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  • Communications System Toolbox

    Communications System Toolbox™ provides algorithms for the design, simulation, and analysis of communications systems. These capabilities are provided as MATLAB® functions, MATLAB System objects™, and Simulink® blocks. The system toolbox enables source coding, channel coding, interleaving, modulation, equalization, synchronization, and channel modeling. You can also analyze bit error rates, generate eye and constellation diagrams, and visualize channel characteristics. Using adaptive algorithms, you can model dynamic communications systems that use OFDM, OFDMA, and MIMO techniques. Algorithms support fixed-point data arithmetic and C or HDL code generation.

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

    Computer Vision System Toolbox™ provides algorithms, functions, and apps for the design and simulation of computer vision and video processing systems. You can perform object detection and tracking, feature detection and extraction, feature matching, stereo vision, camera calibration, and motion detection tasks. The system toolbox also provides tools for video processing, including video file I/O, video display, object annotation, drawing graphics, and compositing. Algorithms are available as MATLAB® functions, System objects™, and Simulink® blocks. For rapid prototyping and embedded system design, the system toolbox supports fixed-point arithmetic and automatic C-code generation.

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

    Control System Toolbox™ provides industry-standard algorithms and apps for systematically analyzing, designing, and tuning linear control systems. You can specify your system as a transfer function, state-space, zero-pole-gain or frequency-response model. Apps and functions, such as step response plot and Bode plot, let you visualize system behavior in time domain and frequency domain. You can tune compensator parameters using automatic PID controller tuning, Bode loop shaping, root locus method, LQR/LQG design, and other interactive and automated techniques. You can validate your design by verifying rise time, overshoot, settling time, gain and phase margins, and other requirements.

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

    DSP System Toolbox™ provides algorithms for the design and simulation of signal processing systems. These capabilities are provided as MATLAB® functions, MATLAB System objects™, and Simulink® blocks. The system toolbox includes design methods for specialized FIR and IIR filters, FFTs, multirate processing, and DSP techniques for processing streaming data and creating real-time prototypes. You can design adaptive and multirate filters, implement filters using computationally efficient architectures, and simulate floating-point digital filters. Tools for signal I/O from files and devices, signal generation, spectral analysis, and interactive visualization enable you to analyze system behavior and performance. For rapid prototyping and embedded system design, the system toolbox supports fixed-point arithmetic and C or HDL code generation.

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

    Image Processing Toolbox™ provides a comprehensive set of reference-standard algorithms, functions, and apps for image processing, analysis, visualization, and algorithm development. You can perform image analysis, image segmentation, image enhancement, noise reduction, geometric transformations, and image registration. Many toolbox functions support multicore processors, GPUs, and C-code generation. Image Processing Toolbox supports a diverse set of image types, including high dynamic range, gigapixel resolution, embedded ICC profile, and tomographic. Visualization functions and apps let you explore images and videos, examine a region of pixels, adjust color and contrast, create contours or histograms, and manipulate regions of interest (ROIs). The toolbox supports workflows for processing, displaying, and navigating large images.

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

    The MATLAB® Report Generator™ product automatically documents tasks that you perform in MATLAB®, such as analyzing and visualizing data and developing algorithms. It enables you to run MATLAB code and capture the graphics and data as they are produced. You can use the prebuilt templates or create a template that incorporates your own styles and standards.

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

    Robust Control Toolbox™ provides functions, algorithms, and blocks for analyzing and tuning control systems for performance and robustness. You can create uncertain models by combining nominal dynamics with uncertain elements, such as uncertain parameters or unmodeled dynamics. You can analyze the impact of plant model uncertainty on control system performance and identify worst-case combinations of uncertain elements. H-infinity and mu-synthesis techniques let you design controllers that maximize robust stability and performance. The toolbox automatically tunes both SISO and MIMO controllers. These can include decentralized, fixed-structure controllers with multiple tunable blocks spanning multiple feedback loops. The toolbox lets you tune one controller against a set of plant models. You can also tune gain-scheduled controllers. You can specify multiple tuning objectives, such as reference tracking, disturbance rejection, stability margins, and closed-loop pole locations.

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

    Signal Processing Toolbox™ provides industry-standard algorithms and apps for analog and digital signal processing (DSP). You can use the toolbox to visualize signals in time and frequency domains, compute FFTs for spectral analysis, design FIR and IIR filters, and implement convolution, modulation, resampling, and other signal processing techniques. Algorithms in the toolbox can be used as a basis for developing custom algorithms for audio and speech processing, instrumentation, and baseband wireless communications.

    • Usage:
      AcademicEducationalCommercial⁄ProfessionalClassroomResearch
    • License type:
      StandaloneNetwork
    • Organisational Unit: Vice Rector for Science - Latvia, Riga
    • Price: Contract price
  • Simulink 3D Animation

    Simulink 3D Animation™ provides apps for linking Simulink® models and MATLAB® algorithms to 3D graphics objects. It lets you visualize and verify dynamic system behavior in a virtual reality environment. Objects are represented in the Virtual Reality Modeling Language (VRML), a standard 3D modeling language. You can animate a 3D world by changing position, rotation, scale, and other object properties during desktop or real-time simulation. You can also inject virtual sensor signals and access 3D animation data in Simulink or MATLAB for postprocessing. Simulink 3D Animation includes viewers for rendering and interacting with virtual scenes. With the 3D World Editor, you can author detailed scenes assembled from 3D models exported from CAD-based or web-based sources. You can incorporate multiple 3D scene views inside MATLAB figures and interact with these views via a force-feedback joystick, space mouse, or other hardware device.

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

    Simulink Fixed Point enables the fixed-point capabilities of the Simulink product family, letting you use those products to design, simulate, and implement fixed-point control and signal processing algorithms. With Simulink Fixed Point, you specify fixed-point data attributes, including word length and scaling for signals and parameters, in your model. You can perform bit-true simulations to observe the effects of limited range and precision on designs built with Simulink, Stateflow, DSP System Toolbox™, and other Simulink products. Automated fixed-point advisors guide you through the steps of converting floating-point models to fixed point. Additional tools analyze your model or use simulation results to recommend data types and scaling. Simulink Fixed Point supports C, HDL, and PLC code generation with Simulink code-generation products.

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