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How hard is to assess which risks to mitigate? It turns out to be pretty hard.

Let’s start with a model of risk so simplified as to be completely unrealistic, yet will still retain a key feature. Suppose that we managed to translate every risk into some single normalized unit of “cost of expected harm”. Let us also suppose that we could bring together all of the payments that could be made to avoid risks. A mitigation policy given these simplifications must be pretty easy: just buy each of the “biggest for your dollar” risks.

Not so fast.

The problem with this is that many risk mitigation measures are discrete. Either you buy the air filter or you don’t. Either your town filters its water a certain way or it doesn’t. Either we have the infrastructure to divert the asteroid or we don’t. When risk mitigation measures become discrete, then allocating the costs becomes trickier. Given a budget of 80 “harms” to reduce, and risks of 50, 40, and 35, then buying the 50 leaves 15 “harms” that you were willing to pay to avoid left on the table.

Alright, so how hard can this be to sort this out? After all, just because going big isn’t always the best for your budget, doesn’t mean it isn’t easy to figure out. Unfortunately, this problem is also known as the “0−1 knapsack problem”, which computer scientists know to be NP-complete. This means that there isn’t any known process to find exact solutions that are polynomial in the size of the input, thus requiring looking through a good portion of the potential solution combinations, taking an exponential amount of time.

What does this tell us? First of all, it means that it isn’t appropriate to expect all individuals, organizations, or governments to make accurate comparative risk assessments for themselves, but neither should we discount the work that they have done. Accurate risk comparisons are hard won and many time-honed cautions are embedded in our insurance policies and laws.

However, as a result of this difficulty, we should expect that certain short-cuts are made, particularly cognitive short-cuts: sharp losses are felt more sharply, and have more clearly identifiable culprits, than slow shifts that erode our capacities. We therefore expect our laws and insurance policies to be biased towards sudden unusual losses, such as car accidents and burglaries, as opposed to a gradual increase in surrounding pollutants or a gradual decrease in salary as a profession becomes obsolete. Rare events may also not be included through processes of legal and financial adaptation. We should also expect them to pay more attention to issues we have no “control” over, even if the activities we do control are actually more dangerous. We should therefore be particularly careful of extreme risks that move slowly and depend upon our own activities, as we are naturally biased to ignore them compared to more flashy and sudden events. For this reason, models, games, and simulations are very important tools for risk policy. For one thing, they make these shifts perceivable by compressing them. Further, as they can move longer-term events into the short-term view of our emotional responses. However, these tools are only as good as the information they include, so we also need design methodologies that aim to broadly discover information to help avoid these biases.

The discrete, “all or nothing” character of some mitigation measures has another implication. It also tells us that we wouldn’t be able to make implicit assessments of how much individuals of different income levels value their lives by the amount they are willing to pay to avoid risks. Suppose that we have some number of relatively rare risks, each having a prevention stage, in which the risks have not manifested in any way, and a treatment stage, in which they have started to manifest. Even if the expected value favors prevention over treatment in all cases, if one cannot pay for all such prevention, then the best course in some cases is to pay for very few of them, leaving a pool of available resources to treat what does manifest, which we do not know ahead of time.

The implication for existential and other extreme risks is we should be very careful to clearly articulate what the warning signs for each of them are, for when it is appropriate to shift from acts of prevention to acts of treatment. In particular, we should sharply proceed with mitigating the cases where the best available theories suggest there will be no further warning signs. With existential risks, the boundary between remaining flexible and needing to commit requires sharply different responses, but with unknown tipping points, the location of the boundary is fuzzy. As a lack of knowledge knows no prevention and will always manifest, only treatment is feasible, so acting sharply to build our theories is vital.

We can draw another conclusion by expanding on how the model given at the beginning is unrealistic. There is no such thing as a completely normalized harm, as there are tradeoffs between irreconcilable criteria, the evaluation of which changes with experience across and within individuals. Even temporarily limiting an analysis to standard physical criteria (say lives), rare events pose a problem for actuarial assessment, with few occurrences giving poor bounds on likelihood. Existential risks provide no direct frequencies, nor opportunity for an update in Bayesian belief, so we are left to an inductive assessment of the risk’s potential pathways.

However, there is also no single pool for mitigation measures. People will form and dissolve different pools of resources for different purposes as they are persuaded and dissuaded. Therefore, those who take it upon themselves to investigate the theory leading to rare and one-pass harms, for whatever reason, provide a mitigation effort we might not rationally take for ourselves. It is my particular bias to think that information systems for aggregating these efforts and interrogating these findings, and methods for asking about further phenomena still, are worth the expenditure, and thus the loss in overall flexibility. This combination of our biases leads to a randomized strategy for investigating unknown risks.

In my view, the Lifeboat Foundation works from a similar strategy as an umbrella organization: one doesn’t have to yet agree that any particular risk, mitigation approach, or desired future is the one right thing to pursue, which of course can’t be known. It is merely the bet that pooling those pursuits will serve us. I have some hope this pooling will lead to efforts inductively combining the assessments of disparate risks and potential mitigation approaches.

High energy experiments like the LHC at the nuclear research centre CERN are extreme energy consumers (needing the power of a nuclear plant). Their construction is extremely costly (presently 7 Billion Euros) and practical benefits are not in sight. The experiments eventually pose existential risks and these risks have not been properly investigated.

It is not the first time that CERN announces record energies and news around April 1 – apparently hoping that some critique and concerns about the risks could be misinterpreted as an April joke. Additionally CERN regularly starts up the LHC at Easter celebrations and just before week ends, when news offices are empty and people prefer to have peaceful days with their friends and families.

CERN has just announced new records in collision energies at the LHC. And instead of conducting a neutral risk assessment, the nuclear research centre plans costly upgrades of its Big Bang machine. Facing an LHC upgrade in 2013 for up to CHF 1 Billion and the perspective of a Mega-LHC in 2022: How long will it take until risk researchers are finally integrated in a neutral safety assessment?

There are countless evidences for the necessity of an external and multidisciplinary safety assessment of the LHC. According to a pre-study in risk research, CERN fits less than a fifth of the criteria for a modern risk assessment (see the press release below). It is not acceptable that the clueless member states point at the operator CERN itself, while this regards its self-set security measures as sufficient, in spite of critique from risk researchers, continuous debates and the publication of further papers pointing at concrete dangers and even existential risks (black holes, strangelets) eventually arising from the experiments sooner or later. Presently science has to admit that the risk is disputed and basically unknown.

It will not be possible to keep up this ostrich policy much longer. Especially facing the planned upgrades of the LHC, CERN will be confronted with increasing critique from scientific and civil side that the most powerful particle collider has yet not been challenged in a neutral and multidisciplinary safety assessment. CERN has yet not answered to pragmatic proposals for such a process that also should constructively involve critics and CERN. Also further legal steps from different sides are possible.

The member states that are financing the CERN budget, the UN or private funds are addressed to provide resources to finally initiate a neutral and multidisciplinary risk assessment.

German version of this article published in Oekonews: http://www.oekonews.at/index.php?mdoc_id=1069458

Related LHC-Critique press release and open letter to CERN:

https://lifeboat.com/blog/2012/02/lhc-critique-press-release-feb-13-2012-cern-plans-mega-particle-collider-communication-to-cern-for-a-neutral-and-multi-disciplinary-risk-assessment-before-any-lhc-upgrade

Typical physicist’s April joke on stable black holes at the LHC (April 1 2012, German): http://www.scienceblogs.de/hier-wohnen-drachen/2012/04/stabiles-minischwarzes-loch-aus-higgsteilchen-erzeugt.php

Latest publications of studies demonstrating risks arising from the LHC experiment:

Prof Otto E. Rössler: http://www.academicjournals.org/AJMCSR/PDF/pdf2012/Feb/9%20Feb/Rossler.pdf

Thomas Kerwick B.Tech. M.Eng. Ph.D.: http://www.vixra.org/abs/1203.0055

Brief summary of the basic problem by LHC-Kritik (still valid since Sep. 2008): http://lhc-concern.info/wp-content/uploads/2008/12/lhc-kritik-cern-1st-statement-summary-908.pdf

Detailed summary of the scientific LHC risk discussion by LHC-Kritik and ConCERNed International: http://lhc-concern.info/wp-content/uploads/2010/03/critical-revision-of-lhc-risks_concerned-int.pdf

We wish you happy Easter and hope for your support of our pragmatic proposals to urgently increase safety in these new fields of nuclear physics.

LHC Critique / LHC Kritik — Network for Safety at nuclear and sub-nuclear high energy Experiments.

www.LHC-concern.info

[email protected]

Tel.: +43 650 629 627 5

New Facebook group: http://www.facebook.com/groups/LHC.Critique/

Twenty years ago, way back in the primordial soup of the early Network in an out of the way electromagnetic watering hole called USENET, this correspondent entered the previous millennium’s virtual nexus of survival-of-the-weirdest via an accelerated learning process calculated to evolve a cybernetic avatar from the Corpus Digitalis. Now, as columnist, sci-fi writer and independent filmmaker, [Cognition Factor — 2009], with Terence Mckenna, I have filmed rocket launches and solar eclipses for South African Astronomical Observatories, and produced educational programs for South African Large Telescope (SALT). Latest efforts include videography for the International Astronautical Congress in Cape Town October 2011, and a completed, soon-to-be-released, autobiography draft-titled “Journey to Everywhere”.

Cognition Factor attempts to be the world’s first ‘smart movie’, digitally orchestrated for the fusion of Left and Right Cerebral Hemispheres in order to decode civilization into an articulate verbal and visual language structured from sequential logical hypothesis based upon the following ‘Big Five’ questions,

1.) Evolution Or Extinction?
2.) What Is Consciousness?
3.) Is God A Myth?
4.) Fusion Of Science & Spirit?
5.) What Happens When You Die?

Even if you believe that imagination is more important than knowledge, you’ll need a full deck to solve the ‘Arab Spring’ epidemic, which may be a logical step in the ‘Global Equalisation Process as more and more of our Planet’s Alumni fling their hats in the air and emit primal screams approximating;
“we don’t need to accumulate (so much) wealth anymore”, in a language comprising of ‘post Einsteinian’ mathematics…

Good luck to you if you do…

Schwann Cybershaman

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://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.

Hand in hand with any practical method of journeys to other star systems in the concept of the “sleeper ship.” Not only as inevitable as the submarine or powered flight was in the past, the idea of putting human beings in cold storage would bring tremendous changes to society. Suspended animation using a cryopreservation procedure is by far the most radical and important global event possible, and perhpas probable, in the near future. The ramifications of a revivable whole body cryopreservation procedure are truly incredible. Cryopreservation would be the most important event in the history of mankind. Future generations would certainly mark it as the beginning of “modern” civilization. Though not taken seriously anymore than the possiblility of personal computers were, the advances in medical technology make any movies depicting suspended animation quite prophetic.

The Thing 1951/Them 1954 — Deep Impact 1998/Armegeddon 1998
These four movies were essentially about the same.…thing. Whether a space vampire not from earth in the arctic, mutated super organisms underneath the earth, or a big whatever in outer space on a collision course with earth, the subject was a monstrous threat to our world, the end of humankind on earth being the common theme. The lifeboat blog is about such threats and the The Thing and Them would also appeal to any fan of Barbara Ehrenreich’s book, Blood Rites. It is interesting that while we appreciate in a personal way what it means to face monsters or the supernatural, we just do not “get” the much greater threats only recently revealed by impact craters like Chixculub. In this way these movies dealing with instinctive and non-instinctive realized threats have an important relationship to each other. And this connection extends to the more modern sci-fi creature features of past decades. Just how much the The Thing and Them contributed to the greatest military sci-fi movie of the 20th century (Aliens, of course) will probably never be known. Director James Cameron once paid several million dollars out of court to sci-fi writer Harlan Ellison after admitting during an interview to using Ellison’s work- so he will not be making that mistake again. The second and third place honors, Starship Troopers and Predator, were both efforts of Dutch Film maker Paul Verhoeven.

While The Thing and Them still play well, and Deep Impact, directed by James Cameron’s ex-wife, is a good flick and has uncanny predictive elements such as a black president and a tidal wave, Armegeddon is worthless. I mention this trash cinema only because it is necessary for comparison and to applaud the 3 minutes when the cryogenic fuel transfer procedure is seen to be the farce that it is in actuality. Only one of the worst movie directors ever, or the space tourism industry, would parade such a bad idea before the public.
Ice Station Zebra 1968 — The Road 2009
Ice Station Zebra was supposedly based on a true incident. This cold war thriller featured Rock Hudson as the penultimate submarine commander and was a favorite of Howard Hughes. By this time a recluse, Hughes purchased a Las Vegas TV station so he could watch the movie over and over. For those who have not seen it, I will not spoil the sabotage sequence, which has never been equaled. I pair Ice Station Zebra and The Road because they make a fine quartet, or rather sixtet, with The Thing/Them and Deep Impact/Armegeddon.

The setting for many of the scenes in these movies are a wasteland of ice, desert, cometoid, or dead forest. While Armegeddon is one of the worst movies ever made on a big budget, The Road must be one of the best on a small budget- if accuracy is a measure of best. The Road was a problem for the studio that produced it and release was delayed due to the reaction of the test audiences. All viewers left the theatre profoundly depressed. It is a shockingly realistic movie and disturbed to the point where I started writing about impact deflection. The connection between Armegeddon and The Road, two movies so different, is the threat and aftermath of an asteroid or comet impact. While The Road never specifies an impact as the disaster that ravaged the planet, it fits the story perfectly. Armegeddon has a few accurate statements about impacts mixed in with ludicrous plot devices that make the story a bad experience for anyone concerned with planetary protection. It seems almost blasphemous and positively criminal to make such a juvenile for profit enterprise out of an inevitable event that is as serious as serious gets. Do not watch it. Ice Station Zebra, on the other hand, is a must see and is in essence a showcase of the only tools available to prevent The Road from becoming reality. Nuclear weapons and space craft- the very technologies that so many feared would destroy mankind, are the only hope to save the human race in the event of an impending impact.

Part 3:
Gog 1954 — Stealth 2005
Fantastic Voyage 1966 — The Abyss 1989
And notable moments in miscellaneous movies.

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.

The triumvirate of the original visionary authors of the last two centuries is completed with E.E. Doc Smith. With this less famous author the line between predictive fiction and science fantasy was first truly crossed and the new genre of “Space Opera” most fully realized. The film industry has taken Space Opera and run with it in the Star Wars franchise and the works of Canadian film maker James Cameron. Though of course quite entertaining, these movies showcase all that is magical and fantastical- and wrong- concerning science fiction as a predictor of the future. The collective imagination of the public has now been conditioned to violate the reality of what is possible through the violent maiming of basic scientific tenets. This artistic license was something Verne at least tried not to resort to, Wells trespassed upon more frequently, and Smith indulged in without reservation. Just as Madonna found the secret to millions by shocking a jaded audience into pouring money into her bloomers, the formula for ripping off the future has been discovered in the lowest kind of sensationalism. One need only attend a viewing of the latest Transformer movie or download Battlestar Galactica to appreciate that the entertainment industry has cashed in on the ignorance of a poorly educated society by selling intellect decaying brain candy. It is cowboys vs. aliens and has nothing of value to contribute to our culture…well, on second thought, I did get watery eyed when the young man died in Harrison Ford’s arms. I am in no way criticizing the profession of acting and value the talent of these artists- it is rather the greed that corrupts the ancient art of storytelling I am unhappy with. Directors are not directors unless they make money and I feel sorry that these incredibly creative people find themselves less than free to pursue their craft.

The archetype of the modern science fiction movie was 2001 and like many legendary screen epics, a Space Odyssey was not as original as the marketing made it out to be. In an act of cinema cold war many elements were lifted from a Soviet movie. Even though the fantasy element was restricted to a single device in the form of an alien monolith, every artifice of this film has so far proven non-predictive. Interestingly, the propulsion system of the spaceship in 2001 was originally going to use atomic bombs, which are still, a half century later, the only practical means of interplanetary travel. Stanly Kubrick, fresh from Dr. Strangelove, was tired of nukes and passed on portraying this obvious future.

As with the submarine, airplane, and nuclear energy, the technology to come may be predicted with some accuracy if the laws of physics are not insulted but rather just rudely addressed. Though in some cases, the line is crossed and what is rude turns disgusting. A recent proposal for a “NautilusX” spacecraft is one example of a completely vulgar denial of reality. Chemically propelled, with little radiation shielding, and exhibiting a ridiculous doughnut centrifuge, such advertising vehicles are far more dishonest than cinematic fabrications in that they decieve the public without the excuse of entertaining them. In the same vein, space tourism is presented as space exploration when in fact the obscene spending habits of the ultra-wealthy have nothing to do with exploration and everything to do with the attendent taxpayer subsidized business plan. There is nothing to explore in Low Earth Orbit except the joys of zero G bordellos. Rudely undressing by way of the profit motive is followed by a rude address to physics when the key private space scheme for “exploration” is exposed. This supposed key is a false promise of things to come.

While very large and very expensive Heavy Lift Rockets have been proven to be successful in escaping earth’s gravitational field with human passengers, the inferior lift vehicles being marketed as “cheap access to space” are in truth cheap and nasty taxis to space stations going in endless circles. The flim flam investors are basing their hopes of big profit on cryogenic fuel depots and transfer in space. Like the filling station every red blooded American stops at to fill his personal spaceship with fossil fuel, depots are the solution to all the holes in the private space plan for “commercial space.” Unfortunately, storing and transferring hydrogen as a liquified gas a few degrees above absolute zero in a zero G environment has nothing in common with filling a car with gasoline. It will never work as advertised. It is a trick. A way to get those bordellos in orbit courtesy of taxpayer dollars. What a deal.

So what is the obvious future that our present level of knowledge presents to us when entertaining the possible and the impossible? More to come.

Wednesday on the Opinion Pages of the NY Times the renowned Vinton Cerf “father of the internet” published an article titles Internet Access Is Not A Human Right. It could be argued that the key word here is “access”, but before I address access again, I should start with the definition of the internet. I had this debate while at Michigan State in October of 2010 with the philosopher Andrew Feenberg. I’ll do my best not to be redundant while everything is still live via the links in this article.

Perhaps the internet requires much more definition, as the roots of the word can be confusing. Inter: situated within – Net: any network or reticulated system of filaments or the like. Its terminology is synonymous with the “web” or a web, which requires multiple linkages to points of initiation in order to exist well. If this is the internet that Feenberg is referring to then I’d think it accurate. However, the internet is not actually a web of ever connected points. Information destinations are not required.

The internet is analogous to space. Regardless of whether or not we access space, its potential exists – we can access or insert entities of sorts into the space regardless of, if another user were present to receive information of sorts from the distributed. Space is a dynamic system of expanding material potential as is the internet’s material potential. The potential of the internet expands as users (or rather, potential users) access to the internet expands – access could come in many forms including, user population(s) growth or by computing speed or by computing power… The internet, regardless of the constraints of the word, it cannot be identified as a specific technology.

While visiting MSU, Feenberg uses a “ramp” as analogous with the internet, which was at the center of his mistake. I don’t mean to read gerontophobic, but based on the pervasive analysis that I’ve witnessed from Feenberg and Cerf’s generation; I’d have to accredit their perspective to the relatively similar changes in technology that they’ve seen during the 20th century. The difference in composition and utility of a technology (hardware, software, methodology) and that of the internet are synonymous with that of an air-craft and the expanding celestial matter beyond earth’s ionosphere (that’s a sufficient analogy).

Cerf wrote “technology is an enabler of rights, not a right itself. There is a high bar for something to be considered a human right.

He is correct! The problem exists when he identifies the internet as a technology, which it cannot be (to be redundant). This is in fact a human rights issue. It is perhaps the most significant human rights issue of our time, because of the internet role in providing the potential for transparencies in the public and private sectors. The deterministic nature of our technologies is bridging the cultural, political, legal, and economic GAPS of all our societies today, and if we as individuals allow a few mistaken “leaders” or the interests of institutions to control our ability to access a space, because of their resume, then we are all doomed. The implications of the masses adopting Cerf and Feenberg’s view on space are tremendous in building an ethically sound environment for human development.

Regarding Cerf’s word “access”, it may provide him an out from his varied rhetoric in the article. Near the end he transitions to civil rights where he writes “the responsibility of technology creators themselves to support human and civil rights” suggesting the internet hold egalitarian virtues. I’m no egalitarian, as it just doesn’t prove feasible in a world of, even, hyper-connected individuals.

While the ability to access an open space should not be prohibited, the technologies of certain kinds could be. Reference weapons of sorts. I’m no advocate for government supplying all of their citizens with camera phone (although it would be great idea for the individual and institution), but I am against governmental and other agents making efforts to restrict the individual’s ability to populate space with their entities aside from the technologies that one would hold on his/her person.

When the United Nations declared the Internet as a Human Right (PDF), they weren’t necessarily evaluating its full potential, but they were stressing that individuals should have the ability to be transparent and review information of all kinds as they so pleased, catering to the collective knowledge of the species and everything it supports. The problem with this article are the future implications of its rhetoric, even as he means well.

Tangent: Cerf having studied math, computer science, and IS for decades; knows as well as anyone that it is virtually (pun intended) impossible to prohibit internet expansion as small pockets of those educated in the knowledge community of development can find a way. Any computer (which would the blockage point) can be hacked its just a matter of time and will. I spent the last year consulting with Hewlett-Packard Global Info Security on multiple acquisitions of competitive companies and security tool providers, and as anyone in the IS/IT security industry can tell you, there are no solutions, only active management of incidents and problems. This is why methodologies are as (if not more) value than hard/software in modern business transactions. So then why wouldn’t Cerf think more thoroughly about this before publishing in the NY Times? Could it be because he has an equity stake (as an employee of multiple firms) in a less open space (internet). Speculation aside, I’m in the business services industry, I studied “control” specifically. Business is about control, which is the value proposition in establishing institutions virtues as separate from those of the individual. We can only forecast and manage risks well in areas that we can define and control. Business itself doesn’t require an suppressive type of control to make good calls on risks. A more transparent world could tell us all (individuals and institutions alike) more about the types of decisions that benefit the most in a society.

In the future let’s all make a conscious effort to keep spaces open and hope that the benefits incentivize philanthropists, entrepreneurs, and governments to provide technology to the masses at a rate that enhances the human condition.

–Originally at Integrationalism

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

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:

The Bomb
The Pill
African Colonies
Television
Moonshot


Article

My previous column concentrated on the Hall Weather Machine[1], with a fairly technocentric focus. In contrast, this column is not technical at all, but considers the premise that if we don’t know our past, then we don’t know what our future will be.

American history teachers praise Billy Joel’s 1980s song ‘We Didn’t Start the Fire’ for its educational value. His song is a homage to the 40-years of historical headlines since his birth in 1949. Before reading further, go to http://yeli.us/Flash/Fire.html to hear it and to see the photographs that go with each phrase of the song.

Which of Joel’s headlines do you think will be most important, when considered by people a millennium from now? A thousand years is a long time.

Many of the popular figures Joel mentions from politics, entertainment, and sports have already begun to fade from living memory, so they are easy to dismiss. Similarly, which nation won which war will be remembered only by historians, though the genetic components of descendants affected by those wars will reverberate through the centuries. An interesting exercise would consider the most significant events of the eleventh century. English-speaking historians might mention the Battle of Hastings, but is Britain even a world power any longer? Where are the Byzantine, Ottoman, Toltec, and Holy Roman empires of a thousand years ago?

Note that there may be a difference between what most people 1,000 years from now will consider to be the most important and what may actually be the most important. In this case, just because the empires mentioned above are gone doesn’t necessarily mean they didn’t have a significant role in creating our present and our future — we may simply be unconscious of their effect.

I will consider a few possibilities before arguing for one headline that is certain to be remembered, rightfully so, ten thousand years from now — if not longer.


The Bomb

First, most thoughtful people would include the hydrogen-bomb. A few decades ago, almost everyone would have agreed wholeheartedly. At that time, the policy of Mutual Assured Destruction hung heavily over every life in the USSR and the United States (if not the world). With the USSR now gone, and Russia and USA not quite at each others throats, the danger from extinction via a full-out nuclear exchange may be lower. However, the danger of a nuclear attack that kills a few million people is actually more likely.

Up till now, for a nation to become a great power and thereby wield great influence, it needed the level of organization that depended on civilization. No matter how brutal their government or culture — such as Nazi Germany, Communist Soviet Union, or Ancient Rome — their organization depended on efficient education, competent administration, large-scale engineering, and the finer things in life — to motivate at least the elite. Even then, some of the benefit would trickle down as “a rising tide raises all boats”. Competent and educated slaves were a key to Roman Civilization, just as educated bureaucrats were essential to the Nazi and Soviet systems.

Now, however, we are getting into a situation in which atomic weapons give the edge to the stark-raving mad — anyone who is willing to use them. This situation could be most destructive to prosperous, open, humanistic, and civilized nations, because they may be less willing to give up their comfort and freedom to defend against this threat. It appears very likely that within a decade or less, any ragtag collection of pip-squeak lunatics will be able to level the greatest city on Earth, even if it is defended by the world’s strongest army. This is because the advances in nuclear enrichment technology (along with all technology) will make it easier for pip-squeak lunatics to acquire or manufacture nuclear bombs.

That being said, however, it is also true that really advanced technology — specifically privacy-invasive information technology, perhaps in the form of throwaway supercomputers in a massive network of dustcams — might stop the pip-squeak lunatics before they can build and deploy their nuclear bombs.

In addition, another decade of technological development will result in nanobots. By the way, this isn’t just my prediction (the defense of which is a subject of a future column), but also the opinion of inventive dreamers such as Raymond Kurzweil, and of conservative achievers such as Lockheed executives. The development of nanobots means that cellular repair of radiation damage may also become possible (though the problems of controlling trillions of nanobots and of how to detect and repair radiation damage are additional separate and very difficult engineering and biological issues). Michael Flynn examined some of the nuclear strategic issues of this nanotech application in his short story “Washer at the Ford”.[2]

The problem is that there may be a five year window during which our only defense against nuclear-bomb-wielding pip-squeak lunatics will be privacy-invasive information technology, run by the FBI, NSA, and CIA, and their counterparts around the world. Yes, you should be worried, but probably not for the reasons you may think. The danger is not as much that these government agencies may infringe on your rights, but that the very nature of their jobs means that they won’t be able to apply Kranstowitz’s weapon of openness[3] against those who want us dead. To make matters worse, the U.S. intelligence agencies will likely follow the complex laws[3] that protect the privacy of U.S. persons[4] — to the exclusion of catching the nuclear lunatics. This is one reason that FBI, NSA, and CIA directors get new gray hairs every night.

Another problem is that the pip-squeak lunatics will also be able to buy cheap, privacy-invasive information (and other) technologies. Petro-dollars, peasant-made knickknacks, and mining rights have given ethically-challenged individuals in third-world countries astonishing wealth. Many of the world’s richest men live in the world’s poorer countries.[5] They have also learned cruel and clever means by which to keep their peasants down. The question is whether or not they can run the expensive technology they bought with their wealth and power. Buying cheap technology is one thing, but controlling it requires skilled people, and skilled people are more difficult to control. Can the dictators keep a small cadre of trusty elites to run the technology? North Korea and Iran are interesting (and rather scary) test cases at the moment.

Another wild card is that while some dictatorships have become more totalitarian, there comes a point at which the downtrodden peasants (and students, and factory workers, and shopkeepers) don’t have anything to lose but their miserable lives. Meanwhile, totalitarian governments can’t keep up with technology as quickly as free ones can. This is when the system collapses of its own weight, and that is what happened to the USSR. The cell phone, Facebook, and Twitter-fed revolutions in Egypt, Libya, Syria, and elsewhere also seem to prove this point. Thus far, the Chinese leaders have been smart enough to adapt their economy without adapting their government. The jury is still out as to what will happen to them next (it may not be pretty for us if it ends badly, and there are many ways it can end badly).

Another wild card to consider is that most of the existing nuclear warheads are in the United States, Russia, and China. Americans conveniently forget, but non-Americans are very aware that the United States is (thus far) the only nation that has actually used an atomic bomb to kill people. On the other hand, America doesn’t have highly corrupt officials in charge of our nuclear arsenal (Pakistan), nor is it controlled by a near-dictator (Russia), nor by a totalitarian crazed nut-job (North Korea). In addition, a number of important Japanese leaders have publicly said that that controversial decision to bomb Hiroshima and Nagasaki was the correct one–“It could not be helped.“[6] A similar case might be made for Israel, which is surrounded by overwhelming numbers of Arab nations. Given the tensions in the area, a preemptive strike by Israel seems possible, if not likely. The important question then becomes: Under what grounds, if any, could such usage be justified? Of course, Iranian and other Arab leaders have often called for the total destruction of Israel, and eventually one of them may be willing to try it. On what grounds could they be justified?

Another issue is that once we lose New York or some other major city, Americans will accept any solution — including a totalitarian police state. So will the people of other democratic republics if they lose a major city to nuclear terrorists. But the solution is not necessarily a police state. David Brin has answered the “who guards the guardians” question with a clever answer: “We all do.” Over-simplified, his solution is to kiss most of your privacy goodbye. Either that or kiss your life, your liberty, and property, and your privacy all goodbye. Brin proposes that we should all submit to being on camera most of the time — as long as the camera essentially points both ways so we know who is watching us — i.e. the police, our neighbors, the pervert three blocks away, and our governments will know that we are watching them too. We must all shoulder the responsibility of policing our neighborhoods and our governments. The world will be like big village in which everyone knows everyone else’s business, but it’s OK because we are all accountable for our actions. Given the fact that human beings only behave when held accountable, it is the only real solution.[7]

Some may think it naive to expect that governments would ever allow their citizens to observe them in return for their observing us. On the other hand, between the increasing calls for government transparency, and the fact that even the chief of the IMF can be taken down by an lowly maid (with the help of the rule of law), there is hope. Not only that, but many of us have already given away much of our privacy on Facebook and YouTube. Don’t worry about it. Maybe I’m still a wide-eyed optimist, but look at the fall of the USSR empire. Nobody with two brain cells to rub together could have possibly predicted that it could have been so bloodless.

DARPA will certainly look for technological answers for nuclear bomb-related problems such as the nightmare of screening shipping containers. They will probably find some solutions, but during the critical transition phase towards productive nanosystems, will they be able to make those solutions affordable?

One nanotech solution to stopping nuclear bombs that are hidden in shipping containers is to stop all physical shipping altogether and just trade files over the internet, printing whatever you want on our desktops (BTW, you can build a very large printer in two steps). Our only problem then would be keeping our computer virus detectors up to date so that we don’t print something nasty.

To summarize, if anybody is around 1,000 years from now, then the nuclear bomb will not be considered an important issue.


The Pill

The second historically consequential development in the past 50 years that many people will propose as significant is the contraceptive pill.

Some claim that the Pill is necessary because we have a population problem. When I was in college in the 1970’s, it was “proven” to me, with the aid of computer models, that overpopulation was going to be the reason we were going to have food riots in the United States by 1985. So naturally, I’m as skeptical about overpopulation as I am about the imminent rapture. Everyone probably agrees that overpopulation results when the population exceeds the sustainable carrying capacity of the environment. But what determines that capacity? Technology multiplies it while ignorance, injustice, and war decrease it. On Earth today, there is currently no correlation between standard of living and population density.[8]

That being said, in a closed system, unlimited human population growth could result in a situation worse than simple human extinction. Natural ecosystems have population boom/crash cycles all the time, but other species don’t have access to nuclear bombs and other devices that can obliterate habitats. The overpopulation disaster on Easter Island occurred with a primitive culture. It still has grass, but not much of an ecosystem. Imagine what could have happened with modern technology.

The Pill fundamentally changed the relationship of men and women, the place of children in a family and, on the macro level, population dynamics. The family is the basic building block of society and civilization, not only because it is an economic unit (you don’t pay your spouse to wash the dishes or take out the garbage), but more importantly, because the family critically shapes the next generation. Therefore, a large change in family structures will have far-reaching effects, at least in the “short run” of five to ten generations. However, to steal from Jerry Pournell and Larry Niven: “Think of it as evolution in action.“[9] The people who embrace contraception as a path to “the good life” will (evolutionarily speaking) remove their vote for influencing their future within a few generations. It is true that for humans, memes may carry as much weight as genes, but the same process applies — as long as meme propagation is kept below a critical level, perhaps by co-traveling xenophobic memes. On the other hand, people who don’t have much of their material resources tied up in children may have more time to devote to meme propagation. However, many studies have shown than the people who have the greatest impact on teens and pre-teens are their parents.[10]

One possible result is that a millennium from now, the Pill will be a small blip, as inconsequential as the Shakers, and for essentially similar reasons. Nanotechnology-enabled life extension techniques will extend that blip for a while, but because the prolific pro-natalists will continue having even more children for their longer lives, more pro-natalists will be born to outvote the anti-natalists. This is why the Jewish Knesset now has a significantly higher percentage of Ultra-Orthodox than when it began,[11] why Utah’s government is almost 100% Mormon,[12] and why the Amish are one of the fastest growing minority in the world, with an average of 6.8 children per family.[13]

The opposing trend is controlled by a number of factors. First, the birth rate goes down as women’s educations go up. This occurs partially because practically speaking, it is more difficult to go to school while being married and raising children. More subtly, however, it is because school is an investment in learning a professional trade — it is a different investment than children. In addition, women and men are implicitly and explicitly taught that a better career is more important than raising more children.

The problem isn’t that women are being educated. The problem is that if they are taught something that results in the extinction of our egalitarian, humanistic, and liberal society by one that is misogynistic, xenophobic, and unjust, then something is wrong.

One weapon of the contraceptive culture is the reeducation of the pro-natalist’s children. Proponents of secularization would call this “giving people free access to all information” not “reeducation”. But when Bibles are banned from the classroom, and students are taught in many ways that they are just animals, it seems like imposition of a secular viewpoint. At least they could teach the debate — and at the end of the semester, the students could try to guess the teacher’s bias (if they can’t, then the teacher presented both views with equal force).

There are more than a million home-schooled children in the U.S., up to two-thirds of whom are there primarily because their parents fear the imposition of our government’s ideas on their children.[14] This quiet protest is so feared by governments that parents are prosecuted for doing this, not only in all totalitarian countries but even in some democratic nations.[15] The alternative is that the governments of open, liberal, and secularized nations (that accept contraception) will decide that the vote of the increasing minority is wrong. Could their right to vote be taken away? Of course it can; it has happened before.

A pessimistic view of this possibility of disenfranchisement is also supported by the prevalence of abortion in liberal democracies. Given the accuracy of ultrasound imagery, if we can ignore the right to life for our most innocent and helpless, then how safe is something as meager as the right to vote? Niemöller’s poem about trade unionists, Communists, and Catholics comes to mind.[16] So do the events in ancient Egypt, during the three or four hundred years between the famines that Joseph ameliorated (Genesis 50:22). The Egyptian upper class used contraception[17], and they felt threatened by the increasing numerical growth of the Jews, who had strict injunctions against it.

Is it good for our country that more than a million children are being taught by their parents? What if rebellious parents are teaching strange and dangerous ideas? How do we decide which ideas are dangerous? Do we censor and suppress them? After all, ideas have consequences.

The answer is that there are limits to what parents can do, but very few — if any — on what they teach. The whole point about freedom of religion is that we can believe what we want, as long as we do not destroy society or individuals with our actions. Our constitution was written not to limit individuals, but to put strict limits on government, since it is inherently more powerful.

The temptation to avoid having children is not limited to any particular culture. The reason is simple: raising children is an expensive, risky, and difficult investment. Parents must be willing to give up fancy vacations, luxury cars, time to themselves, a good night’s sleep, stress on their marriage, and many other things, thus weighing against the pro-natalist agenda. However, the culture that teaches that children are a blessing and a worthwhile investment instead of a cost will overcome those that do not — even if it tends to encourage people to be ignorant, misogynist, racist, and illogical (like two polygamist religions that start with the letter “M“[18]).

Cyril M. Kornbluth’s 1951 short story “The Marching Morons” illustrates another potential downside to the anti/pro-natalist issue by portraying a scenario in which selective pressure resulted in smart people breeding themselves out of existence. It also, despite the derogatory title, provides a warning: the originator of the “Final Solution” (placing all the fertile morons onto one-way rockets to nowhere) ends up screaming futilely as he himself is loaded on one of the last rockets. Kornbluth’s main premise seems logical. People are often willing to trade children for the better material things and higher standard of living, and those with more education are more willing to do so. But is the resulting cost to society worth it?

What will happen when productive nanosystems and advanced software lowers the price of goods and services to very low levels? Many other things will happen at the same time, but in a society of economic abundance, the expense of children will drop significantly — and will be limited only by attention span and desire (and possibly expanded by reproductive-enhancing technologies including parthenogenesis and male pregnancy). Is there a gene for liking children? Or is it a meme that is culturally transmitted? Evolution favors both. Of course, evolution may also favor a “Boys from Brazil“[19] scenario (in which numerous clones of a dictator are grown to reinstate his rule). This strategy may be successful as long as the clones survive to adulthood and can reproduce.

While a contraceptive culture is non-sustainable, especially in the face of a competing culture whose population is growing, it must be noted that a pro-natalist culture is also non-sustainable. Isaac Asimov pointed out that even if we could overcome all technological obstacles, any growth rate will eventually result in humanity becoming a big ball of flesh, expanding at the speed of light (BOFESOL, or BOF for short). At a modest 3% rate, we will reach the initial BOF in only 3,584 years. After that, the speed of light will limit growth.

However, the fact that a contraceptive culture is non-sustainable in a significantly shorter term than the pro-natalist one is why it makes sense for governments to support traditional religions in their efforts to maintain traditional morality and fertility. The difficult problem is finding ways to ensure the survival of a culture without it becoming xenophobic. This is difficult to do when we think that we have Absolute Truth and the One True Religion on our side. But then exactly how do we know that our particular set and ordering of values is the objectively correct one? Note that the denial of the existence of any objectively maximum set of values exists is itself a particular set of values. And note also that sustainability and tolerance are also values that, like all values, must be assumed because they cannot be proven.

Given the contradictory evidence and shifting values, it is likely that equilibrium between pro-natalist and contraceptive meme sets can never be reached. Instead, humanity will likely experience benign (and sometimes not-so benign) boom and crash cycles similar to those that natural ecosystems suffer from. Only for us, our cycles will be constrained by opinions and technological capabilities, not by predators.


African Colonies

A third historical event that may be of consequence a thousand years from now is “Belgians in the Congo”. The Belgian regime in the Congo was about as brutal and inhuman as any the Europeans imposed on its colonies. However, the European Empires spread Christianity in Africa — where it remains a fast-growing religion. This African event may be as significant as when the Spanish and Portuguese spread Christianity in Latin America, and will bring about a fundamentally different world than if Africa had gone Islamic, Hindu, or Confucian. Think of Latin American worshiping the Aztec gods with human sacrifice, or the impact on us if it were an Islamic Civilization. We would live in a very different world.

Then again, Africa may still turn Islamic. After all, Islam generally values large families, just like the fast-growing Mormon and Amish religions do. On the other hand, when Muslims become secularized, they reduce the number of their offspring, just like secularized Christians do — hence their accompanying philosophies will suffer the same fate. The result will be that in order to survive in the long term, future generations must be hostile to secularization, and probably hostile to each other’s religious views also (not a pleasant thought, even if they do share many of the same values). Over the next thousand years, in view of the exponential increase in technological power, which viewpoint will win? The answer depends on science, theology, and demographics.

A handful of nominal Christians destroyed the Aztec civilization, not because of their technology (though that helped), but because the Aztec civilization was based on a great and powerful falsehood — that in order for the sun to rise every morning, human blood needed to be shed — thereby earning the hatred of the neighboring tribes whose blood it was that was usually shed. Islam is not as false as the Aztec religion — otherwise it would not have lasted this long. But the jury is still out on whether it can survive the extreme technological advancement that productive nanosystems will bring. Will fanatical Muslims be able to design and build the nanotech equivalent of 747 jets that they can fly into the skyscrapers of their enemies? Or will they just learn how to use it in unexpected and terrorizing ways? Given the high level of technological advancement in the Muslim empire a thousand years ago, the answer seems to be “yes” to both questions. However, Islam’s ultimate rejection of reason is its Achilles heel, and in the past it helped lead to the decline of the Ottoman Empire after its peak in the 1300s. This is because Islam’s idea of Allah’s absolute transcendence is incompatible with the idea that the universe is ordered and knowable. Psychologically, the problem is that if the universe is not ordered and knowable, then why bother learning and doing science? Meanwhile, Hinduism has many competing gods, and this leads (like in ordinary paganism) to its rejection of the logical principle of contradiction — without which science is impossible. Confucianism seems to be more a moral code than a religious one, so it seems that it could be accommodating to technology — but that didn’t seem to help its practitioners develop it before they collided with the West. Similarly with Buddhism. Meanwhile, the decadent West’s deconstructionism and nihilism is gnawing at its parent’s roots, rejecting reason and science as merely tools of power.

It can be claimed that religious views will keep changing and splitting into new orthodoxies. In that case, the result will be an ever-shifting field of populations and sub-populations with none winning out completely over the others. But as far as I can tell, neither Judaism, Catholicism, Buddhism, nor Islam have changed any of their core beliefs in the past few millennia. In contrast, the Mormons have changed a number of their major doctrines, and so have the Protestants. This does not bode well for their long-term survival as a coherent organization, though the Mormons do have their high fertility on their side.

At the moment, the whole world is copying the Christian-rooted West, as many of their scientific elite are educated in Europe and the United States. It is difficult to say to what extent they understand the philosophical underpinnings of science. When their own universities start to educate their elite, their cultural assumptions will probably displace the Judeo-Christian/Greek philosophy of the West. Then what? It depends if science, which is the foundation of technological superiority, is simply a cargo cult that works. My claim is that science will only continue working for more than a generation or two if its underlying assumptions come with it — that the universe is both ordered and knowable.

These Judeo-Christian assumptions are huge — though atheists, agnostics, and (maybe) Muslims and Buddhists should also be able to accept them. However, every scientist still faces the question of why the universe is ordered and knowable (and if you’re not constantly asking the next question, especially the “why” question, then you’re not a very good scientist). The theistic answer of design by creator[20] is not too far away from the assumption of an ordered and knowable universe, and from there, one begins skating very close to the concept that we are made “Imago Dei”–in God’s image. Some people think that there is too much hubris and ego to that belief, but you don’t see dolphins landing on the Moon, or chimpanzees creating great symphonies (or even bad rap).

“Imago Dei” is the most logical conclusion once we can explain why the universe is predictable and knowable. And being made in God’s image has other implications, especially in terms of our role in this universe. Most notably, it promotes the idea of human beings as powerful stewards of creation, as opposed to subservient subjects of Mother Nature, and it will pit Nietzschean Transhumanists and Traditional Catholics against Gaian environmentalists and National Park Rangers.


Television

Writing has been around for thousands of years, while the printing press has been around for almost 600. It would seem that the printing press was the one invention that, more than anything else, enabled the development of all subsequent inventions. Television could be considered an improvement over writing, and given that large amounts of video can be subject to slightly less interpretation than an equal amount of effort writing text, our descendants might get a better, more complete depiction of history than they could get from just text or physical artifacts. However, the television that Joel mentioned was controlled by the big three television networks. This was because the cost to entry was so high (currently from $200,000 to $13 million per episode). So the role of television of the 1960s was similar to the role of books in Medieval Europe, where the cost of a book was equivalent to the yearly salary of a well-educated person). For this reason, Joel’s headline will not be considered significant, though he was close.

He was close because television’s electronic video display offspring, the computer — especially when connected to form the Internet — will certainly be significant. It will be as significant as the nuclear bomb and the Pill combined, if and when Moore’s Law ushers in the Singularity. But Joel was writing a song, not engaging in future studies. We might as well criticize him for not mentioning the coining of the word “nanotechnology”.


Moonshot

A few of Billy Joel’s headlines may be remembered 1,000 years from now, but none mentioned so far will really be significant.

I would go out on a limb and say that other than the scientific and industrial revolutions, the American Constitution, and the virtual abolishment of slavery, little of consequence has happened in the last thousand years. There is, however, one significant event that happened in the 1400s. No, it’s not Spain kicking out the Muslims. It’s not even Admiral Zheng He, Admiral of China’s famed Dragon Fleet, sailing to Africa in the 1420s, though we’re getting warmer. As impressive as they were, Zheng’s voyages did not change the world. What did change the world was the tiny fleet of three ships that returned from the New World to Spain in 1492.

Apollo and Star Trek both pointed to the next and final frontier. It is true that little has happened in the American space program since Apollo, and with the retirement of the 1960s-designed Space Shuttle, even less is expected. This poor showing has occurred because the moon shot, as awe-inspiring as it was, was a political stunt funded for political reasons. The problem is that it didn’t pay for itself, and we therefore have a dismal space program. However, with communication, weather, and GPS satellites, we have a huge space industry. It’s all about the value added.

On the other hand, it’s the governmental space programs that seem to make the initial (and necessary) investments in the basic technology. More importantly, these programs give voice to that which makes us human — “to look at the stars and wonder”.[21]

Realistically, looking at the historical records of Jamestown and Salt Lake City, space development will occur when prosperous upper class families can sell their homes and businesses to buy a one-way ticket and homesteading tools. In today’s money, that would be about one or two million dollars. We have a long way to go to achieve that price break, though it helps that Moore’s Law is exponential.

There have only been a dozen men on the Moon so far, but Neil Armstrong will be remembered far longer than anyone else in this millennium. After the human race has spread throughout the solar system, and after it starts heading for the stars, everyone will remember who took the first small step. The importance of this step will become obvious after the Google Moon prize is won, and after Elon Musk and his imitators demonstrate conclusively that we are no longer in a zero sum game.

That is something to look forward to.

Tihamer Toth-Fejel is Research Engineer at Novii Systems.


Acknowledgments

Many thanks to Andrew Balet, Bill Bogen, Tim Wright, and Ted Reynolds for their significant contributions to this column.


Footnotes

1. Tihamer Toth-Fejel, The Politics and Ethics of the Hall Weather Machine, https://lifeboat.com/blog/2010/09/the-politics-and-ethics-of-the-hall-weather-machine and http://www.nanotech-now.com/columns/?article=486
2. Michael Flynn, Washer at the Ford, Analog, v109 #6 & 7, June & July 1989.
3. Arthur Kantrowitz, The Weapon of Openness, http://www.foresight.org/Updates/Background4.html
4. United States Signals Intelligence Directive 18, 27 July 1993, http://cryptome.org/nsa-ussid18.htm
5. e.g. Mexico, India, Saudia Arabia, and Russia http://www.forbes.com/lists/2010/10/billionaires-2010_The-Worlds-Billionaires_Rank.html Also, the petro-dollar millionaires in the Mideast http://www.aneki.com/millionaire_density.html
6. There is an interesting discussion at http://en.wikipedia.org/wiki/Debate_over_the_atomic_bombings_of_Hiroshima_and_Nagasaki
7. David Brin,The Transparent Society, Basic Books (1999). For a quick introduction, see The Transparent Society and Other Articles about Transparency and Privacy, http://www.davidbrin.com/transparent.htm.
8. Tihamer Toth-Fejel, Population Control, Molecular Nanotechnology, and the High Frontier, The Assembler, Volume 5, Number 1 & 2, 1997 http://www.islandone.org/MMSG/9701_05.html#_Toc394339700
9. Larry Niven and Jerry Pournelle, Oath of Fealty. New York : Pocket Books, 1982
10. KIDS COUNT Indicator Brief, Reducing the Teen Birth Rate, July 2009. http://www.aecf.org/~/media/Pubs/Initiatives/KIDS%20COUNT/K/KIDSCOUNTIndicatorBriefReducingtheTeenBirthRa/Corrected%20teen%20birth%20brief.pdf
11. From a small group of just four members in the 1977 Knesset, they gradually increased their representation to 22 (out of 120) in 1999 (http://en.wikipedia.org/wiki/Haredi_Judaism). The fertility rate for ultra-Orthodox mothers greatly exceeds that of the Israeli Jewish population at large, averaging 6.5 children per mother in the ultra-Orthodox community compared to 2.6 among Israeli Jews overall (http://www.forward.com/articles/7641/ ).
12. As of mid-2001, the Governor of Utah, and all of its Federal senators, representatives and members of the Supreme Court are all Mormon. http://www.religioustolerance.org/lds_hist1.htm
13. Julia A. Ericksen; Eugene P. Ericksen, John A. Hostetler, Gertrude E. Huntington. “Fertility Patterns and Trends among the Old Order Amish”. Population Studies (33): 255–76 (July 1979).
14. 1.1 Million Homeschooled Students in the United States in 2003. http://nces.ed.gov/nhes/homeschool/
15. HOMESCHOOLING: Prosecution is waged abroad; troubling trends abound in US http://www.bpnews.net/BPnews.asp?ID=34699
16. http://timpanogos.wordpress.com/2010/02/26/quote-of-the-moment-martin-niemoller-i-did-not-speak-out/
17. http://www.patentex.com/about_contraception/journey.php
18. I should note that almost all of the people I have personally known from these two religions are trustworthy, intelligent, and a pleasure to meet. Despite what they are taught in their sacred texts.
19. Ira Levin, Boys from Brazil, Dell (1977)
20. There are many question to follow. How did He do it? Why is He masculine? Why did He do it? How do we know? That last question is especially relevant.
21. Guy J. Consolmagno, Brother Astronomer: Adventures of a Vatican Scientist, McGraw-Hill (2001)

Dear Lifeboat Foundation Family & Friends,

A few months back, my Aunt Charlotte wrote, wondering why I — a relentless searcher focused upon human evolution and long-term human survival strategy, had chosen to pursue a PhD in economics (Banking & Finance). I recently replied that, as it turns out, sound economic theory and global financial stability both play central roles in the quest for long-term human survival. In the fifth and final chapter of my recent Masters thesis, On the Problem of Sustainable Economic Development: A Game-Theoretical Solution, I argued (with considerable passion) that much of the blame for the economic crisis of 2008 (which is, essentially still upon us) may be attributed the adoption of Keynesian economics and the dismissal of the powerful counter-arguments tabled by his great rival, F.A. von Hayek. Despite the fact that they remained friends all the way until the very end, their theories are diametrically opposed at nearly every point. There was, however, at least one central point they agreed upon — indeed, Hayek was fond of quoting one of Keynes’ most famous maxims: “The ideas of economists and political philosophers, both when they are right and when they are wrong, are more powerful than is commonly understood. Indeed the world is ruled by little else” [1].

And, with this nontrivial problem and and the great Hayek vs. Keynes debate in mind, I’ll offer a preview-by-way-of-prelude with this invitation to turn a few pages of On the Problem of Modern Portfolio Theory: In Search of a Timeless & Universal Investment Perspective:

It is perhaps significant that Keynes hated to be addressed as “professor” (he never had that title). He was not primarily a scholar. He was a great amateur in many fields of knowledge and the arts; he had all the gifts of a great politician and a political pamphleteer; and he knew that “the ideas of economists and political philosophers, both when they are right and when they are wrong, are more powerful than is generally understood. Indeed the world is ruled by little else” [1]. And as he had a mind capable of recasting, in the intervals of his other occupations, the body of current economic theory, he more than any of his compeers had come to affect current thought. Whether it was he who was right or wrong, only the future will show. There are some who fear that if Lenin’s statement is correct that the best way to destroy the capitalist system is to debauch the currency, of which Keynes himself has reminded us [1], it will be largely due to Keynes’s influence if this prescription is followed.…

Perhaps the explanation of much that is puzzling about Keynes’s mind lies in the supreme confidence he had acquired in his power to play on public opinion as a supreme master plays on his instrument. He loved to pose in the role of a Cassandra whose warnings were not listened to. But, in fact, his early success in swinging round public opinion about the peace treaties had given him probably even an exaggerated estimate of his powers. I shall never forget one occasion – I believe the last time that I met him – when he startled me by an uncommonly frank expression of this. It was early in 1946, shortly after he had returned from the strenuous and exhausting negotiations in Washington on the British loan. Earlier in the evening he had fascinated the company by a detailed account of the American market for Elizabethan books which in any other man would have given the impression that he had devoted most of his time in the United States to that subject. Later a turn in the conversation made me ask him whether he was not concerned about what some of his disciples were making of his theories. After a not very complimentary remark about the persons concerned, he proceeded to reassure me by explaining that those ideas had been badly needed at the time he had launched them. He continued by indicating that I need not be alarmed; if they should ever become dangerous I could rely upon him again quickly to swing round public opinion – and he indicated by a quick movement of his hand how rapidly that would be done. But three months later he was dead [2].

As always, any and all comments, criticisms, thoughts, and suggestions are welcome!

Bidding you Godspeed,

Matt Funk, FLS, PhD Candidate, University of Malta, Dept. of Banking & Finance

[1]. KE YNES, J. (1920). The General Theory of Employment, Interest and Money (Palgrave Macmillan, London).

[2]. HAYEK, F. (1952). Review of R.F. Harrod’s ‘The Life of John Maynard Keynes’. J of Mod Hist 24:195–198.

When examining the delicate balance that life on Earth hangs within, it is impossible not to consider the ongoing love/hate connection between our parent star, the sun, and our uniquely terraqueous home planet.

On one hand, Earth is situated so perfectly, so ideally, inside the sun’s habitable zone, that it is impossible not to esteem our parent star with a sense of ongoing gratitude. It is, after all, the onslaught of spectral rain, the sun’s seemingly limitless output of charged particles, which provide the initial spark to all terrestrial life.

Yet on another hand, during those brief moments of solar upheaval, when highly energetic Earth-directed ejecta threaten with destruction our precipitously perched technological infrastructure, one cannot help but eye with caution the potentially calamitous distance of only 93 million miles that our entire human population resides from this unpredictable stellar inferno.

On 6 February 2011, twin solar observational spacecraft STEREO aligned at opposite ends of the sun along Earth’s orbit, and for the first time in human history, offered scientists a complete 360-degree view of the sun. Since solar observation began hundreds of years ago, humanity has had available only one side of the sun in view at any given time, as it slowly completed a rotation every 27 days. First launched in 2006, the two STEREO satellites are glittering jewels among a growing crown of heliophysics science missions that aim to better understand solar dynamics, and for the next eight years, will offer this dual-sided view of our parent star.

In addition to providing the source of all energy to our home planet Earth, the sun occasionally spews from its active regions violent bursts of energy, known as coronal mass ejections(CMEs). These fast traveling clouds of ionized gas are responsible for lovely events like the aurorae borealis and australis, but beyond a certain point have been known to overload orbiting satellites, set fire to ground-based technological infrastructure, and even usher in widespread blackouts.

CMEs are natural occurrences and as well understood as ever thanks to the emerging perspective of our sun as a dynamic star. Though humanity has known for centuries that the solar cycle follows a more/less eleven-year ebb and flow, only recently has the scientific community effectively constellated a more complete picture as to how our sun’s subtle changes effect space weather and, unfortunately, how little we can feasibly contend with this legitimate global threat.

The massive solar storm that occurred on 1 September 1859 produced aurorae that were visible as far south as Hawai’i and Cuba, with similar effects observed around the South Pole. The Earth-directed CME took all of 17 hours to make the 93 million mile trek from the corona of our sun to the Earth’s atmosphere, due to an earlier CME that had cleared a nice path for its intra-stellar journey. The one saving grace of this massive space weather event was that the North American and European telegraph system was in its delicate infancy, in place for only 15 years prior. Nevertheless, telegraph pylons threw sparks, many of them burning, and telegraph paper worldwide caught fire spontaneously.

Considering the ambitious improvements in communications lines, electrical grids, and broadband networks that have been implemented since, humanity faces the threat of space weather on uneven footing. Large CME events are known to occur around every 500 years, based on ice core samples measured for high-energy proton radiation.

The CME event on 14 March 1989 overloaded the HydroQuebec transmission lines and caused the catastrophic collapse of an entire power gird. The resulting aurorae were visible as far south as Texas and Florida. The estimated cost was totaled in the hundreds of million of dollars. A later storm in August 1989 interfered with semiconductor functionality and trading was called off on the Toronto stock exchange.

Beginning in 1995 with the launch and deployment of The Solar Heliospheric Observatory (SOHO), through 2009 with the launch of SDO, the Solar Dynamics Observatory, and finally this year, with the launch of the Glory science mission, NASA is making ambitious, thoughtful strides to gain a clearer picture of the dynamics of the sun, to offer a better means to predict space weather, and evaluate more clearly both the great benefits and grave stellar threats.

Earth-bound technology infrastructure remains vulnerable to high-energy output from the sun. However, the growing array of orbiting satellites that the best and the brightest among modern science use to continually gather data from our dynamic star will offer humanity its best chance of modeling, predicting, and perhaps some day defending against the occasional outburst from our parent star.

Written by Zachary Urbina, Founder Cozy Dark