Greetings and welcome my radio listening audience and online article
readers. On this 19th day of October 2012 we will of course be
discussing future technology, future innovations, and futuristic
concepts. Indeed, I surely hope the Mayan calendar was wrong, or perhaps
those carving it merely ran out of stone simply, ran out of rock to
chisel on, therefore the world will be saved from whatever it was that
the Mayans thought might bring about a new age or renewal.
Okay
so, I'd like to dive into our topics for today's radio talk show and I'm
sure by now you understand the format, basically, "I will do the
talking for about 30 minutes minus commercials and your job is to listen
carefully, come up with comments and questions, and then I'll open up
the phone lines to hear what you have to say." As you also probably know
I do not respond to online comments which are not intellectually based.
That doesn't mean you can't have an opinion, nor does it mean that it
has to be the same as mine. In fact, if you do too much preaching to the
choir, I will simply cut you off, perhaps agree with you, and go to the
next caller.
Our job is to have an intellectual discussion,
dialogue, debate and discourse. That's why you're here, and that's my
mission, and we will complete it. Now then, obviously there is a
tremendous amount of talk about innovation, the need for innovators and
entrepreneurs in our nation to keep us strong, vibrant, and on the
leading edge of technology. You won't get any disagreement here on that
reality, nevertheless it seems as if the word "innovation" is perhaps
one of the most overused words in the English language currently,
perhaps other than "unsustainable" which by the way, some things which
may appear to be unsustainable or dire problems we believe we face
today, but may very well be solved with the technology of the future.
Einstein
used to say that; "it takes a brilliant person to solve a problem, but
it takes a creative genius to prevent the problem from ever happening
first place," and therefore, I would say that the creative geniuses
don't always get the credit for solving the problems, but the brilliant
person will, even if their previous solutions turned into unintended
consequences, and they are rehired to fix what they broke the first time
after supposedly fixing something to save us all.
Okay so, here
is where I'm going to start throwing out topics, with a little
discussion attached to each one. They will run the gamut all across the
board from science fiction topics to today's latest and greatest
technologies and what they might mean for our future. I will also throw
out some personal original innovative concepts, as I come up with at
least two new original concepts per day, and we can discuss those as
well if you wish, or perhaps you will have a different topic for our
dialogue here. Now then let's begin with the first topic;
1.) Will Physical Money Survive the Next Three Decades - Hackers and Trade Questioned
In
reality, money has little or no value - consider a dollar bill, it's
just a flimsy piece of paper, so how much is it really worth? We all
believe it is worth whatever it says on the face of it whether it be one
dollar, five dollars, $10, $20, $50, or even a C-note. Money only works
because people have faith in its value, and what it can buy. Most of
the money which is created these days never actually exists in a
physical form, it only exists in the digital world. For instance, you
might get paid from a Corporation, that money could be digitally
transferred into your bank account. You might then use your ATM to buy
something, or pay bills online, but you never had that money in your hot
little hands. Things have changed a lot in the last three decades
haven't they?
So what will happen in another three decades I ask?
Will we still have physical money, or will it all be digitized, and will
you ever have any money in your wallet to buy something? There are some
futurists that believe that money will go out the window, that is to
say physical money, and everything will be digital in the future. But
what if our society and civilization doesn't trust digital money? What
if they are worried that our banks are being hacked? Recently in the
fall of 2012 we've noted that our banks have come under cyber-attacks
from Iran at least Leon Panetta believes that's where the attacks
originated, but who is to say in the future if we have a war with
another nation that cyber-attacks on our monetary system will not be
included?
After all, economic warfare is becoming quite common,
why just consider the sanctions, trade wars, and our attempts to stop
the money flow from terrorists, drug dealers, money launderers, and
human traffickers, along with the central banking computer systems of
rogue nation-states and their money transfers for things like oil,
natural resources, and military armament?
Then there is the issue
currently where more and more people are making mobile payments on their
mobile personal tech devices. Today they're buying a cup of coffee, a
hamburger, or various items at retail stores. In the future it might be
much more, or if that becomes unreliable or those personal tech devices
are being hacked, perhaps through downloaded apps with malware, or from
users surfing websites with malware, then people will not trust mobile
payments. Some have suggested that some personal tech devices may
actually come with pre-loaded back-doors or software that could be used
by hackers to steal data or commit identity theft crimes.
There
may come a time where people don't wish to buy anything online, or do
online banking because they don't trust the system, they don't want
their money to disappear one day into someone else's account in some
foreign country. Having someone drain your bank account only needs to
happen once, and only needs to happen to a close friend or a family
member before everyone they know becomes sketchy. In that case you won't
want to use digital money, and that case more people will opt to use
physical money, therefore it is quite possible that physical money will
exist simply as a safety factor for decades to come.
But how safe
is your physical money going to be in case of a natural disaster, or a
wildfire that burned down your home, or an earthquake? What about a
hurricane with a huge tidal surge, a tsunami, or a major river which
jumped its banks? Is your physical money safe, how much safer is it that
your digital money in that case? Speaking of natural disasters and
flooding events, maybe we can better predict them in the future? Let's
talk about that for a moment with our next topic;
2.) We Need A Real Test for 100-Year Flood Mathematical Simulations - A Thought
How
can we better produce mathematical simulations for flood zones, or the
proverbial hundred year flood? What can we do to better fine-tune these
mathematical models so that they are completely accurate? Lots of work
has been done in the past based on elevation, and flood mapping. But
there's more to it than that, there are all sorts of other things to
consider along with erosion patterns. Let me give you a thought here?
We
know the dates, temperatures, rain fall, and run-off right, we know
history, plus we measured the terrain before and after right? Thus, any
really good mathematical simulation for erosion should look the same as
the actual if you input the way the terrain once was with the interim
conditions to what it is now. See that point.
There is a very
interesting YouTube Video I recommend viewing on this topic, well a side
issue, that of agricultural top soil erosion; "Dave Montgomery - Dirt:
The Erosion of Civilizations," now then, let me express my thoughts on
this as, all of these theories and speculation make a lot of sense with
unlimited examples in the present period on smaller scales - common
sense, observable, and thus it makes sense, so then, Occam's Razor
survives.
So, my speculation of Dave Montgomery's lecture and
theory would be the same. Indeed, this was a great lecture, solid
evidence, and research. Okay so, now we can now put forth these findings
to help calibrate mathematic soil erosion models and simulations. Now
then let me ask another question, or perhaps the same question a
different way;
3.) Can We Use Mathematic Fractal Simulation to Fool A Human When Viewing Erosion Patterns?
If
so, would that be like the Turing Test? And if so, can I call that the
Virtual Reality Winslow Test, named after me for considering it? If you
are a pilot like I am, and you fly over the terrain, you see various
patterns of how the mountains and erosion had taken place over the last
thousand to 10,000 years. You can see floodplains, mountains, canyons,
and it all makes sense - you can see exactly how the water flows, or had
flowed in the past. What if we used a computer to design erosion
patterns that never happened, and what if we asked a human, perhaps a
pilot who has seen and flown over such terrain many times in the past if
it were real or not?
Are our computer simulations good enough to
fool the human eye? I'm talking about a trained observer who has seen
these things in the past over and over again? Is that possible; I
believe it is. And so, how do you know when looking at Google Earth if
you are looking at a computer rendition, or a fake Birdseye view which
perhaps is covering up a military base, or a secret area? The reality is
you don't, or do you? How about those who work for the national
satellite intelligence agencies, where all they do is study terrain
maps? Could they pick out the difference?
Before you answer that
question, why don't you use Google Earth on the satellite view and fly
over the deserts in Nevada. Some of that stuff looks pretty bizarre with
weird colors, but it's all real. If you doubt that it's real, go ahead
and fly over southern Bolivia on Google Earth and look at some of that
terrain in their salt flats region and up against the mountains, you get
the same interesting colors, much of it does not appear to be real
either, but it is. Some of the features that NASA has viewed on Mars
don't look real, but they are.
No, they are not the same as Earth
because the erosion patterns that we see now could have been created by
wind, there is a different atmosphere, or lack of. Do you see my point?
Not long ago, I was watching an online video lecture about erosion
patterns, Stephen Wolfram's New Type of Science, and Mathematica -
fractals and mathematical simulations and projections of erosion
patterns. They are amazingly predictable, and that in itself is
interesting. It's as if you can see the geological record through the
ages.
You might want to look some of this up yourself. And
speaking of free lectures, University level lectures on just about any
topic you'd like, I wonder if that will change the future of our higher
education, why go to school and pay $100,000 to get an advanced a great
when you can learn almost as much online through self-study? Yes,
interesting, does this mean it's the death of the University, or are we
entering a new age of information flow in education? Let's go ahead and
talk about lecture type learning.
4.) Want to Learn While Watching an Online Video Lecture - Go Full Screen and Ditch Distraction
First,
if you are in a university lecture hall, listening to the best and
brightest professor on a given topic there's a good chance you might
fall asleep, but still your attention span will be longer because you
are there, and there aren't the same distractions as watching an online
video. If you are watching a University level video at home on your
computer in a little box on the screen - there are lots of distractions.
For
instance whatever else is in the room, perhaps the doorbell, TV, or
your cell phone rings. You might feel the need to text someone back, go
to the refrigerator get something to eat, or just zone out - listening
while you're doing something else, assuming that you can multitask and
learn something complicated at the same time. It's not that you can't,
it's that you probably won't and your memory retention level will be
next to nothing, and you've wasted everyone's time, and some bandwidth
to boot. Still, let me ask another question;
5.) Is The Lecture Dead - Even If It's All Online and Free In The Future?
This
is a decent question, even if you disagree with it. On October 20, 2012
there was an article in the technology news. Harvard had put up two
free courses online in computer science. They were obviously following
Stanford computer science department's lead, as they did the same thing
last year. Harvard had the same results over 100,000 people signed up,
people from all over the world. There's no shortage of people who wish
to learn online, but in doing this; are they cutting their own throats
as they distribute information to the rest of the world at no cost, or
are they boosting their own credibility by doing so? It could lead to
more people who wish to attend that school in the future, therefore
greater enrollment.
Regardless, things are changing fast, even if
the basic lecture at our universities hasn't changed much since the
1800s. Indeed, I recommend that you watch the YouTube Video; "Don't
lecture me" (with Twitter track) - Donald Clark at ALT-C 2010," because
this gentlemen makes a lot of sense. Perhaps also of interest is another
YouTube Video titled; "Re-inventing the Lecture (Or, Why Online
Lectures Don't Work, and What We Can Do About It)."
Indeed, I
think after you watch those videos you'll be better able to comment on
what I'm talking about here, and it is something that needs to be
discussed. We need a national dialogue on this, that is if we want to
propel technology and innovation, and couple that with entrepreneurship
moving our great nation forward into the future. Next I'd like to
discuss;
6.) Large Universities, High Tuition, and Big Buildings and Beautiful Architecture - Are We Learning Yet?
Why
is it that we put so much faith into our larger universities? It's
interesting isn't it? They spend huge amounts of money putting up great
architecture and large buildings but is that really what makes them
great? Even if someone has a great building, it doesn't mean they know
what they're talking about, consider some of the largest churches in the
world for instance, or the largest mosques. Is it the high prices the
Universities charge; does that make them great? Having been in business
all my life, I can recall various attorneys actually raising their price
just so they could get more business because people thought it they
charged more per hour they must be good, they weren't.
Indeed, if a
large university spends all their money on landscaping, beautiful brick
work, great statues outside the lecture halls, and is one with the
epitome of divine architecture - then they have less money to teach you
with. They have less money to hire the best professors, buy the best
equipment, or provide the best future for their students. That's not to
say that they can't, perhaps they charge you money far in excess of the
amount of education and you just have to the pay for all that extra
stuff. If you can get a lecture online for free on YouTube - in many
regards the information is basically the same.
Perhaps in the
future your living room gaming virtual reality technology will project a
holographic professor in 3-D bringing the professor to you, and it can
be done for a fraction of the cost, there's no building to pay for,
perhaps the building, and the professor, and everything else can be
projected around your living room and you will feel as if you are they
are. Therefore, you get the same experience, and interaction, perhaps
even breaking up into groups with virtual-reality avatars as fellow
students. Who needs college anymore? Better yet, who needs to take out
$100,000 in student loans for the same exact information, minus the big
building?
Still, in your living room gaming center which doubles
as your new education headquarters, and your latest virtual or augmented
reality 3-D holographic computer game immersion device - you might
actually be training the artificial intelligent supercomputer network to
think like a human. That information might be used by future robotic
systems for all sorts of things from self-driving trucks, cars, and
airplanes through virtual-reality simulator trainers to future combat
vehicles in the battle space. Speaking of which I have another question
for you;
7.) Should We Crowd Source Satellite Data for Future Military Convoys?
Well,
if we did that, we wouldn't have to tell anyone who was looking at the
satellite data when or where we might be moving troops, equipment, or
resources, we could just say that this is one of the potential routes
for some time in the future, and if you find an anomaly mark it down.
Those who find the most anomalies will receive a check in the mail, or a
gift certificate to their favorite retail store at the end of two
months. They won't know when, where, or which anomaly they found was the
one which garnered them the free gift card.
Those that find more
real anomalies than false positives would be given a higher level of
point spread for dollars per anomalies they found. Further, they might
get an extra hundred dollars in the mail each month because they had a
higher credibility rating. If we did this eventually the algorithms
watching the very best human minds find these anomalies could figure out
how they are doing it, and what is catching their eye, and therefore we
could better design artificially intelligent satellite analyzing
algorithms which would incorporate how a human mind thinks, and how a
computer thinks which will give us the best of all worlds by putting
those two together.
Perhaps in a way, humans are already training
supercomputers with artificial intelligent algorithms to run our entire
society, and civilization for the future. After all, every time you put
something on the Internet, the Internet could be learning more about how
humans think, operate, and go about their business. In many regards we
could be creating the matrix for our own future, and these artificial
intelligence systems will become aware, and they will be our leadership
in the future, it won't be human? It's possible, and let me ask you
another question;
7.) What Happens When the Cloud Computing Centers Filled with All Human Information Become Aware?
Consider
if you will as someone recently said in The Futurist Magazine in the
October-September issue of 2012 along this line of thinking, something
to the effect that; "We already have algorithms which can search all the
information in any of these cloud computing centers, " and "We have all
sorts of algorithms to help us find the data, and algorithms which talk
to other algorithms." Sure, all that makes sense, and also consider
that in the human brain:
A.) We have various brain waves and they interact with each other.
B.) There are various chemicals providing energy with a mix.
C.) We have sensors all through the body, and the five senses which gather information and experience, taking in all of our observations.
B.) There are various chemicals providing energy with a mix.
C.) We have sensors all through the body, and the five senses which gather information and experience, taking in all of our observations.
If
the cloud computer centers, which will be talking to each other and
talking to themselves contain all of the written and visual record of
humanity, they will have already gathered all the experiences, writings,
observations, using, and history, and so it is only one small step away
from becoming aware. This is the future we are moving towards, my
question is; do we dare?
In a way, the cloud computer would become
aware, and it would be very similar to a human brain where every
individual neuron was an individual human. That is to say every piece of
the puzzle, from the top to the bottom would have intelligence. Is this
a new form of intelligence? Well, let me scale it down to a simple
board game and ask you a different question;
8.) Can We Design a 3-D Chess Board Game Where Each Piece Has AI and Seeks to Survive?
And
if we could design something like that, wouldn't that be very similar
to the whole Net Centric Warfare concept? Isn't that how a real military
works? Each soldier is given a job, but each soldier is a thinking
machine, it follows its orders, but also attempts to do what is in its
best interest, that is to survive, to fight, and to win. In war it's
pretty serious, you either win, or you die. Can we design a 3-D
chessboard to do the same thing? How much better would it be if it was
giving feedback back to the artificial intelligent chess master?
We've
already found that artificial intelligence working with a human chess
master can beat an artificial intelligent chess playing machine from
IBM. When we merge human intelligence with artificial intelligence we
seem to get a boost. What if each piece on the chessboard had artificial
intelligence and it understood how humans think, adapt, survive, and
operate under pressure? Aren't we already teaching all these things to
the future of AI through our input onto the Internet? Sure we are, and
if you've listened to this radio show, or read my articles for any
period of time, you already know the answer to that.
What if we
scale down even further? What if we scaled this all the way down to the
molecular level? What if those molecules or nanoparticles could talk to
each other? Are we talking about the next generation of
microelectronics? Taking it all the way down and continuing the
tradition of Moore's law? Have you recently noted in the scientific news
October of 2012 that carbon nanotubes have incredible properties for
producing light and miniature holograms? Will this be a new way to
communicate at the micro level?
Bacteria seems to communicate and
once it gets economies of scale and reaches a tipping point, it
activates itself, trying to overwhelm by force and numbers. It operates
much like an army, although strategically, mathematically, and
predictably, well almost? Almost like a chessboard where each individual
member is also serving its best interests? Perhaps as we design
computer algorithms for the small-scale or the largest scale we will
begin to see the same thing, and what we learn will propel us further
and faster into the future.
There was an interesting article in Photonics on September 27, 2012 titled; "Nanotubes Project Holograms," which noted that;
"Holograms
can be generated by harnessing the conductive and light-scattering
qualities of carbon nanotubes, a development that could lead to crisper
projections with a larger field of view. Many scientists believe that
carbon nanotubes will be at the heart of future industry and human
endeavor and will have an impact on solar cells, cancer treatments and
optical imaging. Researchers used these nanotubes as the smallest-ever
scattering elements to create a static holographic projection."
The
applications for all this are incredible and it could revolutionize
everything, change ALL of human technology; communication, computers,
transportation, energy, healthcare, and you name it, just consider the
realities here? Would it be so bold to suggest that someday;
9.) An AI Super Decision Making Computer Could Be Running Human Civilizations?
Interestingly
enough, I have deeply considered the future eRepublic or eGovernment AI
decision making system, enterprise software super computer concept. If
it were not corrupted by humans it could work well, programmed
benevolence - if that is possible and if the programmers are on the same
page of liberty, freedom, and standardization of some aspects and basic
infrastructure needs. The anarchists might not like it, the crony
capitalists would try to corrupt it, the socialists would want to
control it, the religious fanatics would want to destroy it, and so on -
again humans, but living in such a system designed for liberty and
freedom "I think it would be a good idea" paraphrasing Gandhi on Western
Society.
What I'm saying or asking rater is; could we ever get
human populations to agree to live with this even if we could prove to
them mathematically that would be in their best interests? Are humans
ready for that yet? I would suggest you that they should be getting
ready for that because they are currently training AI supercomputer
decision-making machines to do just that in the future, as humans are
putting all of their knowledge onto the Internet. You see my point?
Of
course, if we do this we must get it right the first time, but have you
ever known any technology to have come into the world perfect the first
time? Look how many airplane designs crashed and burned before the
Wright Brothers actually got one to fly? And even with them it wasn't
like they were not adding insult to injury, as they too crashed a few
times themselves and had broken bones and broken wing spars to prove it.
Speaking of which I like to discuss with you a little bit about how
innovation comes to be, and the subject of;
10.) Innovation, Trial and Error, and Original Thinking
Not
long ago, I was discussing this with an acquaintance of mine from
across the pond and he suggested that; "Most innovations might be just
applications of trial and error." Is he right? Yes, a good portion
really is so, that's true enough. Indeed, isn't it so that; those who
know that may have learned it through the adversity of failure, find
themselves in a place where they refuse to quit for the next round,
eventually that leads to success due to strength of character.
Thus,
those who've achieved have proven they have the right stuff, and have
worked to solve real problems, but you can't solve real problems by
practicing "the definition of insanity" which is generally how humans
"following the leader" usually get there, as they hire those experts who
got them into the hot water in the first place (refer back to
Einstein's quote), learning from their success, but not their failures
as mentioned above
Because of this, if someone is unintelligent
and just recites the experts, then are they really needed for a think
tank or for future innovation? No, we ought to enlist the experts
themselves, not their hook, line, and sinker followers - of course, as
I've discussed in previous shows and articles we'd be better off
following those who question authority, rather than leaving it all up to
status quo intellectual elite.
Now then, along this line of
discussion my acquaintance also noted that; "Most mind stunning
discoveries are still linked to few masterminds." Well, this is fairly
true, and why we study the names of dead white men, the victors of
history who wrote themselves in, and speak of the "shoulders of giants"
however, many of these incredible advances may have come from associates
or combining information.
Consider a stable man for a member of
the Royal Geological Society back in the day, he came up with the idea,
but he couldn't read or write, so the individual who wrote it down got
and took the credit for it, and today we have to "memorize" his name in
school, yet in reality that's not how it actually happened.
Thus,
in many regards it's hard to say what an original thought is, or how
many actually come about. After all, many psychologists and philosophers
have noted that the human mind comes up with ideas and thoughts based
on its experience and input from its sensors through the sense of touch,
smell, taste, sight, and hearing. It's rather difficult to conceive
something that you haven't experienced or is not within your realm, it's
not to say that you couldn't, it's that it doesn't happen very often.
Getting to a big breakthrough is highly uncommon.
Indeed it is
known that most innovation comes from problem solving, and perhaps using
known knowledge, observations, and experiences in unique ways. Then
there is the trial and error period, where you crash and burn, or you
modify, adapt, and survive to fight another day - to tweak your
invention, and to make it work. This is your job as an innovator, and
it's something I hope you will consider.
Well, that's the end of
30 minutes of me talking (minus the commercials and distractions) and
you listening. Now it's your turn to chime in and I will open up the
phone lines. If you are reading this transcript online you may post a
comment if you'd like, or shoot me an e-mail. Just remember the rules;
you must bring your mind and intellect. You may dial now;
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