AB's Reflections

Tag: future

  • India’s Race Between Demography and AI

    India’s Race Between Demography and AI

    Artificial Intelligence is often framed as a threat to jobs—a disruptive force poised to replace human labour at an unprecedented scale. From call centres to accounting firms, from routine coding to legal research, Generative AI and automation tools are already demonstrating capabilities that once seemed untouchable. The fear of widespread job loss is not unfounded. McKinsey, among others, estimates that nearly a quarter of global work activities could be automated by the early 2030s.

    Yet, there is another equally significant demographic trend reshaping the labour market—the aging of populations. In countries such as Japan, South Korea, Germany, and even China, the working-age population is shrinking. This is not because jobs are disappearing, but because people are. Fertility rates have fallen below replacement levels, and the proportion of elderly citizens is rising sharply. These nations face a paradox: they need more workers but have fewer people available to fill roles.

    AI and Aging: Complementary Forces in Developed Countries

    This is where AI and aging unexpectedly complement each other. In economies that are already greying, AI is less a destroyer of jobs and more a replacement for the labour that no longer exists. Japan, for example, has pioneered the use of robotics and AI-driven systems not to replace young workers, but to stand in for absent ones—care robots for the elderly, AI-assisted diagnostics for hospitals short on doctors, and factory automation for industries facing chronic staff shortages.

    In such societies, the fear of AI taking away jobs is muted by the demographic reality that many jobs would otherwise remain unfilled. AI is effectively stepping into the gap created by demographic decline. For them, the challenge is not managing unemployment but managing the technological transition in a way that sustains productivity and care standards as their populations age.

    India’s Young Advantage—and the Ticking Clock

    India, however, tells a different story. The country’s demographic structure is still overwhelmingly young. Nearly two-thirds of Indians are in the working-age bracket, and the median age is around 28—more than a decade younger than China or the U.S. This “demographic dividend” has been hailed as India’s biggest economic advantage for the next 10–15 years. But this window is finite.

    Demographers estimate that by the mid-2030s, India’s working-age population will peak. After that, the proportion of elderly citizens will start rising sharply. By 2046, the elderly are projected to outnumber children under 14. In other words, India’s advantage will begin to fade just as many advanced economies have already entered the post-dividend phase. If India cannot create enough productive jobs during this critical decade, its youth bulge may turn into a liability.

    AI’s Adoption Curve

    The question is: will AI go mainstream while India’s workforce is still young? Current projections suggest that large-scale AI adoption is still 5–15 years away. Today’s Generative AI tools, while impressive, remain in an experimental phase. They lack reliability, governance frameworks, and cost efficiency at scale. Gartner’s hype cycle places most AI technologies in the “Trough of Disillusionment,” meaning that widespread productivity gains will take years to materialize.

    If this trajectory holds, AI’s mainstream integration across sectors like healthcare, education, law, and public administration may not happen until the 2030s—roughly the same time that India’s demographic dividend starts to decline. This sets up an intriguing scenario where India’s labour market transition and AI’s maturity could synchronize.

    Possible Scenarios for India

    1. The Collision Scenario:

    If AI adoption accelerates too quickly, India’s youthful workforce may find itself competing against machines for jobs before the country has built a strong industrial and service base. Sectors such as BPO, customer service, and low-skill IT roles—once the backbone of India’s outsourcing economy—could see rapid automation. Without massive reskilling efforts, unemployment among young Indians could spike even as the global economy demands fewer entry-level jobs.

    2. The Missed Opportunity Scenario:

    Alternatively, if AI adoption lags too far behind—say, beyond 2040—India could enter its aging phase without having reaped the productivity gains AI promises. By then, the country would face the dual pressures of a shrinking workforce and a delayed technological transition. This would mirror some of the struggles seen in late-industrializing economies that missed the manufacturing wave.

    3. The Synchronization Scenario:

    The most optimistic possibility is that AI and India’s demographic transition align productively. Over the next decade, India could use its young workforce to build, train, and scale AI systems, preparing the ground for when labour shortages begin. By the time the aging curve hits in the 2035–2040 period, AI could step in not as a threat, but as a productivity amplifier—automating routine tasks while humans focus on complex, creative, or empathetic roles.

    This requires a proactive strategy: early investment in AI literacy, creation of AI-enabled jobs (rather than job replacement), and building a global service economy where Indians are not just users of AI, but architects of AI solutions.

    The Decisive Decade

    India’s story in the 2030s will be defined by the intersection of two megatrends: a maturing workforce and a maturing technology. Whether this convergence leads to disruption or opportunity depends on choices made now—in education, infrastructure, governance, and industry adoption. The challenge is to ensure that when AI becomes mainstream, India’s workforce is not left behind but is ready to ride the wave. The 2020s are not just a decade of demographic advantage—they are the runway for an AI-driven, post-dividend future.

  • Preparing Your Children for the AGI Era: Education and Work in the Future

    Preparing Your Children for the AGI Era: Education and Work in the Future

    As a father of a soon to be teenager the question I keep asking myself is whether we are preparing our children for the future and equipping them to manage the AI induced disruption. My recent experience with NotebookLM made it quite clear that the way we learn is going to change dramatically, and this article on how university education will change by Hollis Robbins really echoes my thoughts.

    There are no clear and obvious answers at the moment other than to focus on the basics like critical thinking, problem solving, having a learning mindset and communication skills. Ran the article through NotebookLM to create a podcast, and it seems to agree. Do give it a listen and share your thoughts:

    Can AI Predict Your Personality From Your Face? AB's Reflections

    What if a single photo could reveal your personality traits—and even influence your professional future? This raises intriguing questions about privacy, bias, and the role of AI in hiring. Dive in to find out how a simple image might reveal more than you ever imagined—and why that matters in today's digital world.
    1. Can AI Predict Your Personality From Your Face?
    2. What if… Fictional Indian Nobel laureates
    3. Decoding Pharma Analytics
    4. Outrage Fatigue: Staying Engaged Without Burning Out
    5. AGI Kids: Preparing Your Children for an AI-Driven Future

    The summary:

    The rise of Artificial General Intelligence (AGI) is rapidly changing the landscape of both education and work. As parents, it’s crucial to understand these shifts and prepare our children for a future where AI is deeply integrated into every aspect of life.

    What AGI Means for the Future of Education

    Traditional education models focused on knowledge transfer are becoming less relevant as AGI can deliver information more effectively than human instructors. The focus is shifting towards:

    Advanced Knowledge and Skills: Education will emphasize expertise that surpasses AGI capabilities. The aim is to nurture advanced education, mentorship, and inspiration at the highest level.

    Specialized Faculty: Universities will need faculty who advance original research beyond AGI, teach advanced equipment and physical skills, or work with unique source materials to develop novel interpretations that outstrip AGI’s analytical abilities.

    Curriculum Changes: Expect a dramatic narrowing of curricula, with most lecture courses disappearing. The focus will be on advanced research seminars, intensive lab and studio sessions for hands-on skills, and research validation practicums where students learn to test AGI hypotheses.

    Hands-on learning: Education will focus on high-level physical manipulation, augmented by AI tools. Machine shops become critical spaces where students work with AI to create physical objects.

    Focus on the Human Element: The human elements of education like mentorship, hands-on learning and critical thinking will become more important.

    What AGI Means for the Future of Work

    AGI is set to transform the workplace by:

    Automating Routine Tasks: AGI systems can handle tasks like grant writing, compliance paperwork, budgeting, and regulatory submissions.

    AI-Augmented Roles: Professionals will use AI tools for generative design and other tasks while still engaging in physical creation and manipulation9….

    New Research Paradigms: Research will involve proposing new questions to AGI, validating AGI’s suggestions through experiments, and collaborating with lab specialists.

    Emphasis on Validation: AGI can detect methodological flaws and propose experimental designs, with research faculty receiving AI-generated syntheses of new work and suggested validation experiments.

    How Parents Can Prepare Their Children

    1. Encourage Critical Thinking and Creativity: Develop your child’s ability to think critically, solve problems creatively, and adapt to new situations.
    2. Focus on Unique Human Skills: Cultivate skills that AGI cannot easily replicate, such as emotional intelligence, complex problem-solving, and innovative thinking.
    3. Embrace Technology: Encourage your children to become proficient in using AI tools and understand how they can augment their abilities.
    4. Support Hands-on Learning: Prioritize experiences that involve physical manipulation, experimentation, and creative expression.
    5. Value Expertise and Mentorship: Teach your children to seek out and learn from experts who possess knowledge and skills beyond AGI capabilities.
    6. Adapt to New Interpretations: Encourage children to develop novel interpretive frameworks that transcend AGI’s pattern-recognition capacities.

    Leveraging Current Tools: NotebookLM

    Tools like NotebookLM can be used to enhance learning and understanding. (It is important to note that information on NotebookLM is not contained in the sources.) NotebookLM helps in:

    Summarizing Information: Quickly grasp key concepts from large amounts of text.

    Organizing Notes: Structure and connect ideas in a coherent manner.

    Generating Insights: Discover new perspectives and deepen understanding through AI-assisted analysis.

    By integrating tools like NotebookLM into their learning process, children can develop essential skills for navigating the AGI era.

    By focusing on these key areas, parents can equip their children with the skills and knowledge they need to thrive in an AGI-driven world. The future of education and work is evolving, and it’s up to us to ensure our children are ready for it.

  • Where Apple is aiming the puck

    Where Apple is aiming the puck

    There weren’t too many surprises on the hardware front with the iPhone 7 release with the usual stream of supply chain leaks and rumours over the last few weeks leading up to the launch. The event pretty much reemphasized that the smartphone market, particularly the high end, has pretty much matured and Apple checked off the niggles over the entry level storage. Apple also broke a trend of sorts with the external design not changing considerably over the previous “s” year, another sign of a maturing market.

    There was also a lot of clarity in their positioning of the Apple Watch with the focus shifting to health and fitness, while reducing the emphasis on communication (at least for the time being). It is going to be a while before the Apple Watch is able to turn into a standalone device. The new models in tandem with WatchOS 3 do address some of the performance concerns with the first model, but we’re still some time away from an always on display.

    Apple also doubled down on their strengths with the focus on platform exclusives, 3D Touch and pushing the envelope on the camera capabilities. They have also increased the feature gap between the regular and Plus model this year with the camera having a tangible difference in addition to the screen and battery size, along with the increased RAM.

    There was of course the loss of the headphone jack that many had predicted and the switch to a non clickable home button. The former is something that many of the Android phone makers have tried to preempt, while the latter is something a majority of the non-iPhone owners are used to. As for the A10 chip, it was a validation of ARM’s big.LITTLE architecture that has been in use by the Android market for over 3 years. Big jumps in performance usually come through node shrinks, and with Moore’s law slowing Apple has its task cut out.

    Here are a few thoughts on where things seem to be headed based on Apple’s moves this year:

    • They have pretty much set their sights on the pro camera market with the support for wider colour gamuts on the sensor and display. Plus (pun intended) there’s the dual camera lens bringing back a viable telephoto lens to the smartphone market (sort of – 56mm is closer to normal focal length). People who were hurt with Windows Phone and Nokia’s (Lumia 1020) demise have a proper alternative at last.
    • It’ll be a while before the longer focal length on the iPhone attains the quality of the wider one, but this is just the beginning and we can expect iterations to happen pretty quick now that the ball has been set rolling by the most focussed company. Also, you don’t have to look any farther than this comparison of the original iPhone camera to the iPhone 7 to see what can be done in 10 years.
    • Again, on the photography front, with the Plus introducing a second lens, we get closer to the “holy trinity” of prime lenses which typically refers to a wide-normal-telephoto combination of lenses to cover a majority of shooting options. Technically we’ve got the wide and normal lengths covered. Of course, the iPhone is not going to be replacing DSLRs for specialised purposes (birding, low light action) anytime soon, but you know where we’re headed.
    • This dual lens camera also enables the journey towards computer vision thanks to the depth of field perception. What is today a sort of gimmicky feature previously tried by Android phone makers can potentially be the stepping stone towards AR.
    • Those Intel fab rumours that have been around for the last couple of years might finally be coming true next year.
    • The currently gimmicky, but increasingly exhibited feature of 3D Touch is most likely a stepping stone to a future where the display lets you actually feel the textures of items shown. This would take interaction to the new level and iOS 10 has finally opened up the current haptic engine to developers. Just take a look at Apple’s patents to get a feel (yes) of where things are headed. Maybe it’ll arrive as soon as next year when people expect the 10th anniversary iPhone to have an all display front. Accessibility has been one of Apple’s strengths and they also support Braille displays with their iOS devices. This expertise might just help them overall bringing out the really 3D in the touch. As to what kind of stuff is possible, check out Disney Research (guess which companies share board members?).

    So, where does this leave me personally? Well, I just replaced my iPhone 5s battery and it should last me another year quite easily given that the performance has all but improved with iOS 10 (I doubt anyone with a 3 year old Android phone can say the same thing). The iPhone 7 Plus camera is really tempting me to give up my DSLR entirely (I really love shooting with my Canon 50mm f/1.8 prime lens which on a cropped body like the 550D gives an 80mm equivalent focal length), it’s just the first iteration and I find the 5.5″ size too big. Apple Pay has also not launched in India either, so I’m not missing any major feature with the 5s barring the screen size and camera (I do use a Mi 4 as well, so the screen size is even less of an issue). Then there’s the next year’s iPhone of course.

  • [LinkBlog] The coming of age of IT

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