There is a renewed focus on risk data aggregation and reporting (RDAR) solutions, as financial ins
What distinguishes these three key types of analytics? A data scientist explains the differences.
The majority of raw data, particularly big data, doesn't offer a lot of value in its unprocessed state. Of course, by applying the right set of tools, we can pull powerful insights from this stockpile of bits.
In any big data setup, the first step is to capture lots of digital information, "which there's no shortage of," said Dr. Michael Wu, chief scientist of San Francisco-based Lithium Technologies, which develops social customer experience management software for businesses.
With data in hand, you can begin doing analytics. But where do you begin? And which type of analytics is most appropriate for your big data environment?
In a phone interview with InformationWeek, Wu explained how descriptive, predictive, and prescriptive analytics differ, and how they provide value to organizations.
"Once you have enough data, you start to see patterns," he said. "You can build a model of how these data work. Once you build a model, you can predict."
[Big Data makes one-to-one marketing even harder to achieve. See Real-Time Prediction, Big Data Scale: Impossible Dream?]
In a March 2013 blog series on this topic, Wu called descriptive analytics "the simplest class of analytics," one that allows you to condense big data into smaller, more useful nuggets of information.
"Remember, most raw data, especially big data, are not suitable for human consumption, but the information we derived from the data is," Wu wrote.
The purpose of descriptive analytics is to summarize what happened. Wu estimated that more than 80% of business analytics -- most notably social analytics -- are descriptive.
"For example, number of posts, mentions, fans, followers, page views, kudos, +1s, check-ins, pins, etc. There are literally thousands of these metrics -- it's pointless to list them -- but they are all just simple event counters," he wrote in another post on the topic.
Predictive analytics is the next step up in data reduction. It utilizes a variety of statistical, modeling, data mining, and machine learning techniques to study recent and historical data, thereby allowing analysts to make predictions about the future.
"The purpose of predictive analytics is NOT to tell you what will happen in the future," Wu blogged. "It cannot do that. In fact, no analytics can do that.
