Oracle® Database PL/SQL Packages and Types Reference 11g Release 2 (11.2) Part Number E25788-04 |
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Data mining can discover useful information buried in vast amounts of data. However, it is often the case that both the programming interfaces and the data mining expertise required to obtain these results are too complex for use by the wide audiences that can obtain benefits from using Oracle Data Mining.
The DBMS_PREDICTIVE_ANALYTICS
package addresses both of these complexities by automating the entire data mining process from data preprocessing through model building to scoring new data. This package provides an important tool that makes data mining possible for a broad audience of users, in particular, business analysts.
See Also:
Oracle Data Mining Concepts for an overview of Oracle predictive analytics, including information about the Oracle Spreadsheet Add-In for Predictive Analytics.This chapter contains the following topics:
This section contains topics that relate to using the DBMS_PREDICTIVE_ANALYTICS
package.
Data mining, according to a commonly used process model, requires the following steps:
Understand the business problem.
Understand the data.
Deploy and use the model to score new data.
DBMS_PREDICTIVE_ANALYTICS
automates parts of step 3 — 5 of this process.
Predictive analytics procedures analyze and prepare the input data, create and test mining models using the input data, and then use the input data for scoring. The results of scoring are returned to the user. The models and supporting objects are not preserved after the operation completes.
The DBMS_PREDICTIVE_ANALYTICS
package is owned by user SYS
and is installed as part of database installation. Execution privilege on the package is granted to public. The routines in the package are run with invokers' rights (run with the privileges of the current user).
The DBMS_PREDICTIVE_ANALYTICS
package exposes APIs which are leveraged by the Oracle Data Mining option. Users who wish to invoke procedures in this package require the CREATE MINING MODEL
system privilege (as well as the CREATE TABLE
and CREATE VIEW
system privilege).
Table 104-1 DBMS_PREDICTIVE_ANALYTICS Package Subprograms
Subprogram | Purpose |
---|---|
Ranks attributes in order of influence in explaining a target column. |
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Predicts the value of a target column based on values in the input data. |
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Generates rules that identify the records that have the same target value. |
The EXPLAIN
procedure identifies the attributes that are important in explaining the variation in values of a target column.
The input data must contain some records where the target value is known (not NULL
). These records are used by the procedure to train a model that calculates the attribute importance.
Note:
EXPLAIN
supports DATE
and TIMESTAMP
data types in addition to the numeric, character, and nested data types supported by Oracle Data Mining models.
Data requirements for Oracle Data Mining are described in Oracle Data Mining Application Developer's Guide.
The EXPLAIN
procedure creates a result table that lists the attributes in order of their explanatory power. The result table is described in the Usage Notes.
DBMS_PREDICTIVE_ANALYTICS.EXPLAIN ( data_table_name IN VARCHAR2, explain_column_name IN VARCHAR2, result_table_name IN VARCHAR2, data_schema_name IN VARCHAR2 DEFAULT NULL);
Table 104-2 EXPLAIN Procedure Parameters
Parameter | Description |
---|---|
|
Name of input table or view |
|
Name of the column to be explained |
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Name of the table where results are saved |
|
Name of the schema where the input table or view resides and where the result table is created. Default: the current schema. |
The EXPLAIN
procedure creates a result table with the columns described in Table 104-3.
Table 104-3 EXPLAIN Procedure Result Table
Column Name | Data Type | Description |
---|---|---|
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|
Name of a column in the input data; all columns except the explained column are listed in the result table. |
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Value indicating how useful the column is for determining the value of the explained column. Higher values indicate greater explanatory power. Value can range from 0 to 1. An individual column's explanatory value is independent of other columns in the input table. The values are based on how strong each individual column correlates with the explained column. The value is affected by the number of records in the input table, and the relations of the values of the column to the values of the explain column. An explanatory power value of 0 implies there is no useful correlation between the column's values and the explain column's values. An explanatory power of 1 implies perfect correlation; such columns should be eliminated from consideration for |
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Ranking of explanatory power. Rows with equal values for |
The following example performs an EXPLAIN
operation on the SUPPLEMENTARY_DEMOGRAPHICS
table of Sales History.
--Perform EXPLAIN operation BEGIN DBMS_PREDICTIVE_ANALYTICS.EXPLAIN( data_table_name => 'supplementary_demographics', explain_column_name => 'home_theater_package', result_table_name => 'demographics_explain_result'); END; / --Display results SELECT * FROM demographics_explain_result;
ATTRIBUTE_NAME EXPLANATORY_VALUE RANK ---------------------------------------- ----------------- ---------- Y_BOX_GAMES .524311073 1 YRS_RESIDENCE .495987246 2 HOUSEHOLD_SIZE .146208506 3 AFFINITY_CARD .0598227 4 EDUCATION .018462703 5 OCCUPATION .009721543 6 FLAT_PANEL_MONITOR .00013733 7 PRINTER_SUPPLIES 0 8 OS_DOC_SET_KANJI 0 8 BULK_PACK_DISKETTES 0 8 BOOKKEEPING_APPLICATION 0 8 COMMENTS 0 8 CUST_ID 0 8
The results show that Y_BOX_GAMES
, YRS_RESiDENCE
, and HOUSEHOLD_SIZE
are the best predictors of HOME_THEATER_PACKAGE
.
The PREDICT
procedure predicts the values of a target column.
The input data must contain some records where the target value is known (not NULL
). These records are used by the procedure to train and test a model that makes the predictions.
Note:
PREDICT
supports DATE
and TIMESTAMP
data types in addition to the numeric, character, and nested data types supported by Oracle Data Mining models.
Data requirements for Oracle Data Mining are described in Oracle Data Mining Application Developer's Guide.
The PREDICT
procedure creates a result table that contains a predicted target value for every record. The result table is described in the Usage Notes.
DBMS_PREDICTIVE_ANALYTICS.PREDICT ( accuracy OUT NUMBER, data_table_name IN VARCHAR2, case_id_column_name IN VARCHAR2, target_column_name IN VARCHAR2, result_table_name IN VARCHAR2, data_schema_name IN VARCHAR2 DEFAULT NULL);
Table 104-4 PREDICT Procedure Parameters
Parameter | Description |
---|---|
|
Output parameter that returns the predictive confidence, a measure of the accuracy of the predicted values. The predictive confidence for a categorical target is the most common target value; the predictive confidence for a numerical target is the mean. |
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Name of the input table or view. |
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Name of the column that uniquely identifies each case (record) in the input data. |
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Name of the column to predict. |
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Name of the table where results will be saved. |
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Name of the schema where the input table or view resides and where the result table is created. Default: the current schema. |
The PREDICT
procedure creates a result table with the columns described in Table 104-5.
Table 104-5 PREDICT Procedure Result Table
Column Name | Data Type | Description |
---|---|---|
Case ID column name |
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The name of the case ID column in the input data. |
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The predicted value of the target column for the given case. |
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For classification (categorical target), the probability of the prediction. For regression problems (numerical target), this column contains |
Note:
Make sure that the name of the case ID column is not 'PREDICTION
' or 'PROBABILITY
'.Predictions are returned for all cases whether or not they contained target values in the input.
Predicted values for known cases may be interesting in some situations. For example, you could perform deviation analysis to compare predicted values and actual values.
The following example performs a PREDICT
operation and displays the first 10 predictions. The results show an accuracy of 79% in predicting whether each customer has an affinity card.
--Perform PREDICT operation DECLARE v_accuracy NUMBER(10,9); BEGIN DBMS_PREDICTIVE_ANALYTICS.PREDICT( accuracy => v_accuracy, data_table_name => 'supplementary_demographics', case_id_column_name => 'cust_id', target_column_name => 'affinity_card', result_table_name => 'pa_demographics_predict_result'); DBMS_OUTPUT.PUT_LINE('Accuracy = ' || v_accuracy); END; / Accuracy = .788696903 --Display results SELECT * FROM pa_demographics_predict_result WHERE rownum < 10; CUST_ID PREDICTION PROBABILITY ---------- ---------- ----------- 101501 1 .834069848 101502 0 .991269965 101503 0 .99978311 101504 1 .971643388 101505 1 .541754127 101506 0 .803719133 101507 0 .999999303 101508 0 .999999987 101509 0 .999953074
The PROFILE
procedure generates rules that describe the cases (records) from the input data. For example, if a target column CHURN
has values 'Yes' and 'No', PROFILE
generates a set of rules describing the expected outcomes. Each profile includes a rule, record count, and a score distribution.
The input data must contain some cases where the target value is known (not NULL
). These cases are used by the procedure to build a model that calculates the rules.
Note:
PROFILE
does not support nested types or dates.
Data requirements for Oracle Data Mining are described in Oracle Data Mining Application Developer's Guide.
The PROFILE
procedure creates a result table that specifies rules (profiles) and their corresponding target values. The result table is described in the Usage Notes.
DBMS_PREDICTIVE_ANALYTICS.PROFILE ( data_table_name IN VARCHAR2, target_column_name IN VARCHAR2, result_table_name IN VARCHAR2, data_schema_name IN VARCHAR2 DEFAULT NULL);
Table 104-6 PROFILE Procedure Parameters
Parameter | Description |
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|
Name of the table containing the data to be analyzed. |
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Name of the target column. |
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Name of the table where the results will be saved. |
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Name of the schema where the input table or view resides and where the result table is created. Default: the current schema. |
The PROFILE
procedure creates a result table with the columns described in Table 104-7.
Table 104-7 PROFILE Procedure Result Table
Column Name | Data Type | Description |
---|---|---|
|
|
A unique identifier for this profile (rule). |
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The number of records described by the profile. |
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The profile rule. See "XML Schema for Profile Rules". |
The DESCRIPTION
column of the result table contains XML that conforms to the following XSD:
<xs:element name="SimpleRule"> <xs:complexType> <xs:sequence> <xs:group ref="PREDICATE"/> <xs:element ref="ScoreDistribution" minOccurs="0" maxOccurs="unbounded"/> </xs:sequence> <xs:attribute name="id" type="xs:string" use="optional"/> <xs:attribute name="score" type="xs:string" use="required"/> <xs:attribute name="recordCount" type="NUMBER" use="optional"/> </xs:complexType> </xs:element>
This example generates a rule describing customers who are likely to use an affinity card (target value is 1) and a set of rules describing customers who are not likely to use an affinity card (target value is 0). The rules are based on only two predictors: education and occupation.
SET serveroutput ON SET trimspool ON SET pages 10000 SET long 10000 SET pagesize 10000 SET linesize 150 CREATE VIEW cust_edu_occ_view AS SELECT cust_id, education, occupation, affinity_card FROM sh.supplementary_demographics; BEGIN DBMS_PREDICTIVE_ANALYTICS.PROFILE( DATA_TABLE_NAME => 'cust_edu_occ_view', TARGET_COLUMN_NAME => 'affinity_card', RESULT_TABLE_NAME => 'profile_result'); END; /
This example generates eight rules in the result table profile_result
. Seven of the rules suggest a target value of 0; one rule suggests a target value of 1. The score
attribute on a rule identifies the target value.
This SELECT
statement returns all the rules in the result table.
SELECT a.profile_id, a.record_count, a.description.getstringval() FROM profile_result a;
This SELECT
statement returns the rules for a target value of 0.
SELECT * FROM profile_result t WHERE extractvalue(t.description, '/SimpleRule/@score') = 0;
To obtain more readable output, you can cut and paste the XML for a rule into a text file, save it with the .xml extension, and view the rule in a browser. The eight rules generated by this example are displayed as follows.
<SimpleRule id="1" score="0" recordCount="443"> <CompoundPredicate booleanOperator="and"> <SimpleSetPredicate field="OCCUPATION" booleanOperator="isIn"> <Array type="string">"Armed-F" "Exec." "Prof." "Protec." </Array> </SimpleSetPredicate> <SimpleSetPredicate field="EDUCATION" booleanOperator="isIn"> <Array type="string">"< Bach." "Assoc-V" "HS-grad" </Array> </SimpleSetPredicate> </CompoundPredicate> <ScoreDistribution value="0" recordCount="297" /> <ScoreDistribution value="1" recordCount="146" /> </SimpleRule> <SimpleRule id="2" score="0" recordCount="18"> <CompoundPredicate booleanOperator="and"> <SimpleSetPredicate field="OCCUPATION" booleanOperator="isIn"> <Array type="string">"Armed-F" "Exec." "Prof." "Protec." </Array> </SimpleSetPredicate> <SimpleSetPredicate field="EDUCATION" booleanOperator="isIn"> <Array type="string">"10th" "11th" "12th" "1st-4th" "5th-6th" "7th-8th" "9th" "Presch." </Array> </SimpleSetPredicate> </CompoundPredicate> <ScoreDistribution value="0" recordCount="18" /> </SimpleRule> <SimpleRule id="3" score="0" recordCount="458"> <CompoundPredicate booleanOperator="and"> <SimpleSetPredicate field="OCCUPATION" booleanOperator="isIn"> <Array type="string">"Armed-F" "Exec." "Prof." "Protec." </Array> </SimpleSetPredicate> <SimpleSetPredicate field="EDUCATION" booleanOperator="isIn"> <Array type="string">"Assoc-A" "Bach." </Array> </SimpleSetPredicate> </CompoundPredicate> <ScoreDistribution value="0" recordCount="248" /> <ScoreDistribution value="1" recordCount="210" /> </SimpleRule> <SimpleRule id="4" score="1" recordCount="276"> <CompoundPredicate booleanOperator="and"> <SimpleSetPredicate field="OCCUPATION" booleanOperator="isIn"> <Array type="string">"Armed-F" "Exec." "Prof." "Protec." </Array> </SimpleSetPredicate> <SimpleSetPredicate field="EDUCATION" booleanOperator="isIn"> <Array type="string">"Masters" "PhD" "Profsc" </Array> </SimpleSetPredicate> </CompoundPredicate> <ScoreDistribution value="1" recordCount="183" /> <ScoreDistribution value="0" recordCount="93" /> </SimpleRule> <SimpleRule id="5" score="0" recordCount="307"> <CompoundPredicate booleanOperator="and"> <SimpleSetPredicate field="EDUCATION" booleanOperator="isIn"> <Array type="string">"Assoc-A" "Bach." "Masters" "PhD" "Profsc" </Array> </SimpleSetPredicate> <SimpleSetPredicate field="OCCUPATION" booleanOperator="isIn"> <Array type="string">"Crafts" "Sales" "TechSup" "Transp." </Array> </SimpleSetPredicate> </CompoundPredicate> <ScoreDistribution value="0" recordCount="184" /> <ScoreDistribution value="1" recordCount="123" /> </SimpleRule> <SimpleRule id="6" score="0" recordCount="243"> <CompoundPredicate booleanOperator="and"> <SimpleSetPredicate field="EDUCATION" booleanOperator="isIn"> <Array type="string">"Assoc-A" "Bach." "Masters" "PhD" "Profsc" </Array> </SimpleSetPredicate> <SimpleSetPredicate field="OCCUPATION" booleanOperator="isIn"> <Array type="string">"?" "Cleric." "Farming" "Handler" "House-s" "Machine" "Other" </Array> </SimpleSetPredicate> </CompoundPredicate> <ScoreDistribution value="0" recordCount="197" /> <ScoreDistribution value="1" recordCount="46" /> </SimpleRule> <SimpleRule id="7" score="0" recordCount="2158"> <CompoundPredicate booleanOperator="and"> <SimpleSetPredicate field="EDUCATION" booleanOperator="isIn"> <Array type="string"> "10th" "11th" "12th" "1st-4th" "5th-6th" "7th-8th" "9th" "< Bach." "Assoc-V" "HS-grad" "Presch." </Array> </SimpleSetPredicate> <SimpleSetPredicate field="OCCUPATION" booleanOperator="isIn"> <Array type="string">"?" "Cleric." "Crafts" "Farming" "Machine" "Sales" "TechSup" " Transp." </Array> </SimpleSetPredicate> </CompoundPredicate> <ScoreDistribution value="0" recordCount="1819"/> <ScoreDistribution value="1" recordCount="339"/> </SimpleRule> <SimpleRule id="8" score="0" recordCount="597"> <CompoundPredicate booleanOperator="and"> <SimpleSetPredicate field="EDUCATION" booleanOperator="isIn"> <Array type="string"> "10th" "11th" "12th" "1st-4th" "5th-6th" "7th-8th" "9th" "< Bach." "Assoc-V" "HS-grad" "Presch." </Array> </SimpleSetPredicate> <SimpleSetPredicate field="OCCUPATION" booleanOperator="isIn"> <Array type="string">"Handler" "House-s" "Other" </Array> </SimpleSetPredicate> </CompoundPredicate> <ScoreDistribution value="0" recordCount="572"/> <ScoreDistribution value="1" recordCount="25"/> </SimpleRule>