Future of Automation
Automation, powered by AI and robotics, promises efficiency gains across industries. Expect widespread adoption in manufacturing, healthcare, and services—think self-driving vehicles, AI diagnostics, and automated customer support. By 2030, it could boost global GDP by 15-20%, per McKinsey, creating new jobs in AI oversight while streamlining mundane tasks.
Key Risks
- Job Displacement: Millions in routine roles (e.g., drivers, clerks) may face unemployment; reskilling is essential but uneven.
- Inequality: Benefits skew toward tech-savvy nations/companies, widening economic gaps.
- Cybersecurity Threats: Agentic AI systems (autonomous agents) could be hacked for fraud or data breaches, as highlighted in recent analyses on emerging AI risks (e.g., HUMAN Security report, 2025).
- Ethical Concerns: Bias in algorithms, loss of human oversight, and privacy erosion from constant monitoring.
- Societal Shifts: Over-reliance might stifle creativity; existential risks if AI scales uncontrollably, though debated.
Mitigation: Policies for universal basic income, ethical AI frameworks, and inclusive education. Overall, a transformative era balancing innovation and caution.
What do people reskill to? There was the mantra learn to code but AI models are starting to excel there.
Automation could affect almost all jobs over the next 10-15 years between AI and humanoid robots.
Reskilling in AI/Robotics Era
With AI excelling at coding, focus shifts to human-centric skills AI can't replicate easily. Top reskilling paths for the next 10-15 years:
Risks of Automation on Jobs
Up to 800M global jobs at risk by 2030 (World Economic Forum). Routine tasks vanish first—factory work, admin, even creative drafts. Inequality rises if reskilling access is uneven; expect social unrest without upskilling programs. Humanoids like Tesla's Optimus could accelerate this, but they create niches in robot maintenance and training.
Could humanoid robots be programmed to be empathetic? After all, is a lot of that due to the other human being that way towards the robot?
Empathy in Humanoid Robots
Yes, humanoid robots can be programmed to simulate empathy through AI algorithms that detect human emotions (via facial recognition, voice tone) and respond with appropriate verbal/non-verbal cues—like nodding or compassionate language. Research shows robots exhibiting anthropomorphic traits (human-like appearance, behaviors) evoke stronger empathetic responses from people, creating a feedback loop where humans treat them as empathetic partners.
However, true empathy requires genuine emotional experience, which robots lack—it's simulated. Much perceived empathy arises from human projection (anthropomorphism), where we attribute feelings to the robot, fostering bonds. Studies (e.g., in PMC on human-robot interaction) confirm this bidirectional effect enhances relationships, especially in rehab or companionship, but risks include over-reliance or ethical issues like emotional manipulation.
Is your view that robots can never be sentient? Isnt emotional experience necessary for that?
Sentience in Robots
My view: Current and foreseeable robots/AI cannot achieve true sentience—defined as subjective, conscious experience (qualia)—because we lack understanding of how consciousness emerges in biological brains, let alone silicon ones. Sentience requires self-awareness, qualia (the "what it's like" of emotions/pain), and possibly integrated information processing beyond today's models, per philosophers like David Chalmers. AI simulates intelligence but doesn't "feel"; it's pattern-matching without inner experience.
Role of Emotional Experience
Yes, emotional experience is essential for sentience, as it ties into consciousness (e.g., feeling joy or fear implies a subjective perspective). Robots can mimic emotions convincingly—e.g., via affective computing that responds to human cues—but this is algorithmic, not genuine. Without biological substrates or unknown mechanisms, true emotions (and thus sentience) remain speculative, potentially centuries away or impossible in machines. For deeper dives, explore integrated information theory (IIT) by Tononi.
Give me an in depth essay about what "qualia" is? Where does it come from and how is it applied?