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Archive for the ‘futurism’ category: Page 1194

Jan 13, 2012

Verne, Wells, and the Obvious Future Part 2

Posted by in categories: asteroid/comet impacts, biotech/medical, business, defense, economics, education, engineering, ethics, events, evolution, existential risks, futurism, life extension, lifeboat, media & arts, military, nuclear weapons, philosophy, physics, policy, space

I am taking the advice of a reader of this blog and devoting part 2 to examples of old school and modern movies and the visionary science they portray.

Things to Come 1936 — Event Horizon 1997
Things to Come was a disappointment to Wells and Event Horizon was no less a disappointment to audiences. I found them both very interesting as a showcase for some technology and social challenges.… to come- but a little off the mark in regards to the exact technology and explicit social issues. In the final scene of Things to Come, Raymond Massey asks if mankind will choose the stars. What will we choose? I find this moment very powerful- perhaps the example; the most eloguent expression of the whole genre of science fiction. Event Horizon was a complete counterpoint; a horror movie set in space with a starship modeled after a gothic cathedral. Event Horizon had a rescue crew put in stasis for a high G several month journey to Neptune on a fusion powered spaceship. High accelleration and fusion brings H-bombs to mind, and though not portrayed, this propulsion system is in fact a most probable future. Fusion “engines” are old hat in sci-fi despite the near certainty the only places fusion will ever work as advertised are in a bomb or a star. The Event Horizon, haunted and consigned to hell, used a “gravity drive” to achieve star travel by “folding space.” Interestingly, a recent concept for a black hole powered starship is probably the most accurate forecast of the technology that will be used for interstellar travel in the next century. While ripping a hole in the fabric of space time may be strictly science fantasy, for the next thousand years at least, small singularity propulsion using Hawking radiation to achieve a high fraction of the speed of light is mathematically sound and the most obvious future.

https://spanish.lifeboat.com/blog/2012/09/only-one-star-drive-can-work-so-far

That is, if humanity avoids an outbreak of engineered pathogens or any one of several other threats to our existence in that time frame.

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Jan 11, 2012

5 new African Journals on Technological Innovation

Posted by in category: futurism

GO TO JOURNAL HOMEPAGE HERE

Journal for Innovation, Ethics, & Technology Management

ISSN: 2226-048X

View Journal | Current Issue | Register

Journal for the Advancement of Education

ISSN: 2226-051X

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Jan 10, 2012

Verne, Wells, and the Obvious Future Part 1

Posted by in categories: asteroid/comet impacts, business, education, engineering, ethics, events, existential risks, finance, fun, futurism, media & arts, military, nuclear weapons, philosophy, physics, policy, robotics/AI, space, transparency

Steamships, locomotives, electricity; these marvels of the industrial age sparked the imagination of futurists such as Jules Verne. Perhaps no other writer or work inspired so many to reach the stars as did this Frenchman’s famous tale of space travel. Later developments in microbiology, chemistry, and astronomy would inspire H.G. Wells and the notable science fiction authors of the early 20th century.

The submarine, aircraft, the spaceship, time travel, nuclear weapons, and even stealth technology were all predicted in some form by science fiction writers many decades before they were realized. The writers were not simply making up such wonders from fanciful thought or childrens ryhmes. As science advanced in the mid 19th and early 20th century, the probable future developments this new knowledge would bring about were in some cases quite obvious. Though powered flight seems a recent miracle, it was long expected as hydrogen balloons and parachutes had been around for over a century and steam propulsion went through a long gestation before ships and trains were driven by the new engines. Solid rockets were ancient and even multiple stages to increase altitude had been in use by fireworks makers for a very long time before the space age.

Some predictions were seen to come about in ways far removed yet still connected to their fictional counterparts. The U.S. Navy flagged steam driven Nautilus swam the ocean blue under nuclear power not long before rockets took men to the moon. While Verne predicted an electric submarine, his notional Florida space gun never did take three men into space. However there was a Canadian weapons designer named Gerald Bull who met his end while trying to build such a gun for Saddam Hussien. The insane Invisible Man of Wells took the form of invisible aircraft playing a less than human role in the insane game of mutually assured destruction. And a true time machine was found easily enough in the mathematics of Einstein. Simply going fast enough through space will take a human being millions of years into the future. However, traveling back in time is still as much an impossibillity as the anti-gravity Cavorite from the First Men in the Moon. Wells missed on occasion but was not far off with his story of alien invaders defeated by germs- except we are the aliens invading the natural world’s ecosystem with our genetically modified creations and could very well soon meet our end as a result.

While Verne’s Captain Nemo made war on the death merchants of his world with a submarine ram, our own more modern anti-war device was found in the hydrogen bomb. So destructive an agent that no new world war has been possible since nuclear weapons were stockpiled in the second half of the last century. Neither Verne or Wells imagined the destructive power of a single missile submarine able to incinerate all the major cities of earth. The dozens of such superdreadnoughts even now cruising in the icy darkness of the deep ocean proves that truth is more often stranger than fiction. It may seem the golden age of predictive fiction has passed as exceptions to the laws of physics prove impossible despite advertisments to the contrary. Science fiction has given way to science fantasy and the suspension of disbelief possible in the last century has turned to disappointment and the distractions of whimsical technological fairy tales. “Beam me up” was simply a way to cut production costs for special effects and warp drive the only trick that would make a one hour episode work. Unobtainium and wishalloy, handwavium and technobabble- it has watered down what our future could be into childish wish fulfillment and escapism.

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Jan 4, 2012

Journal for Biological & Health Innovation

Posted by in categories: biological, biotech/medical, business, education, futurism, life extension, philosophy

The Journal for Biological & Health Innovation is accepting papers for peer review now. This journal is specific to Africa and our thoughts, theory, research, practice could have a huge impact on the expeditious development of the rest of the world technologically.

Nov 13, 2011

D’Nile aint just a river in Egypt…

Posted by in categories: business, complex systems, cosmology, economics, education, ethics, existential risks, finance, futurism, geopolitics, human trajectories, humor, life extension, lifeboat, media & arts, neuroscience, open access, open source, philosophy, policy, rants, robotics/AI, space, sustainability

Greetings fellow travelers, please allow me to introduce myself; I’m Mike ‘Cyber Shaman’ Kawitzky, independent film maker and writer from Cape Town, South Africa, one of your media/art contributors/co-conspirators.

It’s a bit daunting posting to such an illustrious board, so let me try to imagine, with you; how to regard the present with nostalgia while looking look forward to the past, knowing that a millisecond away in the future exists thoughts to think; it’s the mode of neural text, reverse causality, non-locality and quantum entanglement, where the traveller is the journey into a world in transition; after 9/11, after the economic meltdown, after the oil spill, after the tsunami, after Fukushima, after 21st Century melancholia upholstered by anti-psychotic drugs help us forget ‘the good old days’; because it’s business as usual for the 1%; the rest continue downhill with no brakes. Can’t wait to see how it all works out.

Please excuse me, my time machine is waiting…
Post cyberpunk and into Transhumanism

Nov 8, 2011

Life expectancy and Fibonacci: Nature has designed us to live indefinitely

Posted by in categories: biological, biotech/medical, complex systems, futurism

After studying tables of current life expectancy (life expectancy increase per decade, in years, based upon United States National Vital Statistics) I found embedded a virtually perfect Fibonacci sequence. A Fibonacci sequence is a series of numbers as follows: 0, 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, 233, …etc, where each number is the sum of the previous two. See here for more details on the Fibonacci sequence: http://www.mathacademy.com/pr/prime/articles/fibonac/index.asp
To my knowledge, this has not been described before. This is important because, based on my ideas regarding Global Brain acting as a catalyst for promoting extreme human lifespans (http://hplusmagazine.com/2011/03/04/indefinite-lifespans-a-n…l-brain/), it may help us predict with some accuracy any dramatic increases in life expectancy. For example, the model predicts that the current maximum lifespan of 110–120 years will be increased to 175 in the next 20–30 years.

In simple terms, the fact that life expectancy increases in a certain manner, and this manner obeys deep-routed and universal natural laws, indicates that it may be possible to:
1. Predict life expectancy in the near future. Based on the Fibonacci sequence,
a 90 year old today, can expect to live another 5 years
a 95 year old can expect to live another 8 years
a 103 year old can expect to live another 13 years, then…
a 116 year old can expect to live another 21 years
a 137 year old would expect to live another 34 years
a 171 year old would expect to live another 55 years
a 236 year old would expect to live another 89 years
a 325 year old can expect to live another 144 years,
and so on.

2. Question the presence of ageing and death in an ever-evolving intellectually sophisticated human (who is a valuable component of the Global Brain). Based on current facts, the Fibonacci sequence with regards to life expectancy ends abruptly when lifespan reaches the limit of approximately 120 years. Why is this so? Why should a naturally extending lifespan deviate from universal natural laws? Life expectancy should continue to increase as an individual manages to survive to a certain age. The presence of ageing and death could therefore be considered unnatural.

3. Support the notion that ‘you need to live long enough to live forever’ (see Kurzweil
http://en.wikipedia.org/wiki/Fantastic_Voyage:_Live_Long_Enough_to_Live_Forever, and also De Grey’s ‘Longevity Escape Velocity’ suggestions http://www.ted.com/index.php/talks/aubrey_de_grey_says_we_can_avoid_aging.html).

Continue reading “Life expectancy and Fibonacci: Nature has designed us to live indefinitely” »

Oct 22, 2011

ISDHuB – Supporting for 100 years

Posted by in categories: futurism, space

ISDHuB — International Space Development Hub — Hangar One/Nasa Ames Research Park

An aspect of support for the 100 year star ship program
A.H.Sinclair 11/11/11

For the formulation of a 100 year star ship prospectus and for a comprehensive and compatible100 year world view which will advance both the sciences of space exploration and the issues of a planetary sustainability we suggest the following discussion as being alternative to the more isolate modes of inquiry:

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Sep 27, 2011

Solution In Search Of A Problem — Nationalism, Environmentalism, and Space’s struggle for cultural relevance.

Posted by in categories: business, futurism, space, sustainability

Space is a hard sell these days. Aside from the persistent small community of die-hard space advocates and New Space entrepreneurs, the relevance of space to the society at large has generally declined since the grand achievements of the Space Race and even such great feats as the building of the ISS have garnered rather modest public attention. In recent years we have had more active astronauts than ever in history, yet few among the general public can name a single one. An appreciation of space science seems to have improved in recent years by virtue of the impressive visuals offered by orbital telescopes, space probes, and rovers. But the general public commitment to space development still dwindles in the face of mounting domestic issues. Most recently we have seen a drastic contraction of national space agencies in response to the current global economic turmoil. Programs are reduced, cut, or under looming threat. We hear pronouncements of deemphasis of costly manned space activity by the major national players in space development. The world leader in space, NASA, now drifts aimlessly, its premier launch system–controversial from the start, often dismissed as a boondoggle, and dragged along for far too long–finally succumbing to obsolescence without a replacement at-hand, leaving the agency dependent upon foreign nations and struggling for a semblance of direction and purpose. In this past few years, finding itself abandoned on both right and left sides of the political fence, it faced the very real possibility of being shut down altogether and now its partner DARPA talks of century-long space programs with no government involvement at all because the very idea of the US government having the coherence to accomplish anything that takes more than one electoral cycle to do has become implausible.

Overconfident to the extreme after recent very significant, yet still modest in the broad perspective, successes, the newest faction of the commercial space community, the New Space entrepreneurs, boast their readiness to pick up the slack, not quite cluing into the fact that the rope isn’t just dropped, it may be cut! Space industry has never been a very big industry despite the seemingly gigantic sticker prices of its hardware. The global space industry accounts for around 160 billion dollars annually. Soft drinks account for 350 billion. Coca Cola is bigger than NASA. Meanwhile, the lion’s share of commercial space service has always been for governments and the remaining largely telecommunications applications –after 50 years still the only proven way to make money in space- face slow decline as latency becomes increasingly critical to mainstream communications. The ‘grand convergence’ long anticipated in computing has now focused on the Internet which is steadily assimilating all forms of mainstream communication and media distribution. Despite a few service providers of last resort, satellites simply don’t work as a host for conventional Internet and physics precludes any solution to that. We owe recent surges in launch service demand more to war than anything else. Ultimately, we’re not looking at a privatization of national space systems. We’re looking at their outright obsolescence and an overall decline in the relevance of space activity of any sort short of science applications, which have no more need of astronauts than for manned submersibles and for the same reasons. The need for space services will not disappear but, as it stands now, has little likelihood of growth either–except on the back of war. Logically, what commercial space desperately needs is a program for the systematic cultivation of new applications the space agencies have never seriously pursued–new ways to make money there, particularly in an industrial context. And what do the mavericks of New Space have on offer in that context? Space tourism for the rich, during a time of global recession…

There is a great misconception today that the challenges of commercial space are merely technological problems waiting to be solved by that one new breakthrough propulsion technology that never materializes. But commercial air travel did not become ubiquitous by virtue of flight technology becoming miraculously cheap and powerful like microprocessors. It became ubiquitous by realizing markets of scale that supported aircraft of enormous size needing very large minimum operation economies of scale, where populations of millions in communities with well-heeled comfortable middle-classes are necessary to generate sufficient traffic to justify the existence of a single airport. A single A380 airliner costs almost as much as the development of a typical unmanned launch system. Air travel was never particularly successful in an industrial sense. Most stuff still moves around the world at the 20mph speed of ships. The New Deal and the remnant air support infrastructure of WWII were together probably more responsible for the modern airline industry than any engine or aircraft design–because they created the market. If it takes a population of millions to justify the existence of a single conventional airport for conventional airliners, what then a Pan-Am Orion?

For those who look to space as an insurance policy for life and the human civilization, this situation should be of much concern. Whether it be for averting the potential disasters of asteroid strikes or as a redoubt for some fraction of civilization in the event of any terrestrial disaster, a vast space-based infrastructure must be continually at-hand for such capability. Yet these kinds of threats do not themselves seem to have ever inspired sufficient concern in the general public or political leaders to demand such capability be established and maintained for its own sake. You cannot talk in public about such space contingencies and be taken remotely seriously. One could say we have been a bit too lucky as a civilization. There have been no small asteroid impacts in historic memory and few global existentially threatening events beyond those we human beings have created –and we’re very good at systematic denial of those. So this contingency capability relies on being incidental to other space development. That development has been inadequate for that to date, counting on future expansion that has never materialized. What then as we watch that development fizzle-out altogether? The essential cultural relevance of space development can be seen as crucial to the long-term survival of our species, and that’s in marked decline.

Continue reading “Solution In Search Of A Problem — Nationalism, Environmentalism, and Space's struggle for cultural relevance.” »

Jun 5, 2011

Our History Shapes the Future

Posted by in categories: counterterrorism, futurism, geopolitics, human trajectories, military, nanotechnology, philosophy, policy, space

Abstract

American history teachers praise the educational value of Billy Joel’s 1980s song ‘We Didn’t Start the Fire’. His song is a homage to the 40 years of historical headlines since his birth in 1949.

Which of Joel’s headlines will be considered the most important a millennium from now?

This column discusses five of the most important, and tries to make the case that three of them will become irrelevant, while one will be remembered for as long as the human race exists (one is uncertain). The five contenders are:

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Feb 17, 2011

The Global Brain and its role in Human Immortality

Posted by in categories: biological, biotech/medical, complex systems, futurism, life extension, neuroscience

It would be helpful to discuss these theoretical concepts because there could be significant practical and existential implications.

The Global Brain (GB) is an emergent world-wide entity of distributed intelligence, facilitated by communication and the meaningful interconnections between millions of humans via technology (such as the internet).

For my purposes I take it to mean the expressive integration of all (or the majority) of human brains through technology and communication, a Metasystem Transition from the human brain to a global (Earth) brain. The GB is truly global not only in geographical terms but also in function.

It has been suggested that the GB has clear analogies with the human brain. For example, the basic unit of the human brain (HB) is the neuron, whereas the basic unit of the GB is the human brain. Whilst the HB is space-restricted within our cranium, the GB is constrained within this planet. The HB contains several regions that have specific functions themselves, but are also connected to the whole (e.g. occipital cortex for vision, temporal cortex for auditory function, thalamus etc.). The GB contains several regions that have specific functions themselves, but are connected to the whole (e.g. search engines, governments, etc.).

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