From the possible colonisation of other worlds to clothes that will automatically clean themselves when you step into sunlight, the video below counts 15 technological advances predicted by wise minds for the future of our species within the next 50 years or so, so the video goes out slightly father than the list below does. It’s hard not to notice the irony in the concept of “autonomous robots” with some degree of artificial intelligence. That single technology could propel mankind to heights previously never dreamed of, or it could also turn us into a slave species… or worse… extinct.
Two decades is not a lot in the grand scheme of things, but owing to accelerating change we can expect to see the emergence of some fairly disruptive technological innovations in the coming years. Here are 10 mindblowingly futurist technologies that should appear by the 2030s.
As a futurist, it’s my job to make predictions. But I absolutely hate timelines, and you’ll rarely find me making claims about when some specific sort of technological wizardry will make an appearance. Feasibility interests me more than dates on a calendar.
But the fog is starting to clear on what we can expect to see within the next twenty years. All the technologies I’ve listed below have a better than 50/50 chance of being actualized.
Last month, researchers created an electronic link between the brains of two rats separated by thousands of miles.
Alright, here’s what we should expect by the year 2033:
1. Artificially Intelligent Personal Assistants
I’ve been impatiently waiting for this one for quite some time now. Microsoft got the ball rolling on this concept with Clippy, the office assistant that proved to be more annoying than useful. More recently, Apple developed SIRI for its iPhone, an intelligent assistant that can respond to specific language cues and access the Internet. But this is nothing compared to what’ll be available two decades from now.
Looking ahead, we can expect our personal assistants to fully respond to natural language, including colloquialisms and our personal idiosyncrasies. And owing to ubiquitous computing (which we’ll look at next), our personal assistants will be accessible to us 24/7.
What’s more, these agents will exhibit an uncanny level of general intelligence. We’ll even be able to have conversations with them. They will know everything about us, including our behaviors, our tendencies, our preferences, and our typical ways of responding to certain situations. Accordingly, they’ll be our virtual clones. In essence, they’ll be our proxy selves, representing us on the Internet and in the real world by taking the form of telepresent holographic avatars. They’ll write emails for us, book appointments, perform menial thought tasks, and even anticipate our needs. Of course, we’ll still be responsible for the decisions they make on our behalf — so we’ll need to be careful about the degree of autonomy we give our mind clones.
2. Computers Are Everywhere — But Unseen
As noted, ubiquitous computing — also known as “pervasive computing” and “everyware” — is coming. Already today we have computers in our cars, our phones, our toys, and even our fridges. But they’re still very obvious. We often have to hold them. Or use keyboards to input information into them.
These devices, however, are getting steadily smaller owing to the miniaturization revolution that’s in full swing (e.g. the shift towards microelectromechanical systems, or MEMS). In short order we’ll be living in aRainbow’s End world, where information processing devices will be virtually everywhere, but completely invisible — absorbed into our surroundings. These computers will be in our clothes, our fashion accessories, and even in our contact lenses. And to use them we’ll use natural language and haptic technologies (i.e. tactile feedback). Or better yet, these devices will be endowed with a certain level of “ambient intelligence” to help them perform autonomously under specific conditions.
So by the 2030s we’ll be completely surrounded by computers, but utterly unaware of their presence.
3. Virtual Animals with Digital Minds
Whole brain emulations of human minds are quite a ways off, and likely won’t appear until the second half of the 21st Century. But in the stage leading up to this we’ll be able to emulate the brains of much simpler organisms. Already today there’s the OpenWorm project, an effort to digitize the brain of a nematode worm.
Within the next two decades, we will most certainly be able to emulate the brains of other organisms, like ants and bees. And who knows, by this point we might even be able to start emulating the brains of simple mammals, like mice. But by virtue of doing so, we will have created virtual animals who essentially “live” inside a computer. And someday, perhaps even by the 2030s, these digital brains will be uploaded to robotic avatars.
4. The First Sanctioned Megascale Geoengineering Project
The effects of climate change are getting increasingly hard to ignore, whether they manifest as superstorms, historically low levels of sea ice, rampant wildfires, or record temperatures. Whether we like it or not, we will embark on geoengineering projects in the near future. And indeed, the conversations have already started.
Take, for example, the 25 scientists who recently declared that the time has come to start working on actual geoengineering solutions to reverse the effects of rampant carbon emissions. Their particular solution is cloud whitening — the seeding of marine stratocumulus clouds with copious amounts of tiny sea water particles. They’re pretty much ready to get started, but they’ll need international support to do it legally. Others have even started to do it illegally.
5. An Interplanetary Internet
This one’s fairly straightforward, but no less profound. Someone from Earth will reach Mars by the early 2030s — whether it be private enterprise or a government agency. At least we freakin’ hope so! But regardless of who gets there first, one of the first things they’ll do is set up an Internet connection with Earth. And why not? The explorers — or settlers, if they’re part of theMars One project — will both want and need to access and share information. Oh, and they’ll probably want to purchase something while they’re there when supplies run low.
6. The First True Anti-Aging Intervention
There are a crap-ton of products on the market that claim to be “anti-aging,” but each and every one of them is either cosmetic or a total scam. There is nothing available right now that can either slow down or reverse the effects of aging, not even resveratrol pills or rapamycin.
But this is set to change by the 2030s. Futurists and gerontologists aren't entirely sure what form this intervention could take. It could be a genetic tweak, not unlike the one Cynthia Kenyon performed on roundworms to extend their lifespans by more than half. And indeed, there are efforts currently underway to map the genetic constitutions of supercentenarians to isolate the factors that make them so robust. It might involve therapies to restore the length of our telomeres, or replenish our mitochondria. Or it could draw from any number of experiments currently being conducted on mice.
7. Autonomous Robots with a License to Kill
The rise of autonomous killing machines is a grim and frightening prospect, but it’s virtually guaranteed to happen.
We already have various levels of autonomy in a number of weapons systems, including cruise and patriot missiles. The Aegis Combat System, which is found aboard naval ships, has an autonomous mode in which it uses powerful computers and radars to track and guide weapons to destroy enemy targets. There’s also Samsung Techwin's remote-operated sentry bot — which is currently deployed in the Korean DMZ. And the U.S. packbot/REDOWL system could be easily modified to take out snipers on its own.
8. Our Very Own Lab-Grown Organs (and Meat)
We are in the midst of the biotechnology revolution, the benefits of which are finally starting to appear. Personalized medicine will emerge in the coming decades, where physicians will be able to prescribe medicines tailored specifically to our genetic constitutions. Biologists are also exceedingly close to being able to generate differentiated tissue from our very own stem cells. This will eventually allow us to grow our very own organs, including the heart — no donors needed, and with virtually no chance of rejection.
How do you make a working human heart? Scientists can turn stem cells into beating heart cells, but getting them to organize into a 3D heart requires a scaffold.
At the Massachusetts General Hospital in Boston, Harald Ott and his team are reusing the scaffold that nature provides. They're stripping away all the living cells from dead hearts, before filling in the leftover matrix with healthy new cells.
In this video, Brendan Maher finds out how the technique could be used to develop parts of the heart, like the aortic root and valve, for transplant.
l Fabricators in Every Home
Okay, maybe not every home — but it’s certainly poised to be the kind of thing that may be as ubiquitous as DVD players and traditional 2D printers are today. And there’s very little doubt that 3D printers are poised to be as disruptive as the techno-cognoscenti are predicting.
Indeed, the ability to produce our own products in our very own homes will upset traditional models of manufacturing. At first, we’ll have to pay for these items to download the specs. But eventually, owing to the open source movement, many of these items will be shared and available for free.
10. The Oceans Will Quench the World’s Thirst
Industrial-scale desalination is poised to make an appearance by the 2030s. Owing to advancements in solar power, namely the development of affordable and scalable photovoltaic cells, we will be able to build massive concentrated solar power plants (CSPs) that utilize the residual heat to strip ocean water of its salt. Experts predict that the growing freshwater deficits could be increasingly covered starting in the 2020s, and possibly as late as the 2030s. The spread of CSP desalination plants will likely reduce non-sustainable water supply and inspire the development of most of potable water production by the year 2030 and afterwards.
This article originally appeared at io9.
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