smoothing procedure - ορισμός. Τι είναι το smoothing procedure
Diclib.com
Λεξικό ChatGPT
Εισάγετε μια λέξη ή φράση σε οποιαδήποτε γλώσσα 👆
Γλώσσα:

Μετάφραση και ανάλυση λέξεων από την τεχνητή νοημοσύνη ChatGPT

Σε αυτήν τη σελίδα μπορείτε να λάβετε μια λεπτομερή ανάλυση μιας λέξης ή μιας φράσης, η οποία δημιουργήθηκε χρησιμοποιώντας το ChatGPT, την καλύτερη τεχνολογία τεχνητής νοημοσύνης μέχρι σήμερα:

  • πώς χρησιμοποιείται η λέξη
  • συχνότητα χρήσης
  • χρησιμοποιείται πιο συχνά στον προφορικό ή γραπτό λόγο
  • επιλογές μετάφρασης λέξεων
  • παραδείγματα χρήσης (πολλές φράσεις με μετάφραση)
  • ετυμολογία

Τι (ποιος) είναι smoothing procedure - ορισμός

GENERATES A FORECAST OF FUTURE VALUES OF A TIME SERIES
Expenential Smoothing; Holt-Winters; Double exponential smoothing; Peter R. Winters

Kneser–Ney smoothing         
STATISTICAL METHOD
Kneser-Ney smoothing
Kneser–Ney smoothing, also known as Kneser-Essen-Ney smoothing, is a method primarily used to calculate the probability distribution of n-grams in a document based on their histories.'A Bayesian Interpretation of Interpolated Kneser-Ney NUS School of Computing Technical Report TRA2/06' It is widely considered the most effective method of smoothing due to its use of absolute discounting by subtracting a fixed value from the probability's lower order terms to omit n-grams with lower frequencies.
Credé's prophylaxis         
MEDICAL PROCEDURE PERFORMED ON NEWBORNS
Crede procedure; Credé procedure
Credé procedure is the practice of washing a newborn's eyes with a 2% silver nitrate solution to protect against neonatal conjunctivitis caused by Neisseria gonorrhoeae.
Savitzky–Golay filter         
  • Fourier transform of the 9-point quadratic/cubic smoothing function
ALGORITHM TO SMOOTHEN DATA POINTS
Savitsky-Golay; Savitsky Golay; Savitsky-Golay Smoothing Filter; Savitzky-Golay Smoothing Filter; Savitzky-Golay smoothing filter; Savitzky-Golay filter; Numerical smoothing; Numerical smoothing and differentiation; Savitzky–Golay smoothing filter; Lanczos differentiator; Savitzky–Golay filter for smoothing and differentiation; Savitzky-Golay filter for smoothing and differentiation
A Savitzky–Golay filter is a digital filter that can be applied to a set of digital data points for the purpose of smoothing the data, that is, to increase the precision of the data without distorting the signal tendency. This is achieved, in a process known as convolution, by fitting successive sub-sets of adjacent data points with a low-degree polynomial by the method of linear least squares.

Βικιπαίδεια

Exponential smoothing

Exponential smoothing is a rule of thumb technique for smoothing time series data using the exponential window function. Whereas in the simple moving average the past observations are weighted equally, exponential functions are used to assign exponentially decreasing weights over time. It is an easily learned and easily applied procedure for making some determination based on prior assumptions by the user, such as seasonality. Exponential smoothing is often used for analysis of time-series data.

Exponential smoothing is one of many window functions commonly applied to smooth data in signal processing, acting as low-pass filters to remove high-frequency noise. This method is preceded by Poisson's use of recursive exponential window functions in convolutions from the 19th century, as well as Kolmogorov and Zurbenko's use of recursive moving averages from their studies of turbulence in the 1940s.

The raw data sequence is often represented by { x t } {\displaystyle \{x_{t}\}} beginning at time t = 0 {\displaystyle t=0} , and the output of the exponential smoothing algorithm is commonly written as { s t } {\displaystyle \{s_{t}\}} , which may be regarded as a best estimate of what the next value of x {\displaystyle x} will be. When the sequence of observations begins at time t = 0 {\displaystyle t=0} , the simplest form of exponential smoothing is given by the formulas:

s 0 = x 0 s t = α x t + ( 1 α ) s t 1 , t > 0 {\displaystyle {\begin{aligned}s_{0}&=x_{0}\\s_{t}&=\alpha x_{t}+(1-\alpha )s_{t-1},\quad t>0\end{aligned}}}

where α {\displaystyle \alpha } is the smoothing factor, and 0 < α < 1 {\displaystyle 0<\alpha <1} .