The CREATE_MODEL Procedure

The CREATE_MODEL procedure in the DBMS_DATA_MINING package uses the specified data to create a mining model with the specified name and mining function. The model can be created with configuration settings and user-specified transformations.

                  model_name            IN VARCHAR2,
                  mining_function       IN VARCHAR2,
                  data_table_name       IN VARCHAR2,
                  case_id_column_name   IN VARCHAR2,
                  target_column_name    IN VARCHAR2 DEFAULT NULL,
                  settings_table_name   IN VARCHAR2 DEFAULT NULL,
                  data_schema_name      IN VARCHAR2 DEFAULT NULL,
                  settings_schema_name  IN VARCHAR2 DEFAULT NULL,
                  xform_list            IN TRANSFORM_LIST DEFAULT NULL);

Choosing the Mining Function

Explains about providing mining function to CREATE_MODEL.

The mining function is a required argument to the CREATE_MODEL procedure. A data mining function specifies a class of problems that can be modeled and solved.

Data mining functions implement either supervised or unsupervised learning. Supervised learning uses a set of independent attributes to predict the value of a dependent attribute or target. Unsupervised learning does not distinguish between dependent and independent attributes. Supervised functions are predictive. Unsupervised functions are descriptive.


In data mining terminology, a function is a general type of problem to be solved by a given approach to data mining. In SQL language terminology, a function is an operator that returns a value.

In Oracle Data Mining documentation, the term function, or mining function refers to a data mining function; the term SQL function or SQL Data Mining function refers to a SQL function for scoring (applying data mining models).

You can specify any of the values in the following table for the mining_function parameter to CREATE_MODEL.

Table 5-2 Mining Model Functions

Mining_Function Value Description


Association is a descriptive mining function. An association model identifies relationships and the probability of their occurrence within a data set. (association rules)

Association models use the Apriori algorithm.


Attribute Importance is a predictive mining function. An attribute importance model identifies the relative importance of attributes in predicting a given outcome.

Attribute Importance models use the Minimum Description Length algorithm.


Classification is a predictive mining function. A classification model uses historical data to predict a categorical target.

Classification models can use Naive Bayes, Decision Tree, Logistic Regression, or Support Vector Machines. The default is Naive Bayes.

The classification function can also be used for anomaly detection. In this case, the SVM algorithm with a null target is used (One-Class SVM).


Clustering is a descriptive mining function. A clustering model identifies natural groupings within a data set.

Clustering models can use k-Means, O-Cluster, or Expectation Maximization. The default is k-Means.


Feature Extraction is a descriptive mining function. A feature extraction model creates a set of optimized attributes.

Feature extraction models can use Non-Negative Matrix Factorization, Singular Value Decomposition (which can also be used for Principal Component Analysis) or Explicit Semantic Analysis. The default is Non-Negative Matrix Factorization.


Regression is a predictive mining function. A regression model uses historical data to predict a numerical target.

Regression models can use Support Vector Machines or Linear Regression. The default is Support Vector Machine.

Choosing the Algorithm

Learn about providing the algorithm settings for a model.

The ALGO_NAME setting specifies the algorithm for a model. If you use the default algorithm for the mining function, or if there is only one algorithm available for the mining function, you do not need to specify the ALGO_NAME setting. Instructions for specifying model settings are in "Specifying Model Settings".

Table 5-3 Data Mining Algorithms

ALGO_NAME Value Algorithm Default? Mining Model Function


Minimum Description Length

attribute importance





Decision Tree



Expectation Maximization



Explicit Semantic Analysis

feature extraction

ALGO_EXTENSIBLE_LANG Language used for extensible algorithm

All mining functions are supported


Generalized Linear Model

classification and regression






Naive Bayes




Non-Negative Matrix Factorization


feature extraction





Singular Value Decomposition (can also be used for Principal Component Analysis)

feature extraction


Support Vector Machine


default regression algorithm

regression, classification, and anomaly detection (classification with no target)

Supplying Transformations

You can optionally specify transformations for the build data in the xform_list parameter to CREATE_MODEL. The transformation instructions are embedded in the model and reapplied whenever the model is applied to new data.

Creating a Transformation List

The following are the ways to create a transformation list:


    The STACK interface offers a set of pre-defined transformations that you can apply to an attribute or to a group of attributes. For example, you can specify supervised binning for all categorical attributes.


    The SET_TRANSFORM procedure applies a specified SQL expression to a specified attribute. For example, the following statement appends a transformation instruction for country_id to a list of transformations called my_xforms. The transformation instruction divides country_id by 10 before algorithmic processing begins. The reverse transformation multiplies country_id by 10.

      dbms_data_mining_transform.SET_TRANSFORM (my_xforms,
         'country_id', NULL, 'country_id/10', 'country_id*10');

    The reverse transformation is applied in the model details. If country_id is the target of a supervised model, the reverse transformation is also applied to the scored target.

Transformation List and Automatic Data Preparation

Understand the interaction between transformation list and Automatic Data Preparation (ADP).

The transformation list argument to CREATE_MODEL interacts with the PREP_AUTO setting, which controls ADP:

  • When ADP is on and you specify a transformation list, your transformations are applied with the automatic transformations and embedded in the model. The transformations that you specify are executed before the automatic transformations.

  • When ADP is off and you specify a transformation list, your transformations are applied and embedded in the model, but no system-generated transformations are performed.

  • When ADP is on and you do not specify a transformation list, the system-generated transformations are applied and embedded in the model.

  • When ADP is off and you do not specify a transformation list, no transformations are embedded in the model; you must separately prepare the data sets you use for building, testing, and scoring the model.