Smarter Data Science. Cole Stryker

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      The variety of opportunities to apply machine learning is extensive. The sheer variety gives credence as to why so many different modes of learning are necessary:

       Advertisement serving

       Business analytics

       Call centers

       Computer vision

       Companionship

       Creating prose

       Cybersecurity

       Ecommerce

       Education

       Finance, algorithmic trading

       Finance, asset allocation

       First responder rescue operations

       Fraud detection

       Law

       Housekeeping

       Elderly care

       Manufacturing

       Mathematical theorems

       Medicine/surgery

       Military

       Music composition

       National security

       Natural language understanding

       Personalization

       Policing

       Political

       Recommendation engines

       Robotics, consumer

       Robotics, industry

       Robotics, military

       Robotics, outer space

       Route planning

       Scientific discovery

       Search

       Smart homes

       Speech recognition

       Translation

       Unmanned aerial vehicles (drones, cars, ambulance, trains, ships, submarines, planes, etc.)

       Virtual assistants

      Evaluating how well a model learned can follow a five-point rubric.

       Phenomenal: It's not possible to do any better.

       Crazy good: Outcomes are better than what any individual could achieve.

       Super-human: Outcomes are better than what most people could achieve.

       Par-human: Outcomes are comparable to what most people could achieve.

       Sub-human: Outcomes are less than what most people could achieve.

Toward the AI-Centric Organization

      As with the industrial age and then the information age, the age of AI is an advancement in tooling to help solve or address business problems. Driven by necessity, organizations are going to use AI to aid with automation and optimization. To support data-driven cultures, AI must also be used to predict and to diagnose. AI-centric organizations must revisit all aspects of their being, from strategy to structure and from technology to egos.

Before becoming AI-centric, organizations must first identify their problems, examine their priorities, and decide where to begin. While AI is best for detecting outcomes against a pattern, traditional business rules are not going to disappear. To be AI-centric is to understand what aspects of the business can best be addressed through patterns. Knowing how much tax to pay is never going to be a pattern; a tax calculation is always going to be rule-based.

      There are always going to be situations where a decision or action requires a combination of pattern-based and rule-based outcomes. In much the same way, a person may leverage AI algorithms in conjunction with other analytical techniques.

      Organizations that avoid or delay AI adoption will, in a worst-case scenario, become obsolete. The changing needs of an organization coupled with the use of AI are going to necessitate an evolution in jobs and skillsets needed. As previously stated, every single job is likely to be impacted in one way or another. Structural changes across industries will lead to new-collar workers spending more of their time on activities regarded as driving higher value.

      Employees are likely to demand continuous skill development to remain competitive and relevant. As with any technological shift, AI may, for many years, be subject to scrutiny and debate. Concerns about widening economic divides, personal privacy, and ethical use are not always unfounded, but the potential for consistently providing a positive experience cannot be dismissed. Using a suitable information architecture for AI is likely to be regarded as a high-order imperative for consistently producing superior outcomes.

      SCALE

      On occasion, we are likely to have experienced a gut feeling about a situation. We have this sensation in the pit of our stomach that we know what we must do next or that something is right or that something is about to go awry. Inevitably, this feeling is not backed by data.

      Gene Kranz was the flight director in NASA's Mission Control room during the Apollo 13 mission in 1970. As flight director, he made a number of gut feel decisions that allowed the lunar module to return safely to Earth after a significant malfunction. This is why we regard AI as augmenting the knowledge worker and not an outright replacement for the knowledge worker. Some decisions require a broader context for decision-making; even if that decision is a gut feel, the decision is still likely to manifest from years of practical experience.

      For many businesses, the sheer scale of their operations already means that each decision can't be debated between man and machine to reach a final outcome. Scale, and not the need to find a replacement for repetitive tasks, is the primary driving factor toward needing to build the AI-centric organization.

Summary

      Through climbing the ladder, organizations will develop practices for data science and be able to harness machine learning and deep learning as part of their enhanced analytical toolkit.

      Data science is a discipline, in that the data scientist must be able to leverage and coordinate multiple skills to achieve an outcome, such as domain expertise, a deep understanding of data management, math skills, and programming. Machine learning and deep learning, on the other hand, are techniques that can be applied via the discipline. They are techniques insofar as they are optional СКАЧАТЬ