Merge pull request #449 from yzhao062/development

v1.0.6

CHANGES.txt

@@ -170,3 +170,5 @@ v<1.0.4>, <07/29/2022> -- Add LUNAR (#415).
 v<1.0.5>, <07/29/2022> -- Import optimization.
 v<1.0.5>, <08/27/2022> -- Code optimization.
 v<1.0.5>, <09/14/2022> -- Add ALAD.
+v<1.0.6>, <09/23/2022> -- Update ADBench benchmark for NeruIPS 2022.
+v<1.0.6>, <10/23/2022> -- ADD KPCA.

README.rst

@@ -58,8 +58,11 @@ Python Outlier Detection (PyOD)
 
 -----
 
-**News**: We just released a 36-page, the most comprehensive `anomaly detection benchmark paper <https://www.andrew.cmu.edu/user/yuezhao2/papers/22-preprint-adbench.pdf>`_.
-The fully `open-sourced ADBench <https://github.com/Minqi824/ADBench>`_ compares 30 anomaly detection algorithms on 55 benchmark datasets.
+**News**: We just released a 45-page, the most comprehensive `anomaly detection benchmark paper <https://www.andrew.cmu.edu/user/yuezhao2/papers/22-neurips-adbench.pdf>`_.
+The fully `open-sourced ADBench <https://github.com/Minqi824/ADBench>`_ compares 30 anomaly detection algorithms on 57 benchmark datasets.
+
+**For time-series outlier detection**, please use `TODS <https://github.com/datamllab/tods>`_.
+**For graph outlier detection**, please use `PyGOD <https://pygod.org/>`_.
 
 PyOD is the most comprehensive and scalable **Python library** for **detecting outlying objects** in
 multivariate data. This exciting yet challenging field is commonly referred as 
@@ -68,7 +71,7 @@ or `Anomaly Detection <https://en.wikipedia.org/wiki/Anomaly_detection>`_.
 
 PyOD includes more than 40 detection algorithms, from classical LOF (SIGMOD 2000) to
 the latest ECOD (TKDE 2022). Since 2017, PyOD has been successfully used in numerous academic researches and
-commercial products with more than `8 million downloads <https://pepy.tech/project/pyod>`_.
+commercial products with more than `10 million downloads <https://pepy.tech/project/pyod>`_.
 It is also well acknowledged by the machine learning community with various dedicated posts/tutorials, including
 `Analytics Vidhya <https://www.analyticsvidhya.com/blog/2019/02/outlier-detection-python-pyod/>`_,
 `KDnuggets <https://www.kdnuggets.com/2019/02/outlier-detection-methods-cheat-sheet.html>`_, and
@@ -114,20 +117,29 @@ If you use PyOD in a scientific publication, we would appreciate
 citations to the following paper::
 
     @article{zhao2019pyod,
-      author  = {Zhao, Yue and Nasrullah, Zain and Li, Zheng},
-      title   = {PyOD: A Python Toolbox for Scalable Outlier Detection},
-      journal = {Journal of Machine Learning Research},
-      year    = {2019},
-      volume  = {20},
-      number  = {96},
-      pages   = {1-7},
-      url     = {http://jmlr.org/papers/v20/19-011.html}
+        author  = {Zhao, Yue and Nasrullah, Zain and Li, Zheng},
+        title   = {PyOD: A Python Toolbox for Scalable Outlier Detection},
+        journal = {Journal of Machine Learning Research},
+        year    = {2019},
+        volume  = {20},
+        number  = {96},
+        pages   = {1-7},
+        url     = {http://jmlr.org/papers/v20/19-011.html}
     }
 
 or::
 
     Zhao, Y., Nasrullah, Z. and Li, Z., 2019. PyOD: A Python Toolbox for Scalable Outlier Detection. Journal of machine learning research (JMLR), 20(96), pp.1-7.
 
+If you want more general insights of anomaly detection and/or algorithm performance comparison, please see our
+NeurIPS 2022 paper `ADBench: Anomaly Detection Benchmark <https://www.andrew.cmu.edu/user/yuezhao2/papers/22-neurips-adbench.pdf>`_::
+
+    @inproceedings{han2022adbench,
+        title={ADBench: Anomaly Detection Benchmark},
+        author={Songqiao Han and Xiyang Hu and Hailiang Huang and Mingqi Jiang and Yue Zhao},
+        booktitle={Neural Information Processing Systems (NeurIPS)}
+        year={2022},
+    }
 
 **Key Links and Resources**\ :
 
@@ -238,8 +250,8 @@ Key Attributes of a fitted model:
 ADBench Benchmark
 ^^^^^^^^^^^^^^^^^
 
-We just released a 36-page, the most comprehensive `anomaly detection benchmark paper <https://www.andrew.cmu.edu/user/yuezhao2/papers/22-preprint-adbench.pdf>`_ [#Han2022ADBench]_.
-The fully `open-sourced ADBench <https://github.com/Minqi824/ADBench>`_ compares 30 anomaly detection algorithms on 55 benchmark datasets.
+We just released a 45-page, the most comprehensive `ADBench: Anomaly Detection Benchmark <https://arxiv.org/abs/2206.09426>`_ [#Han2022ADBench]_.
+The fully `open-sourced ADBench <https://github.com/Minqi824/ADBench>`_ compares 30 anomaly detection algorithms on 57 benchmark datasets.
 
 The organization of **ADBench** is provided below:
 
@@ -342,6 +354,7 @@ Probabilistic        KDE                 Outlier Detection with Kernel Density F
 Probabilistic        Sampling            Rapid distance-based outlier detection via sampling                                                     2013   [#Sugiyama2013Rapid]_
 Probabilistic        GMM                 Probabilistic Mixture Modeling for Outlier Analysis                                                            [#Aggarwal2015Outlier]_ [Ch.2]
 Linear Model         PCA                 Principal Component Analysis (the sum of weighted projected distances to the eigenvector hyperplanes)   2003   [#Shyu2003A]_
+Linear Model         KPCA                Kernel Principal Component Analysis                                                                     2007   [#Hoffmann2007Kernel]_
 Linear Model         MCD                 Minimum Covariance Determinant (use the mahalanobis distances as the outlier scores)                    1999   [#Hardin2004Outlier]_ [#Rousseeuw1999A]_
 Linear Model         CD                  Use Cook's distance for outlier detection                                                               1977   [#Cook1977Detection]_
 Linear Model         OCSVM               One-Class Support Vector Machines                                                                       2001   [#Scholkopf2001Estimating]_
@@ -564,6 +577,8 @@ Reference
 
 .. [#He2003Discovering] He, Z., Xu, X. and Deng, S., 2003. Discovering cluster-based local outliers. *Pattern Recognition Letters*\ , 24(9-10), pp.1641-1650.
 
+.. [#Hoffmann2007Kernel] Hoffmann, H., 2007. Kernel PCA for novelty detection. Pattern recognition, 40(3), pp.863-874.
+
 .. [#Iglewicz1993How] Iglewicz, B. and Hoaglin, D.C., 1993. How to detect and handle outliers (Vol. 16). Asq Press.
 
 .. [#Janssens2012Stochastic] Janssens, J.H.M., Huszár, F., Postma, E.O. and van den Herik, H.J., 2012. Stochastic outlier selection. Technical report TiCC TR 2012-001, Tilburg University, Tilburg Center for Cognition and Communication, Tilburg, The Netherlands.

docs/index.rst

@@ -64,17 +64,20 @@ Welcome to PyOD documentation!
 
 ----
 
-**News**: We just released a 36-page, the most comprehensive `anomaly detection benchmark paper <https://www.andrew.cmu.edu/user/yuezhao2/papers/22-preprint-adbench.pdf>`_.
-The fully `open-sourced ADBench <https://github.com/Minqi824/ADBench>`_ compares 30 anomaly detection algorithms on 55 benchmark datasets.
+**News**: We just released a 45-page, the most comprehensive `anomaly detection benchmark paper <https://www.andrew.cmu.edu/user/yuezhao2/papers/22-neurips-adbench.pdf>`_.
+The fully `open-sourced ADBench <https://github.com/Minqi824/ADBench>`_ compares 30 anomaly detection algorithms on 57 benchmark datasets.
+
+**For time-series outlier detection**, please use `TODS <https://github.com/datamllab/tods>`_.
+**For graph outlier detection**, please use `PyGOD <https://pygod.org/>`_.
 
 PyOD is the most comprehensive and scalable **Python library** for **detecting outlying objects** in
 multivariate data. This exciting yet challenging field is commonly referred as
 `Outlier Detection <https://en.wikipedia.org/wiki/Anomaly_detection>`_
 or `Anomaly Detection <https://en.wikipedia.org/wiki/Anomaly_detection>`_.
 
 PyOD includes more than 40 detection algorithms, from classical LOF (SIGMOD 2000) to
-the latest ECOD (TKDE 2020). Since 2017, PyOD :cite:`a-zhao2019pyod` has been successfully used in numerous
-academic researches and commercial products with more than `8 million downloads <https://pepy.tech/project/pyod>`_.
+the latest ECOD (TKDE 2022). Since 2017, PyOD :cite:`a-zhao2019pyod` has been successfully used in numerous
+academic researches and commercial products with more than `10 million downloads <https://pepy.tech/project/pyod>`_.
 It is also well acknowledged by the machine learning community with various dedicated posts/tutorials, including
 `Analytics Vidhya <https://www.analyticsvidhya.com/blog/2019/02/outlier-detection-python-pyod/>`_,
 `KDnuggets <https://www.kdnuggets.com/2019/02/outlier-detection-methods-cheat-sheet.html>`_, and
@@ -121,20 +124,29 @@ If you use PyOD in a scientific publication, we would appreciate
 citations to the following paper::
 
     @article{zhao2019pyod,
-      author  = {Zhao, Yue and Nasrullah, Zain and Li, Zheng},
-      title   = {PyOD: A Python Toolbox for Scalable Outlier Detection},
-      journal = {Journal of Machine Learning Research},
-      year    = {2019},
-      volume  = {20},
-      number  = {96},
-      pages   = {1-7},
-      url     = {http://jmlr.org/papers/v20/19-011.html}
+        author  = {Zhao, Yue and Nasrullah, Zain and Li, Zheng},
+        title   = {PyOD: A Python Toolbox for Scalable Outlier Detection},
+        journal = {Journal of Machine Learning Research},
+        year    = {2019},
+        volume  = {20},
+        number  = {96},
+        pages   = {1-7},
+        url     = {http://jmlr.org/papers/v20/19-011.html}
     }
 
 or::
 
     Zhao, Y., Nasrullah, Z. and Li, Z., 2019. PyOD: A Python Toolbox for Scalable Outlier Detection. Journal of machine learning research (JMLR), 20(96), pp.1-7.
 
+If you want more general insights of anomaly detection and/or algorithm performance comparison, please see our
+NeurIPS 2022 paper `ADBench: Anomaly Detection Benchmark <https://www.andrew.cmu.edu/user/yuezhao2/papers/22-neurips-adbench.pdf>`_::
+
+    @inproceedings{han2022adbench,
+        title={ADBench: Anomaly Detection Benchmark},
+        author={Songqiao Han and Xiyang Hu and Hailiang Huang and Mingqi Jiang and Yue Zhao},
+        booktitle={Neural Information Processing Systems (NeurIPS)}
+        year={2022},
+    }
 
 **Key Links and Resources**\ :
 
@@ -148,8 +160,8 @@ or::
 Benchmark
 =========
 
-We just released a 36-page, the most comprehensive `anomaly detection benchmark paper <https://www.andrew.cmu.edu/user/yuezhao2/papers/22-preprint-adbench.pdf>`_.
-The fully `open-sourced ADBench <https://github.com/Minqi824/ADBench>`_ compares 30 anomaly detection algorithms on 55 benchmark datasets.
+We just released a 45-page, the most comprehensive `ADBench: Anomaly Detection Benchmark <https://arxiv.org/abs/2206.09426>`_.
+The fully `open-sourced ADBench <https://github.com/Minqi824/ADBench>`_ compares 30 anomaly detection algorithms on 57 benchmark datasets.
 
 The organization of **ADBench** is provided below:
 
@@ -178,6 +190,7 @@ Probabilistic        KDE               Outlier Detection with Kernel Density Fun
 Probabilistic        Sampling          Rapid distance-based outlier detection via sampling                                                     2013   :class:`pyod.models.sampling.Sampling`               :cite:`a-sugiyama2013rapid`
 Probabilistic        GMM               Probabilistic Mixture Modeling for Outlier Analysis                                                            :class:`pyod.models.gmm.GMM`                         :cite:`a-aggarwal2015outlier` [Ch.2]
 Linear Model         PCA               Principal Component Analysis (the sum of weighted projected distances to the eigenvector hyperplanes)   2003   :class:`pyod.models.pca.PCA`                         :cite:`a-shyu2003novel`
+Linear Model         KPCA              Kernel Principal Component Analysis                                                                     2007   :class:`pyod.models.kpca.KPCA`                       :cite:`a-hoffmann2007kernel`
 Linear Model         MCD               Minimum Covariance Determinant (use the mahalanobis distances as the outlier scores)                    1999   :class:`pyod.models.mcd.MCD`                         :cite:`a-rousseeuw1999fast,a-hardin2004outlier`
 Linear Model         CD                Use Cook's distance for outlier detection                                                               1977   :class:`pyod.models.cd.CD`                           :cite:`a-cook1977detection`
 Linear Model         OCSVM             One-Class Support Vector Machines                                                                       2001   :class:`pyod.models.ocsvm.OCSVM`                     :cite:`a-scholkopf2001estimating`

docs/pyod.models.rst

@@ -181,6 +181,15 @@ pyod.models.knn module
     :show-inheritance:
     :inherited-members:
 
+pyod.models.kpca module
+-----------------------
+
+.. automodule:: pyod.models.kpca
+    :members:
+    :undoc-members:
+    :show-inheritance:
+    :inherited-members:
+
 pyod.models.lmdd module
 -----------------------
 

docs/zreferences.bib

@@ -467,4 +467,15 @@ @inproceedings{zenati2018adversarially
   pages={727--736},
   year={2018},
   organization={IEEE}
+}
+
+@article{hoffmann2007kernel,
+  title={Kernel PCA for novelty detection},
+  author={Hoffmann, Heiko},
+  journal={Pattern recognition},
+  volume={40},
+  number={3},
+  pages={863--874},
+  year={2007},
+  publisher={Elsevier}
 }

examples/compare_all_models.py

@@ -101,10 +101,15 @@
     'Locally Selective Combination (LSCP)': LSCP(
         detector_list, contamination=outliers_fraction,
         random_state=random_state),
-    'INNE': INNE(contamination=outliers_fraction),
-    'GMM': GMM(contamination=outliers_fraction),
+    'INNE': INNE(
+        max_samples=2, contamination=outliers_fraction,
+        random_state=random_state,
+        ),
+    'GMM': GMM(contamination=outliers_fraction,
+               random_state=random_state),
     'KDE': KDE(contamination=outliers_fraction),
-    'LMDD': LMDD(contamination=outliers_fraction),
+    'LMDD': LMDD(contamination=outliers_fraction,
+                 random_state=random_state),
 }
 
 # Show all detectors

examples/kpca_example.py

@@ -0,0 +1,66 @@
+# -*- coding: utf-8 -*-
+"""Example of outlier detection based on Kernel PCA.
+"""
+# Author: Akira Tamamori <tamamori5917@gmail.com>
+# License: BSD 2 clause
+
+from __future__ import division, print_function
+
+import os
+import sys
+
+from pyod.models.kpca import KPCA
+from pyod.utils.data import evaluate_print, generate_data
+from pyod.utils.example import visualize
+
+# temporary solution for relative imports in case pyod is not installed
+# if pyod is installed, no need to use the following line
+sys.path.append(os.path.abspath(os.path.join(os.path.dirname("__file__"), "..")))
+
+
+if __name__ == "__main__":
+    contamination = 0.1  # percentage of outliers
+    n_train = 200  # number of training points
+    n_test = 100  # number of testing points
+    n_features = 2
+
+    # Generate sample data
+    X_train, X_test, y_train, y_test = generate_data(
+        n_train=n_train,
+        n_test=n_test,
+        n_features=2,
+        contamination=contamination,
+        random_state=42,
+        behaviour="new",
+    )
+
+    # train KPCA detector
+    clf_name = "KPCA"
+    clf = KPCA()
+    clf.fit(X_train)
+
+    # get the prediction labels and outlier scores of the training data
+    y_train_pred = clf.labels_  # binary labels (0: inliers, 1: outliers)
+    y_train_scores = clf.decision_scores_  # raw outlier scores
+
+    # get the prediction on the test data
+    y_test_pred = clf.predict(X_test)  # outlier labels (0 or 1)
+    y_test_scores = clf.decision_function(X_test)  # outlier scores
+
+    # evaluate and print the results
+    print("\nOn Training Data:")
+    evaluate_print(clf_name, y_train, y_train_scores)
+    print("\nOn Test Data:")
+    evaluate_print(clf_name, y_test, y_test_scores)
+
+    # visualize the results
+    visualize(
+        clf_name,
+        X_train,
+        y_train,
+        X_test,
+        y_test,
+        y_train_pred,
+        y_test_pred,
+        show_figure=True,
+    )