow and outflow tubing resistance. The patient module consists of a resistor (R Lx ) to model upper airway resistance, and a capacitor C Lx , to model the compliance of the lungs and chest wall. Grey boxes outline the splitter (i) and patient submodule (ii). The text ‘sensor’ on the patient blocks indicate that the respective signals are connected to appropriate <t>Simscape</t> sensor blocks, namely current and voltage sensors, to allow for these signals to be logged during simulation.
    V4.8 Foundational Blocks, 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
    https://www.bioz.com/result/v4.8 foundational blocks/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    v4.8 foundational blocks - by Bioz Stars, 2026-03
    90/100 stars
    		  Buy from Supplier
    simscape (simulink v4.8) foundational blocks  (MathWorks Inc)
    90
    MathWorks Inc simscape (simulink v4.8) foundational blocks
    Circuit diagram for the standard splitter. The control module contains a pulse-wave generator with a period appropriate to the respiration rate. It delivers three square signals to control the inspiration, expiration and voltage to the circuit. The R ETT resistors correspond to the endotracheal tubing. R Ex and R Ix correspond to the inflow and outflow tubing resistance. The patient module consists of a resistor (R Lx ) to model upper airway resistance, and a capacitor C Lx , to model the compliance of the lungs and chest wall. Grey boxes outline the splitter (i) and patient submodule (ii). The text ‘sensor’ on the patient blocks indicate that the respective signals are connected to appropriate <t>Simscape</t> sensor blocks, namely current and voltage sensors, to allow for these signals to be logged during simulation.
    Simscape (Simulink V4.8) Foundational Blocks, 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
    https://www.bioz.com/result/simscape (simulink v4.8) foundational blocks/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    simscape (simulink v4.8) foundational blocks - by Bioz Stars, 2026-03
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Circuit diagram for the standard splitter. The control module contains a pulse-wave generator with a period appropriate to the respiration rate. It delivers three square signals to control the inspiration, expiration and voltage to the circuit. The R ETT resistors correspond to the endotracheal tubing. R Ex and R Ix correspond to the inflow and outflow tubing resistance. The patient module consists of a resistor (R Lx ) to model upper airway resistance, and a capacitor C Lx , to model the compliance of the lungs and chest wall. Grey boxes outline the splitter (i) and patient submodule (ii). The text ‘sensor’ on the patient blocks indicate that the respective signals are connected to appropriate Simscape sensor blocks, namely current and voltage sensors, to allow for these signals to be logged during simulation.

    Journal: Royal Society Open Science

    Article Title: A simulated single ventilator/dual patient ventilation strategy for acute respiratory distress syndrome during the COVID-19 pandemic

    doi: 10.1098/rsos.200585

    Figure Lengend Snippet: Circuit diagram for the standard splitter. The control module contains a pulse-wave generator with a period appropriate to the respiration rate. It delivers three square signals to control the inspiration, expiration and voltage to the circuit. The R ETT resistors correspond to the endotracheal tubing. R Ex and R Ix correspond to the inflow and outflow tubing resistance. The patient module consists of a resistor (R Lx ) to model upper airway resistance, and a capacitor C Lx , to model the compliance of the lungs and chest wall. Grey boxes outline the splitter (i) and patient submodule (ii). The text ‘sensor’ on the patient blocks indicate that the respective signals are connected to appropriate Simscape sensor blocks, namely current and voltage sensors, to allow for these signals to be logged during simulation.

    Article Snippet: We implemented the simulations using MathWork's Simscape (Simulink v4.8) Foundational Blocks and the tests were run via Matlab R2020a scripts and functions.

    Techniques: Control