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{{DISPLAYTITLE:로지스틱 회귀}}
#REDIRECT [[Logistic Regression]]
 
'''Logistic regression is a statistical and machine learning technique widely used to solve binary classification problems.''' This algorithm predicts the probability that the outcome variable (dependent variable) belongs to a specific class through a linear combination of independent variables. Although it is primarily applied in binary classification with labels of 0 or 1, it can be extended to multiclass classification as well.
 
* '''Logistic''': Used in scenarios requiring dichotomous outcomes, such as pass/fail, success/failure, survival/death, or true/false.
* '''Regression analysis''': Predicts future outcomes based on past trends. Since logistic regression analysis has a categorical dependent variable, it is closer to a classification model.
 
==Functions Used==
{| class="wikitable"
|-
!Function!!Formula
|-
|'''Sigmoid'''
1/(1+e<big><sup>-x</sup></big>)
||[[파일:Sigmoid.png|400px]]
|-
|'''Hyperbolic Tangent'''
tanh(x)
||[[파일:Tanh.png|400px]]
|}
==Types of Regression Analysis==
* '''Simple Regression Analysis''': Single independent variable
* '''Multiple Regression Analysis''': Two or more independent variables
==Advantages and Disadvantages==
* '''''Advantages''''': Simple to implement and easy to interpret.
** It has a relatively low risk of overfitting and is effective for binary classification.
* '''''Disadvantages''''': Performs poorly with data that lacks a linear relationship.
** It is challenging to apply directly to multiclass problems, where techniques like softmax regression are often required.
==See Also==
*[[회귀 분석|Regression Analysis]]
*[[선형 회귀|Linear Regression]]
[[분류:Data Science]]

Latest revision as of 21:33, 3 November 2024