Bilge, Ayşe HümeyraBilge, Ayşe HümeyraÖzdemir, Yunus2020-06-082020-06-08202010252-19382065-961X0252-19382065-961Xhttps://hdl.handle.net/20.500.12469/2894https://doi.org/10.24193/subbmath.2020.1.07Let y(t) be a monotone increasing curve with lim(t ->+/-infinity) y((n))(t) = 0 for all n and let t(n) be the location of the global extremum of the nth derivative y((n))(t). Under certain assumptions on the Fourier and Hilbert transforms of y(t), we prove that the sequence {t(n)} is convergent. This implies in particular a preferred choice of the origin of the time axis and an intrinsic definition of the even and odd components of a sigmoidal function. In the context of phase transitions, the limit point has the interpretation of the critical point of the transition as discussed in previous work [3].eninfo:eu-repo/semantics/openAccessSigmoidal curveCritical pointFourier transformHilbert transformThe critical point of a sigmoidal curveArticle7791165WOS:00051956880000710.24193/subbmath.2020.1.072-s2.0-85084254946N/AQ3