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Oct 16, 2009

Productive Nanosystems and the 2009 Financial Meltdown

Posted by in categories: economics, nanotechnology

Introduction
At a fundamental level, real wealth is the ability to fulfill human needs and desires. These ephemeral motivators are responsible for the creation of money, bank ledgers, and financial instruments that drive the world—caveat the fact that the monetary system can’t buy us love (and a few other necessities). Technologies have always provided us with tools that enable us to fulfill more needs and desires for more people with less effort. The exponential nanomanufacturing capabilities of Productive Nanosystems will simply enable us to do it better. Much better.

Productive Nanosystems
The National Nanotechnology Initiative defines nanotechnology as technologies that control matter at dimensions between one and a hundred nanometers, where unique phenomena enable novel applications. For particles and structures, reducing dimensions to the nanoscale primarily affects surface area to volume ratios and surface energies. For active structures and devices, the significant design parameters become exciton distances, quantum effects, and photon interactions. Connecting many different nanodevices into complex systems will multiply their power, leading some experts to predict that a particular kind of nanosystem—Productive Nanosystems that produces atomically precise products—will dramatically change the world.

Productive Nanosystems are programmable mechanoelectrochemical systems that are expected to rearrange bulk quantities numbers of atoms with atomic precision under programmatical control. There are currently four approaches that are expected to lead to Productive Nanosystems: DNA Origami[1], Bis-Peptide Synthesis[2], Patterned Atomic Layer Epitaxy[3], and Diamondoid Mechanosynthesis[4]. The first two are biomimetic bottom-up approaches that struggle to achieve long-range order and to increase complexity despite using chaotic thermodynamic processes. The second two are scanning-probe-based top-down approaches that struggle to increase productivity to a few hundred atoms per hour while reducing error rate.[5]

For the bottom-up approaches, the tipping point will be reached when researchers build the first nanosystem complex enough to do error correction. For the top-down approaches that can do error correction fairly easily, the tipping point will be reached when subsequent generations of tip arrays no longer need to be redesigned for speed and size improvements while using control algorithms that scale well (i.e. they only need generational time, synthesized inputs, and expansion room). When these milestones are reached, nanosystems will grow exponentially—unnoticeably for a few weeks, but suddenly they will become overwhelmingly powerful. There are many significant applications foreseen for mature Productive Nanosystems, ranging from aerospace and transportation to medicine and manufacturing—but what may affect us the hardest may be those applications that we can’t foresee.

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Oct 8, 2009

Fermi Paradox and global catastrophes

Posted by in category: existential risks

The main ways of solving the Fermi Paradox are:
1) They are already here (at least in the form of their signals)
2) They do not disseminate in the universe, do not leave traces, and not send signals. That is, they do not start a shock wave of intelligence.
3) The civilizations are extremely rare.
Additional way of thinking is 4): we are unique civilization because of observation selection
All of them have a sad outlook for global risk:
In the first case, we are under threat of conflict with superior aliens.
1A) If they are already here, we can do something that will encourage them to destroy us, or restrict us. For example, turn off the simulation. Or start the program of probes-berserkers. This probes cold be nanobots. In fact it could be something like “Space gray goo” with low intelligence but very wide spreading. It could even be in my room. The only goal of it could be to destroy other nanobots (like our Nanoshield would do). And so we will see it until we create our own nanobots.
1b) If they open up our star system right now and, moreover, focused on total colonization of all systems, we are also will fight with them and are likely to lose. Not probable.
1c) If a large portion of civilization is infected with SETI-virus and distributes signals, specially designed to infect naive civilizations — that is, encourage them to create a computer with AI, aimed at the further replication by SETI channels. This is what I write in the article Is SETI dangerous? http://www.proza.ru/texts/2008/04/12/55.html
1d) By the means of METI signal we attract attention of dangerous civilization and it will send to the solar system a beam of death (probably commonly known as gamma-ray burst). This scenario seems unlikely, since for the time until they receive the signal and have time to react, we have time to fly away from the solar system — if they are far away. And if they are close, it is not clear why they were not here. However, this risk was intensely discussed, for example by D. Brin.
2. They do not disseminate in space. This means that either:
2a) Civilizations are very likely to destroy themselves in very early stages, before it could start wave of robots replicators and we are not exception. This is reinforced by the Doomsday argument – namely the fact that I’m discovering myself in a young civilization suggests that they are much more common than the old. However, based on the expected rate of development of nanotechnology and artificial intelligence, we can start a wave of replicators have in 10–20 years, and even if we die then, this wave will continue to spread throughout the universe. Given the uneven development of civilizations, it is difficult to assume that none of them do not have time to launch a wave of replicators before their death. This is possible only if we a) do not see an inevitable and universal threat looming directly on us in the near future, b) significantly underestimate the difficulty of creating artificial intelligence and nanoreplicators. с) The energy of the inevitable destruction is so great that it manages to destroy all replicators, which were launched by civilization — that is it is of the order of a supernova explosion.
2b) Every civilization sharply limit itself — and this limitation is very hard and long as it is simple enough to run at least one probe-replicator. This restriction may be based either on a powerful totalitarianism, or the extreme depletion of resources. Again in this case, our prospects are quite unpleasant. Bur this solution is not very plausible.
3) If civilization are rare, it means that the universe is much less friendly place to live, and we are on an island of stability, which is likely to be an exception from the rule. This may mean that we underestimate the time of the future sustainability of the important processes for us (the solar luminosity, the earth’s crust), and most importantly, the sustainability of these processes to small influences, that is their fragility. I mean that we can inadvertently break their levels of resistance, carrying out geo-engineering activities, the complex physics experiments and mastering space. More I speak about this in the article: “Why antropic principle stopped to defend us. Observation selection and fragility of our environment”. http://www.scribd.com/doc/8729933/Why-antropic-principle-sto…vironment– See also the works of M.Circovic on the same subject.
However, this fragility is not inevitable and depends on what factors were critical in the Great filter. In addition, we are not necessarily would pressure on this fragile, even if it exist.
4) Observation selection makes us unique civilization.
4a. We are the first civilization, because any civilization which is the first captures the whole galaxy. Likewise, the earthly life is the first life on Earth, because it would require all swimming pools with a nutrient broth, in which could appear another life. In any case, sooner or later we will face another first civilization.
4b. Vast majority of civilizations are being destroyed in the process of colonization of the galaxy, and so we can find ourselves only in the civilization which is not destroyed by chance. Here the obvious risk is that those who made this error, would try to correct it.
4c. We wonder about the absence of contact, because we are not in contact. That is, we are in a unique position, which does not allow any conclusions about the nature of the universe. This clearly contradicts the Copernican principle.
The worst variant for us here is 2a — imminent self-destruction, which, however, has independent confirmation through the Doomsday Argument, but is undermine by the fact that we do not see alien von Neuman probes. I still believe that the most likely scenario is a Rare earth.

Oct 1, 2009

Post-human Earth: How the planet will recover from us

Posted by in categories: existential risks, futurism, human trajectories, policy, sustainability


Paul J. Crutzen

Although this is the scenario we all hope (and work hard) to avoid — the consequences should be of interest to all who are interested in mitigation of the risk of mass extinction:

“WHEN Nobel prize-winning atmospheric chemist Paul Crutzen coined the word Anthropocene around 10 years ago, he gave birth to a powerful idea: that human activity is now affecting the Earth so profoundly that we are entering a new geological epoch.

The Anthropocene has yet to be accepted as a geological time period, but if it is, it may turn out to be the shortest — and the last. It is not hard to imagine the epoch ending just a few hundred years after it started, in an orgy of global warming and overconsumption.

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Sep 25, 2009

Asteroid attack: Putting Earth’s defences to the test

Posted by in categories: asteroid/comet impacts, defense, existential risks

Peter Garretson from the Lifeboat Advisory Board appears in the latest edition of New Scientist:

“IT LOOKS inconsequential enough, the faint little spot moving leisurely across the sky. The mountain-top telescope that just detected it is taking it very seriously, though. It is an asteroid, one never seen before. Rapid-survey telescopes discover thousands of asteroids every year, but there’s something very particular about this one. The telescope’s software decides to wake several human astronomers with a text message they hoped they would never receive. The asteroid is on a collision course with Earth. It is the size of a skyscraper and it’s big enough to raze a city to the ground. Oh, and it will be here in three days.

Far-fetched it might seem, but this scenario is all too plausible. Certainly it is realistic enough that the US air force recently brought together scientists, military officers and emergency-response officials for the first time to assess the nation’s ability to cope, should it come to pass.

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Sep 1, 2009

Keeping genes out of terrorists’ hands

Posted by in categories: biological, biotech/medical, chemistry, counterterrorism, existential risks, policy

Nature News reports of a growing concern over different standards for DNA screening and biosecurity:

“A standards war is brewing in the gene-synthesis industry. At stake is the way that the industry screens orders for hazardous toxins and genes, such as pieces of deadly viruses and bacteria. Two competing groups of companies are now proposing different sets of screening standards, and the results could be crucial for global biosecurity.

“If you have a company that persists with a lower standard, you can drag the industry down to a lower level,” says lawyer Stephen Maurer of the University of California, Berkeley, who is studying how the industry is developing responsible practices. “Now we have a standards war that is a race to the bottom.”

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Aug 17, 2009

A lifeboat for consciousness

Posted by in category: neuroscience

I recently began to worry that something/someone, some field, force, disease, prion, virus, bad luck and/or natural causes could threaten and perhaps destroy the most valuable entity in the universe, an entity more valuable than life itself. Consciousness. What good is life extension without conscious awareness? What is consciousness?

We know the brain works a lot like a computer, with neuron firings and synapses acting like bit states and switches. Brain-as-computer works very well to account for sensory processing, control of behavior, learning and other cognitive functions. These functions may in some cases be non-conscious, and other times associated with conscious experience and control. Scientists seek the distinction – the essential feature, or trick for consciousness.

Some suggest there is no trick, consciousness emerges as a by-product of cognitive computation among neurons. Others say we don’t know, that consciousness may indeed require some feature related to, but not quite the same as neuron-to-neuron cognition.

In either case, humans and other creatures could in principle become devoid of consciousness while maintaining cognitive behaviors, appearing more-or-less normal to outside observers. Such hypothetical non-conscious behaving entities are referred to in literature, films and philosophical texts as ‘zombies’. Philosopher David Chalmers introduced the philosophical zombie, a test case for whether or not consciousness is distinct from cognitive neurocomputation.

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Jul 26, 2009

Herman Khan about Doomsday Machine

Posted by in categories: defense, geopolitics, military, nuclear weapons, policy

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.

Jul 26, 2009

Bioethics and the End of Discussion

Posted by in categories: biotech/medical, ethics

Abstract:

President Obama disbanded the President’s Council on Bioethics after it questioned his policy on embryonic stem cell research. White House press officer Reid Cherlin said that this was because the Council favored discussion over developing a shared consensus. This column lists a number of problems with Obama’s decision, and with his position on the most controversial bioethical issue of our time.

Bioethics and the End of Discussion

In early June, President Obama disbanded the President’s Council on Bioethics. According to White House press officer Reid Cherlin, this was because the Council was designed by the Bush administration to be “a philosophically leaning advisory group” that favored discussion over developing a shared consensus. http://www.nytimes.com/2009/06/18/us/politics/18ethics.html?_r=2

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Jul 23, 2009

Artificial brain ’10 years away’

Posted by in categories: engineering, human trajectories, information science, neuroscience, robotics/AI, supercomputing

Artificial brain ’10 years away’

By Jonathan Fildes
Technology reporter, BBC News, Oxford

A detailed, functional artificial human brain can be built within the next 10 years, a leading scientist has claimed.

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Jul 17, 2009

Ray Kurzweil and David Chalmers to Headline Singularity Summit 2009 in New York

Posted by in category: events

The Singularity Institute will be holding the fourth annual Singularity Summit in New York in October, featuring talks by Ray Kurzweil, David Chalmers, and Peter Thiel.

New York, NY (PRWEB) July 17, 2009 — The fourth annual Singularity Summit, a conference devoted to the better understanding of increasing intelligence and accelerating change, will be held in New York on October 3–4 in Kaufmann Hall at the historic 92nd St Y. The Summit brings together a visionary community to further dialogue and action on complex, long-term issues that are transforming the world.

Participants will hear talks from cutting-edge researchers and network with strategic business leaders. The world’s most eminent experts on forecasting, venture capital, emerging technologies, consciousness and life extension will present their unique perspectives on the future and how to get there. “The Singularity Summit is the premier conference on the Singularity,” says Ray Kurzweil, inventor of the CCD flatbed scanner and author of The Singularity is Near. “As we get closer to the Singularity, each year’s conference is better than the last.”

The Singularity Summit has previously been held in the San Francisco Bay Area, where it has been featured in numerous publications including the front page of the San Francisco Chronicle. It is hosted by the Singularity Institute, a 501©(3) nonprofit devoted to studying the benefits and risks of advanced technologies.

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