SOFTWARE PLATFORMS INDUSTRIAL VISION

Brand Owner Address Description
NAUTILUS VISION PLATFORM TATTILE S.R.L. Via Donizetti, 1/3/5 I-25030 MAIRANO (Brescia) Italy Software platforms for industrial vision applications and image analysis; image analysis software for smart video cameras and vision controllers; software for programming, developing, executing and controlling specialised image analysis algorithms; software enabling the control of machine vision devices, including multi-cameras, digital video cameras and smart video cameras for developing customised machine vision applications for industrial purposes and for management in the field of machine vision devices; machine vision software platforms for integrating the libraries of others and for developing own vision algorithms; machine vision software platforms for integrating the hardware of others, including industrial PCs, digital video cameras and smart video cameras; machine vision software for multi-camera systems, smart video cameras and digital video cameras; software enabling the development of machine vision algorithms and machine vision applications for industrial processes; software enabling users to create debugs and tests for machine vision applications; software enabling the development of graphical user interfaces, namely, GUIs, for managing machine vision applications; specialised machine vision software for vision controllers or smart video cameras; software enabling the download of specialised machine vision applications for operating hardware relating thereto; software enabling debugging of programs by means of breakpoint, variables and image monitoring;Installation and repair of machine vision platforms, namely, computers that are open to integration with the libraries of others and for developing own vision algorithms; installation and repair of machine vision platforms, namely, computers that are open to integration with the hardware of others, including industrial PCs, digital video cameras and smart video cameras;VISION PLATFORM;Design, development and implementation of software platforms for industrial vision applications and image analysis; design, development and implementation of image analysis software for smart video cameras and vision controllers; design, development and implementation of software for programming, developing, executing and controlling specialised image analysis algorithms; design, development and implementation of software enabling the control of machine vision devices, including multi-cameras, digital video cameras and smart video cameras for developing customised machine vision applications for industrial purposes and for management in the field of machine vision devices; design, development and implementation of machine vision platforms, namely software platforms that are open to integration with the libraries of others and for developing own vision algorithms; design, development and implementation of machine vision platforms, namely, software platforms that are open to integration with the hardware of others, including industrial PCs, digital video cameras and smart video cameras; design, development and implementation of machine vision software for multi-camera systems, smart video cameras and digital video cameras; design, development and implementation of software enabling the development of machine vision algorithms and machine vision applications for industrial processes; design, development and implementation of software enabling users to create debugs and tests for machine vision applications; design, development and implementation of software enabling the development of graphical user interfaces, namely, GUIs, for managing machine vision applications; design, development and implementation of specialised machine vision software for vision controllers or smart video cameras; design, development and implementation of software enabling the download of specialised machine vision applications for operating hardware relating thereto; design, development and implementation of software enabling debugging of programs by means of breakpoint, variables and image monitoring; installation, support and maintenance in relation to software platforms for industrial vision applications and image analysis; installation, support and maintenance in relation to image analysis software for smart video cameras and vision controllers; installation, support and maintenance in relation to software for programming, developing, executing and controlling specialised image analysis algorithms; installation, support and maintenance in relation to software enabling the control of machine vision devices, including multi-cameras, digital video cameras and smart video cameras for developing customised machine vision applications for industrial purposes and for management in the field of machine vision devices; installation, support and maintenance in relation to software enabling the development of machine vision algorithms and machine vision applications for industrial processes; installation, support and maintenance in relation to software enabling users to create debugs and tests for machine vision applications; installation, support and maintenance in relation to software enabling the development of graphical user interfaces, namely, GUIs, for managing machine vision applications; installation, support and maintenance in relation to software enabling the download of specialised machine vision applications for operating hardware relating thereto; installation, support and maintenance in relation to software enabling debugging of programs by means of breakpoint, variables and image monitoring; installation, support and maintenance in relation to machine vision software for multi-camera systems, smart video cameras and digital video cameras; installation, support and maintenance in relation to specialised machine vision software for vision controllers or smart video cameras;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A method for automatically decomposing a dynamic system model into separate submodels for ultimate execution on diverse target platforms is provided. Embodiments of the invention provide a way for a system designer to indicate which portions of a previously-specified system model are to become submodels. Optionally, the designer may also indicate the associated target platform for the execution of each submodel. A system submodel for each portion designated by the designer is generated, keeping all critical system-level information consistent throughout the entire system model. Each of these system submodels may then be employed to generate a software version of each system submodel. Each software submodel may then be transferred to its specified target platform and executed in cooperation with the other software submodels to effect an overall system simulation executing across the associated target platforms. Alternately, one or more system submodels may be replaced by the actual components of the dynamic system represented by those system submodels.