Difference between revisions of "Orange: kNN"

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  Model: trained model
 
  Model: trained model
  
Widget kNN menggunakan algoritma kNN yang akan mencari k contoh training terdekat di ruang feature dan menggunakan rata-rata feature terdekat tersebut untuk mem-prediksi.
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Widget kNN menggunakan algoritma kNN yang akan mencari k instance training terdekat di ruang feature dan menggunakan rata-rata feature terdekat tersebut untuk mem-prediksi.
  
 
[[File:KNN-stamped.png|center|200px|thumb]]
 
[[File:KNN-stamped.png|center|200px|thumb]]

Revision as of 04:37, 4 March 2020

sumber: https://docs.orange.biolab.si/3/visual-programming/widgets/model/knn.html

Prediksi berdasarkan instance training terdekat.

Input

Data: input dataset
Preprocessor: preprocessing method(s)

Output

Learner: kNN learning algorithm
Model: trained model

Widget kNN menggunakan algoritma kNN yang akan mencari k instance training terdekat di ruang feature dan menggunakan rata-rata feature terdekat tersebut untuk mem-prediksi.

KNN-stamped.png
  • A name under which it will appear in other widgets. The default name is “kNN”.
  • Set the number of nearest neighbors, the distance parameter (metric) and weights as model criteria.
    • Metric can be:
      • Euclidean (“straight line”, distance between two points)
      • Manhattan (sum of absolute differences of all attributes)
      • Maximal (greatest of absolute differences between attributes)
      • Mahalanobis (distance between point and distribution).
    • The Weights you can use are:
      • Uniform: all points in each neighborhood are weighted equally.
      • Distance: closer neighbors of a query point have a greater influence than the neighbors further away.
  • Produce a report.
  • When you change one or more settings, you need to click Apply, which will put a new learner on the output and, if the training examples are given, construct a new model and output it as well. Changes can also be applied automatically by clicking the box on the left side of the Apply button.

Contoh

Contoh pertama adalah tugas klasifikasi pada dataset iris. Kita bandingkan hasil dari k-Nearest neighbors dengan default model Constant, yang akan memprediksi class majoritas.

Constant-classification.png

The second example is a regression task. This workflow shows how to use the Learner output. For the purpose of this example, we used the housing dataset. We input the kNN prediction model into Predictions and observe the predicted values.

KNN-regression.png



Referensi


Pranala Menarik