首页|Findings from University of Zagreb Provide New Insights into Robotics (Control o f Robot Motion in Radial Mass Density Field)
Findings from University of Zagreb Provide New Insights into Robotics (Control o f Robot Motion in Radial Mass Density Field)
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By a News Reporter-Staff News Editor at Robotics & Machine Learning Daily News Daily News-Fresh data on robotics are presented i n a new report. According to news originating from the University of Zagreb by N ewsRx correspondents, research stated, "T In this article, a new approach to con trol of robot motion in the radial mass density field is presented." Our news editors obtained a quote from the research from University of Zagreb: " This field is between the maximal and the minimal radial mass density values. Be tween these two limited values, one can use n points (n = 1, 2,. . . nmax) that can be included in the related algorithm for control of the robot motion. The nu mber of the points nstep can be calculated by using the relation nstep = nmax / nvar , where nvar is the control parameter. The radial mass density is maximal a t the minimal gravitational radius and minimal at the maximal gravitational radi us." According to the news editors, the research concluded: "This is valid for Planck scale and for the scales that are less or higher of that one. Using the ratio o f Planck mass and Planck radius it is generated the energy conservation constant k = 0.99993392118."
University of ZagrebEmerging Technolog iesMachine LearningRobotRobotics
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