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The 5 Technologies We Need To Change the World

I just finished reading an interesting hard science fiction book called “The Punch Escrow” by Tal M. Klein (a movie is in the works).

What makes the difference between hard and soft science fiction is that hard science fiction is based on science, while soft is, let’s just say, far more imaginative. To be honest, I enjoy both types, and the soft stuff is a ton easier to write. Those pesky physical rules don’t get in the way, and you don’t have to do research.

The story takes place several decades into the future, and it revolves around the idea of quantum foam and teleportation. It points out why teleportation may never be practical, but it brings up the idea of human 3D printing, which could be used more effectively for space exploration.

However, it also would have a massive number of other uses, both good and bad, which got me thinking about what else could change our future in a massive way. I came up with a list of five potentially world-changing technologies.

I’ll close with my product of the week: a book on management that could have a massive effect on your company’s success, based on the black boxes used in airplanes. It’s called Black Box Thinking.

Technology 1: Organic Printing

We can use 3D printers for plastics, ceramics, metals, and some blends, but our efforts even to print food have been more in line with automated icing machines for cakes than printing food.

If we could print food affordably using nonperishable components, it would mean not only that we would be better able to address the massive amount of global hunger that exists but also that we could potentially cut the cost of food manufacturing and eliminate most food-borne illnesses.

There is an amazing amount of activity in this area, suggesting that by 2030, we actually might have something like the Star Trek replicator in our homes.

Given that this same technology likely could manufacture drugs and better prosthetics, this single step could have a massive impact on how we live — far beyond the way we eat.

Technology 2: Advanced Bio-engineering

A division of Google is releasing millions of bio-engineered mosquitoes to eliminate those that carry sicknesses. Granted, I do remember that many apocalyptic movies start this way.

The ability to manufacture insects that can address certain problems could have a massive impact, good and bad, on our environment. The bad would come from a mistake or if someone decided to create militarized mosquitoes.

In the world of The Punch Escrow, there are mosquitoes that have been engineered to eat pollutants in the air and pee H20 — and characters have to dodge constant pee drenchings from the mosquitoes.

Still, bio-engineered life forms could offset much of the damage we’ve done to the world — addressing global warming as well as land, sea, and air pollution — and go places that people currently are unable to go.

Technology 3: AI Salting

Artificial intelligence salting is another concept author Klein introduces as a major plot element in The Punch Escrow. AI salting isn’t meal preparation, for when we humans eat AIs (boy, talk about a concept that could start a Terminator event), it means a specialized technician teaches an AI to think more like a human.

Basically, it is individual AI deep learning of human behaviors. The underlying concept, making computers think more like humans is critical to make them more effective at interacting with humans and interfacing with us more effectively.

If we really can’t tell the difference between an AI and a human, or if an AI handling a human-related task could be made to be empathetic, the improvement in the interaction and the effectiveness of the AI would be improved vastly.

However, few are focused on the human part, and the challenge to train AIs to be more human-like could change forever the way we interact with and use them. At the very least, it would be a huge step in creating robots indistinguishable from humans and making the Westworld experience real.

Technology 4: Ultracapacitor Batteries

As Elon Musk repeatedly has said, batteries suck. Ultracapacitors can be charged and discharged almost instantly. They don’t have the level of temperature problems that batteries currently exhibit. They are much lighter, which increases efficiency in things like cars, and their life cycle is vastly longer than current batteries.

The problem is they don’t do a good job of storing energy for any length of time. Some recent promising news from the scientific community suggests we may be close to sorting this out.

Batteries that could charge instantly and produce far more energy without problems would be a huge step toward making off-grid home power and electric-powered cars far more convenient.

Technology 5: Wireless Power

Ever since Nikola Tesla started talking about being able to broadcast power, it has been a known game-changer. Granted, Tesla may have gotten his ideas from aliens, but if you don’t need batteries, then electric cars, planes, trains, and personal electronics become smaller and far more reliable.

Qualcomm is working on a technology called “Halo”, initially to charge electric cars without having to plug them in. However, its vision includes putting this technology into roads so that you’d never have to charge your car again — it would charge while you were driving.

Rather than replacing a gas pump with a far slower charging station, you would just get rid of it. While not as good as true broadcast power, technology like this could work in cars, planes, and offices, and we would never have to worry about charging our personal stuff or cars ever again.

A similar technology from WiTricity is being used to develop wireless charging for all our devices and is currently being built into Dell’s laptop charging docks.

Wrapping Up

Put these technologies together, and we’d have our food coming to us anyplace in any form, and at any time we wanted. We’d have bugs making the world a better place to live.

AIs would be our friends — not the problem Elon Musk is envisioning (though I kind of question his idea that government should fix this, given how bad it is at fixing things), or they’d just be much better at “taking care” of us — but not in a good way.

Finally, if we can get better energy storage and distribution, we end up in a far more reliable and less-polluted world, coming damn close to a future Utopia. Though, as The Punch Escrow points out, if we can’t fix ourselves, the result still could be pretty nasty.

Just think of the implications of printing people… As the only sure thing about the future is that it will be very different than the world of today, here’s hoping that is a good thing.

Rob Enderle's Product of the Week

Summer is the time I get caught up on my reading, and after reading The Punch Escrow, I moved to another recommended book that is far more practical. Black Box Thinking is based largely around comparing the healthcare industry to the airline industry and pointing out that airlines have become massively safer over the years. However, hospitals may be the third biggest killer of people, largely because airlines have black boxes.

Black Box Thinking

The reason this hits home for me is that it points to hospitals as places where errors are covered up aggressively to avoid liability. Black boxes, which capture errors but can’t be used in litigation, are used to determine fault — not to assign blame, but to ensure that the mistake never happens again. This one practice has helped transform air travel from one of the least safe ways to travel to one of the safest.

The big takeaway is that if you and your company can focus more on mistakes as learning opportunities and on ensuring that they are one-time events rather than focusing on shooting the poor sap who made the mistake, which is much more typical, you’ll end up not only with a far less hostile working environment but also a far more successful company.

One of my big personal concerns is that we’ll transfer this process of blame and covering up mistakes to our coming wave of ever-more-intelligent machines, which could speed up the related problems to machine speed. I doubt we’d survive that.

So, a book that makes workplace environments better, companies more successful, and humans more likely to survive is worth reading, I think, and it’s my product of the week.

Rob Enderle

Rob Enderle has been an ECT News Network columnist since 2003. His areas of interest include AI, autonomous driving, drones, personal technology, emerging technology, regulation, litigation, M&E, and technology in politics. He has an MBA in human resources, marketing and computer science. He is also a certified management accountant. Enderle currently is president and principal analyst of the Enderle Group, a consultancy that serves the technology industry. He formerly served as a senior research fellow at Giga Information Group and Forrester. Email Rob.

2 Comments

  • Great! Its really fascinating. Btw, about the bio-engineering thing, I read somewhere (gadgtecs.com/2017/07/13/scientists-used-crispr-put-gif-inside-living-organisms-dna/) that now not only can scientists edit DNA to their liking, now they can also store data in DNA! Like LOADS AND LOADS of data! 1 cell could contain many gigabytes! Imagine what this could lead to!

  • Interesting list of top five.

    On Organic Printing: I’m not as concerned about the printing of food as opposed to printing of organs using stem cells. Printing food is more of a convenience.

    On Elon Musk: All of Elon’s ideas start with Federal funding and usually end up costing the tax payer a lot more than is known. I tend to take Elon’s words as thought exercises in how to get the government to pay for his businesses. That is why it is logical Elon thinks AI is dangerous since it’s hard to sell happy to the government for funding.

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