Global Scaling Data-Analysis
Global Scaling Analysis is a mathematical method, what ist able to define and correct important properties of real processes, for example, stability and sensibility, already on a virtual CAD-model.
Particularly, the Global Scaling Analysis of the virtual CAD-model is able to recognize any problems of the behavior of the real full size prototype, which can not be investigated during a test of a real, but smaller model.
What is the physical basis of the Global Scaling Analysis?
Over 99 percent of the mass of normal matter (solid, fluid, gas) consists of nucleons (protons and neutrons). Therefore the natural oscillations of nucleons (proton resonances) determine the natural oscillations of material systems and constructions.
For example, if the measurements of constructions are in the proximity of proton resonance wavelengths, this represents a danger for the construction stability, specially under the influence of periodic loads.
Based on the analysis of the distribution of measured process parameters in the spectra of proton-resonance-wavelengths, -frequencies, -masses, -speeds etc. one can define following process properties:
- turbulence probability
- fluctuation probability
- trend change probability
- resonance probability
- energetic efficiency (degree of effectiveness)
- stability und sensibility
Suitable distribution of process parameters in the corresponding proton resonance spectra can effectively correct unwanted process properties already on a virtual CAD-model. More Information: Global Scaling Process-Optimization
Download the Global Scaling Compendium:
