GLOBAL SCALING HAS BEEN CONFIRMED AND APPLIED IN:
Gravitational wave astronomy
Particle physics
High-Frequency physics
Cold fusion research
Biophysics
Biochemistry
Communications
Health and Medicine
Environmental Applications
Business and Process Engineering and Optimization
Global Scaling and Wave Proscesses
Regarding physical scales, such as the distribution of mass in the universe, a model of vacuum waves and matter waves can be applied. After years of research, it has been established that wave processes do in fact manifest themselves in nature and can be technologically exploited.
Prognosis of Unknown Parameters
Global Scaling Theory (GST) is the first of its kind to mathematically describe the distribution of preferred values and parameters in nature. GST is also able to explain the cause for this distribution.
The sum of probabilities that makes a certain physical value appear at a particular position along the logarithmic scale can be represented by means of the innovative Müller Fractal.
Knowledge of this fractal set, combined with application specific information as to how the fractal is to be used, allows quick and efficient prognostication of values and parameters for use in scientific research and engineering design.
The mathematical realization that the distribution of natural measures is determined by standing wave processes does in fact manifest in the physical world. Using appropriate technologies, these wave processes can be technically exploited and will open the way for myriad new applications as important and far-reaching as the inventions of the steam engine, semiconductor and computer.
