SOFTWARE VISUALIZATION ANALYSIS

Brand Owner Address Description
BEGRAPH NEXT LIMIT S.L. 15 B ALBASANZ Madrid 28037 Spain Software for visualization and analysis of large and varied data sets and networks, for revealing underlying structures of associations between objects, people and information networks in the fields of social networking, medical research, scientific research, academic research, economic research, organizational relationships, finance, business and commerce, business and private security, governmental security and intelligence, mapping, art, engineering, architecture, product management and marketing; Computer software and downloadable computer software for visualization and analysis of large and varied data sets and networks, for revealing underlying structures of associations between objects, people and information networks in the fields of social networking, medical research, scientific research, academic research, economic research, organizational relationships, finance, business and commerce, business and private security, governmental security and intelligence, mapping, art, engineering, architecture, product management and marketing;BE GRAPH;
 

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

    
Technical Examples
  1. A method for ordered fault clearance visualization in a computer controlled print production device includes receiving data from the print production device operational sensors indicating a possible fault event. Fault analysis is performed to determine whether faults have occurred and to identify the location and type for each fault, based on the data and fault definitions. Identified faults are prioritized, with each fault assigned a unique priority and the order in which the faults are to be cleared is developed. A visualization of the print production device is presented on the graphical user interface, with graphical cues superimposed upon the visualization of the print production device to indicate the fault order, such that a single view presents all identified faults in the system and the fault order in which they should be cleared. The visualization is updated as each said fault is cleared until a no fault state is achieved.