ABSTRACT
Experience with the chromatic approach has shown that it provides a means for processing a signal that avoids some of the difficulties associated with other methods, including the complexity of transformed Fourier signals and transformation instability in the presence of noise (Jones et al., 1996; Al-Temeemy and Spencer, 2010, 2015a,b). The generic nature of the chromatic approach enables it to be extended to many domains of information extraction (Al-Temeemy and Spencer, 2014, 2015a,b) (e.g., continuous signals, optical signals etc.). It can overcome difficulties of processing methods which use a surfeit of information with excessive computational difficulties of processing times and costs.
