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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

Some countries are a threat as possible sources of global risk. First of all we are talking about countries which have developed, but poorly controlled military programs, as well as the specific motivation that drives them to create a Doomsday weapon. Usually it is a country that is under threat of attack and total conquest, and in which the control system rests on a kind of irrational ideology.

The most striking example of such a global risk are the efforts of North Korea’s to weaponize Avian Influenza (North Korea trying to weaponize bird flu http://www.worldnetdaily.com/news/article.asp?ARTICLE_ID=50093), which may lead to the creation of the virus capable of destroying most of Earth’s population.

There is not really important, what is primary: an irrational ideology, increased secrecy, the excess of military research and the real threat of external aggression. Usually, all these causes go hand in hand.

The result is the appearance of conditions for creating the most exotic defenses. In addition, an excess of military scientists and equipment allows individual scientists to be, for example, bioterrorists. The high level of secrecy leads to the fact that the state as a whole does not know what they are doing in some labs.

In addition, these dangerous countries might be hiding under the guise of seemingly prosperous and democratic countries in their military-industrial complex. This list surely do not include poorest countries (Mali) and small rich countries (like Denmark).

List of countries, like falling in this category:
Well known rogue-nations: S. Korea, Iran, Pakistan,
“superpower”: China, Russia and the U.S..
Weak rogue nation: Burma, Syria and other poor countries.
In addition, a paranoid military program could be inside the outwardly prosperous countries: Japan, Taiwan, Switzerland.
This list does not include countries with a developed, but are rational and have controlled military program: Israel, Britain, France, etc. Also, the list do not include contries, which only buy weapons, like Saudi Arabia.

There is the idea of preemptive strikes against rogue countries which goal is regime change in all these countries, and through this create a safer world. This concept can be called “Rumsfeld Doctrine”. Under this doctrine were conducted military operations in Afghanistan and especially in Iraq at the beginning of the XXI century. However, this doctrine has collapsed, as weapons of mass destruction has not been found in Iraq. A more powerful adversaries such as Iran and North Korea, were too strong for United States, and, moreover, they intensified the development of weapons of mass destruction.

The strike itself could provoke rogue nation to use weapons which are already created, for example, biological weapons. Or control over bioweapon will be lost during destruction of buildings, where they are stored. Furthermore, chaos can lead to attempts to sell such weapons. However, the longer is delayed the decision of the problem, the more these countries will have time to enrich, to accumulate, to grow up.

My opinion is that at the current stage of history we should not attempt to bomb all potential rogue nations. But in principle it is a good thing that regime of Saddam Hussein was toppled, as it is unknown, what it now would do, if it still exist. We should wait near-singularity era, when one country through the development of nanotech, and / or AI will be in a situation to disarm as painlessly as possible their potential enemies, as it will be stronger than they in thousands times. Since the exponential acceleration of progress will lead to the fact that the gap between the strongest and laggards will continue to grow and advance on the usual 2–10 years will be equivalent to the advance in centuries.

well-in-an-oasisIt’s easy to think of people from the underdeveloped world as quite different from ourselves. After all, there’s little to convince us otherwise. National Geographic Specials, video clips on the Nightly News, photos in every major newspaper – all depicting a culture and lifestyle that’s hard for us to imagine let alone relate to. Yes – they seem very different; or perhaps not. Consider this story related to me by a friend.

Ray was a pioneer in software. He sold his company some time ago for a considerable amount of money. After this – during his quasi-retirement he got involved in coordinating medical relief missions to some of the most impoverished places on the planet, places such as Timbuktu in Africa.

The missions were simple – come to a place like Timbuktu and set up medical clinics, provide basic medicines and health care training and generally try and improve the health prospects of native peoples wherever he went.

Upon arriving in Timbuktu, Ray observed that their system of commerce was incredibly simple. Basically they had two items that were in commerce – goats and charcoal.

According to Ray they had no established currency – they traded goats for charcoal, charcoal for goats or labor in exchange for either charcoal or goats. That was basically it.

Ray told me that after setting up the clinic and training people they also installed solar generators for the purpose of providing power for satellite phones that they left in several villages in the region.

They had anticipated that the natives, when faced with an emergency or if they needed additional medicines or supplies would use the satellite phones to communicate these needs however this isn’t what ended up happening…the-road-to-timbuktu

Two years after his initial visit to Timbuktu, Ray went back to check on the clinics that they had set up and to make certain that the people there had the medicines and other supplies that they required.

Upon arriving at the same village he had visited before Ray was surprised to note that in the short period of only two years since his previous visit things had changed dramatically – things that had not changed for hundreds, perhaps even thousands of years.

Principally, the change was to the commerce in Timbuktu. No longer were goats and charcoal the principal unit of currency. They had been replaced by a single unified currency – satellite phone minutes!

Instead of using the satellite phones to call Ray’s organization, the natives of Timbuktu had figured out how to use the phones to call out to neighboring villages. This enabled more active commerce between the villages – the natives could now engage in business miles from home – coordinating trade between villages, calling for labor when needed or exchanging excess charcoal for goats on a broader scale for example.mudshacks-in-timbuktu

Of course their use of these phones wasn’t limited strictly to commerce – just like you and I, they also used these phones to find out what was happening in other places – who was getting married, who was sick or injured or simply to communicate with people from other places that were too far away to conveniently visit.

In other words, a civilization that had previously existed in a way that we would consider highly primitive had leapfrogged thousands of years of technological and cultural development and within the briefest of moments had adapted their lives to a technology that is among the most advanced of any broadly distributed in the modern world.

It’s a powerful reminder that in spite of our belief that primitive cultures are vastly different from us the truth is that basic human needs, when enabled by technology, are very much the same no matter where in the world or how advanced the civilization.

Perhaps we are not so different after all?
Timbuktu

With our growing resources, the Lifeboat Foundation has teamed with the Singularity Hub as Media Sponsors for the 2010 Humanity+ Summit. If you have suggestions on future events that we should sponsor, please contact [email protected].

The summer 2010 “Humanity+ @ Harvard — The Rise Of The Citizen Scientist” conference is being held, after the inaugural conference in Los Angeles in December 2009, on the East Coast, at Harvard University’s prestigious Science Hall on June 12–13. Futurist, inventor, and author of the NYT bestselling book “The Singularity Is Near”, Ray Kurzweil is going to be keynote speaker of the conference.

Also speaking at the H+ Summit @ Harvard is Aubrey de Grey, a biomedical gerontologist based in Cambridge, UK, and is the Chief Science Officer of SENS Foundation, a California-based charity dedicated to combating the aging process. His talk, “Hype and anti-hype in academic biogerontology research: a call to action”, will analyze the interplay of over-pessimistic and over-optimistic positions with regards of research and development of cures, and propose solutions to alleviate the negative effects of both.

The theme is “The Rise Of The Citizen Scientist”, as illustrated in his talk by Alex Lightman, Executive Director of Humanity+:

“Knowledge may be expanding exponentially, but the current rate of civilizational learning and institutional upgrading is still far too slow in the century of peak oil, peak uranium, and ‘peak everything’. Humanity needs to gather vastly more data as part of ever larger and more widespread scientific experiments, and make science and technology flourish in streets, fields, and homes as well as in university and corporate laboratories.”

Humanity+ Summit @ Harvard is an unmissable event for everyone who is interested in the evolution of the rapidly changing human condition, and the impact of accelerating technological change on the daily lives of individuals, and on our society as a whole. Tickets start at only $150, with an additional 50% discount for students registering with the coupon STUDENTDISCOUNT (valid student ID required at the time of admission).

With over 40 speakers, and 50 sessions in two jam packed days, the attendees, and the speakers will have many opportunities to interact, and discuss, complementing the conference with the necessary networking component.

Other speakers already listed on the H+ Summit program page include:

  • David Orban, Chairman of Humanity+: “Intelligence Augmentation, Decision Power, And The Emerging Data Sphere”
  • Heather Knight, CTO of Humanity+: “Why Robots Need to Spend More Time in the Limelight”
  • Andrew Hessel, Co-Chair at Singularity University: “Altered Carbon: The Emerging Biological Diamond Age”
  • M. A. Greenstein, Art Center College of Design: “Sparking our Neural Humanity with Neurotech!”
  • Michael Smolens, CEO of dotSUB: “Removing language as a barrier to cross cultural communication”

New speakers will be announced in rapid succession, rounding out a schedule that is guaranteed to inform, intrigue, stimulate and provoke, in moving ahead our planetary understanding of the evolution of the human condition!

H+ Summit @ Harvard — The Rise Of The Citizen Scientist
June 12–13, Harvard University
Cambridge, MA

You can register at http://www.eventbrite.com/event/648806598/friendsofhplus/4141206940.

A few months ago, my friend Benjamin Jakobus and I created an online “risk intelligence” test at http://www.projectionpoint.com/. It consists of fifty statements about science, history, geography, and so on, and your task is to say how likely you think it is that each of these statements is true. We calculate your risk intelligence quotient (RQ) on the basis of your estimates. So far, over 30,000 people have taken our test, and we’re currently writing up the results for some peer-reviewed journals.

Now we want to take things a step further, and see whether our measure correlates with the ability to make accurate estimates of future events. To this end we’ve created a “prediction game” at http://www.projectionpoint.com/prediction_game.php. The basic idea is the same; we provide you with a bunch of statements, and your task is to say how likely you think it is that each one is true. The difference is that these statements refer not to known facts, but to future events. Unlike the first test, nobody knows whether these statements are true or false yet. For most of them, we won’t know until the end of the year 2010.

For example, how likely do you think it is that this year will be the hottest on record? If you think this is very unlikely you might select the 10% category. If you think it is quite likely, but not very likely, you might put the chances at 60% or 70%. Selecting the 50% category would mean that you had no idea how likely it is.

This is ongoing research, so please feel free to comment, criticise or make suggestions.

Because of the election cycle, the United States Congress and Presidency has a tendency to be short-sighted. Therefore it is a welcome relief when an organization such as the U.S. National Intelligence Council gathers many smart people from around the world to do some serious thinking more than a decade into the future. But while the authors of the NIC report Global Trends 2025: A Transformed World[1] understood the political situations of countries around the world extremely well, their report lacked two things:

1. Sufficient knowledge about technology (especially productive nanosystems) and their second order effects.

2. A clear and specific understanding of Islam and the fundamental cause of its problems. More generally, an understanding of the relationship between its theology, technological progress, and cultural success.
These two gaps need to be filled, and this white paper attempts to do so.

Technology
Christine Peterson, the co-founder and vice-president of the Foresight Nanotech Institute, has said “If you’re looking ahead long-term, and what you see looks like science fiction, it might be wrong. But if it doesn’t look like science fiction, it’s definitely wrong.” None of Global Trends 2025 predictions look like science fiction, though perhaps 15 years from now is not long-term (on the other hand, 15 years is not short-term either).

The authors of Global Trends 2025 are wise in the same way that Socrates was wise: They admit to possibly not knowing enough about technology: “Many stress the role of technology in bringing about radical change and there is no question it has been a major driver. We—as others—have oftentimes underestimated its impact. (p. 5).”

Predicting the development and total impact of technology more than a few years into the future is exceedingly difficult. For example, of all the science fiction writers who correctly predicted a landing on the Moon, only one obscure writer predicted that it would be televised world-wide. Nobody would have believed, much less predicted, that we wouldn’t return for more than 40 years (and counting).

Other than orbital mechanics and demographics, there has been nothing more certain in the past two centuries than technological progress.[2] So it is perplexing that the report claims (correctly) that “[t]he pace of technology will be key [in providing solutions to energy, food, and water constraints],” (p. iv) but it then does not adequately examine the solutions pouring out of labs all over the world. To the authors’ credit, they foresaw that nanofibers and nanoparticles will increase the supply of clean water. In addition, they foresaw that nuclear bombs and bioweapons will become easier to manufacture. However, the static nanostructures they briefly discuss are only the first of four phases of nanotechnology maturation—they will be followed by active nanodevices, then nanomachines, and finally productive nanosystems. Ignoring this maturation of nanotechnology will lead to significant under-estimates of future capabilities.

If the pace of technological development is key, then on what factors does it depend?

The value of history is that it helps us predict the future. We should therefore consider the following questions while looking backwards as far as we wish to look forward:

Where were thumb drives 15 years ago? My twenty dollar 8GB thumb drive would have cost $20,000 and certainly wouldn’t have fit on my keychain. How powerful will my cell phone be 15 years from now? What are the secondary impacts of throwaway supercomputers?
In 1995 the Internet had six million hosts. There are now over 567 million hosts and 1.4 billion users. At this linear rate, in 15 years there will be a trillion users, most of them automated machines, and many of them mobile.
In 1995 there were over 10 million cell phone users in the USA; now there are around 250 million. Globally, the explosion was significantly larger, with over 2.4 billion current cell phone users. What will the effect be of a continuation of smart, mobile interconnectedness?
The World Wide Web was born in 1993 with the release of the Mosaic browser. Where was Google in 1995? Three years in the future. What else can we have besides the world’s information at our fingertips?
The problem with using recent history to guide predictions about the future is that the pace of technological development is not linear but exponential—and exponential growth is often surprising: recall the pedagogical examples of the doubling grains of rice (from India[3] and China[4]) or lily pads on the pond (from France[5]). In exponential growth, the early portion of the curve is fairly flat, while the latter portion is very steep.

Therefore, to predict technological development accurately, we should probably look back more than 15 years; perhaps we should be looking back 150 years. Exactly how far we should look back farther is difficult to determine—some metrics have not changed at all despite technological advances. For example, the speed limit is still 65 MPH, and there are no flying cars commercially available. On the other hand, cross-country airline flights are still the same price they were thirty years ago, despite inflation. Moore’s Law of electronics has had a doubling time of about 18 months, but some technologies have grown much slower. Others, such as molecular biology, have progressed significantly faster.

More important would be qualitative changes that are difficult to quantify. For example, the audio communication of telephones has a measurable bit rate greater than that of the telegraph system, but the increased level of understanding communicated by the emotion in people’s voices is much greater than can be quantified by bit rate. Similarly, search engines have qualitatively increased the value of the Internet’s TC/IP data communication capabilities. Some innovators have pushed Web 2.0 in different directions, but it’s not clear what the qualitative benefits might be, other than better-defined relationships between pieces of data. What happens with Web 3.0? Cloud computing? How many generations of innovation will it take to get to wisdom, or distributed sentience? It may be interesting to speculate about these matters, but since it often involves new science (or even new metaphysics), it is not possible to predict events with any accuracy.

Inventor and author Ray Kurzweil has made a living out of correctly timing his inventions. Among other things, he correctly predicted the growth of the Internet when it was still in its infancy. His method is simple: he plots data on a logarithmic graph, and if he gets a straight line, then he has discovered something that grows exponentially. His critics claim that his data is cherry-picked, but there are too many examples in a wide variety of technologies. The important point is why Kurzweil’s “law of accelerated returns” works, and what its limitations are: it applies to technologies for which information is an essential component. This phenomenon, made possible because information does not follow many of the rules of physics (i.e. lack of mass, negligible energy and copying costs, etc.) partially explains Moore’s Law in electronics, and also the exponential progress in molecular biology that began to occur once we understood enough of its informational basis.

Technology Breakthroughs
The “Technology Breakthroughs by 2025″ foldout matrix in the NIC report (pp. 47–49) is a great start on addressing the impact of technology, but barely a start. It is woefully conservative–some of the items listed in the report have already been proven in labs. For example, “Energy Storage” (in terms of batteries) has already been improved by ten-fold[6] (Caveat: the authors correctly point out that there is a delay between invention and wide adoption; usually about a decade for non-information based product—but 2019 is still considerably before 2025.) Hardly any other nanotech-enhanced products were examined, and they should have been.[7]

The ten specific technologies represented, and their drivers, barriers, and impact were well considered, but there were no clear criteria for picking these ten technologies. The report should have made clear that the most important technologies are those that can destroy or reboot the world’s economy or ecosystem. Almost as important are technologies that have profound effects on government, education, transportation, and family life. Past examples of such technologies include the nuclear bomb, the automobile, the telephone, the birth control pill, the personal computer, the internet, and search engines.

Though there were no clear criteria for choosing critical technology; however the report correctly included the world-changing technologies of ubiquitous computing, clean water, energy storage, biogerontechnology (life extension/age amelioration), and service robotics.

The inclusion of clean coal and biofuels is understandable given a linear projection of current trends. However, trends are not always linear—especially in information-dependent fields. Coal-based energy generation is dependent on the well-understood Carnot cycle, and is currently close to the theoretical maximum. Therefore, new knowledge about coal or the Carnot cycle will not help us in any significant way—especially since no new coal is being made. In contrast, photovoltaic solar power is currently expensive, inefficient, and underused. This is partially because of our lack of detailed understanding of the physics of photon capture and electron transfer, and partially because of our current inability to control the nanostructures that can perform those operations. As we develop more powerful scientific tools at the nanoscale, and as our nanomanufacturing capabilities grows, the price of solar power will drop significantly. This is why global solar power has resulted in exponential growth (with a two-year doubling time) for the past decade or so. This also means that in the next five years, we will likely reach a point at which it will be obvious that no other energy source can match photovoltaic solar power.

It is puzzling why exoskeleton human strength augmentation made the report’s list. First, we already commercialized compact fork-lifts and powered wheelchairs, so further improvements (in the form of exoskeletons) will necessarily be incremental and therefore will have little impact. Second, an exoskeleton is simply a sophisticated fork-lift/wheelchair and not true human strength augmentation, so it will not elicit the revulsion that might be generated by injecting extra IGF-1 genes or implanting electro-bionic actuators.

While being smarter is certainly a desirable condition, many forms of human cognitive augmentation elicit fear and loathing in many people (as the report recognizes). In terms of potential game-changing potential, it certainly deserves to be included as a disruptive technology. But this is a prediction of new science, not new engineering, and as such, should be labeled as “barely plausible.” If human cognitive augmentation is included, so should other, very high impact but very highly unlikely scenarios such as “gray goo” (i.e. out-of-control self-replicating nanobots), alien invasion, and human-directed meteor strikes.

What should have made the list are many forms of productive nanosystems, especially DNA Origami,[8] Bis-proteins,[9] Patterned Atomic Layer Epitaxy,[10] and Diamondoid Mechanosynthesis.[11],[12],[13]. Other technologies that should have been on the list include replicating 3D printers (such as Rep-Rap[14]), the weather machine,[15] Solar Power Satellites (which DoD is currently investigating[16]), Utility Fog,[17] and the Space Pier.[18]

Technologically Sophisticated Terrorism
The report correctly notes that the diffusion of technologies and scientific knowledge will increase the chance that terrorist or other malevolent groups might acquire and employ biological agents or nuclear devices (p. ix). But this danger is seriously underestimated, given the exponential growth of technology. Also underestimated is the future ability to clean up hazardous wastes of all types (including actinides, most notably uranium and plutonium) using nanomembranes and highly selective adsorbents. This is significant, especially in the case of Self-Assembled Monolayers on Mesoporous Supports (SAMMS) developed at Pacific Northwest National Labs,[19] because anything that can remove parts per billion concentrations of plutonium and uranium from water can also concentrate it. As the price drops for this filtration technology, and for nuclear enrichment tools,[20],[21] eventually small groups and even individuals will be able to collect enough fissile material for nuclear weapons.

The partial good news is that while these concentrating technologies are being developed, medical technology will also be progressing, making severe radiation exposure significantly more survivable. Unfortunately, the end result is an increasing likelihood that nuclear weapons will be used as “ordinary” tactical weapons.

The Distribution of Technology
While it is true that in the energy sector it has taken “an average of 25 years for a new production technology to become widespread,” (p. viii) there are a few things to keep in mind:

Informational technologies spread much faster than non-informational technologies. The explosion of the internet, web browsers, and the companies that depend on them have occurred in just a few years, if not months. Even now, for example, updates for the Firefox Mozilla browser are spread worldwide in days. This increase in distribution will occur because productive nanosystems will make atoms as easy to manipulate as bits.

Reducing monopolies and their attended inefficiencies is necessary. Even sufficiently powerful technologies have trouble emerging in the face of monopolies. The report mentions “selling energy back to the grid,” but understates the value that such a distributed energy network would have on increasing our nation’s security. The best part about building such a robust energy system is that it does not require large amounts of government investment — only the placement of an innovation-friendly policy that mandates that utilities buy energy at fair rates.

Mandating Gasoline/Ethanol/Methanol-flexibility (GEM) and/or electric hybrid flexibility in automobiles could break the oil cartel.[22] This simple governmental mandate would have huge political implications with little cost impact on consumers (a GEM requirement would only raise the cost of cars by $100-$300).

Miscellaneous Technology Observations
The 2025 report states that “Unprecedented economic growth, coupled with 1.5 billion more people, will put pressure on resources—particularly energy, food, and water—raising the specter of scarcities emerging as demand outstrips supply (p. iv).”

This claim is not necessarily true. The carrying capacity of an arbitrary volume of biome is dependent on technology—increased wealth can pay for advanced technologies. However, war, injustice, and ignorance drastically raise the effort required to avoid scarcities.

The report listed climate change as a possible key factor (p. v) and stated that “Climate change is expected to exacerbate resource scarcities” (p. viii). But even the most pessimistic predictions don’t expect much to happen by 2025. And there is evidence that by 2025, we will almost certainly have the power to stop it with trivial effort.[23], [24]

The Foresight Nanotech Institute and Lux Research have also identified clean water as being one of the areas in which technology will have a major impact. There are a number of different nanomembranes that are very promising, and the Global Trends 2025 recognizes them as being probable successes.

The Global Trends 2025 report identified Ubiquitous Computing, RFID (Radio Frequency Identification), and the “Internet of Things” as improving efficiency in supply chains, but more importantly, as possibly integrating closed societies into the global community (p. 47). SCADA (Supervisory Control And Data Acquisition) which is used to run everything from water treatment plants to nuclear power plants, is a harbinger of the “Internet of Things”, but the news is not always good. An “Internet of Things” will simply give more opportunities for hackers and terrorists to do harm. (SCADA manuals have been found in Al-Qaeda safe houses.)

Wealth depends on Technology
The 2025 report predicts that “the unprecedented transfer of wealth roughly from West to East now under way will continue for the foreseeable future… First, increases in oil and commodity prices have generated windfall profits for the Gulf states and Russia. Second, lower costs combined with government policies have shifted the locus of manufacturing and some service industries to Asia.”(p. vi)

But why would that transfer continue? If the current exponential growth of solar power continues, then within five years it will be obvious that oil is dead. Some of the more astute Arab leaders understand this; one Saudi prince said, “The Stone Age didn’t end because we ran out of stones, and the oil age won’t end because we run out of oil.”

China and India have gained a lion’s share of the world’s manufacturing, but is there any reason to believe that this will continue? Actually, there is one reason it might: most of the graduate students at most American Universities are foreign-born, and manufacturing underlies a vital part of the real wealth of a society; this in turn depends on its access to science and engineering. On the other hand, many of those foreign graduate students remain in the United States to become U.S. citizens. Even those who return to their home countries maintain personal relationship with American citizens, and generally spread positive stories about their experiences in the U.S., leading to more graduate students coming to the United States to settle.

The prediction that the United States will become a less dominant power is a sobering one for Americans. However, of the reasons listed in the report (advances by other countries in Science and Technology (S&T), expanded adoption of irregular warfare tactics, proliferation of long-range precision weapons, and growing use of cyber warfare attacks) the only significant item is S&T (Science and Technology). This is not only because S&T is the foundation for the other reasons listed, but also because it can often provide a basis for defending against new threats.

S&T is not only the foundation of military might, more importantly it is a foundation of economic might. However our economy rests not only on S&T, but also on economic policy. And unfortunately, everyone’s crystal ball is cloudy in this area. Historically , our regulated capitalism seems to be the basis for much of our wealth, and has been partially responsible for funding S&T. This is important because while human intelligence and ingenuity are scattered relatively evenly among the human race,[25] successful inventions are not. This is because it generally requires money to turn money into knowledge—that is research. After the research is done, the process of innovation—turning knowledge into money—begins, and is very dependent on the surrounding economic and political environment. At any rate, the relationship between the technology and economics is not clear, and certainly needs closer examination.

Wealth depends on Technology depends on Theology
The 2025 report contained some unspecified assumptions regarding economics, without defining what real wealth is, and on what it depends. At first glance, wealth is stored human labor—this was Marx’s assumption, and is slightly correct. However, one skilled person can do significantly more with good tools, hence the conclusion that tools are the lever of riches (hence Mokyr’s book of the same name[26]).

But tools are not enough. As Zhao (Peter) Xiao, a former Communist Party member and adviser to the Chinese Central Committee, put it:

“From the ancient time till now everybody wants to make more money. But from history we see only Christians have a continuous nonstop creative spirit and the spirit for innovation… The strong U.S. economy is just on the surface. The backbone is the moral foundation.” [27]

He goes on to explain that we are all made in the image and likeness of God, and are therefore His children, this means that:

The Rule of Law is not just something to cleverly avoid, but the means to happiness.
There is a constraint on unbridled and unjust capitalism.
People become rich by working hard to create real wealth, not by gaming the system—which creates waste and inefficiency. [28]

Xiao does not believe in “prosperity gospel” (i.e. send a televangelist $20 and God will make you rich). He understands that a economic system works more efficiently without false signals and other corruption—i.e. a nation will only have a prosperous economy if it has enough moral, law-abiding citizens. In addition, he may be hinting that the idea of Imago Dei (“Image of God”) explains how human intelligence drives Moore’s Law in the first place—if God is infinite, then it makes sense that His images will be able to endlessly do more with less.

Islam
The 2025 report mentions Islam fairly often but does not analyze it in depth. Oddly enough, the United States has been at war with Islamic nations longer than any other; starting with the Barbary pirates. So it behooves us to understand Islam to see if there are any fundamental issues that might be the root cause of some of these wars. Many Americans have denigrated Islam as a barbaric 6th century relic, not realizing the Judeao-Christian roots of this nation go back even farther (and are just as barbaric at times). Peter Kreeft has done an excellent job of examining the strengths of Islam, exhorting readers to learn from the followers of Mohammed.[29] But the purpose of this white paper is to investigate how Islamic beliefs hurt Muslims—and us.

There is no question that most Islamic nations have serious economic problems. Islamabad columnist Farrukh Saleem writes:

Muslims are 22 percent of the world population and produce less than five percent of global GDP. Even more worrying is that the Muslim countries’ GDP as a percent of the global GDP is going down over time. The Arabs, it seems, are particularly worse off. According to the United Nations’ Arab Development Report: ‘Half of Arab women cannot read; One in five Arabs live on less than $2 per day; Only 1 percent of the Arab population has a personal computer, and only half of 1 percent use the Internet; Fifteen percent of the Arab workforce is unemployed, and this number could double by 2010; The average growth rate of the per capita income during the preceding 20 years in the Arab world was only one-half of 1 percent per annum, worse than anywhere but sub-Saharan Africa.‘[30]

There are two possible reasons for the high rate of poverty in the Muslim world:

Diagnosis 1: Muslims are poor, illiterate, and weak because they have “abandoned the divine heritage of Islam”. Prescription: They must return to their real or imagined past, as defined by the Qur’an.

Diagnosis 2: Muslims are poor, illiterate, and weak because they have refused to change with time. Prescription: They must modernize technologically, governmentally, and culturally (i.e. start ignoring the Qur’an).[31]

Different Muslims will make different diagnosis, resulting in a continuation of the simultaneous rise of both secularized and fundamentalist Islam. This is the unexplained reason behind the 2025 report’s prediction that “the radical Salafi trend of Islam is likely to gain traction (p. ix).” While it is true that economics is an important causal factor, we must remember that economics are filtered through human psychology, which is filtered through human assumptions about reality (i.e. metaphysics and religion). The important question about Islam and nanotechnology is this: How will exponential increases in technology affect the answers of individual Muslims to the question raised above? One relatively easy prediction is that it will drive Muslims even more forcefully into both secularism and fundamentalism—with fewer adherents between them.

We must also address the underlying question: What is it about Islam beliefs that causes poverty? Global Trends 2025 points out that there is a significant correlation between the poverty of a nation and female literacy rates (p. 16). But the connection goes deeper than that.

A few hundred years ago, the Islam world was significantly ahead of Europe–technologically and culturally—but then Islamic leaders declared as heretics their greatest philosophers, especially Averroes (Ibn Rushd) who tried to reconcile faith and reason. Christianity struggled with the same tension between faith and reason, but ended up declaring as saints their greatest philosophers, most notably Thomas Aquinas. In addition, Christianity declared heretical those who derided reason, such as Tertulian, who mocked philosophy by asking “What does Athens have to do with Jerusalem”. Reason is vital to science and technology. But the divorce between faith and reason in Islam is not a historical accident; just as it is not an accident in Christianity that the two are joined—these results are due to their respective theologies.

In Islam, the relationship between Allah and humans is a master/slave relationship, and this is reflected in everything–most painfully in the Islam concept of marriage and how women are treated as a result (hence the link between poverty and female literacy). This belief is rooted in more fundamental dogma regarding the absolute transcendence of Allah, which is also manifested in the Islamic attitude towards science. The practical result, as pointed out earlier, is economic poverty (documented in Mokyr’s The Lever to Riches, and recognized in the 2025 report (p. 13) where it points out that science and technology is related to economic growth). Pope Benedict pointed out that If Allah is completely transcendent, then there is no rational order in His creation[32]—therefore there would be little incentive trying to discover it. This is the same reason that paganism did not develop science and technology. Aristotle started science by counterbalancing Plato’s rationalism with empiricism, but they (and Socrates) had to jettison most of their pagan beliefs in order to lay these foundations of science. And it still required many centuries to get to Bacon and the scientific method.

The trouble with most Americans is that we have no sense of history. Islam has been at war (mostly with Judaism and Christianity) for millennia (the pagans in their path didn’t last long enough to make any difference). There is little indication that anything will change by 2025. Israel and its Arab neighbors have hated each other ever since Isaac and Ishmael, almost 4000 years ago (if the Qur’an is to be believed in Sura 19:54). The probability that the enmity between these ancient enemies will cool in the next 15 years is infinitesimally small. To make matters worse, extracts of statements by Osama Bin Laden indicate that the 9/11 attack occurred because:

America is the great Satan. Actually, many Christian Evangelicals and traditional Catholics and Jews sympathize with Bin Laden’s accusation in this case (while deploring his methods), noting our cultural promotion of pornography, abortion, and homosexuality.
American bases are stationed in Saudi Arabia (the home of Mecca), which many Muslims see as a blasphemy. It is difficult for Americans to understand why this is so bad—we even protect the right to burn and desecrate our own flag.
Our support for Israel. Since Israel is one of the few democracies in the Mideast, and since it’s culture doesn’t raise suicide bombers, it seems quite reasonable that we should support it—it’s the right thing to do. As an appeal to self-interest, we can always remember that over the past 105 years, 1.4 billion Muslims have produced only eight Nobel Laureates while a mere 14 million Jews have produced 167 Nobel Laureates.

Given the history of Islam’s relationship with all other belief systems, the outlook looks gloomy. If the past 1400 years are any guide, Islam will continue to be at war with Paganism, Atheism, Hinduism, Judaism, and Christianity—both in hot wars of conquest and in psychological battles for the hearts and minds of the world.[33]

Muslim Demographics
The 2025 report made a wise decision in covering demographic issues, since they are predictable. But it did not investigate the causal sources (personal and cultural beliefs) of crucial demographic trends. The report writes that “the radical Salafi trend of Islam is likely to gain traction” in “those countries that are likely to struggle with youth bulges and weak economic underpinnings. (Page ix)”

This is certainly an accurate prediction. But what human beliefs lead to behavior that leads to youth bulges and weak economies? The answer is quite complex, partially because the Quran is not crystal clear on this issue. But generally “Muslim religiosity and support for Shari’a Law are associated with higher fertility” and that better education, higher wealth, and urbanization do not reduce Muslim fertility (as it does with other religions). The result is that while religious fundamentalism in Islam does not boost fertility as much as it does for Jewish traditionalists in Israel, it is still true that “fertility dynamics could power increased religiosity and Islamism in the Muslim world in the twenty-first century.“[34]

Other Practical Aspects of Islam Theology
One of the reasons the Western world is at odds with Islam is because of different views on freedom and virtue. Americans generally value freedom over virtue. In Islam, however, virtue is far more important than freedom, despite the fact that virtue requires an act of free will. In other words, Muslims don’t seem to realize that if good behavior is forced, then it is not really virtuous. Meanwhile, here in the USA we seem to have forgotten that vices enslave us—as demonstrated by addictions to drugs, gambling, and sex; we have forgotten that true freedom requires us to be virtuous—that we must bridle our passions in order to be truly free.

A disturbing facet of Islam is that it requires the death of an apostate. Theologically, this is because Allah is master, not father or spouse (as most often portrayed in the Bible), and submission to Allah is mandatory in Islam. While it is true that Christianity authorized the secular authorities to burn a few thousand heretics over two thousand years, these were in extreme situations of maximum irrationality that were fixed fairly quickly hundreds of years ago (often a single thoughtful bishop or priest stopped an outbreak). In contrast, fatwahs demanding the death penalty for apostates and heretics are still common in Islamic countries.[35]

Theology, Technological Progress, and Cultural Success
Religions do not make people stupid or cowardly. President Bush may have called the 9/11 Islamic terrorists cowardly, but they were not. They went to their deaths as bravely as any American soldier. Nor were they stupid—otherwise they never would have been able to pull off the most devastating terrorist attack on the U.S. in our relatively short history, cleverly devising a way to use our open society and our technology to maximal effect. But as individuals they were deluded, and their culture could not design or build jumbo jets; hence they used ours. This means that Islamic terrorists will be glad to use nanotechnological weapons as eagerly as nuclear ones—once they get their hands on them. The problem, of course, is that nano-enhanced weapons will be much easier to develop than nuclear ones.

Conclusion
Ever since the time of the Pilgrims, Americans have considered themselves citizens of a “bright, shining city on the hill” and much of the world agreed, with immigrants pouring in for three centuries to build the most powerful nation in history. Our representative democracy and loosely-regulated capitalism, regulated by individual consciences based on a Judeo-Christian foundation of rights and responsibilities, has been copied all over the world (at least superficially). But will this shining city endure?

It is the task of the U.S. National Intelligence Council to make sure that it does, and their effort to understand the future is an important step in that direction. Hopefully they will examine more closely the impact that technology, especially productive nanosystems, will have on political structures. In addition, they need to understand the theological underpinnings of Islam, and how it will affect the technological capabilities of Muslim nations.

Addendum
For a better government-sponsored report on how technology will affect us, see Toffler Associates’ Technology and Innovation 2025 at http://www.toffler.com/images/Toffler_TechAndInnRep1-09.pdf.

——————————————————————————–

[1] National Intelligence Council, Global Trends 2025: A Transformed World http://www.dni.gov/nic/PDF_2025/2025_Global_Trends_Final_Report.pdf and www.dni.gov/nic/NIC_2025_project.html

[2] Earlier exceptions are rare, though technology has been lost occasionally—most notably 5th century Europe after the fall of the Roman Empire, and 15th century China after the last voyage of Admiral Zeng He’s Treasure Fleet of the Dragon Throne.

[3] Singularity Symposium, Exponential Growth and the Legend of Paal Paysam. http://www.singularitysymposium.com/exponential-growth.html

[4] Ray Kurzweil, The Law of Accelerating Returns. March 7, 2001. http://www.kurzweilai.net/articles/art0134.html?printable=1

[5] Matthew R. Simmons, Revisiting The Limits to Growth: Could The Club of Rome Have Been Correct, After All? (Part One). Sep 30 2000. http://www.energybulletin.net/node/1512 Note that technological optimists always quote the chess example, while environmental doomsayers always quote the lily pad example.

[6] High-performance lithium battery anodes using silicon nanowires, Candace K. Chan, Hailin Peng, Gao Liu, Kevin McIlwrath, Xiao Feng Zhang, Robert A. Huggins & Yi Cui, Nature Nanotechnology 3, 31 — 35 (2008). http://www.nature.com/nnano/journal/v3/n1/abs/nnano.2007.411.html

[7] See Nanotechnology’s biggest stories of 2008 http://www.newscientist.com/article/dn16340-nanotechnologys-biggest-stories-of-2008.html and Top Ten Nanotechnology Patents of 2008 http://tinytechip.blogspot.com/2008/12/top-ten-nanotechnology-patents-of-2008.html

[8] Paul Rothemund. Folding DNA to create nanoscale shapes and patterns, Nature, V440N16. March 2006.

[9] Christian E. Schafmeister. The Building Blocks of Molecular Nanotechnology. Conference on Productive Nanosystems: Launching the Technology Roadmap. Arlington, VA. Oct. 9–10, 2007.

[10] John N. Randall. A Path to Atomically Precise Manufacturing. Conference on Productive Nanosystems: Launching the Technology Roadmap. Arlington, VA. Oct. 9–10, 2007.

[11] Ralph Merkle and Robert Freitas Jr., “Theoretical analysis of a carbon-carbon dimer placement tool for diamond mechanosynthesis,” Journal of Nanoscience and Nanotechnology. 3(August 2003):319-324; http://www.rfreitas.com/Nano/JNNDimerTool.pdf

[12] Robert A. Freitas Jr. and Ralph C. Merkle, A Minimal Toolset for Positional Diamond Mechanosynthesis, Journal of Computational and Theoretical Nanoscience. Vol.5, 760–861, 2008

[13] Jingping Peng, Robert. Freitas, Jr., Ralph Merkle, James Von Ehr, John Randall, and George D. Skidmore. Theoretical Analysis of Diamond Mechanosynthesis. Part III. Positional C2 Deposition on Diamond C(110) Surface Using Si/Ge/Sn-Based Dimer Placement Tools. Journal of Computational and Theoretical Nanoscience. Vol.3, 28-41, 2006. http://www.molecularassembler.com/Papers/JCTNPengFeb06.pdf

[14] Adrian Bowyer, et al. RepRap-Wealth without money. http://reprap.org/bin/view/Main/WebHome

[15] John Storrs Hall, The Weather Machine. December 23, 2008, http://www.foresight.org/nanodot/?p=2922

[16] National Security Space Office. Space-Based Solar Power As an Opportunity for Strategic Security: Phase 0 Architecture Feasibility Study. http://www.scribd.com/doc/8736624/SpaceBased-Solar-Power-Interim-Assesment-01

[17] John Storrs Hall, Utility Fog: The Stuff that Dreams are Made Of. http://autogeny.org/Ufog.html

[18] John Storrs Hall, The Space Pier: A hybrid Space-launch Tower concept. http://autogeny.org/tower/tower.html

[19] Pacific Northwest National Laboratory, SAMMS: Self-Assembled Monolayers on Mesoporous Supports. http://samms.pnl.gov/

[20] OECD Nuclear Energy Agency. Trends in the nuclear fuel cycle: economic, environmental and social aspects, Organization for Economic Co-operation and Development 2001

[21] Mark Clayton. Will lasers brighten nuclear’s future? The Christian Science Monitor/ August 27, 2008. http://features.csmonitor.com/innovation/2008/08/27/will-lasers-brighten-nuclears-future/

[22] Paul Werbos, What should we be doing today to enhance world energy security, in order to reach a sustainable global energy system? http://www.werbos.com/energy.htm See also Robert Zubrin, Energy Victory: Winning the War on Terror by Breaking Free of Oil. Prometheus Books. November 2007.

[23] John Storrs Hall, The weather machine. December 23, 2008, http://www.foresight.org/nanodot/?p=2922

[24] Tihamer Toth-Fejel, A Few Lesser Implications of Nanofactories: Global Warming is the Least of our Problems, Nanotechnology Perceptions, March 2009.

[25] Exceptions would be small groups who were subject to selective pressure to increase intelligence, such as the Ashkenazi Jews.

[26] Joel Mokyr , The Lever of Riches: Technological Creativity and Economic Progress. Oxford University Press, USA (April 9, 1992). http://www.amazon.com/Lever-Riches-Technological-Creativity-Economic/dp/0195074777

[27] Zhao (Peter) Xiao, Market Economies With Churches and Market Economies Without Churches http://www.danwei.org/business/churches_and_the_market_econom.php

[28] ibid.

[29] Peter Kreeft, Ecumenical Jihad: Ecumenism and the Culture War, Ignatius Press (March 1996). More specifically, Kreeft points out that Muslims have lower rates of abortion, adultery, fornication, and sodomy; and higher rates of prayer and devotion to God. Kreeft then repeats the Biblical admonition that God blesses those who obey His commandments. For atheists and agnostics, it might be more palatable to think of it as evolution in action: If a group encourages behavior that reduces the number of capable offspring, then it is doomed.

[30] Farrukh Saleem, Muslims amongst world’s poorest weakest, illiterate: What Went Wrong. November 08, 2005 http://islamicterrorism.wordpress.com/2008/07/01/muslims-amongst-worlds-poorest-weakest-illiterate-what-went-wrong/

[31] ibid.

[32] Pope Benedict XVI. Faith, Reason and the University: Memories and Reflections. University of Regensburg, September 2006. http://www.vatican.va/holy_father/benedict_xvi/speeches/2006/september/documents/hf_ben-xvi_spe_20060912_university-regensburg_en.html

[33] Note that this report is not a critique of Muslim people—only their beliefs (though it may not feel that way to them).

[34] Kaufmann, E. P. , “Islamism, Religiosity and Fertility in the Muslim World,” Annual meeting of the ISA’s 50th Annual Convention: Exploring the Past, Anticipating the Future. New York, NY. Feb 13-15, 2009. http://www.allacademic.com/meta/p312181_index.html

[35] On the other hand (to put things in perspective), compared to the atheists Stalin, Mao, and Pol Pot, even the most deadly Muslims extremists are rank amateurs at mass murder. Perhaps that is why Communism has barely lasted two generations, while Islam has lasted fourteen centuries. You just can’t go around killing people.

Tihamer Toth-Fejel, MS
General Dynamics Advanced Information Systems
Michigan Research and Development Center

50 years ago Herman Khan coined the term in his book “On thermonuclear war”. His ideas are still important. Now we can read what he really said online. His main ideas are that DM is feasable, that it will cost around 10–100 billion USD, it will be much cheaper in the future and there are good rational reasons to built it as ultimate mean of defence, but better not to built it, because it will lead to DM-race between states with more and more dangerous and effective DM as outcome. And this race will not be stable, but provoking one side to strike first. This book and especially this chapter inspired “Dr. Strangelove” movie of Kubrick.
Herman Khan. On Doomsday machine.

Jim Davies of Strike the Root writes about Galt’s Gulch and some gulch-like projects. These appeal to him because of the exponential trends in government power and abuse of power. He writes, in part,

“We have the serious opportunity in our hands right now of terminating the era of government absolutely, and so of removing from the human race the threat of ever more brutal tyranny ending only with WMD annihilation–while opening up vistas of peaceful prosperity and technological progress which even a realist like myself cannot find words to describe. ”

http://www.strike-the-root.com/91/davies/davies11.html

Avoiding those terrible events is what building our Lifeboat is all about. Got Lifeboat?

May 2: Many U.S. emergency rooms and hospitals crammed with people… ”Walking well” flood hospitals… Clinics double their traffic in major cities … ER rooms turn away EMT cases. — CNN

Update May 4: Confirmed cases of H1N1 virus now at 985 in 20 countries (Mexico: 590, 25 deaths) — WHO. In U.S.: 245 confirmed U.S. cases in 35 states. — CDC.

“We might be entering an Age of Pandemics… a broad array of dangerous emerging 21st-century diseases, man-made or natural, brand-new or old, newly resistant to our current vaccines and antiviral drugs…. Martin Rees bet $1,000 that bioterror or bioerror would unleash a catastrophic event claiming one million lives in the next two decades…. Why? Less forest, more contact with animals… more meat eating (Africans last year consumed nearly 700 million wild animals… numbers of chickens raised for food in China have increased 1,000-fold over the past few decades)… farmers cut down jungle, creating deforested areas that once served as barriers to the zoonotic viruses…” — Larry Brilliant, Wall Street Journal


Ugolog Creates Surveillance Website To Watch Anyone, Anywhere

Written on April 28, 2009 – 2:43 am | by keith kleiner |

big_brother

What if people all over the world randomly decided to setup motion detection webcams and then send feeds from these webcams to a single website that would centralize the video data for anyone to search, view, and manipulate? Hot off of the heels of our story yesterday about the implications of cameras recording everything in our lives comes a website called Ugolog that does exactly this. The concept is both spooky and captivating all at once. The privacy implications are just out of control, opening the door to all sorts of immoral and illegal invasions of people’s privacy. On the other hand, the power and usefulness of such a network is extremely compelling.

When you go to the Ugolog website you are immediately impressed with the simplicity of the site (I sure hope they keep it this way!). No advertisements, no stupid gimmicks, no complicated interface. The site offers a bare bones, yet elegant design that allows you to do one thing quickly and easily: setup a motion detecting webcam and send the feed to Ugolog. No software is required, only a web browser and a properly configured camera. Don’t know how to setup the camera? No problem! The site has tutorials that tell you everything you need to know. Once Ugolog has a feed from one or more of your cameras, the data will be available for you and anyone else in the world to view along with all of the other feeds on the site.

Photo From Ugolog "how to build a spy camera" manual

Photo From Ugolog “how to build a spy camera” manual

No big deal, many will say! Its just like Justin.tv — the website that already carries thousands of live video feeds from all over the world, boasting more than 80,000 simultaneous viewers earlier today. Yet if you think about this a bit more, you will see that there is indeed a difference between Ugolog and Justin.tv. The difference is their focus — the type of content that the two sites will offer.

Justin.tv offers all sorts of video feeds, including news, sports, random idiots doing stupid random things, and pretty much anything else you can imagine. This is a useful and powerful model, yet Justin.tv’s focus on serving up all kinds of video leaves it open to attack by more narrowly focused sites. Ugolog focuses only on surveillance video. By targeting this specific category of video the site just might be able to carve out a unique niche in the online video space that can really gain some traction. Justin.tv could of course create a category on its site called “surveillance”, but a category on Justin.tv devoted to the surveillance might have difficulty competing with Ugolog’s website, community, and employees devoted completely to surveillance.

Highlighting the specialization available on the site Ugolog founder Alexander Uslontsev says “Compared to sites like Justin.tv and Ustream.com, that work with webcam only, Ugolog works with webcams AND ‘professional’ security cameras that can upload pictures via FTP or HTTP. In this case Ugolog acts only as ‘dropbox’ for images and expects all motion detection and scheduling to be done in camera.”

Ugolog is in beta now and has only recently launched, but the site could easily take off like a rocket in a short amount of time. The idea is powerful. The site is easy, simple, and free. Add this all up and you have a solid recipe for explosive growth in users and content.

Success is not guaranteed, however. Explosive growth can be its own curse, being extremely difficult and expensive to keep up with. Video is especially resource hungry and may keep the folks over at Ugolog (and their wallets) quite overwhelmed.

Another potential stumbling block is the intense legal scrutiny that the site will certainly encounter. We can envision massive feeds of video that invade privacy and break the law showing up on the Ugolog website, creating a virtual feast for lawyers everywhere. One way around this legal mess is probably to allow comprehensive controls over who can see what. Indeed, this appears to be the case at the moment, as most (all?) feeds seem to be currently viewable only by the owner. Yet clearly in the future it will take only the click of a single checkbox to “open a feed” to the public.

Focusing on the positive side for a moment, there are several interesting applications that can come from a site like Ugolog. One such application would be the fulfillment of truly legitimate surveillance needs. Ugolog allows individuals to quickly setup a powerful surveillance system for their own homes. Taking this a step further, perhaps a neighborhood would setup its own surveillance network to increase safety and monitor for theft and other crimes. Consider also more academic applications, such as researchers setting up cameras to monitor glacier growth, animal species patterns, and so on.

Of course the negative and destructive potential of surveillance a la Ugolog is hard to deny. Yet whether we like it or not, ubiquitous video is here to stay. We are increasingly likely to fall under the surveillance of one or more cameras multiple times throughout the day. Ugolog may come and go, but the trend cannot be stopped. Fight the trend if you want, but I for one intend to embrace it!