Tag: lifelong

  • The Road to Python3

    When Python3 came out in 2009, it was already heavily debated. Python3 would be incompatible with previous versions of the popular language, but fix many drawbacks. While the vision was clear and the community initially planned to move forward much quicker. The demand for having a 2.x branch was so huge, however, that the community decided to extend support for 2.7 until the end of 2019. Stack Overflow took a look on why the path took so long.

    https://stackoverflow.blog/2019/11/14/why-is-the-migration-to-python-3-taking-so-long/
    The Road to Python3: Stack Overflow took a look.
  • Lifelong Learning

    Lifelong Learning

    IEEE’s Educational Activities Committee (EAC) invited me for their regular meeting, that happens May 13th and 14th in Porto, Portugal. Me being there is to represent Action for Industry Committee (AfI). On first priority, the attendance is to foster inter-committee cooperation. However, one of the items we’d love to promote to industry, but to everybody else, is that education is important. In particular in Industry, where innovation and therefore differentiation from the competition is key to any activity.

    To make the point about lifelong learning: upcoming, innovative technology trends, just to mention the Internet of Things, Electromobility or Autonomous-Driving require broad sets of expertise’s, abilities and complex organisations to come to life.

    The Internet of Things, while being a vague term, is often associated with an App controlling a device remotely. While this looks easy on the outside, looking into the workings of such a product, it typically requires skills from 2 mobile platforms, Android and iOS, potentially Web. The connectivity part requires knowledge about transport protocols, that need splitting into IP protocols and constraint field busses. The cloud end alone is typically broken down into data transfer, data storage and data processing, while the field offers a broad choice of communication protocols and physical layers, all for different purposes and use cases. Not to mention the engineering, design, production process and supply chain that yields a physical device that a consumer wants to control. Adding in service based products, that give a customer a better understanding of usage patterns, energy savings, potentiation gameification of product use, require data processing and analytics.

    This very high level example requires at least 3 major degrees, again, not mentioning the business administration side, that’d increase the count to 4 major degrees, with about 3 minors each, just on the upside estimate.  Highly complex products like this need highly skilled engineers and managers, that do not only need to execute on producing and operating a device, but also keep up on technical ability to stay on top of upcoming technologies, processes and procedures.

    Lastly, any requirement to understand peering functions and technology makes the final argument for lifelong learning, because not only does the world change so fast, there is always fields interfering with an engineers major in an evolving market. This way, lifelong learning is not only something desirable to one self’s development, but a fundamental requirement to stay ahead of the market.

    IEEE’s main pillars are academic publications, conferences and standards, all carried by an overwhelming number of volunteers. These are all, with no doubt, convinced that sharing knowledge increases knowledge. The really differentiating fact for IEEE is these are not from a single domain of research, but these ~420.000 members are organised in 39 technical societies, spanning all different kinds of technology and research.

    Through this large spectrum of interest and the volunteering nature of the organisation, it enables lifelong learning through the exchange of ideas and knowledge alone, with Committees like the EAC fostering the activity, and Action for Industry keeping the relationship with engineers in industry.