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Viewing software matching the following properties:

  • Fuzzy Logic Toolbox

    Fuzzy Logic Toolbox™ provides functions, apps, and a Simulink® block for analyzing, designing, and simulating systems based on fuzzy logic. The product guides you through the steps of designing fuzzy inference systems. Functions are provided for many common methods, including fuzzy clustering and adaptive neurofuzzy learning. The toolbox lets you model complex system behaviors using simple logic rules, and then implement these rules in a fuzzy inference system. You can use it as a stand-alone fuzzy inference engine. Alternatively, you can use fuzzy inference blocks in Simulink and simulate the fuzzy systems within a comprehensive model of the entire dynamic system.

    • Usage:
      AcademicEducationalCommercial⁄ProfessionalClassroomResearch
    • License type:
      StandaloneNetwork
    • Organisational Unit: Vice Rector for Science - Latvia, Riga
    • Price: Contract price
  • SimDriveline

    SimDriveline™ provides component libraries for modeling and simulating one-dimensional mechanical systems. It includes models of rotational and translational components, such as worm gears, planetary gears, lead screws, and clutches. You can use these components to model the transmission of mechanical power in helicopter drivetrains, industrial machinery, vehicle powertrains, and other applications. Automotive components, such as engines, tires, transmissions, and torque converters, are also included. SimDriveline models can be converted into C code for real-time testing of controller hardware.

    • Usage:
      AcademicEducationalCommercial⁄ProfessionalClassroomResearch
    • License type:
      StandaloneNetwork
    • Organisational Unit: Vice Rector for Science - Latvia, Riga
    • Price: Contract price
  • SimElectronics

    SimElectronics® provides component libraries for modeling and simulating electronic and mechatronic systems. The libraries include models of semiconductors, motors, drives, sensors, and actuators. You can use these components to develop electromechanical actuation systems and to build behavioral models for evaluating analog circuit architectures in Simulink®. SimElectronics models can be used to develop control algorithms in electronic and mechatronic systems, including vehicle body electronics, aircraft servomechanisms, and audio power amplifiers. The semiconductor models include nonlinear and dynamic temperature effects, enabling you to select components in amplifiers, analog-to-digital converters, phase-locked loops, and other circuits. You can parameterize your models using MATLAB® variables and expressions. You can add mechanical, hydraulic, pneumatic, and other components to a model using Simscape™ and test them in a single simulation environment. To deploy models to other simulation environments, including hardware-in-the-loop (HIL) systems, SimElectronics supports C-code generation.

    • Usage:
      AcademicEducationalCommercial⁄ProfessionalClassroomResearch
    • License type:
      StandaloneNetwork
    • Organisational Unit: Vice Rector for Science - Latvia, Riga
    • Price: Contract price
  • SimHydraulics

    SimHydraulics® provides component libraries for modeling and simulating hydraulic systems. It includes models of hydraulic components, such as pumps, valves, actuators, pipelines, and hydraulic resistances. You can use these components to model fluid power systems such as front-loader, power steering, and landing gear actuation systems. Fuel supply and water supply systems can also be modeled using SimHydraulics. SimHydraulics models can be used to develop control systems and test system-level performance. You can parameterize your models using MATLAB® variables and expressions, and design control systems for your hydraulic system in Simulink®. You can add electrical, mechanical, pneumatic, and other components to your hydraulic model using Simscape™ and test them in a single simulation environment. To deploy models to other simulation environments, including hardware-in-the-loop (HIL) systems, SimHydraulics supports C-code generation.

    • Usage:
      AcademicEducationalCommercial⁄ProfessionalClassroomResearch
    • License type:
      StandaloneNetwork
    • Organisational Unit: Vice Rector for Science - Latvia, Riga
    • Price: Contract price
  • SimPowerSystems

    SimPowerSystems™ provides component libraries and analysis tools for modeling and simulating electrical power systems. The libraries offer models of electrical power components, including three-phase machines, electric drives, and components for applications such as flexible AC transmission systems (FACTS) and renewable energy systems. Harmonic analysis, calculation of total harmonic distortion (THD), load flow, and other key electrical power system analyses are automated. SimPowerSystems models can be used to develop control systems and test system-level performance. You can parameterize your models using MATLAB® variables and expressions, and design control systems for your electrical power system in Simulink®. You can add mechanical, hydraulic, pneumatic, and other components to the model using Simscape™ and test them together in a single simulation environment. To deploy models to other simulation environments, including hardware-in-the-loop (HIL) systems, SimPowerSystems supports C-code generation.

    • Usage:
      AcademicEducationalCommercial⁄ProfessionalClassroomResearch
    • License type:
      StandaloneNetwork
    • Organisational Unit: Vice Rector for Science - Latvia, Riga
    • Price: Contract price
  • Simscape

    Simscape™ provides an environment for modeling and simulating physical systems spanning mechanical, electrical, hydraulic, and other physical domains. It provides fundamental building blocks from these domains that you can assemble into models of physical components, such as electric motors, inverting op-amps, hydraulic valves, and ratchet mechanisms. Because Simscape components use physical connections, your models match the structure of the system you are developing. Simscape models can be used to develop control systems and test system-level performance. You can extend the libraries using the MATLAB® based Simscape language, which enables text-based authoring of physical modeling components, domains, and libraries. You can parameterize your models using MATLAB variables and expressions, and design control systems for your physical system in Simulink®. To deploy your models to other simulation environments, including hardware-in-the-loop (HIL) systems, Simscape supports C-code generation.

    • Usage:
      AcademicEducationalCommercial⁄ProfessionalClassroomResearch
    • License type:
      StandaloneNetwork
    • Organisational Unit: Vice Rector for Science - Latvia, Riga
    • Price: Contract price
  • Stateflow

    Stateflow® is an environment for modeling and simulating combinatorial and sequential decision logic based on state machines and flow charts. Stateflow lets you combine graphical and tabular representations, including state transition diagrams, flow charts, state transition tables, and truth tables, to model how your system reacts to events, time-based conditions, and external input signals. With Stateflow you can design logic for supervisory control, task scheduling, and fault management applications. Stateflow includes state machine animation and static and run-time checks for testing design consistency and completeness before implementation.

    • Usage:
      AcademicEducationalCommercial⁄ProfessionalClassroomResearch
    • License type:
      StandaloneNetwork
    • Organisational Unit: Vice Rector for Science - Latvia, Riga
    • Price: Contract price
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