Examples of 'nonlinearities' in a sentence
Meaning of "nonlinearities"
Nonlinearity is a term used in mathematics and science to describe a system or function that does not follow a straight line or predictable pattern
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- plural of nonlinearity
How to use "nonlinearities" in a sentence
Basic
Advanced
nonlinearities
The physical and geometrical nonlinearities were considered.
Nonlinearities in extreme wave loads can be significant in high waves.
It can not correct nonlinearities of complex forms.
Modeled discrete version with unique nonlinearities.
A first study on nonlinearities involved in longitudinal flight dynamics is presented.
The spectral broadening due to the nonlinearities is not acceptable.
Significant nonlinearities were detected for the studied spectroradiometers.
This control is used to correct the vertical nonlinearities in the picture.
Nonlinearities tend to occur primarily in the receiver electronics system.
Some methods to use the nonlinearities in order to control a system.
Nonlinearities are present in both the objective function and the constraints.
A way to describe nonlinearities of a system.
Several techniques are known for nullifying the effects of amplification nonlinearities.
The threshold for these nonlinearities must be chosen adaptively.
The resulting database represents a space of impedance spectra and nonlinearities.
See also
Modulator nonlinearities cause unacceptable harmonic and intermodulation distortions.
Such methods typically converge slower as nonlinearities become more severe.
The circuit nonlinearities are represented by cpt through the void current term.
Transformation methods are effective in problems with moderate dimensions and moderate nonlinearities.
The nonlinearities are supposed to interact only with k eigenvalues of the free laplacian.
This efficiency may be substantially increased with devices for correcting nonlinearities.
The nonlinearities in the hull girder loads have been found to be significant.
The carbon cycle is centrally involved in many of these feedbacks and nonlinearities.
The nonlinearities obtained in one stage cause impairment of the transmitted signals.
Method for the digital compensation of nonlinearities in a communication system and receiver device.
These nonlinearities will have a strong influence on the sway of the load.
This technique makes it possible to eliminate the nonlinearities in order to obtain a predetermined model.
Said nonlinearities produce amplified signal distortion and hence an increase in intermodulation noise.
The apparatus compensates for nonlinearities between these parameters and the glucose.
This feedback control loop makes it possible to compensate for the amplitude nonlinearities.
The case of critical nonlinearities and corresponding regular mild solutions is also studied.
Moreover we analyse the case of nonlocal initial conditions and nonlinearities of caratheodory type.
These nonlinearities can come from boosts caused by constructive interference or strong room modes.
We have carried out several studies dealing with the nonlinearities of electrodynamic loudspeakers.
This adversely impacts the frequency response and introduces various gain nonlinearities.
The second term describes the system nonlinearities which also assume a triangular structure.
These nonlinearities of the system have been identified and estimated through selected parameters.
The present invention relates to a method for correcting nonlinearities of a radio power amplifier.
Nonlinearities and Valve.
The channel power can be lowered to the point that nonlinearities become insignificant.
The nonlinearities can be compensated by,.
This altogether establishes that auditory system nonlinearities have an impact on perception and behavior.
The estimated channel characteristic may be taken into account for estimating the nonlinearities.
These coupled systems have strong nonlinearities and new approaches need to be specifically developed.
Results show that friction and cavitation are responsible for the major parts of the nonlinearities.
In this case, only nonlinearities introduced by the receiver are compensated.
We employ the Clarke differential so as to treat the nondifferentiable nonlinearities.
But again, these nonlinearities were not seen as central to fluctuations.
DF methods are best for analyzing systems with relatively weak nonlinearities.
In dimension two, we work with nonlinearities having exponential critical growth.
