Oracle Advanced Analytics
Association Rules in ODM–Part 2
This is a the second part of a four part blog post on building and using Association Rules in Oracle Data Miner. The following outlines the contents of each post in the series on Association Rules
- This first part will focus on how to building an Association Rule model
- The second post will be on examining the Association Rules produced by ODM – This blog post
- The third post will focus on using the Association Rules on your data.
- The final post will look at how you can do some of the above steps using the ODM SQL and PL/SQL functions.
In the previous post I looked at the steps needed to setup a data source and to setup the Association Rule node. When everything was setup we ran the workflow.
Step 1 – Viewing the Model
We the workflow has finished running we will have the green tick marks on each node. This is where we left thing at the end of the previous post (Part 1). To view the model details, right click on the Association Role Node and select View Models from the menu.
There are 3 main concepts that are important in relation to Association Rules:
- Support: is the proportion of transactions in the data set that contain the item set i.e. the number of times the rule occurs
- Confidence: is the proportion of the occurrences of the antecedent that result in the consequent e.g. how many times do we get C when we have A and B {A, B} => C
- Lift: indicates the strength of a rule over the random co-occurrence of the antecedent and the consequent
Support and Confidence are the primary measures that are used to access the usefulness of an association rule.
In our example we can see that the the antecedent and the consequent has numbers separated by the word AND. These numbers correspond to the product numbers.
Step 2 – Examining the Model Rules
To read the antecedent and the consequent for the first rule in our example we have:
Antecedent: 137 AND 143 AND 128
Consequent: 144
To read this association rule we would say that if a Customer bought product 137 and product 143 and product 128, then we have a Confidence value of almost 71%. This is a strong association.
We can check the ordering of the rules by changing the Sort By criteria. As Confidence and Support are the main ways to evaluate the rules, we can change the Sort By criteria to be Confidence. Then click on the Query button to refresh the rules section.
Here get a list of the strongest rules listed in descending order.
Below the section of the screen that has the Rules, we have the Rule Details section.
Here we can see that the rule gets formatted into an IF statement. The first rule in the list has a confidence of almost 97%. As it is a simple IF statement it can be easily implemented in our applications.
We want use the information that these rules provides in a number of ways. One such consequence of these rules is that we can look at improving the ordering and distribution of these products to ensure that we have sufficient numbers of each. Another consequence is that we can enhance the front end selling mechanism to make sure that if a customer is buying product 114, 118 and 115 then we can remind the customer of product 119. We can also ensure that all these products are not located beside each other, so that the customer will have to walk past many other products in order to find them. That is why we never see milk and bread beside each other in a grocery store.
Step 3 – Applying Filters to the Model Rules
In the previous step we were able to sort our rules based on some of the measures of our Association Rules and to see how these rules are structured.
Association Rule Analysis can generate many thousands of possible rules for a small data set. In some cases the similar rules can appear and we can have lots of rules that occur so infrequently that they are perhaps meaningless.
ODM provides us with a number of filters that we can apply to the rules that enables use to look for the rules that are of must interest to use. We can access these filters by clicking on the More button, that is located just under the Query button.
We can refine our query on the rules based on the various measures and the number if items in the rule. In addition to this we can also filter based on the values of the items. This is particularly useful if we want to concentrate on specific items (in our example Products). To illustrate this use focus on the rules that involve Product 115. Click on the green + symbol on the right hand side of the window. Select 115 from the list provided. Next we need to decide if we want Product 115 involved in the Antecedent or the Consequent. In our example select the Consequent. This is located to the bottom right of the window. Then click the OK button and then click on the Query button to update the list of rules that correspond with the new filter.
We can see that we only have rules that have Product 115 in the Consequent column.
We can also see that we have 134 rules for this scenarios out of a total of 20,988 (your results might differ slightly to mine and that’s OK. It really depends on what version of the sample data you are using)
Check out the next post in the series (Part 3) where we will look at how you can use the Association Rules produced by ODM.
Association Rules in ODM–Part 1
This is a the first part of a four part blog post on building and using Association Rules in Oracle Data Miner. The following outlines the contents of each post in the series on Association Rules
- This first part will focus on how to building an Association Rule model
- The second post will be on examining the Association Rules produced by ODM – This blog post
- The third post will focus on using the Association Rules on your data.
- The final post will look at how you can do some of the above steps using the ODM SQL and PL/SQL functions.
The data set we will be using for Association Rule Analysis will be the sample data that comes with the SH schema in the database. Access to this schema and it’s data was setup when we created our data mining schema and ODM Repository.
Step 1 – Getting setup
As with all data mining projects you will need a workspace that will contain your workflows. Based on my previous ODM blog posts you will have already created a Project and some workflows. You can either reuse an existing workflow you have used for one of the other ODM modeling algorithms or you can create a new Workflow called Association Rules.
Step 2 – Define your Data Set
Assuming that your database has been setup to have the Sample schemas and their corresponding data, we will be using the data that is in the SH schema. In a previous post, I gave some instructions on setting up your database to use ODM and part of that involved a step to give your ODM schema access to the sample schema data.
We will start off by creating a Data Source Node. Click on the Data Source Node under the Component Palette. Then move your mouse to your your workspace area and click. A Data Source Node will be created and a window will open. Scroll down the list of Available Tables until you find the SH.SALES table. Click on this table and then click on the Next button. We want to include all the data so we can now click the Finish Button.
Our Data Source Node will now be renamed to SALES.
Step 3 – Setup the Association Build Node
Under the Model section of the Component Palette select Association. Move the mouse to your work area (and perhaps just the to right of the SALES node) click. Our Association Node will be created.
For the next step we need to join the our data source (SALES) with the Association Build Node. Right click on the SALES data node and select Connect from the drop down menu. Then move the mouse to the Association Build node and click. You should now have the two nodes connected.
We will now get the Edit Association Build Node property window opening for us. We will need to enter the following information:
- Transaction ID: This is the attribute(s) that can be used to uniquely identify each transaction. In our example the Customer ID and the Time ID of the transaction allows us to identify what we want to analyse by i.e. the basket. This will group all the related transactions together
- Item ID: What is the attribute of the thing you want to analyse. In our case we want to analyse the Products purchased, so select PROD_ID in this case
- Value: This is an identifier used to specify another column with the transaction data to combine with the Item ID. means that you want to see if there are any type of common bundling among all values of the selected Item ID. Use this.
Like all data mining products, Oracle has just one Algorithm to use for Association Rule Analysis, the Apriori Algorithm.
Click the OK button. You are now ready to run the Association Build Node. Right click on the node and select Run from the menu. After a short time everything should finish and we will have the little green tick makes on each of the nodes.
Check out the next post in the series (Part 2) where we will look at how you can examine the rules produced by our model in ODM.
Accepted for BIWA Summit–9th to 10th January
I received an email today to say that I had a presentation accepted for the BIWA Summit. This conference will be in the Sofitel Hotel beside the Oracle HQ in Redwood City.
The title of the presentation is “The Oracle Data Scientist” and the abstract is
Over the past 18 months we have seen a significant increase in the demand for Data Scientists. But how does someone become a data scientist. If we examine the requirements and job descriptions of this role we can see that being able to understand and process data are fundamental skills. So an Oracle developer is ideally suited to being a Data Scientist. The presentation will show how an Oracle developer can evolve into a data scientist through a number of stages, including BI developer, OBIEE developer, statistical analysis, data miner and data scientist. The tasks and tools will be discussed and explored through each of these roles. The second half of the presentation will focus on the data mining functionality available in SQL and PL/SQL. This will consist of a demonstration of an Analytics Development environment and how you can migrate (and use) your models in a Production environment
For some reason Simon Cowell of XFactor fame kept on popping into my head and it now looks like he will be making an appearance in the presentation too. You will have to wait until the conference to find out what Simon Cowell and Being an Oracle Data Scientist have in common.
Check out the BIWA Summit website for more details and to register for the event.
I’ll see you there 
New features for Developers in Oracle 12c & Tools
Continuing on from my previous posts on new features in the Advanced Analytics Option and the 12c Databases, this post will focus on the proposed new features for Developers in 12c and in the new releases of the development tools.
Health Warning: As with all the presentations at OOW that talked about what may be in or may be in the next release, there is no guarantee that these features will actually be in the released version of the database. Here is the slide that gives the Safe Harbor statement.
- APEX 4.2 is out now and has lots of new features in particular features for creating mobile applications including transitions, gestures, changes in orientation and HTML 5 support. Coming in 12c APEX will be able to support the pluggable database environment. You will have the option to install APEX in the Contain database or in the pluggable databases. It will also support the extended VARCHAR2 size
- SQL Developer will have Data Pump to allow for fast movement of data and for scheduling of the movements. The Database Difference tool has been redesigned to give more options and gives a more reliable comparison. A redesigned Database Copy (more options), improved Migrations and PDF report generation. SQL Developer is not the admin tool to manage the APEX Listener. UI improvements include more/better drag and drop, GRANT statement support in SQL editor and database Doc reporting. A new release of SQL Developer will be made available with the release of 12c that includes all the 12c new features
- Better Data Compression of data being sent to/from the client/server. So how you use the ORDER BY clause will become more important
- We will now have BOOLEAN in 12c but only in PL/SQL
- 12c will allow you to grant ROLES to PL/SQL program units. Or we could specify a White List that lists what other code units can call your code. This is a great security enhancement, although it involves more admin work, but it is worth it.
- 12c will allow you to include PL/SQL in WITH
- 12c will allow you to create duplicate indexes on the same set of columns. Sometimes you might want two different types of index on the same data, for example a bit map index and a b-tree index.
- Cursor results sets can now be returned implicitly instead of the existing explicit method
- The Warning messages when compiling our PL/SQL code can be filtered based on if they are Severe, Performance related or just Informational. This can be set at a System or Session level.
alter session set plsql_warnings=’enable:severe’;
alter session set plsql_warnings=’enable:performance’;
alter session set plsql_warnings=’enable:informational’;
There was a large number of exhibits at OOW. All of them were giving things away. For some of these you had to endure a sales pitch. One of the popular type of give away was a t-shirt. If you really wanted to, you could get enough t-shirts to keep you going for a few years. I popped into the exhibits for JavaOne and the pictures below is my faviourate t-shirt from OOW, by CloudBees.
Some of the exhibits were also giving away money. If you would sit through a 10 minute presentation you were given a ticket and if your number was picked your would could win anything from $20 up to $100. Many thanks to Intel 
Oracle Advanced Analytics Option in Oracle 12c
At Oracle Open World a few weeks ago there was a large number of presentations on Big Data and Analytics. Most of these were marketing type presentations, with a couple of presentations on using R and how it can not be integrated into the Oracle Database 11.2.
In addition this these there was one presentation that focused on the Oracle Advanced Analytics (OAA) Option.
The Oracle Advanced Analytics Option covers the Oracle Data Mining features and the Oracle R Enterprise features in the Database.
The purpose of this blog post is to outline and summarise what was mentioned at these presentations, and will include what changes are/may be coming in the “Next Release” of the database i.e. Oracle 12c.
Health Warning: As with all the presentations at OOW that talked about what may be in or may be in the next release, there is not guarantee that the features will actually be in the release version of the database. Here is the slide that gives the Safe Harbor statement.
- 12c will come with R embedded into it. So there will be no need for any configurations.
- Oracle R client will come as part of the server install.
- Oracle R client will be able to use the Analytics functions that exist in the database.
- Will be able to run R code in the database.
- The database (12c) will be able to spawn multiple R engines.
- Will be able to emulate map-reduce style algorithms.
- There will be new PREDICTION function, replacing the existing (11g) functionality. This will combine a number of steps of building a model and applying it to the data to be scored into one function. But we will still need the functionality of the existing PREDICTION function that is in 11g. So it will be interesting to see how this functionality will be kept in addition to the new functionality being proposed in 12c.
- Although the Oracle Data Miner tool will still exits and will have many new features. It was also referred to as the ‘OAA Workflow’. So those this indicate a potential name change? We will have to wait and see.
- Oracle Data Miner will come with a new additional graphing feature. This will be in addition to the Explore Node and will allow us to produce more typical attribute related graphs. From what I could see these would be similar to the type of box plot, scatter, bar chart, etc. graphs that you can get from R.
- There will be a number of new algorithms too, including a useful One Class Support Vector Machine. This can be used when we have a data set with just one class value. This algorithm will work out what records/cases are more important and others.
- There will be a new SQL node. This will allow us to write our own data transformation code.
- There will be a new node to allow the calling of R code.
- The tool also comes with a slightly modified layout and colour scheme.
Again, the points that I have given above are just my observations. They may or may not appear in 12c, or maybe I misunderstood what was being said.
It certainly looks like we will have a integrate analytics environment in 12c with full integration of R and the ODM in-database features.
Extracting the rules from an ODM Decision Tree model
One of the most interesting of important aspects of a Decision Model is that we as a user can get to see what rules the machine learning algorithm has generated for our data.
I’ve give a number of examples in various blog posts over the past few years on how to generate a number of classification models. An example of the workflow is below.
In the Class Build node we get four models being generated. These include a Generalised Linear Model, Support Vector Machine, Naive Bayes and a Decision Tree model.
We can explore the Decision Tree model by right clicking on the Class Build Node, selecting View Models and then the Decision Tree model, which will be labelled with a ‘DT’ in the name.
As we explore the nodes and branches of the Decision Tree we can see the rule that was generated for a node in the lower pane of the applications. So by clicking on each node we get a different rule appearing in this pane
Sometimes there is a need to extract this rules so that they can be presented to a number of different types of users, to explain to them what is going on.
How can we extract the Decision Tree rules?
To do this, you will need to complete the following steps:
- From the Models section of the Component Palette select the Model Details node.
- Click on the Workflow pane and the Model Details node will be created
- Connect the Class Build node to the Model Details node. To do this right click on the Class Build node and select Connect. Then move the mouse to the Model Details node and click. The two nodes should now be connected.
- Edit the Model Details node, uncheck the Auto Settings, select Model Type to be Decision Tree, Output to be Full Tree and all the columns.
- Run the Model Details node. Right click on the node and select run. When complete you you will have the little green box with a tick mark, on the top right hand corner.
- To view the details produced, right click on the Model Details node and select View Data
- The rules for each node will now be displayed. You will need to scroll to the right of this pane to get to the rules and you will need to expand the columns for the rules to see the full details
My Presentations on Oracle Advanced Analytics Option
I’ve recently compiled my list of presentation on the Oracle Analytics Option. All these presentations are for a 45 minute period.
I have two versions of the presentation ‘How to do Data Mining in SQL & PL/SQL’, one is for 45 minutes and the second version is for 2 hour.
I have given most of these presentations at conferences or SIGS.
Let me know if you are interesting in having one of these presentations at your SIG or conference.
- Oracle Analytics Option – 12c New Features – available 2013
- Real-time prediction in SQL & Oracle Analytics Option – Using the 12c PREDICTION function – available 2013
- How to do Data Mining in SQL & PL/SQL
- From BIG Data to Small Data and Everything in Between
- Oracle R Enterprise : How to get started
- Oracle Analytics Option : R vs Oracle Data Mining
- Building Predictive Analysts into your Forms Applications
- Getting Real Business Value from OBIEE and Oracle Data Mining (This is a cut down and merged version of the follow two presentations)
- Getting Real Business Value from OBIEE and Oracle Data Mining – Part 1 : The Oracle Data Miner part
- Getting Real Business Value from OBIEE and Oracle Data Mining – Part 2 : The OBIEE part
- How to Deploying and Using your Oracle Data Miner Models in Production
- Oracle Analytics Option 101
- From SQL Programmer to Data Scientist: evolving roles of an Oracle programmer
- Using an Oracle Oracle Data Mining Model in SQL & PL/SQL
- Getting Started with Oracle Data Mining
- You don’t need a PhD to do Data Mining
Check out the ‘My Presentations’ page for updates on new presentations.
Analytics Sessions at Oracle Open World 2012
The content catalog for Oracle Open World 2012 was made public during the week. OOW is on between 30th September and 4th October.
The following table gives a list of most of the Data Analytics type sessions that are currently scheduled.
Why did I pick these sessions? If I was able to go to OOW then these are the sessions I would like to attend. Yes there would be many more sessions I would like to attend on the core DB technology and Development streams.
| Session Title | Presenters |
| CON6640 – Database Data Mining: Practical Enterprise R and Oracle Advanced Analytics | Husnu Sensoy |
| CON8688 – Customer Perspectives: Oracle Data Integrator | Gurcan Orhan – Software Architect & Senior Developer, Turkcell Technology R&D Julien Testut – Product Manager, Oracle |
| HOL10089 – Oracle Big Data Analytics and R | George Lumpkin – Vice President, Product Management, Oracle |
| CON8655 – Tackling Big Data Analytics with Oracle Data Integrator | Mala Narasimharajan – Senior Product Marketing Manager, Oracle Michael Eisterer – Principal Product Manager, Oracle |
| CON8436 – Data Warehousing and Big Data with the Latest Generation of Database Technology | George Lumpkin – Vice President, Product Management, Oracle |
| CON8424 – Oracle’s Big Data Platform: Settling the Debate | Martin Gubar – Director, Oracle Kuassi Mensah – Director Product Management, Oracle |
| CON8423 – Finding Gold in Your Data Warehouse: Oracle Advanced Analytics | Charles Berger – Senior Director, Product Management, Data Mining and Advanced Analytics, Oracle |
| CON8764 – Analytics for Oracle Fusion Applications: Overview and Strategy | Florian Schouten – Senior Director, Product Management/Strategy, Oracle |
| CON8330 – Implementing Big Data Solutions: From Theory to Practice | Josef Pugh – , Oracle |
| CON8524 – Oracle TimesTen In-Memory Database for Oracle Exalytics: Overview | Tirthankar Lahiri – Senior Director, Oracle |
| CON9510 – Oracle BI Analytics and Reporting: Where to Start? | Mauricio Alvarado – Principal Product Manager, Oracle |
| CON8438 – Scalable Statistics and Advanced Analytics: Using R in the Enterprise | Marcos Arancibia Coddou – Product Manager, Oracle Advanced Analytics, Oracle |
| CON4951 – Southwestern Energy’s Creation of the Analytical Enterprise | Jim Vick – , Southwestern Energy Richard Solari – Specialist Leader, Deloitte Consulting LLP |
| CON8311 – Mining Big Data with Semantic Web Technology: Discovering What You Didn’t Know | Zhe Wu – Consultant Member of Tech Staff, Oracle Xavier Lopez – Director, Product Management, Oracle |
| CON8428 – Analyze This! Analytical Power in SQL, More Than You Ever Dreamt Of | Hermann Baer – Director Product Management, Oracle Andrew Witkowski – Architect, Oracle |
| CON6143 – Big Data in Financial Services: Technologies, Use Cases, and Implications | Omer Trajman – , Cloudera Ambreesh Khanna – Industry Vice President, Oracle Sunil Mathew – Senior Director, Financial Services Industry Technology, Oracle |
| CON8425 – Big Data: The Big Story | Jean-Pierre Dijcks – Sr. Principal Product Manager, Oracle |
| CON10327 – Recommendations in R: Scaling from Small to Big Data | Mark Hornick – Senior Manager, Oracle |
R resources
Download R : http://www.r-project.org/
R installation instructions : http://star-www.st-andrews.ac.uk/cran/
R-Uni (A List of 85+ Free R Tutorials and Resources in Universities webpages)
R programming for those coming from other languages
Using ODM Regression for the Leaning Tower of Pisa tilt problem
This blog post will look at how you can use the Regression feature in Oracle Data Miner (ODM) to predict the lean/tilt of the Leaning Tower of Pisa in the future.
This is a well know regression exercise, and it typically comes with a set of know values and the year for these values. There are lots of websites that contain the details of the problem. A summary of it is:
The following table gives measurements for the years 1975-1985 of the “lean” of the Leaning Tower of Pisa. The variable “lean” represents the difference between where a point on the tower would be if the tower were straight and where it actually is. The data is coded as tenths of a millimetre in excess of 2.9 meters, so that the 1975 lean, which was 2.9642.
Given the lean for the years 1975 to 1985, can you calculate the lean for a future date like 200, 2009, 2012.
Step 1 – Create the table
Connect to a schema that you have setup for use with Oracle Data Miner. Create a table (PISA) with 2 attributes, YEAR_MEASURED and TILT. Both of these attributes need to have the datatype of NUMBER, as ODM will ignore any of the attributes if they are a VARCHAR or you might get an error.
CREATE TABLE PISA
(
YEAR_MEASURED NUMBER(4,0),
TILT NUMBER(9,4)
);
Step 2 – Insert the data
There are 2 sets of data that need to be inserted into this table. The first is the data from 1975 to 1985 with the known values of the lean/tilt of the tower. The second set of data is the future years where we do not know the lean/tilt and we want ODM to calculate the value based on the Regression model we want to create.
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1975,2.9642);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1976,2.9644);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1977,2.9656);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1978,2.9667);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1979,2.9673);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1980,2.9688);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1981,2.9696);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1982,2.9698);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1983,2.9713);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1984,2.9717);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1985,2.9725);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1986,2.9742);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1987,2.9757);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1988,null);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1989,null);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1990,null);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (1995,null);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (2000,null);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (2005,null);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (2010,null);
Insert into DMUSER.PISA (YEAR_MEASURED,TILT) values (2009,null);
Step 3 – Start ODM and Prepare the data
Open SQL Developer and open the ODM Connections tab. Connect to the schema that you have created the PISA table in. Create a new Project or use an existing one and create a new Workflow for your PISA ODM work.
Create a Data Source node in the workspace and assign the PISA table to it. You can select all the attributes..
The table contains the data that we need to build our regression model (our training data set) and the data that we will use for predicting the future lean/tilt (our apply data set).
We need to apply a filter to the PISA data source to only look at the training data set. Select the Filter Rows node and drag it to the workspace. Connect the PISA data source to the Filter Rows note. Double click on the Filter Row node and select the Expression Builder icon. Create the where clause to select only the rows where we know the lean/tilt.
Step 4 – Create the Regression model
Select the Regression Node from the Models component palette and drop it onto your workspace. Connect the Filter Rows node to the Regression Build Node.
Double click on the Regression Build node and set the Target to the TILT variable. You can leave the Case ID at . You can also select if you want to build a GLM or SVM regression model or both of them. Set the AUTO check box to unchecked. By doing this Oracle will not try to do any data processing or attribute elimination.
You are now ready to create your regression models.
To do this right click the Regression Build node and select Run. When everything is finished you will get a little green tick on the top right hand corner of each node.
Step 5 – Predict the Lean/Tilt for future years
The PISA table that we used above, also contains our apply data set
We need to create a new Filter Rows node on our workspace. This will be used to only look at the rows in PISA where TILT is null. Connect the PISA data source node to the new filter node and edit the expression builder.
Next we need to create the Apply Node. This allows us to run the Regression model(s) against our Apply data set. Connect the second Filter Rows node to the Apply Node and the Regression Build node to the Apply Node.
Double click on the Apply Node. Under the Apply Columns we can see that we will have 4 attributes created in the output. 3 of these attributes will be for the GLM model and 1 will be for the SVM model.
Click on the Data Columns tab and edit the data columns so that we get the YEAR_MEASURED attribute to appear in the final output.
Now run the Apply node by right clicking on it and selecting Run.
Step 6 – Viewing the results
Where we get the little green tick on the Apply node we know that everything has run and completed successfully.
To view the predictions right click on the Apply Node and select View Data from the menu.
We can see the the GLM mode gives the results we would expect but the SVM does not.
2 Day Oracle Data Miner course material
Last week I managed to get my hands on the training material for the 2 Day Oracle Data Miner course. This course is run by Oracle University.
Many thanks to Michael O’Callaghan who is a BI Sales person here in Ireland and Oracle University, for arranging this.
The 2 days are pretty packed with a mixture of lecture type material, lots of hands on exercises and some time for open discussions. In particular, day 2 will be very busy day.
Check out the course outline and published schedule – click here
You can have this course on site at your organisation. If this is something that interests you then contact your Oracle University account manager. There is also the traditional face-to-face delivery and the newer online delivery, where people from around the world come together for the online class.
Oracle Analytics Sessions at COLLABORATE12
There are a number of Oracle Advanced Analytics and related topics taking place this week at COLLABORATE12 in Las Vegas (http://collaborate12.com).
| Date | Time | Presentation | Presenter |
| Sun 22nd | 9:00-3pm | Oracle Business Intelligence Application Journey | |
| Mon 23rd | 9:45-10:45 | Managing Unstructured Data using Hadoop, Oracle 11g and Oracle Exadata Database Machine | Jim Steiner |
| Mon 23rd | 9:45-10:45 | Environmental Data Management and Analytics-a Real World Perspective | Angela Miller |
| Mon 23rd | 11-12 | Public Safety and Environmental Real-Time Analytics using Oracle Business Intelligence | Raghav Venkat Therese Arguelles |
| Mon 23rd | 11-12 | BI is more than slice and dice | Peter Scott |
| Mon 23rd | 14:30-15:30 | In-Database Analytics: Predictive Analytics, Data Mining, Exadata & Business Intelligence | Jacek Myczkowski |
| Mon 23rd | 15:45-16:45 | Big Data Analytics, R you ready | Mark Hornick Shyam Nath |
| Tues 24th | 10:45-11:45 | BI Analytics and Oracle NoSQL. The Future of Now | Manish Khera |
| Wed. 25th | 8:15-9:15 | Oracle Data Mining – A Component of the Oracle Advanced Analytics Option-Hands-on Lab | Charlie Berger |
| Wed 25th | 9:30-10:30 | Oracle R Enterprise – A Component of the Oracle Advanced Analytics Option-Hands-on Lab | Mark Hornick |
Here are the abstracts from the two main Oracle Advanced Analytics presentations by Charlie Berger and Mark Hornick
Oracle Data Mining – A Component of the Oracle Advanced Analytics Option
This Hands-on Lab provides an introduction to Oracle Data Mining and the Oracle Data Miner GUI.
Oracle Data Mining (ODM), now part of Oracle Advanced Analytics, provides an extensive set of in-database data mining algorithms that solve a wide range of business problems. It can predict customer behavior, detect fraud, analyze market baskets, segment customers, and mine text to extract sentiments. ODM provides powerful data mining algorithms that run as native SQL functions for in-database model building and model deployment. There is no need for the time delays and security risks of data movement.
The free Oracle Data Miner GUI is an extension to Oracle SQL Developer 3.1 that enables data analysts to work directly with data inside the database, explore the data graphically, build and evaluate multiple data mining models, apply ODM models to new data, and deploy ODM’s predictions and insights throughout the enterprise. Oracle Data Miner work flows capture and document the user’s analytical methodology and can be saved and shared with others to automate advanced analytical methodologies.
Oracle R – A component of the Oracle Advanced Analytics Option
This Hands-on Lab provides an introduction to Oracle R Enterprise.
Oracle R Enterprise, a part of the Oracle Advanced Analytics Option, makes the open source R statistical programming language and environment ready for the enterprise by integrating R with Oracle Database. R users can interactively and transparently execute R scripts for statistical and graphical analyses on data stored in Oracle Database. R scripts can be executed in Oracle Database using potentially multiple database-managed R engines – resulting in data parallel execution. ORE also provides a rich set of statistical functions and advanced analytics techniques.
In this lab, attendees will be introduced to Oracle’s strategy for R, including the Oracle R Distribution, Oracle R Enterprise (ORE), and Oracle R Connector for Hadoop (ORCH). We will focus on Oracle R Enterprise with hands-on exercises exploring the transparency layer, embedded R execution, and statistics engine.
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